Patent Publication Number: US-2021169187-A1

Title: Method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system, multi-height-adjustable and spline-supporting stanchion system, carapace-sliding-and-tilting multi-orienting snap-locking handle system, and multi-orientation interchangeable-spline system

Description:
1. FIELD OF THE INVENTION 
     The present invention relates to a method of carapace manufacturing, which is cheap to produce, is easy to ship as one unit, requires no assembly, and can be quickly and easily be unfolded. Particularly, the present invention relates to a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system (having three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system, multi-height-adjustable and spline-supporting stanchion system, carapace-sliding-and-tilting multi-orienting snap-locking handle system, and multi-orientation interchangeable-spline system), which comprises:
         1) Three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system,   2) Multi-height-adjustable and spline-supporting stanchion system,   3) Carapace-sliding-and-tilting multi-orienting snap-locking handle system, and   4) Three-hundred-and-sixty-degree-orientational interchangeable-spline system.       

     2. DESCRIPTION OF THE PRIOR ART 
     A number of methods of manufacturing carapace have been introduced. 
     U.S. Pat. No. 2,039,987 issued 1936 May 5, to Harry Goldman, demonstrates an umbrella having a covering of chemicalized silk of extreme thinness and fineness, which is semi-transparent, smooth, tough, glossy and water-repellant. In the use of such material for umbrellas, it may be necessary to make provision for the reinforcement of the materal at the points where it is secured to the caps which are fitted to the ends of the umbrella ribs in order to prevent fraying or tearing of the material and to reinforce against wear by contact with the rib surfaces at these points. 
     U.S. Pat. No. 3,664,156 issued 1972 May 23, to Max W. Betts, and Frank Robinson, demonstrates a blank for manufacture of a knitted sleeve garment comprises front and rear upper body portions each constituted by a piece of flat fabric and having side edges joined, on the knitting machine, to shoulder regions of the sleeves, the said shoulder regions having extensions arranged to be joined to upper edges of the said front and rear upper body portions. A method of knitting such a blank is also described. 
     U.S. Pat. No. 3,779,185 issued 1973 Nov. 6, to Allan C. Reeves, demonstrates a unitary folded beverage container having a peak or gable top and a tear strip to provide a straw hole. The tear strip is formed by spaced apart score lines on an outer side of a top gable forming wall and the straw hole is formed by a closed score line formed on an inner side of the same wall, at a position beneath and between the outer spaced apart score lines. The score lines are cut to a substantial overlapping depth (viz., 40 to 75 percent of the wall thickness) from opposite sides of the gable forming wall. Upon pulling the tear strip, a layer of material between the spaced apart score lines separates from the gable wall together with the entire thickness of the wall contained within the inner closed score line. With regard to manufacture, the means to form the straw hole is easily incorporated into the container blank without necessitating any change in the overall manufacturing process. 
     U.S. Pat. No. 3,793,968 issued 1974 Feb. 26, to Aubrey G. Beazley, demonstrates a device for transferring, joining and sewing a pair of fabric workpieces, disclosed wherein one workpiece is held by suitable vacuum means and transferred into contact with the second workpiece whereupon the workpieces are clamped to a movable sewing table which advances the workpieces as a sewing machine forms a line of stitch joining the two workpieces together. 
     U.S. Pat. No. 4,155,317 issued 1979 May 22, to Fumitake Enomoto, demonstrates a method for sewing together fabric pieces which comprises the steps of sewing elastic cord-like core material such as polyethylene cord along the edge portions of two or more fabric pieces, automatically engaging the edge portions of the fabric pieces with each other by guiding the sewn core material, and sewing together the engaged edge portions to render an assembly of fabric pieces adapted for use as a cover; and a machine for sewing together fabric pieces which is provided with a core material-guiding mechanism for clamping core materials previously sewn to the edge portions of two or more fabric pieces being sewn together, thereby engaging the edge portions with each other. 
     U.S. Pat. No. 4,401,137 issued 1983 Aug. 30, to Frederick W. Cannon, demonstrates a forming fabric for papermaking machines being produced by weaving a conventional fabric with warp yarns extending from each of two ends. A selected number of extended warps are cut with each having an adjacent extending warp. Loops are formed with the extending warps and the ends of extending warps are rewoven through provided fills to a position near the cut warps and leaving ends of the warps projecting from the surface of the fabric. The loops are interlaced and a join pin inserted. The projecting ends are pulled to collapse the loops about the join pin. 
     U.S. Pat. No. 4,590,871 issued 1986 May 27, to John M. Granville, demonstrates an automatic main seam feeding and folding device which has an automatic feeding and folding die which folds two adjacent edges of fabric to form a fell seam and feeds the fabric seam to a sewing machine while maintaining the proper tension and edge alignment. The feeding and folding die folds the adjacent fabric edges from an initial zero degrees of fold to a final overlapping interlocking 180 degree fold to form a main seam and includes tractor dogs along the right and left sides of the die block to continuously feed the fabric material. The tractor dogs push the material along the outside of a straight solid die block with the fabric edges to be folded moving within a slot which encloses and contains the fabric spatially. The feeding and folding die is made sufficiently long to enable the two fabric edges to be gradually folded from a parallel planar flat position at the die mouth to a 180 degree, one inch interlocking four layer folded fell seam configuration at the die terminus or nose. 
     U.S. Pat. No. 4,846,085 issued 1989 Jul. 11, to Tatsuhiro Ishibashi, and Yutaka Masushige, and Shotaro Kai, demonstrates a method for automatically linking corresponding knitted loops of two knitted fabric pieces, and an apparatus for implementing the method, wherein each knitted loop to be pierced in two knitted fabric pieces is pierced by a piercing needle, respectively, and the knitted loop in one knitted fabric piece held by the piercing needle of one knitted loops selecting and piercing device is transferred to a corresponding piercing needle already holding a corresponding knitted loop of another knitted fabric piece, and the two corresponding knitted loops are sewn by a sewing needle. 
     U.S. Pat. No. 5,015,220 issued 1991 May 14, to Robert W. Legge, and Jr. William O. Hocking, demonstrates an endless work fabric having a loop seam construction and a method of manufacture thereof is disclosed, wherein the fabric is used as a papermaker felt, a papermaker dryer fabric, a forming wire, or filter fabric. An endless belt formed of a preselected material preferably having longitudinally extending yarns included therein is collapsed upon itself to form folded ends that are stripped to expose end loops. The loops as formed in the ends of the fabric are intermeshed to define a transversely extending channel through which a pintle member is extended for joining the two ends of the folded fabric to define the endless work fabric. 
     U.S. Pat. No. 5,020,559 issued 1991 May 4, to Chenmin Lai, demonstrates the construction of an umbrella cover is provided wherein the periphery of the umbrella cover cloth is arranged to provide straight meshes. The umbrella cover construction can accommodate umbrella ribs which are arranged in either equal or unequal intervals therebetween. The construction of the cover cloth is arranged with the radially extending umbrella ribs disposed on the bias of the cloth and coupled to peripheral portions thereof, having straight edges extending therefrom which are substantially either parallel or orthogonal to the warp or weft of the cloth. Thus, the umbrella cover can be formed of a single piece of material, upon which a decorative pattern can easily be printed thereon, while still allowing the umbrella cover to be stretched, when the umbrella is opened, to form a curved surface. 
     U.S. Pat. No. 5,218,981 issued 1993 May 15, to Chen M. Lai, demonstrates an umbrella provided devoid of an axis connecting line. The umbrella includes a primary blank member on which a pattern can be printed without consideration of the arrangement of the meshes and several triangular supplementary blank members attached about the periphery of the primary blank member. The meshes of the supplementary blank members are arranged to be perpendicular to or parallel to the outer periphery of the completed umbrella cover for providing structural integrity to the umbrella construction. 
     U.S. Pat. No. 5,337,507 issued 1994 Jul. 16, to Mitsuyoshi Oyama, and Tomoyoshi Tsurufuji, demonstrates a handle for fishing rods which extends on the tubular body 10 of the fishing rod, and includes a hand-held portion 16 corresponding to the exposed part 10P of the tubular body and having bridges extending off the exposed part along the side surfaces thereof. The handle is reduced in weight, it is easy for a fishing person to hold the handle by his hand, the hand holding the handle is less likely to slip thereon, and the person can feel the bite of a fish well. 
     U.S. Pat. No. 5,488,966 issued 1996 Feb. 6, to Blair F. Baldwin, and Russell G. Dobrowski, and Arthur L. Arledge, demonstrates an umbrella canopy which includes a single sheet of web material formed in a closed configuration and having a periphery, said single sheet of web material having a bowed configuration, said single sheet of web material having at least one radially oriented tuck therein which applies a circumferential force on said single sheet of web material to form said single sheet of web material into said bowed configuration, each said tuck extending radially outwardly to said periphery. 
     U.S. Pat. No. 5,806,546 issued 1998 Sep. 15, to Fong-Ming Ni, demonstrates a method of eliminating corrugation in central umbrella cover, being made of a plain weave cloth, in which the weft has no stretchability, while the warp has a slight stretchability; before the umbrella cloth being cut into an umbrella cover, the umbrella cover and the main rib are set a different angle of ten degrees; the tail end of the main ribs and the sewing points of the umbrella cloth are not fallen on the parallel line of the warp or the weft; from the sewing points to the central part of the ribs, there are different length so as to balance the tension of various stretch points; the edge of the umbrella cover is cut out and sewed properly so as to provide suitable corrugation-proof. 
     U.S. Pat. No. 5,885,679 issued 1999 Mar. 23, to Masaharu Yasue, and Masami Kamiya, demonstrates an improved joining structure for a waterproof fabric composed of a base fabric with a soft (elastomeric) resin film adhered thereon is provided. The joining structure is formed in a welt seam in which a hot-melt resin adhesive layer is interposed as a part of intermediate layers of the structure. The joining structure has properties of (1) bond strength.gtoreq.25 kg/25 cm width, (2) bending stiffness .ltoreq.20 gf.multidot.cm.sup.2/cm and (3) water resistance after rubbing 1,000 times according to Scott shape method .gtoreq.800 mm H.sub.2 O. The joining structure can be formed by a method including joining the waterproof fabrics to form a welt seam with a hot melt resin layer put between and following that applying a high-frequency welding to the welt seam portion at a condition with an insulating elastic sheet interposed between the welt seam portion and electrode means to cause the hot-melt resin to be melted. 
     U.S. Pat. No. 6,431,221 issued 2002 Aug. 13, to David Wrigley, demonstrates a woven fabric comprises cross-machine direction weft yarns, and an array of interwoven warp yarns, the warp yarns being woven in the machine direction in alternating groups of relatively narrow yarns and relatively wide yarns. The narrow yarns are looped around a respective last weft yarn and back woven, whilst the wider yarns are extended to form inter-digitable loops for engagement of a pintle wire. 
     U.S. Pat. No. 6,655,175 issued 2003 Dec. 2, to Kazuyoshi Okamoto, demonstrates a first knitted fabric, a second knitted fabric and a third knitted fabric are knitted, with the first knitted fabric sandwiched between the second and third knitted fabrics, and the first knitted fabric is joined to the second and third knitted fabrics by loops in final courses of the second and third knitted fabrics being sequentially overlapped with loops at ends of the first knitted fabric from a side thereof closer to the first knitted fabric, processing from one end thereof toward the other end thereof, the knitting wherein with the second knitted fabric and the third knitted fabric separately retained on front and back needle beds, the first knitted fabric and the third knitted fabric are shifted toward the second knitted fabric by racking; the first knitted fabric is changed over between the front and back needle beds and a loop of the first knitted fabric at an end thereof on the second knitted fabric side and a loop of the second knitted fabric at a side end thereof are overlapped with each other and a loop of the third knitted fabric at a side end thereof and a loop of the first knitted fabric at an end thereof on the third knitted fabric side are overlapped with each other; and then a yarn is fed to the first knitted fabric to form next course loops therein is repeatedly performed. This can provide a decreased number of times for the loop to be transferred between the front and back needle beds, as compared with the conventional method according to which the knitted fabrics can be allowed to be close to each other so as to be joined together solely by changing over the knitted fabrics between the front and back needle beds by transferring loops therebetween. 
     U.S. Pat. No. 6,658,900 issued 2003 Dec. 9, to Kazuyoshi Okamoto, demonstrates a method for knitting and joining together at least two tubular fabrics by using a flat knitting machine. The method includes a step of laying loops of a final course in a joining region of a first tubular fabric, which comprise a number of wale and are located at a side end portion thereof, and loops of a final course in a joining region of a second tubular fabric are laid over each other such that the loops located at a near side from a boundary between a front knitted fabric part and a back-knitted fabric part are combined with each other and the loops located at a far side are combined with each other, thereby a machi is formed at a joining point of the tubular fabrics. The method also includes a step of knitting an integrated tubular fabric continuously from the joined tubular fabric. 
     U.S. Pat. No. 6,712,100 issued 2004 Mar. 30, to Steven S. Yook, and Phillip R. Elkins, demonstrates an on-machine-seamable papermaker&#39;s fabric includes a base fabric having seaming loops at its widthwise edges for joining the papermaker&#39;s fabric into endless form on a paper machine. The seam formed when the seaming loops are interdigitated and joined to one another with a pintle is covered with a strip of flow-resistant material, or, where the base fabric is a laminated structure having a top layer and a bottom layer, strips of flow-resistant material are placed between the top and bottom layers adjacent to the seam. The flow-resistant material provides the seam region with permeabilities to air and water substantially identical to those of the rest of the papermaker&#39;s fabric. At least one layer of staple fiber batt is entangled through the base fabric and flow-resistant material. 
     U.S. Pat. No. 6,997,126 issued 2006 Feb. 14, to Kimberly Murley, demonstrates a process for joining adjacent panels of plural layered upholstery, including the steps of adjacently positioning first and second panels, each having an offset backing and exterior layers, and substantially aligning longitudinal peripheries of the first and second panels. Stitching the panels together along a first stitching line positioned inboard of the longitudinal peripheries and substantially parallel thereto, and stitching portions of the first and second panels outboard of the first stitching line to an inboard portion of one or more of the panels along at least a second stitching line. In a preferred embodiment, the exterior layer in the first panel is offset laterally relative to the backing layer in an inboard direction, wherein the lateral offset imparts a substantially regular contour to portions of the exterior layer proximate the first stitching line and inboard thereof. 
     U.S. Pat. No. 7,029,555 issued 2006 Apr. 18, to Hiroshi Yamanaka, and Tatsuya Fujimura, demonstrates a diagonally joined cylindrical fabric in the form of a cylindrical endless fabric is obtained by shifting ends of facing wefts of a non-endless fabric leftward or rightward and joining together the ends of the wefts to thereby form a joining portion inclined relative to an axis of a cylinder. The cylindrical fabric comprises a weave pattern in which warp passes over continuous two or more wefts, then passes under a less number of wefts, the joining portion at ends of the fabric formed into an endless cylindrical shape is inclined relative to the axis at 25.degree. to 5.degree. The surface of the cylindrical fabric is formed with crimps that are longer in a face length direction than in a circumferential direction. 
     U.S. Pat. No. 7,455,743 issued 2008 Nov. 25, to Paul F. Kramer, and Gaston MacMillan, demonstrates a method of forming a stitchless, adhesively bonded seam involves placing a first strip of adhesive between the outside surface of first and second sheets of material along an edge of the second sheet. At least a portion of a second strip of adhesive is positioned against a first portion of the inside surface of the second sheet along the edge thereof. The second sheet of material is folded such that a second portion of the inside surface overlies the second strip of adhesive. In some embodiments the first and second strips of adhesive are replaced by a single longitudinally folded strip of adhesive. Energy may be applied, via an ultrasonic seam bonding machine or other means, to activate the adhesive. Seams made according to the disclosed methods may be used for garments, sports articles, and other items made of fabric or other sheet material. 
     U.S. Pat. No. 7,797,967 issued 2010 Sep. 21, to Fumio Shirasaki, and Koichi Oida, demonstrates a warp knitting fabric, excellent in a dimension stability and a shape stability or the like and preferably used for underpants or panty, or a shirt or the like, including: tube-shaped fabric parts that form articles in a predetermined pattern; marginal fabric portions that are knitted simultaneously with said fabric parts, and to be eventually cut therefrom; and bridging portions formed by knitting at a predetermined interval in wale direction, each of which connects a fringe of said fabric part onto the marginal fabric portion contiguous to the fringe; and wherein the bridging portions are formed by knitting to have a dimension of 2-20 courses in the wale direction, at an interval of 2-50 courses. 
     U.S. Pat. No. 8,127,701 issued 2012 Mar. 6, to Randy Harward, demonstrates a fabric joining method and system for attaching a first piece of fabric having synthetic content to a second piece of fabric having synthetic content. The method includes welding the first piece of fabric to the second piece of fabric at a seam and sewing the first piece of fabric to the second piece of fabric using a stitch that crosses the welded seam. An example method includes ultrasonically welding a first piece of fleece fabric to a second piece of fleece fabric followed by stitching along and across the welded seam completely through the fabric layers using a zig-zag stitch. The system includes a first piece of fabric, a second piece of fabric fused to the first piece of fabric at a welded seam, and a thread stitched across the welded seam. 
     U.S. Pat. No. 8,597,468 issued 2013 Dec. 3, to Matthew Ryan, and Susanne Klaschka, demonstrates a joining process for an endless or seamed press fabric, the joining process including the step of providing a woven base fabric having a plurality of monofilament yarns including warp yarns extending in a machine direction and weft yarns extending in a cross machine direction, the woven base fabric being cut along one of the weft yarns and having two opposing ends and two side edges. A predetermined number of the weft yarns are removed along each of the two opposing ends to free a plurality of cut ends of the warp yarns, fringing the ends. The plurality of free cut ends of the two opposing ends are interdigitated with each other and the cut ends opposing and adjoining one another are heat bonded to define a joint area. 
     U.S. Pat. No. 9,758,928 issued 2017 Sep. 12, to Giovanni Cartabbia, demonstrates a simplified method for making an impermeable joining on three-layer or bi-layer fabric materials, either with or without a complex construction on a joining side thereof, and being preliminarily joined by a stitching or ultrasound joining arrangement, wherein the method comprises only two method steps, a first joining step of joining two fabric material panels and a second impermeabilizing step carried out by cauterizing and sealing a strip element, and being performed by a single machine in a single operation thereof. 
     U.S. Pat. No. 9,863,100 issued 2018 Jan. 9, to Delaney Lewis, and Jose Urrutia, and Michael Ayers, demonstrates a method for covering a site with synthetic turf includes laying down a first elongate strip of synthetic turf, laying down a second elongate strip of synthetic turf, with the second elongate strip of synthetic turf is laid down substantially adjacent to the first elongate strip of synthetic turf in a manner such that a portion of the second elongate strip partially overlays a portion of the first elongate strip forming a lap joint. The method also includes the step of applying heat and/or pressure to weld the first elongate strip of synthetic turf to the second elongate strip of synthetic turf along the lap joint. 
     U.S. Pat. No. 10,112,739 issued 2018 Oct. 30, to Clifford Dunlap, and Daniel R. Schnaars, and Lori Kardos, and Raj an Patel, demonstrates a method of producing flexible polypropylene fabric bags with heat fused seams comprising providing fabric pieces, wherein each fabric piece has a coated side and an uncoated side; positioning fabric pieces so that a coated side of one fabric piece faces a coated side of another fabric piece; selecting an area of fabric to be joined for forming a seam or joint; applying heat to the area to be joined that is less than the melting point of the fabrics, for forming one or more seams or joints and wherein the heat fused seams or joints of a resulting polypropylene bag retains at least 85% of the fabric strength without using sewing machines. 
     U.S. Pat. No. 10,179,975 issued 2019 Jan. 15, to Joseph P. Botelho, and Victor P. Laskorski, and James P. Mastin, and Jennifer L. Rademan, demonstrates the ultrasonic welding of industrial fabrics. Specifically, the invention relates to methods for ultrasonically welding the seam area of industrial fabrics using a textured horn and/or anvil. The fabric edges are overlapped as woven or one or both edges can have some warp or weft yarns raveled out. The method involves ultrasonically bonding the overlapped fabric edges, reducing the caliper of the two stacked edges to match the body caliper of the fabric itself. The bonded area can then be perforated using laser or other mechanical means to produce a seam having the same woven texture and permeability (air and/or water) as the body of the fabric. 
     U.S. Pat. No. 10,260,185 issued 2019 Apr. 16, to Kenny McMaster, and Walter Wheater, demonstrates an anti-puckering apparatus for forming, on a work piece, a line of stitching substantially free from puckering is disclosed. The apparatus includes a removable base which is added to a sewing machine bed surface proximate to a needle and a stitch formation zone. The apparatus also includes a carrier mounted on, and moveable relative to, the base and an endless row of flexible filamentary elements carried by the carrier. The carrier progressively moves subsets of filamentary elements into and out of a stitch formation zone during the formation of a line of stitching. The filamentary elements are presented across a stitch formation zone in advance of an intended line of stitching at an oblique angle relative to a sewing machine bed surface. 
     U.S. Patent No 20020172792 issued 2002 Nov. 21, to Christine W. Jarvis, and Robert E. Bennett, and Brian Frederick, demonstrates a method for joining two or more substrates with a seam is provided. The seam is formed with a thermoplastic tape that is capable of forming an adhesive bond and a physical bond with a substrate. For instance, in one embodiment, the thermoplastic tape is formed from a polyurethane film. In addition, the seam can be utilized in a flat configuration or folded into a variety of different shapes, such as in a z-shaped configuration. As a result of the present invention, it has been discovered that a seam can be formed to have improved strength without substantially sacrificing the desired functional properties of the substrate materials. 
     U.S. Patent No 20090090425 issued 2009 Apr. 9, to John M. Hawes, and David S. Rougvie, demonstrates a laminated on-machine-seamable industrial fabric made from a flat woven full width base fabric layer wherein the base fabric layer is folded inwardly and flattened to produce a fabric with seaming loops disposed at the two widthwise edges. 
     Disadvantages of the Prior Art 
     The prior art have failed to solve many problems associated with method of carapace manufacturing, as follows:
     1) No prior art mention or disclose any method of carapace manufacturing, having at least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c.  
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot converge rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables in the directions of arrows  156  and  157 
                   (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Cannot converge harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Cannot converge harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested fruits to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Cannot converge catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Cannot direct collected water away from patios and balconies
               to keep property and occupants dry
                   in the directions of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Cannot distribute collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the directions of arrow  156     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Cannot direct collected fruit to a storage container
               to easily gather harvested fruit
                   in the directions of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Cannot direct collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Cannot direct collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the direction of arrow  151     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               j) Cannot direct collected golf balls to a storage container
               to easily gather golf balls
                   in the direction of arrow  152     (see  FIGS. 14F and 14G ); and   
                   
               k) Cannot securely connect at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           
       2) No prior art mention or disclose any method of carapace manufacturing, having at least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d.  
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot converge rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables in the directions of arrows  156  and  157 
                   (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Cannot converge harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Cannot converge harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested fruits to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Cannot converge catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Cannot direct collected water away from patios and balconies
               to keep property and occupants dry
                   in the direction of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Cannot distribute collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the direction of arrow  156     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Cannot direct collected fruit to a storage container
               to easily gather harvested fruit
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Cannot direct collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Cannot direct collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the direction of arrow  151     (see  FIGS. 13A and 13B );   
                   
               j) Cannot direct collected golf balls to a storage container
               to easily gather golf balls
                   in the direction of arrow  152     (see  FIGS. 14F and 14G ); and   
                   
               k) Cannot securely connect at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           
       3) No prior art mention or disclose any method of carapace manufacturing, having three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Cannot require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Cannot require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Cannot require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Cannot require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Cannot require no stitching during manufacturing process, to save time;   g) Cannot provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               h) Cannot conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   i) Cannot provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       4) No prior art mention or disclose any method of carapace manufacturing, having three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot act as a cistern for irrigation
               (see  FIG. 14B  and  FIG. 14C );   
               b) Cannot act as a water-diverting gutter
               (see  FIG. 14D  and  FIG. 14E );   
               c) Cannot act as a falling-fruit-catching device
               (see  FIG. 13E  and  FIG. 13F );   
               d) Cannot act as a falling-nut catching device
               (see  FIG. 14A );   
               e) Cannot act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 13A  and  FIG. 13B );   
               f) Cannot act as a golf-ball-catching, -blocking and/or -collecting device
               (see  FIG. 13C  and  FIG. 13D );   
               g) Cannot act as a free-standing projector screen
               (see  FIG. 14H );   
               h) Cannot act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14L );   
                   
               i) Cannot act as a shade cover when attached to a utility hole of a truck bed side to provide shade to occupants
               (see  FIG. 14G );   
               j) Cannot act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14I  and  FIG. 14J ); and   
               k) Cannot act as a tow-hitch mountable projector screen
               (see  FIG. 14K ).   
               
           
       5) No prior art mention or disclose any method of carapace manufacturing, having at least one first three-dimensional-contour-conforming carapace dome panel  103   a.  
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  in the direction of arrow  139 
               (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Cannot require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Cannot require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Cannot require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Cannot require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Cannot require no stitching during manufacturing process, to save machinery and tooling cost
               (see  FIG. 6 , and  FIG. 8A );   
               g) Cannot require no stitching during manufacturing process, to save time;   h) Cannot provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105  in the direction of arrow  139 
               (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               i) Cannot conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   j) Cannot provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       6) No prior art mention or disclose any method of carapace manufacturing, having at least one first three-dimensional-contour-conforming carapace dome panel  103   a.  
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Cannot act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Cannot act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Cannot act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Cannot act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E ); f) Cannot act as a golf-ball-catching, -blocking and/or -collecting device   (see  FIG. 14F  and  FIG. 14G );   
               g) Cannot act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Cannot act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side to secure items within a truck bed
               (see  FIG. 14T );   
               i) Cannot act as a shade cover when attached to a utility hole of a truck bed side to provide shade to occupants
               (see  FIG. 14N );   
               j) Cannot act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Cannot act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       7) No prior art mention or disclose any method of carapace manufacturing, having at least one second three-dimensional-contour-conforming carapace dome panel  103   b.  
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Cannot require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Cannot require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Cannot require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Cannot require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Cannot require no stitching during manufacturing process, to save machinery and tooling cost
               (see  FIG. 6 , and  FIG. 8A );   
               g) Cannot require no stitching during manufacturing process, to save time;   h) Cannot provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105  in the direction of arrow  139 
               (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               i) Cannot conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   j) Cannot provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       8) No prior art mention or disclose any method of carapace manufacturing, having at least one second three-dimensional-contour-conforming carapace dome panel  103   b.  
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Cannot act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Cannot act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Cannot act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Cannot act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E ); f) Cannot act as a golf-ball-catching, -blocking and/or -collecting device   (see  FIG. 14F  and  FIG. 14G );   
               g) Cannot act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Cannot act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed   (see  FIG. 14T );   
               i) Cannot act as a shade cover when attached to a utility hole of a truck bed side to provide shade to occupants
               (see  FIG. 14N );   
               j) Cannot act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Cannot act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       9) No prior art mention or disclose any method of carapace manufacturing, having perimeter-contour-conforming carapace edge  104 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot stretch at least one first three-dimensional-contour-conforming carapace dome  103   a  and at least one second three-dimensional-contour-conforming carapace dome  103   b  over three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ;   b) Cannot cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               (see  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               c) Cannot conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               (see  FIG. 6 ); and   
               d) Cannot provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               (see  FIG. 5  and  FIG. 6 ).   
               
           
       10) No prior art mention or disclose any method of carapace manufacturing, having multi-orientational-spline holes  120 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot provide means to insert multi-orientational-spline screw and wing-nut  119  to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation
               in the directions of arrows  142 ,  143 ,  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
               b) Cannot provide means to rotate three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  side to side
               in the directions of arrows  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10B ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
               c) Cannot provide means to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation in the directions of arrows  142 ,  143 ,  144 ,  146   a ,  146   b , and  146   c  
               (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10D ,  FIG. 10F , and  FIG. 10G ); and   
               d) Cannot provide means to hingedly secure multi-orientational-spline screw and wing-nut  119  to multi-orientational-spline holes  120 .   
           
       11) No prior art mention or disclose any method of carapace manufacturing, having interchangeable splines  123 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot provide support for the preferred shape of three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 
               in the directions of arrows  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Cannot provide means to collapse the deployed, large shape of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  for storage
               (see  FIG. 7 b   ,  FIG. 7C , and  FIG. 8A );   
               c) Cannot provide a form for a shape that is desirable for design and aesthetics of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 
               (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               d) Cannot provide structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter;   e) Cannot provide structural means to tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees from side to side in the directions of arrows  146   a ,  146   b , and  146   c  
               (see  FIG. 10D ,  FIG. 10E , and  FIG. 10F );   
               f) Cannot provide structural means to swing three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees horizontally;
               in the directions of arrow  145   b      (see  FIG. 10D ); and   
               g) Cannot provide structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter.
               in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C ).   
               
           
       12) No prior art mention or disclose any method of carapace manufacturing, having spline-actuating-and-supporting ribs  131 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot support interchangeable splines  123 
               in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               b) Cannot provide means to actuate interchangeable splines  123  for deployment and contraction of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the directions of arrows  143 ,  146   a ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11C , and  FIG. 11D );   
               c) Cannot provide means to form desirable aesthetic shapes of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   d) Cannot provide geometry to deploy three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  into an erect and locked position.   
           
       13) No prior art mention or disclose any method of carapace manufacturing, having multi-spline-interchangeable-hanger-attachment holes  133 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot provide means to screw multi-orientation-spline-supporting hanger  109  to interchangeable splines  123 ;   b) Cannot provide multiple holes around semi-circumferences of interchangeable splines  123  to mount multi-orientation-spline-supporting hanger  109  thereby allowing multi-orientation-spline-supporting hanger  109 
               to be selectively positioned in any of multiple positions in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               c) Cannot provide attachment for structural support to vertically tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   d) Cannot provide attachment for the suspending of no-sew single-cut three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multi-orientation-spline-supporting hanger  109 .   
           
       14) No prior art mention or disclose any method of carapace manufacturing, having multi-orientational-spline-attachment holes  134 .
       Therefore, the prior art of method of carapace manufacturing:
           a) Cannot provide means to insert multi-orientational-spline screws and wing-nuts  119 , thereby securing interchangeable splines  123  to multi-orientational-spline holes  120 
               in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               b) Cannot provide multiple holes around circumferences of interchangeable splines  123 , to mount to multi-orientational-spline holes  120 , thereby allowing to be selectively secured in any one of multiple vertical positions; and   c) Cannot provide attachment for the suspending of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from carapace-tilting-and-multi-orienting snap-locking handle  114 
               (see  FIG. 6 ,  FIG. 7B , and  FIG. 8B ).   
               
           
       

     Objects and Advantages of the Invention 
     The present invention substantially departs from the conventional concepts and methods of the prior art. In doing so, the present invention provides a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system (having three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system, multi-height-adjustable and spline-supporting stanchion system, carapace-sliding-and-tilting multi-orienting snap-locking handle system, and multi-orientation interchangeable-spline system), having many unique and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows:
     1) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can converge rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables in the directions of arrows  156  and  157 
                   (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Can converge harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Can converge harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested nutss to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Can converge catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Can direct collected water away from patios and balconies
               to keep property and occupants dry
                   in the direction of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Can distribute collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the direction of arrow  157     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Can direct collected fruit to a storage container
               to easily gather harvested fruit
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Can direct collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Can direct collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the direction of arrow  151     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E ); and   
                   
               j) Can direct collected golf balls to a storage container
               to easily gather golf balls
                   in the direction of arrow  152     (see  FIGS. 14F and 14G ); and   
                   
               k) Can securely connect at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           
       2) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can converge rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables
                   in the directions of arrows  156  and  157     (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Can converge harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Can converge harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested nuts to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Can converge catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Can direct collected water away from patios and balconies
               to keep property and occupants dry
                   in the direction of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Can distribute collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the direction of arrow  156     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Can direct collected fruit to a storage container
               to easily gather harvested fruit
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Can direct collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Can direct collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the directions of arrows  151   a  and  151   b      (see  FIGS. 13A and 13B );   
                   
               j) Can direct collected golf balls to a storage container
               to easily gather golf balls
                   in the direction of arrow  151     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E ); and   
                   
               k) Can securely connect at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           
       3) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Can require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Can require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Can require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Can require no stitching during manufacturing process, to save time;   g) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               h) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   i) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       4) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Can act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Can act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Can act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Can act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E ); f) Can act as a golf-ball-catching, -blocking and/or -collecting device   (see  FIG. 14F  and  FIG. 14G );   
               g) Can act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Can act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14T );   
                   
               i) Can act as a shade cover when attached to a utility hole of a truck bed side
               to provide shade to occupants
                   (see  FIG. 14N );   
                   
               j) Can act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Can act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       5) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one first three-dimensional-contour-conforming carapace dome panel  103   a.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Can require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Can require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Can require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Can require no stitching during manufacturing process, to save machinery and tooling cost
               (see  FIG. 6 , and  FIG. 8A );   
               g) Can require no stitching during manufacturing process, to save time;   h) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               i) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   j) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       6) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one first three-dimensional-contour-conforming carapace dome panel  103   a.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Can act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Can act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Can act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Can act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
               f) Can act as a golf-ball-catching, -blocking and/or -collecting device
               (see  FIG. 14F  and  FIG. 14G );   
               g) Can act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Can act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14T );   
                   
               i) Can act as a shade cover when attached to a utility hole of a truck bed side
               to provide shade to occupants
                   (see  FIG. 14N );   
                   
               j) Can act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Can act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       7) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one second three-dimensional-contour-conforming carapace dome panel  103   b.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Can require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Can require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Can require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Can require no stitching during manufacturing process, to save machinery and tooling cost
               (see  FIG. 6 , and  FIG. 8A );   
               g) Can require no stitching during manufacturing process, to save time;   h) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105  in the direction of arrow  139 
               (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               i) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   j) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       8) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one second three-dimensional-contour-conforming carapace dome panel  103   b.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Can act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Can act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Can act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Can act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
               f) Can act as a golf-ball-catching, -blocking and/or -collecting device
               (see  FIG. 14F  and  FIG. 14G );   
               g) Can act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Can act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14T );   
                   
               i) Can act as a shade cover when attached to a utility hole of a truck bed side
               to provide shade to occupants
                   (see  FIG. 14N );   
                   
               j) Can act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Can act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       9) It is another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       perimeter-contour-conforming carapace edge  104 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can stretch at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and at least one second three-dimensional-contour-conforming carapace dome panel  103   b  over three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ;   b) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               (see  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               c) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               (see  FIG. 6 ); and   
               d) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               (see  FIG. 5  and  FIG. 6 ).   
               
           
       10) It is another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       multi-orientational-spline holes  120 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide means to insert multi-orientational-spline screw and wing-nut  119  to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation
               in the directions of arrows  142 ,  143 ,  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
               b) Can provide means to rotate three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  side to side in the directions of arrows  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c  
               (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10B ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
               c) Can provide means to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation
               in the directions of arrows  142 ,  143 ,  144 ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10D ,  FIG. 10F , and  FIG. 10G ); and   
               d) Can provide means to hingedly secure multi-orientational-spline screw and wing-nut  119  to multi-orientational-spline holes  120 .   
           
       11) It is a further object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having interchangeable splines  123 .
       Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide support for the preferred shape of three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 ;
               in the directions of arrows  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can provide means to collapse the deployed, large shape of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  for storage
               (see  FIG. 7 b   ,  FIG. 7C , and  FIG. 8A );   
               c) Can provide a form for a shape that is desirable for design and aesthetics of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 
               (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               d) Can provide structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter;   e) Can provide structural means to tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees from side to side; and
               in the directions of arrows  146   a ,  146   b , and  146   c      (see  FIG. 10D ,  FIG. 10E , and  FIG. 10F );   
               f) Can provide structural means to swing three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees horizontally; and
               in the directions of arrow  145   b      (see  FIG. 10D ); and   
               g) Can provide structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter.
               in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C ).   
               
           
       12) It is an even further object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       spline-actuating-and-supporting ribs  131 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can support interchangeable splines  123 
               in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150  (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               b) Can provide means to actuate interchangeable splines  123  for deployment and contraction of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the directions of arrows  143 ,  146   a ,  147 ,  148 ,  149 , and  150  (see  FIG. 9A ,  FIG. 10A ,  FIG. 11C , and  FIG. 11D );   
               c) Can provide means to form desirable aesthetic shapes of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   d) Can provide geometry to deploy three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  into an erect and locked position.   
           
       13) It is another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       multi-spline-interchangeable-hanger-attachment holes  133 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide means to screw multi-orientation-spline-supporting hanger  109  to interchangeable splines  123 ;   b) Can provide multiple holes around semi-circumferences of interchangeable splines  123  to mount multi-orientation-spline-supporting hanger  109  thereby allowing multi-orientation-spline-supporting hanger  109  to be selectively positioned in any of multiple positions
               in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               c) Can provide attachment for structural support to vertically tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   d) Can provide attachment for the suspending of no-sew single-cut three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multi-orientation-spline-supporting hanger  109 .   
           
       14) It is yet another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       multi-orientational-spline-attachment holes  134 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide means to insert multi-orientational-spline screws and wing-nuts  119 , thereby securing interchangeable splines  123  to multi-orientational-spline holes  120 
               in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               b) Can provide multiple holes around circumferences of interchangeable splines  123 , to mount to multi-orientational-spline holes  120 , thereby allowing to be selectively secured in any one of multiple vertical positions; and   c) Can provide attachment for the suspending of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from carapace-tilting-and-multi-orienting snap-locking handle  114 
               (see  FIG. 6 ,  FIG. 7B , and  FIG. 8B ).   
               
           
       

     Other objects and advantages of the present invention will become apparent from a consideration of the accompanying drawings and ensuing description. 
     SUMMARY OF THE INVENTION 
     A method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangable reversible cantilever-stanchion carapace system comprises the steps of: 
     sewing said at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and said at least one second three-dimensional-contour-conforming carapace dome panel  103   b  together such that said at least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting transverse seam  103   c  and said at least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d  are formed therebetween
         for converging rain water therein
           to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging irrigated vegetables,   
           for converging harvested fruits therein
           to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away bruised fruits,   
           for converging harvested nuts therein
           to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested nuts to reduce nut bruises to avoid throwing away bruised nuts,   
           for converging catched balls therein
           to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away damaged balls,   
           for directing rain water therealong,   for directing harvested fruits therealong,   for directing harvested nuts therealong,   for directing game balls therealong,   for forming a collecting cistern to collect rain water to irrigate garden,   for forming a diverting gutter to collect rain water to discharge said rain water away from house balcony and foundation,   for forming a collecting device to collect harvested fruits to save labor and time,   for forming a collecting device to collect harvested nuts to save labor and time,   for forming a collecting device to collect game balls to save labor and time,   for forming a tonneau cover for a truck bed,   for forming a shade cover,   for forming a free-standing projector screen,   for forming a hitch-mountable projector screen, and   for forming a sports-ball blocking device;       

     attaching said at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to said interchangeable splines  123 
         for converging rain water therein,   for converging harvested fruits therein,   for converging harvested nuts therein,   for converging catched balls therein, for guiding rain water down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding fruits down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding nuts down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding balls down along said carapace-supporting angled arm  108 
           and down along said multi-height-adjustable carapace stanchion  111 ;   
               

     attaching said at least one second three-dimensional-contour-conforming carapace dome panel  103   b  to said interchangeable splines  123 
         for converging rain water therein,   for converging harvested fruits therein,   for converging harvested nuts therein,   for converging catched balls therein,   for guiding rain water down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding fruits down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding nuts down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding balls down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ;       

     attaching said at least one first outer edges of said at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to said spline ends of said interchangeable splines  123 , respectively; 
     attaching said at least one second outer edges said at least one second three-dimensional-contour-conforming carapace dome panel  103   b  to said spline ends of said interchangeable splines  123 , respectively; 
     adjusting said carapace-supporting-arm angle of said carapace-supporting angled arm  108 ; and locking said carapace-tilting-and-multi-orienting snap-locking handle  114  to said multi-height-adjustable carapace stanchion  111 . 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1A ,  FIG. 1B ,  FIG. 1C ,  FIG. 1D ,  FIG. 1E ,  FIG. 1F ,  FIG. 1G ,  FIG. 1H , and  FIG. 1I  illustrate complete, frame-only, and carapace-only side and perspective views of the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, respectively. 
         FIG. 2A  and  FIG. 2B  illustrate partial views of the multi-height-adjustable and spline-supporting stanchion system  106 , respectively. 
         FIG. 2C  and  FIG. 2D  illustrate partial views of the carapace-sliding-and-tilting multi-orienting snap-locking handle system  113 , and the multi-orientational mounting of the interchangeable splines  123 , respectively. 
         FIG. 3A  and  FIG. 3B  illustrate bottom perspective views of the three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 , respectively. 
         FIG. 4A  and  FIG. 4B  illustrate top views of the slide-lock buckle eyelet  136 , the slide-lock buckle button  137 , and the storage strap  138 , respectively. 
         FIG. 5 ,  FIG. 6 ,  FIG. 7A ,  FIG. 7B , and  FIG. 7C  illustrate top views and a side exploded view of the three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 , and the mounting thereof to three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 , respectively. 
         FIG. 8A ,  FIG. 8B ,  FIG. 8C , and  FIG. 8D  illustrate a perspective view and side views of multi-height-adjustable and spline-supporting stanchion system  106 , and how the system provides a tilting function, respectively. 
         FIG. 9A  and  FIG. 9B  illustrate side views of carapace-sliding-and-tilting multi-orienting snap-locking handle system  113 , and specifically the side-to-side tilting functionality of hand-grip opening  118 , respectively. 
         FIG. 10A ,  FIG. 10B ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F ,  FIG. 10G ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C  depict side-to-side tilting, horizontal rotation, spline interchangeability, and automatic centering functions provided by the three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 , respectively. 
         FIG. 13A ,  FIG. 13B ,  FIG. 13C ,  FIG. 13D ,  FIG. 13E ,  FIG. 13F ,  FIG. 13G ,  FIG. 1311 ,  FIG. 13I ,  FIG. 13J ,  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D ,  FIG. 14E ,  FIG. 14F ,  FIG. 14G ,  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K ,  FIG. 14L ,  FIG. 14M ,  FIG. 14N ,  FIG. 14O ,  FIG. 14P ,  FIG. 14Q ,  FIG. 14R ,  FIG. 14S , and  FIG. 14T  depict varying functions of the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, respectively. 
         FIG. 15A ,  FIG. 15B ,  FIG. 15C ,  FIG. 15D ,  FIG. 15E ,  FIG. 16A ,  FIG. 16B ,  FIG. 16C ,  FIG. 16D ,  FIG. 16E ,  FIG. 16F ,  FIG. 16G ,  FIG. 16H ,  FIG. 16I ,  FIG. 16J , and  FIG. 16K  depict equivalent variations of no-sew-single-cut-three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace system  101 , respectively. 
         FIG. 17A  and  FIG. 17B  illustrate top views of equivalent variations of slide-lock buckle eyelet  136 , slide-lock buckle button  137 , and storage strap  138 , respectively. 
     
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system comprises:
         1) Three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system,   2) Multi-height-adjustable and spline-supporting stanchion system,   3) Carapace-sliding-and-tilting multi-orienting snap-locking handle system, and   4) Multi-orientation interchangeable-spline system.       

     Component 
     Referring to  FIG. 1A ,  FIG. 1B ,  FIG. 1C ,  FIG. 1D ,  FIG. 1E ,  FIG. 1F ,  FIG. 1G ,  FIG. 1H ,  FIG. 1I ,  FIG. 2A ,  FIG. 2B ,  FIG. 2C ,  FIG. 2D ,  FIG. 3A ,  FIG. 3B ,  FIG. 4A ,  FIG. 4A ,  FIG. 4B ,  FIG. 5 ,  FIG. 6 ,  FIG. 7A ,  FIG. 7B , and  FIG. 7C , the five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system comprises:
     1) Three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  comprising (or each comprising):   2) Three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 ,   3) At least one first three-dimensional-contour-conforming carapace dome panel  103   a,  
       At least one second three-dimensional-contour-conforming carapace dome panel  103   b,      At least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c,      At least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d,      
       4) Perimeter-contour-conforming carapace edge  104 , and   5) Carapace-perimeter-securing screws  105 ;   6) Multi-height-adjustable and spline-supporting stanchion system  106  comprising (or each comprising):   7) Carapace-supporting-arm intersector  107 ,   8) Carapace-supporting-arm  108 ,   9) Multi-orientation-spline-supporting hanger  109 ,   10) Multi-orientation-spline-supporting-hanger screw and hole  110 ,   11) Multi-height-adjustable carapace stanchion  111 , and   12) Multi-height-adjustable carapace stanchion holes  112 ;   13) Carapace-sliding-and-tilting multi-orienting snap-locking handle system  113  comprising (or each comprising):   14) Carapace-tilting-and-multi-orienting snap-locking handle  114 ,   15) Snap-locking trigger  115 ,   16) Snap-locking-trigger pin  116 ,   17) Snap-locking-trigger spring  117 ,   18) Hand-grip opening  118 ,   19) Multi-orientational-spline screw and wing-nut  119 , and   20) Multi-orientational-spline holes  120 ; and   21) Three-hundred-and-sixty-degree-orientational interchangeable-spline system  121     comprising (or each comprising):   22) Crown disk  122 ,   23) Interchangeable splines  123 ,   24) Spline-rib hinging intersectors  124 ,   25) Upper hub  125 ,   26) Center-support tube  126     27) Spline-intersector channels  127     28) Intersector-to-spline screws and holes  128     29) Intersector-to-supporting-rib screws and holes  129     30) Shuttle hub  130 ,   31) Spline-actuating-and-supporting ribs  131 ,   32) Hub screws  132 ,   33) Multi-spline-interchangeable-hanger-attachment holes  133 ,   34) Multi-orientational-spline-attachment holes  134 ,   35) Carapace-perimeter-securing-screw holes  135 ,   36) Slide-lock buckle eyelet  136 ,   37) Slide-lock buckle button  137 , and   38) Storage strap  138 .   

     Material 
     Referring to  FIG. 1A ,  FIG. 1B ,  FIG. 1C ,  FIG. 1D ,  FIG. 1E ,  FIG. 1F ,  FIG. 1G ,  FIG. 1H ,  FIG. 1I ,  FIG. 2A ,  FIG. 2B ,  FIG. 2C ,  FIG. 2D ,  FIG. 3A ,  FIG. 3B ,  FIG. 4A ,  FIG. 4A ,  FIG. 4B ,  FIG. 5 ,  FIG. 6 ,  FIG. 7A ,  FIG. 7B , and  FIG. 7C :
     1) Three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  is (or are each) made of the combined materials of its components.   2) Three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 
       is (or are each) made of fabric.   
       3) At least one first three-dimensional-contour-conforming carapace dome panel  103   a  is (or are each) made of fabric.
       At least one second three-dimensional-contour-conforming carapace dome panel  103   b  is (or are each) made of fabric.   At least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c  
           is (or are each) made of empty space.   
           At least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d  
           is (or are each) made of empty space.   
           
       4) Perimeter-contour-conforming carapace edge  104 
       is (or are each) made of a stronger fabric than the at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and at least one second three-dimensional-contour-conforming carapace dome panel  103   b.      
       5) Carapace-perimeter-securing screws  105 
       is (or are each) made of metal.   
       6) Multi-height-adjustable and spline-supporting stanchion system  106  is (or are each) made of the combined materials of its components.   7) Carapace-supporting-arm intersector  107 
       is (or are each) made of metal.   
       8) Carapace-supporting-arm  108 
       is (or are each) made of metal.   
       9) Multi-orientation-spline-supporting hanger  109 
       is (or are each) made of metal.   
       10) Multi-orientation-spline-supporting-hanger screw and hole  110 
       is (or are each) made of metal and empty space, respectively.   
       11) Multi-height-adjustable carapace stanchion  111 
       is (or are each) made of metal.   
       12) Multi-height-adjustable carapace stanchion holes  112 
       is (or are each) made of empty space.   
       13) Carapace-sliding-and-tilting multi-orienting snap-locking handle system  113 
       is (or are each) made of the combined materials of its components.   
       14) Carapace-tilting-and-multi-orienting snap-locking handle  114 
       is (or are each) made of metal.   
       15) Snap-locking trigger  115 
       is (or are each) made of metal.   
       16) Snap-locking-trigger pin  116 
       is (or are each) made of metal.   
       17) Snap-locking-trigger spring  117 
       is (or are each) made of metal.   
       18) Hand-grip opening  118 
       is (or are each) made of empty space.   
       19) Multi-orientational-spline screw and wing-nut  119 
       is (or are each) made of metal.   
       20) Multi-orientational-spline holes  120 
       is (or are each) made of empty space.   
       21) Three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  is (or are each) made of the combined materials of its components.   22) Crown disk  122 
       is (or are each) made of plastic or metal   
       23) Interchangeable splines  123 
       is (or are each) made of metal.   
       24) Spline-rib hinging intersectors  124 
       is (or are each) made of plastic and/or metal.   
       25) Upper hub  125 
       is (or are each) made of plastic and/or metal.   
       26) Center-support tube  126 
       is (or are each) made of plastic and/or metal.   
       27) Spline-intersector channels  127 
       is (or are each) made of empty space.   
       28) Intersector-to-spline screws and holes  128 
       is (or are each) made of metal, and empty space, respectively.   
       29) Intersector-to-supporting-rib screws and holes  129 
       is (or are each) made of metal, and empty space, respectively.   
       30) Shuttle hub  130 
       is (or are each) made of plastic and/or metal.   
       31) Spline-actuating-and-supporting ribs  131 
       is (or are each) made of metal.   
       32) Hub screws  132 
       is (or are each) made of metal.   
       33) Multi-spline-interchangeable-hanger-attachment holes  133 
       is (or are each) made of empty space.   
       34) Multi-orientational-spline-attachment holes  134 
       is (or are each) made of empty space.   
       35) Carapace-perimeter-securing-screw holes  135 
       is (or are each) made of empty space.   
       36) Slide-lock buckle eyelet  136 
       is (or are each) made of plastic.   
       37) Slide-lock buckle button  137 
       is (or are each) made of plastic.   
       38) Storage strap  138 
       is (or are each) made of webbing, the equivalent, or other fabric.   
       

     Shape 
     Referring to  FIG. 1A ,  FIG. 1B ,  FIG. 1C ,  FIG. 1D ,  FIG. 1E ,  FIG. 1F ,  FIG. 1G ,  FIG. 1H ,  FIG. 1I ,  FIG. 2A ,  FIG. 2B ,  FIG. 2C ,  FIG. 2D ,  FIG. 3A ,  FIG. 3B ,  FIG. 4A ,  FIG. 4A ,  FIG. 4B ,  FIG. 5 ,  FIG. 6 ,  FIG. 7A ,  FIG. 7B , and  FIG. 7C :
     1) Three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  is (or are each) formed into the combined shapes of its components.   2) Three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 
       is (or are each) formed into a concave kidney shape.   
       3) At least one first three-dimensional-contour-conforming carapace dome panel  103   a  is (or are each) formed into a half-concave shape.
       At least one second three-dimensional-contour-conforming carapace dome panel  103   b  is (or are each) formed into a half-concave shape.   At least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c  
           is (or are each) formed into a zig-zag shape.   
           At least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d  
           is (or are each) formed into a zig-zag shape.   
           
       4) Perimeter-contour-conforming carapace edge  104 
       is (or are each) formed into a kidney shape.   
       5) Carapace-perimeter-securing screws  105 
       is (or are each) formed into a screw shape.   
       6) Multi-height-adjustable and spline-supporting stanchion system  106  is (or are each) formed into the combined shapes of its components.   7) Carapace-supporting-arm intersector  107 
       is (or are each) formed into a tube shape.   
       8) Carapace-supporting-arm  108 
       is (or are each) formed into a tube shape.   
       9) Multi-orientation-spline-supporting hanger  109 
       is (or are each) formed into a tubular upper shape with a rectangular base.   
       10) Multi-orientation-spline-supporting-hanger screw and hole  110 
       is (or are each) formed into a screw shape, and a circular shape, respectively.   
       11) Multi-height-adjustable carapace stanchion  111 
       is (or are each) formed into a tube shape.   
       12) Multi-height-adjustable carapace stanchion holes  112 
       is (or are each) formed into a circular shape.   
       13) Carapace-sliding-and-tilting multi-orienting snap-locking handle system  113  is (or are each) formed into the combined shapes of its components.   14) Carapace-tilting-and-multi-orienting snap-locking handle  114 
       is (or are each) formed into a rounded rectangle with a rectangular hole at one end.   
       15) Snap-locking trigger  115 
       is (or are each) formed into an elongated block with a finger-conforming wavy edge.   
       16) Snap-locking-trigger pin  116  is (or are each) formed into a cylindrical shape.   17) Snap-locking-trigger spring  117 
       is (or are each) formed into a spring shape.   
       18) Hand-grip opening  118 
       is (or are each) formed into an oval shape.   
       19) Multi-orientational-spline screw and wing-nut  119 
       is (or are each) formed into a screw shape, and a wing-nut shape, respectively.   
       20) Multi-orientational-spline holes  120 
       is (or are each) formed into a circular shape.   
       21) Three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  is (or are each) formed into the combined shapes of its components.   22) Crown disk  122 
       is (or are each) formed into a disk shape.   
       23) Interchangeable splines  123 
       is (or are each) formed into a curved tube shape.   
       24) Spline-rib hinging intersectors  124 
       is (or are each) formed into a rounded-rectangular shape with a U shaped cross-section.   
       25) Upper hub  125 
       is (or are each) formed into a circular shape with multi-notched outer perimeter.   
       26) Center-support tube  126 
       is (or are each) formed into a tube shape.   
       27) Spline-intersector channels  127 
       is (or are each) formed into a recessed channel.   
       28) Intersector-to-spline screws and holes  128 
       is (or are each) formed into a screw shape, and a circular shape, respectively.   
       29) Intersector-to-supporting-rib screws and holes  129 
       is (or are each) formed into a screw shape, and a circular shape, respectively.   
       30) Shuttle hub  130 
       is (or are each) formed into a circular shape with multi-notched outer perimeter.   
       31) Spline-actuating-and-supporting ribs  131 
       is (or are each) formed into a tube shape with an oval cross-section.   
       32) Hub screws  132 
       is (or are each) formed into a screw shape.   
       33) Multi-spline-interchangeable-hanger-attachment holes  133 
       is (or are each) formed into a circular shape.   
       34) Multi-orientational-spline-attachment holes  134 
       is (or are each) formed into a circular shape.   
       35) Carapace-perimeter-securing-screw holes  135 
       is (or are each) formed into a circular shape.   
       36) Slide-lock buckle eyelet  136 
       is (or are each) formed into a figure eight shape.   
       37) Slide-lock buckle button  137 
       is (or are each) formed into a button shape.   
       38) Storage strap  138 
       is (or are each) formed into a strap shape.   
       

     Connection 
     Referring to  FIG. 1A ,  FIG. 1B ,  FIG. 1C ,  FIG. 1D ,  FIG. 1E ,  FIG. 1F ,  FIG. 1G ,  FIG. 1H ,  FIG. 1I ,  FIG. 2A ,  FIG. 2B ,  FIG. 2C ,  FIG. 2D ,  FIG. 3A ,  FIG. 3B ,  FIG. 4A ,  FIG. 4A ,  FIG. 4B ,  FIG. 5 ,  FIG. 6 ,  FIG. 7A ,  FIG. 7B , and  FIG. 7C :
     1) Three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  is (or are respectively) connected by the combined connections of its components.   2) Three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  is (or are respectively)
       is (or are respectively) manufactured from at least one piece of material sewn together and stretched over three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 .   
       3) At least one first three-dimensional-contour-conforming carapace dome panel  103   a  
       is (or are respectively) manufactured from at least one piece of material sewn to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  and stretched over three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 .   At least one second three-dimensional-contour-conforming carapace dome panel  103   b  
           is (or are respectively) manufactured from at least one piece of material sewn to at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and stretched over three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 .   
           At least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c  
           is (or are each) sewn between at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and at least one second three-dimensional-contour-conforming carapace dome panel  103   b.      
           At least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d  
           is (or are each) sewn into at least one first three-dimensional-contour-conforming carapace dome panel  103   a.      
           
       4) Perimeter-contour-conforming carapace edge  104 
       is (or are respectively) molded to three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 .   
       5) Carapace-perimeter-securing screws  105 
       is (or are respectively) screwed into carapace-perimeter-securing-screw holes  135 .   
       6) Multi-height-adjustable and spline-supporting stanchion system  106  is (or are respectively) connected by the combined connections of its components.   7) Carapace-supporting-arm intersector  107 
       is (or are respectively) screwed atop multi-height-adjustable carapace stanchion  111 .   
       8) Carapace-supporting-arm  108  is (or are respectively)
       screwed to carapace-supporting-arm intersector  107 .   
       9) Multi-orientation-spline-supporting hanger  109 
       is (or are respectively) screwed to carapace-supporting-arm  108 .   
       10) Multi-orientation-spline-supporting-hanger screw and hole  110 
       is (or are respectively) screwed into, and is drilled out of multi-orientation-spline-supporting hanger  109 , respectively.   
       11) Multi-height-adjustable carapace stanchion  111 
       is (or are respectively) attached to carapace-supporting-arm intersector  107 .   
       12) Multi-height-adjustable carapace stanchion holes  112 
       is (or are respectively) drilled out of multi-height-adjustable carapace stanchion  111 .   
       13) Carapace-sliding-and-tilting multi-orienting snap-locking handle system  113 
       is (or are respectively) connected by the combined connections of its components.   
       14) Carapace-tilting-and-multi-orienting snap-locking handle  114 
       is (or are respectively) vertically and lockably slid on multi-height-adjustable carapace stanchion  111 .   
       15) Snap-locking trigger  115 
       is (or are respectively) movably attached to carapace-tilting-and-multi-orienting snap-locking handle  114 .   
       16) Snap-locking-trigger pin  116 
       is (or are respectively) is springably attached to carapace-tilting-and-multi-orienting snap-locking handle  114 .   
       17) Snap-locking-trigger spring  117 
       is (or are respectively) movably associated with, and between carapace-tilting-and-multi-orienting snap-locking handle  114  and snap-locking-trigger pin  116 .   
       18) Hand-grip opening  118 
       is (or are respectively) formed into carapace-tilting-and-multi-orienting snap-locking handle  114 .   
       19) Multi-orientational-spline screw and wing-nut  119 
       is (or are respectively) screwed through multi-orientational-spline holes  120 .   
       20) Multi-orientational-spline holes  120 
       is (or are respectively) drilled out of carapace-tilting-and-multi-orienting snap-locking handle  114 .   
       21) Three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
       is (or are respectively) connected by the combined connections of its components.   
       22) Crown disk  122 
       is (or are respectively) attached atop upper hub  125 .   
       23) Interchangeable splines  123 
       is (or are respectively) hingedly attached to upper hub  125  and spline-rib hinging intersectors  124  and spline-actuating-and-supporting ribs  131 .   
       24) Spline-rib hinging intersectors  124 
       is (or are respectively) hingedly attached to interchangeable splines  123 .   
       25) Upper hub  125  is (or are respectively)
       is mounted atop center-support tube  126  and hingedly attached to interchangeable splines  123 .   
       26) Center-support tube  126 
       is (or are respectively) attached between upper hub  125  and shuttle hub  130 .   
       27) Spline-intersector channels  127 
       is (or are respectively) attached below center-support tube  126 .   
       28) Intersector-to-spline screws and holes  128 
       is (or are respectively) attached atop intersector-to-supporting-rib screws and holes  129 .   
       29) Intersector-to-supporting-rib screws and holes  129 
       is (or are respectively) attached between Intersector-to-spline screws and holes  128  and shuttle hub  130 .   
       30) Shuttle hub  130 
       is (or are respectively) attached below intersector-to-supporting-rib screws and holes  129  and hingedly attached to spline-actuating-and-supporting ribs  131 .   
       31) Spline-actuating-and-supporting ribs  131 
       is (or are respectively) hingedly attached between spline-rib hinging intersectors  124  and shuttle hub  130 , and shuttle hub  130  to spline-actuating-and-supporting ribs  131 .   
       32) Hub screws  132 
       is (or are respectively) hingedly secured interchangeable splines  123  to upper hub  125 .   
       33) Multi-spline-interchangeable-hanger-attachment holes  133 
       is (or are respectively) drilled through interchangeable splines  123 .   
       34) Multi-orientational-spline-attachment holes  134 
       is (or are respectively) drilled through interchangeable splines  123 . 35) Carapace-perimeter-securing-screw holes  135     is (or are respectively) drilled into interchangeable splines  123 . 36) Slide-lock buckle eyelet  136     is (or are each) attached to storage strap  138 . 37) Slide-lock buckle button  137     is (or are each) attached to storage strap  138 . 38) Storage strap  138     is (or are each) attached to slide-lock buckle eyelet  136  and slide-lock buckle button  137 .   
       

     Function 
     Referring to  FIG. 8A ,  FIG. 8B ,  FIG. 8C ,  FIG. 8D ,  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10B ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F ,  FIG. 10G ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B ,  FIG. 12C ,  FIG. 13A ,  FIG. 13B ,  FIG. 13C ,  FIG. 13D ,  FIG. 13E ,  FIG. 13F ,  FIG. 13G ,  FIG. 1311 ,  FIG. 13I ,  FIG. 13J ,  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D ,  FIG. 14E ,  FIG. 14F ,  FIG. 14G ,  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K ,  FIG. 14L ,  FIG. 14M ,  FIG. 14N ,  FIG. 14O ,  FIG. 14P ,  FIG. 14Q ,  FIG. 14R ,  FIG. 14S , and  FIG. 14T :
     1) Three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  is (or are respectively) for performing the combined functions of its components.   2) Three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  is (or are respectively) for:
       a) Covering the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
           in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
           b) Requiring a single cut only during manufacturing process, to save labor
           (see  FIG. 7B );   
           c) Requiring a single cut only during manufacturing process, to save machinery and tooling cost;   d) Requiring a single cut only during manufacturing process, to save time
           (see  FIG. 6  and  FIG. 7B );   
           e) Requiring no stitching during manufacturing process, to save labor
           (see  FIG. 6 , and  FIG. 7B );   
           f) Requiring no stitching during manufacturing process, to save machinery and tooling cost
           (see  FIG. 6 , and  FIG. 8A );   
           g) Requiring no stitching during manufacturing process, to save time;   h) Providing means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
           in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
           i) Conforming three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ;   j) Providing means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123     k) Acting as a cistern for irrigation
           (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
           l) Acting as a water-diverting gutter
           (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
           m) Acting as a falling-fruit-catching device
           (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
           n) Acting as a falling-nut catching device
           (see  FIG. 14M );   
           o) Acting as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
           (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
           p) Acting as a golf-ball-catching, -blocking and/or -collecting device
           (see  FIG. 14F  and  FIG. 14G );   
           q) Acting as a free-standing projector screen
           (see  FIG. 14O  and  FIG. 14P );   
           r) Acting as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
           to secure items within a truck bed   (see  FIG. 14T );   
           s) Acting as a shade cover when attached to a utility hole of a truck bed side to provide shade to occupants
           (see  FIG. 14N );   
           t) Acting as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
           (see  FIG. 14Q  and  FIG. 14R ); and   
           u) Acting as a tow-hitch mountable projector screen
           (see  FIG. 14S ).   
           
       3) At least one first three-dimensional-contour-conforming carapace dome panel  103   a  is (or are respectively) for:
       a) Covering three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ;   b) Covering the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
           (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
           c) Requiring a single cut only during manufacturing process, to save labor in the direction of arrow  139 
           (see  FIG. 7B );   
           d) Requiring a single cut only during manufacturing process, to save machinery and tooling cost in the direction of arrow  139 
           (see  FIG. 8A );   
           e) Requiring a single cut only during manufacturing process, to save time
           (see  FIG. 6  and  FIG. 7B );   
           f) Requiring no stitching during manufacturing process, to save labor
           (see  FIG. 6  and  FIG. 7B );   
           g) Requiring no stitching during manufacturing process, to save machinery and tooling cost
           (see  FIG. 6  and  FIG. 8A );   
           h) Requiring no stitching during manufacturing process, to save time;   i) Providing means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
           in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
           j) Conforming three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ;   k) Providing means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 ;   l) Acting as a cistern for irrigation
           (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
           m) Acting as a water-diverting gutter
           (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
           n) Acting as a falling-fruit-catching device
           (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
           o) Acting as a falling-nut catching device
           (see  FIG. 14M );   
           p) Acting as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
           (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
           q) Acting as a golf-ball-catching, -blocking and/or -collecting device
           (see  FIG. 14F  and  FIG. 14G );   
           r) Acting as a free-standing projector screen
           (see  FIG. 14O  and  FIG. 14P );   
           s) Acting as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
           to secure items within a truck bed
               (see  FIG. 14T );   
               
           t) Acting as a shade cover when attached to a utility hole of a truck bed side
           to provide shade to occupants
               (see  FIG. 14N );   
               
           u) Acting as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
           (see  FIG. 14Q  and  FIG. 14R ); and   
           v) Acting as a tow-hitch mountable projector screen
           (see  FIG. 14S ).   
           At least one second three-dimensional-contour-conforming carapace dome panel  103   b  is (or are respectively) for:
           a) Covering three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 .   b) Covering the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  in the direction of arrow  139 
               (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               c) Requiring a single cut only during manufacturing process, to save labor in the direction of arrow  139 
               (see  FIG. 7B );   
               d) Requiring a single cut only during manufacturing process, to save machinery and tooling cost;   e) Requiring a single cut only during manufacturing process, to save time
               (see  FIG. 6 );   
               f) Requiring no stitching during manufacturing process, to save labor
               (see  FIG. 6  and  FIG. 7B );   
               g) Requiring no stitching during manufacturing process, to save machinery and tooling cost
               (see  FIG. 6  and  FIG. 7B );   
               h) Requiring no stitching during manufacturing process, to save time;   i) Providing means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 ;   j) Conforming three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   k) Providing means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 ;   l) Acting as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               m) Acting as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               n) Acting as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               o) Acting as a falling-nut catching device
               (see  FIG. 14M );   
               p) Acting as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
               q) Acting as a golf-ball-catching, -blocking and/or -collecting device
               (see  FIG. 14F  and  FIG. 14G );   
               r) Acting as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               s) Acting as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14T );   
                   
               t) Acting as a shade cover when attached to a utility hole of a truck bed side
               to provide shade to occupants
                   (see  FIG. 14N );   
                   
               u) Acting as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               v) Acting as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           At least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c  is (or are respectively) for:
           a) Converging rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables
                   in the directions of arrows  156  and  157     (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Converging harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Converging harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested fruits to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Converging catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Directing collected water away from patios and balconies
               to keep property and occupants dry
                   in the direction of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Distributing collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the direction of arrow  156     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Directing collected fruit to a storage container
               to easily gather harvested fruit
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Directing collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Directing collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the directions of arrows  151   a  and  151   b      (see  FIGS. 13A and 13B );   
                   
               j) Directing collected golf balls to a storage container
               to easily gather golf balls
                   in the directions of arrows  152   a  and  152   b      (see  FIGS. 13C and 13D ); and   
                   
               k) Securely connecting at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           At least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d  is (or are respectively) for:
           a) Converging rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables
                   in the directions of arrows  156  and  157     (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Converging harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Converging harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested fruits to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Converging catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Directing collected water away from patios and balconies
               to keep property and occupants dry
                   in the direction of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Distributing collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the direction of arrow  156     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Directing collected fruit to a storage container
               to easily gather harvested fruit
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Directing collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Directing collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the direction of arrow  151     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               j) Directing collected golf balls to a storage container
               to easily gather golf balls
                   in the directions of arrows  152     (see  FIGS. 14F and 14G ); and   
                   
               k) Securely connecting at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           
       4) Perimeter-contour-conforming carapace edge  104  is (or are respectively) for:
       a) Stretching at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and at least one second three-dimensional-contour-conforming carapace dome panel  103   b  over three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ;   b) Covering the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
           (see  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
           c) Conforming three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
           (see  FIG. 6 ); and   
           d) Providing means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
           (see  FIG. 5  and  FIG. 6 ).   
           
       5) Carapace-perimeter-securing screws  105  is (or are respectively) for:
       Securing the perimeter of three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
           (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A ).   
           
       6) Multi-height-adjustable and spline-supporting stanchion system  106  is (or are respectively) for performing the combined functions of its components   7) Carapace-supporting-arm intersector  107  is (or are respectively) for:
       Supporting carapace-supporting-arm  108 .   
       8) Carapace-supporting-arm  108  is (or are respectively) for:
       Supporting multi-orientation-spline-supporting hanger  109 .   
       9) Multi-orientation-spline-supporting hanger  109  is (or are respectively) for:
       Supporting and providing means of attachment to three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 .   
       10) Multi-orientation-spline-supporting-hanger screw and hole  110  is (or are respectively) for:
       Providing means of attaching multi-orientation-spline-supporting hanger  109  to interchangeable splines  123 
           (see  FIG. 10B, 10C , and  FIG. 10D ).   
           
       11) Multi-height-adjustable carapace stanchion  111  is (or are respectively) for:
       Providing vertical support to carapace-supporting-arm intersector  107 , and means of vertically sliding carapace-sliding-and-tilting multi-orienting snap-locking handle system  113  upon.   
       12) Multi-height-adjustable carapace stanchion holes  112  is (or are respectively) for:
       a) Providing means to vertically adjust, at certain predetermined positions, the height of carapace-sliding-and-tilting multi-orienting snap-locking handle system  113 
           in the directions of arrows  140   a ,  140   b ,  141   a , and  141   b      (see  FIG. 7A ,  FIG. 8B ,  FIG. 8C , and  FIG. 8D ); and   
           b) Providing means to insert snap-locking-trigger pin  116 .
           (see  FIG. 7A  and  FIG. 9A ).   
           
       13) Carapace-sliding-and-tilting multi-orienting snap-locking handle system  113  is (or are respectively) for performing the combined functions of its components   14) Carapace-tilting-and-multi-orienting snap-locking handle  114  is (or are respectively) for:
       Providing means to vertically slide hand-grip opening  118  to variable heights.   
       15) Snap-locking trigger  115  is (or are respectively) for:
       Providing means to lock and unlock snap-locking-trigger pin  116  to multi-height-adjustable carapace stanchion holes  112 .
           (see  FIG. 7A ,  FIG. 8B ,  FIG. 8C ,  FIG. 8D , and  FIG. 9A ).   
           
       16) Snap-locking-trigger pin  116  is (or are respectively) for:
       Inserting and de-inserting into multi-height-adjustable carapace stanchion holes  112 
           (see  FIG. 7A  and  FIG. 9A ).   
           
       17) Snap-locking-trigger spring  117  is (or are respectively) for:
       Creating tension to temporarily insert and lock snap-locking-trigger pin  116  into multi-height-adjustable carapace stanchion holes  112 
           (see  FIG. 8B ,  FIG. 8C ,  FIG. 8D , and  FIG. 9A ).   
           
       18) Hand-grip opening  118  is (or are respectively) for:
       Providing a space for inserting a human hand to thereby access the snap-locking trigger  115 
           (see  FIG. 9A ).   
           
       19) Multi-orientational-spline screw and wing-nut  119  is (or are respectively) for:
       hingedly securing interchangeable splines  123  to hand-grip opening  118 
           (see  FIG. 9A  and  FIG. 10A ).   
           
       20) Multi-orientational-spline holes  120  is (or are respectively) for:
       a) Providing means to insert multi-orientational-spline screw and wing-nut  119  to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation
           in the directions of arrows  142 ,  143 ,  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
           b) Providing means to rotate three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  side to side
           in the directions of arrows  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10B ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
           c) Providing means to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation
           in the directions of arrows  142 ,  143 ,  144 ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10D ,  FIG. 10F , and  FIG. 10G ); and   
           d) Providing means to hingedly secure multi-orientational-spline screw and wing-nut  119  to multi-orientational-spline holes  120 .   
       21) Three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  is (or are respectively) for performing the combined functions of its components   22) Crown disk  122  is (or are respectively) for:
       Provides a smooth surface for at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and at least one second three-dimensional-contour-conforming carapace dome panel  103   b  to rest upon, in the central-top pressure area, to thereby create a higher central peak, to eliminate rainwater pooling.   
       23) Interchangeable splines  123  is (or are respectively) for:
       a) Providing support for the preferred shape of three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 ;
           in the directions of arrows  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
           b) Providing means to collapse the deployed, large shape of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  for storage
           (see  FIG. 7 b   ,  FIG. 7C , and  FIG. 8A );   
           c) Providing a form for a shape that is desirable for design and aesthetics of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 
           (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
           d) Providing structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter;   e) Providing structural means to tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees from side to side in the directions of arrows  146   a ,  146   b , and  146   c  
           (see  FIG. 10D ,  FIG. 10E , and  FIG. 10F );   
           f) Providing structural means to swing three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees horizontally in the directions of arrow  145   b  
           (see  FIG. 10D ); and   
           g) Providing structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150 
           (see  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C ).   
           
       24) Spline-rib hinging intersectors  124  is (or are respectively) for:
       Providing means to hingedly connect interchangeable splines  123  to spline-actuating-and-supporting ribs  131 .   
       25) Upper hub  125  is (or are respectively) for:
       Providing means to hingedly attach multiple interchangeable splines  123  at a center point of upper hub  125  radius.   
       26) Center-support tube  126  is (or are respectively) for:
       Provides vertical structural support between upper hub  125  and shuttle hub  130 .   
       27) Spline-intersector channels  127  is (or are respectively) for:
       a) Automatically centering interchangeable splines  123 ;   b) Docking with interchangeable splines  123 ;   c) Preventing three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from distorting from cross-wind pressure; and   d) Providing even, centralized pressure against spline-intersector channels  127  when three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  is deployed, to stabilize the three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  structure.   
       28) Intersector-to-spline screws and holes  128  is (or are respectively) for:
       a) Receiving spline-intersector channels  127 ;
           in the directions of arrows  151 ,  152   b ,  152   b , and  153     (see  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
           b) Automatically centering spline-intersector channels  127 
           in the directions of arrows  151 ,  152   b ,  152   b , and  153     (see  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
           c) Preventing three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from distorting from cross-wind pressure; and   d) Providing even, centralized pressure against spline-intersector channels  127  when three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  is deployed, to stabilize the three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  structure.   
       29) Intersector-to-supporting-rib screws and holes  129  is (or are respectively) for:
       Providing means to secure intersector-to-spline screws and holes  128  to shuttle hub  130 .   
       30) Shuttle hub  130  is (or are respectively) for:
       Providing means to hingedly attach multiple interchangeable splines  123  at a center point of shuttle hub  130  radius.   
       31) Spline-actuating-and-supporting ribs  131  is (or are respectively) for:
       a) Supporting interchangeable splines  123 
           in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
           b) Providing means to actuate interchangeable splines  123  for deployment and contraction of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
           in the directions of arrows  143 ,  146   a ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11C , and  FIG. 11D );   
           c) Providing means to form desirable aesthetic shapes of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   d) Providing geometry to deploy three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  into an erect and locked position.   
       32) Hub screws  132  is (or are respectively) for:
       Hingedly securing interchangeable splines  123  to upper hub  125 , and shuttle hub  130  to spline-actuating-and-supporting ribs  131 , respectively.   
       33) Multi-spline-interchangeable-hanger-attachment holes  133  is (or are respectively) for:
       a) Providing means to screw multi-orientation-spline-supporting hanger  109  to interchangeable splines  123 ;   b) Providing multiple holes around semi-circumferences of interchangeable splines  123  to mount multi-orientation-spline-supporting hanger  109  thereby allowing multi-orientation-spline-supporting hanger  109  to be selectively positioned in any of multiple positions
           in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
           c) Providing attachment for structural support to vertically tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   d) Providing attachment for the suspending of no-sew single-cut three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multi-orientation-spline-supporting hanger  109 .   
       34) Multi-orientational-spline-attachment holes  134  is (or are respectively) for:
       a) Providing means to insert multi-orientational-spline screws and wing-nuts  119 , thereby securing interchangeable splines  123  to multi-orientational-spline holes  120 
           in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
           b) Providing multiple holes around circumferences of interchangeable splines  123 , to mount to multi-orientational-spline holes  120 , thereby allowing to be selectively secured in any one of multiple vertical positions; and   c) Providing attachment for the suspending of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from carapace-tilting-and-multi-orienting snap-locking handle  114 
           (see  FIG. 6 ,  FIG. 7B , and  FIG. 8B ).   
           
       35) Carapace-perimeter-securing-screw holes  135  is (or are respectively) for:
       Providing means to carapace-perimeter-securing screws  105  to interchangeable splines  123 
           (see  FIG. 5  and  FIG. 6 ).   
           
       36) Slide-lock buckle eyelet  136  is (or are respectively) for:
       Detachably connecting to slide-lock buckle button  137 .   
       37) Slide-lock buckle button  137  is (or are respectively) for:
       Detachably connecting to slide-lock buckle eyelet  136 .   
       38) Storage strap  138  is (or are respectively) for:
       Attaching slide-lock buckle eyelet  136  to slide-lock buckle button  137 .   
       

     Variation 
     Any component of the five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system can have any shape and size. Any component of the five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system can be made of any material or any combination of any materials. Any component of the five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system can be made of any flexible, semi-flexible, bendable, semi-bendable, rigid, or semi-rigid material(s). Any component of the five-device-in-one multi-function multi-orientation interchangable reversible cantilever-stanchion carapace system can be assembled together in any direction and angle. Any component of the five-device-in-one multi-function multi-orientation interchangable reversible cantilever-stanchion carapace system can be attached to any other component(s) of the five-device-in-one multi-function multi-orientation interchangable reversible cantilever-stanchion carapace system in any direction and angle. Any side of any component of the five-device-in-one multi-function multi-orientation interchangable reversible cantilever-stanchion carapace system can be attached to any side of any other component(s) of the five-device-in-one multi-function multi-orientation interchangable reversible cantilever-stanchion carapace system. For example, no-sew single-cut three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  can have a oval, rectangular, round, triangular, hexagon, concave, or other shape, or may have any number of holes, slits or stitches in any area of the fabric. For another example,  FIG. 15A ,  FIG. 15B ,  FIG. 15C ,  FIG. 15D ,  FIG. 15E ,  FIG. 16A ,  FIG. 16B ,  FIG. 16C ,  FIG. 16D ,  FIG. 16E ,  FIG. 16F ,  FIG. 16G ,  FIG. 16H ,  FIG. 16I ,  FIG. 16J , and  FIG. 16K  depict equivalent variations of three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace systems  101 , respectively. For example, at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and at least one second three-dimensional-contour-conforming carapace dome panel  103   b  can be attached to any side of interchangeable splines  123 . For example, interchangeable splines  123  can be assembled right side up or upside own. For further examples,  FIG. 17A  and  FIG. 17B  illustrate top views of equivalent variations of slide-lock buckle eyelet  136  and slide-lock buckle button  137 , respectively, and can have two or more locking segments, which can also be made from metal, plastic, wood, or any other material, or combinations of materials. 
     Method of Manufacturing and Using 
     A Five-Device-in-One Cantilever-Stanchion Carapace System 
     A method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangable reversible cantilever-stanchion carapace system comprises the steps of: 
     sewing said at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and said at least one second three-dimensional-contour-conforming carapace dome panel  103   b  together such that said at least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting transverse seam  103   c  and said at least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d  are formed therebetween
         for converging rain water therein
           to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging irrigated vegetables,   
           for converging harvested fruits therein
           to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away bruised fruits,   
           for converging harvested nuts therein
           to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested nuts to reduce nut bruises to avoid throwing away bruised nuts,   
           for converging catched balls therein
           to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away damaged balls,   
           for directing rain water therealong,   for directing harvested fruits therealong,   for directing harvested nuts therealong,   for directing game balls therealong,   for forming a collecting cistern to collect rain water to irrigate garden,   for forming a diverting gutter to collect rain water to discharge said rain water away from house balcony and foundation,   for forming a collecting device to collect harvested fruits to save labor and time,   for forming a collecting device to collect harvested nuts to save labor and time,   for forming a collecting device to collect game balls to save labor and time,   for forming a tonneau cover for a truck bed,   for forming a shade cover,   for forming a free-standing projector screen,   for forming a hitch-mountable projector screen, and   for forming a sports-ball blocking device;   attaching said at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to said interchangeable splines  123     for converging rain water therein,   for converging harvested fruits therein,   for converging harvested nuts therein,   for converging catched balls therein,   for guiding rain water down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding fruits down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding nuts down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding balls down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ;       

     attaching said at least one second three-dimensional-contour-conforming carapace dome panel  103   b  to said interchangeable splines  123 
         for converging rain water therein,   for converging harvested fruits therein,   for converging harvested nuts therein,   for converging catched balls therein,   for guiding rain water down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding fruits down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding nuts down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ,   for guiding balls down along said carapace-supporting angled arm  108  and down along said multi-height-adjustable carapace stanchion  111 ;       

     attaching said at least one first outer edges of said at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to said spline ends of said interchangeable splines  123 , respectively; 
     attaching said at least one second outer edges said at least one second three-dimensional-contour-conforming carapace dome panel  103   b  to said spline ends of said interchangeable splines  123 , respectively; 
     adjusting said carapace-supporting-arm angle of said carapace-supporting angled arm  108 ; and locking said carapace-tilting-and-multi-orienting snap-locking handle  114  to said multi-height-adjustable carapace stanchion  111 . 
     Major Advantages of the Invention 
     The present invention substantially departs from the conventional concepts and methods of the prior art. In doing so, the present invention provides a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system (having three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system, multi-height-adjustable and spline-supporting stanchion system, carapace-sliding-and-tilting multi-orienting snap-locking handle system, and multi-orientation interchangeable-spline system), having many unique and significant features, functions, and advantages, which overcome all the disadvantages of the prior art, as follows:
     1) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one water-directing ball-directing fruit-directing dome-bisecting transverse seam  103   c.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can converge rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables
                   in the directions of arrows  156  and  157     (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Can converge harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Can converge harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested nutss to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Can converge catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Can direct collected water away from patios and balconies
               to keep property and occupants dry
                   in the direction of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Can distribute collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the direction of arrow  156     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Can direct collected fruit to a storage container
               to easily gather harvested fruit
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Can direct collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Can direct collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the direction of arrow  151     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               j) Can direct collected golf balls to a storage container
               to easily gather golf balls
                   in the direction of arrow  152     (see  FIGS. 14F and 14G ); and   
                   
               k) Can securely connect at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           
       2) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one water-directing-and-ejecting ball-directing-and-ejecting fruit-directing-and-ejecting cross-cutting seam  103   d.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can converge rain water therein,
               to repeatedly change the direction of rain water to decelerate the flowing speed of rain water to reduce water splash to avoid damaging vegetables
                   in the directions of arrows  156  and  157     (see  FIG. 1B ,  FIG. 1C ,  FIG. 13A ,  FIG. 13B , and  FIG. 13C );   
                   
               b) Can converge harvested fruits therein,
               to repeatedly change the direction of harvested fruits to decelerate the rolling speed of harvested fruits to reduce fruit bruises to avoid throwing away fruits
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIG. 14K , and  FIG. 14L );   
                   
               c) Can converge harvested nuts therein,
               to repeatedly change the direction of harvested nuts to decelerate the rolling speed of harvested nuts to reduce nut bruises to avoid throwing away nuts
                   in the direction of arrow  154     (see  FIG. 14F  and  FIG. 14G );   
                   
               d) Can converge catched balls therein,
               to repeatedly change the direction of catched balls to decelerate the rolling speed of catched balls to reduce ball damages to avoid throwing away balls
                   in the directions of arrows  151  and  152     (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
                   
               e) Can direct collected water away from patios and balconies
               to keep property and occupants dry
                   in the direction of arrow  158     (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 13H );   
                   
               f) Can distribute collected water onto crops when attached to the utility holes of a pickup truck
               to keep crops irrigated
                   in the direction of arrow  156     (see  FIG. 13A ,  FIG. 13B ,  FIG. 13C , and  FIG. 13D );   
                   
               g) Can direct collected fruit to a storage container
               to easily gather harvested fruit
                   in the direction of arrow  153     (see  FIG. 14H ,  FIG. 14I ,  FIG. 14J ,  FIGS. 14K, and 14L );   
                   
               h) Can direct collected nuts to a storage container
               to easily gather harvested nuts
                   in the direction of arrow  154     (see  FIG. 14M );   
                   
               i) Can direct collected whiffle balls to a storage container
               to easily gather whiffle balls
                   in the direction of arrow  151     (see  FIGS. 13A and 13B );   
                   
               j) Can direct collected golf balls to a storage container
               to easily gather golf balls
                   in the direction of arrow  152     (see  FIG. 14F  and  FIG. 14G ); and   
                   
               k) Can securely connect at least one first three-dimensional-contour-conforming carapace dome panel  103   a  to at least one second three-dimensional-contour-conforming carapace dome panel  103   b  
               (see  FIG. 7B ).   
               
           
       3) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Can require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Can require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Can require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Can require no stitching during manufacturing process, to save time.   g) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               h) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   i) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       4) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 .
       Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Can act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Can act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Can act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Can act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
               f) Can act as a golf-ball-catching, -blocking and/or -collecting device
               (see  FIG. 14F  and  FIG. 14G );   
               g) Can act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Can act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14T );   
                   
               i) Can act as a shade cover when attached to a utility hole of a truck bed side
               to provide shade to occupants
                   (see  FIG. 14N );   
                   
               j) Can act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Can act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       5) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one first three-dimensional-contour-conforming carapace dome panel  103   a.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Can require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Can require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Can require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Can require no stitching during manufacturing process, to save machinery and tooling cost
               (see  FIG. 6 , and  FIG. 8A );   
               g) Can require no stitching during manufacturing process, to save time;   h) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105  in the direction of arrow  139 
               (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               i) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   j) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       6) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one first three-dimensional-contour-conforming carapace dome panel  103   a.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Can act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Can act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Can act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Can act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
               f) Can act as a golf-ball-catching, -blocking and/or -collecting device
               (see  FIG. 14F  and  FIG. 14G );   
               g) Can act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Can act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14T );   
                   
               i) Can act as a shade cover when attached to a utility hole of a truck bed side
               to provide shade to occupants
                   (see  FIG. 14N );   
                   
               j) Can act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Can act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       7) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one second three-dimensional-contour-conforming carapace dome panel  103   b.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can require a single cut only during manufacturing process, to save labor
               (see  FIG. 7B );   
               c) Can require a single cut only during manufacturing process, to save machinery and tooling cost;   d) Can require a single cut only during manufacturing process, to save time
               (see  FIG. 6  and  FIG. 7B );   
               e) Can require no stitching during manufacturing process, to save labor
               (see  FIG. 6 , and  FIG. 7B );   
               f) Can require no stitching during manufacturing process, to save machinery and tooling cost
               (see  FIG. 6 , and  FIG. 8A );   
               g) Can require no stitching during manufacturing process, to save time;   h) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 , and  FIG. 8A );   
               i) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ; and   j) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123 .   
           
       8) It is an object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       at least one second three-dimensional-contour-conforming carapace dome panel  103   b.      Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can act as a cistern for irrigation
               (see  FIG. 13D ,  FIG. 13I , and  FIG. 13J );   
               b) Can act as a water-diverting gutter
               (see  FIG. 13E ,  FIG. 13F ,  FIG. 13G , and  FIG. 14H );   
               c) Can act as a falling-fruit-catching device
               (see  FIG. 14H ,  FIG. 13I ,  FIG. 13J ,  FIG. 13K , and  FIG. 13L );   
               d) Can act as a falling-nut catching device
               (see  FIG. 14M );   
               e) Can act as a whiffle ball and/or badminton shuttlecock catching and/or collecting device
               (see  FIG. 14A ,  FIG. 14B ,  FIG. 14C ,  FIG. 14D , and  FIG. 14E );   
               f) Can act as a golf-ball-catching, -blocking and/or -collecting device
               (see  FIG. 14F  and  FIG. 14G );   
               g) Can act as a free-standing projector screen
               (see  FIG. 14O  and  FIG. 14P );   
               h) Can act as a truck-bed tonneau cover when attached to a utility hole of a truck bed side
               to secure items within a truck bed
                   (see  FIG. 14T );   
                   
               i) Can act as a shade cover when attached to a utility hole of a truck bed side
               to provide shade to occupants
                   (see  FIG. 14N );   
                   
               j) Can act as a whiffle ball and/or badminton shuttlecock blocking and/or deflecting device
               (see  FIG. 14Q  and  FIG. 14R ); and   
               k) Can act as a tow-hitch mountable projector screen
               (see  FIG. 14S ).   
               
           
       9) It is another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       perimeter-contour-conforming carapace edge  104 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can stretch at least one first three-dimensional-contour-conforming carapace dome panel  103   a  and at least one second three-dimensional-contour-conforming carapace dome panel  103   b  over three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 ;   b) Can cover the perimeter of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               (see  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               c) Can conform three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  to the shape of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               (see  FIG. 6 ); and   
               d) Can provide means to tighten three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102  on interchangeable splines  123  being attaching by carapace-perimeter-securing screws  105 
               (see  FIG. 5  and  FIG. 6 ).   
               
           
       10) It is another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       multi-orientational-spline holes  120 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide means to insert multi-orientational-spline screw and wing-nut  119  to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation
               in the directions of arrows  142 ,  143 ,  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
               b) Can provide means to rotate three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  side to side in the directions of arrows  144 ,  145   a ,  145   b ,  146   a ,  146   b , and  146   c  
               (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10B ,  FIG. 10C ,  FIG. 10D ,  FIG. 10E ,  FIG. 10F , and  FIG. 10G );   
               c) Can provide means to lock three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  into multiple positions of rotation
               in the directions of arrows  142 ,  143 ,  144 ,  146   a ,  146   b , and  146   c      (see  FIG. 9A ,  FIG. 9B ,  FIG. 10A ,  FIG. 10D ,  FIG. 10F , and  FIG. 10G ); and   
               d) Can provide means to hingedly secure multi-orientational-spline screw and wing-nut  119  to multi-orientational-spline holes  120 .   
           
       11) It is a further object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       interchangeable splines  123 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide support for the preferred shape of three-hundred-and-sixty-degree-orientational-spline-interchangeable carapace  102 ;
               in the direction of arrow  139     (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               b) Can provide means to collapse the deployed, large shape of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  for storage
               (see  FIG. 7 b   ,  FIG. 7C , and  FIG. 8A );   
               c) Can provide a form for a shape that is desirable for design and aesthetics of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 
               (see  FIG. 5 ,  FIG. 6 ,  FIG. 7B ,  FIG. 7C , and  FIG. 8A );   
               d) Can provide structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter;   e) Can provide structural means to tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees from side to side; and
               in the directions of arrows  146   a ,  146   b , and  146   c      (see  FIG. 10D ,  FIG. 10E , and  FIG. 10F );   
               f) Can provide structural means to swing three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  in multiple degrees horizontally; and
               in the direction of arrow  145   b      (see  FIG. 10D ); and   
               g) Can provide structural means to support three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multiple positions along the outer perimeter.
               in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C ).   
               
           
       12) It is an even further object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       spline-actuating-and-supporting ribs  131 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can support interchangeable splines  123 
               in the directions of arrows  143 ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               b) Can provide means to actuate interchangeable splines  123  for deployment and contraction of three-hundred-and-sixty-degree-orientational interchangeable-spline system  121 
               in the directions of arrows  143 ,  146   a ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11C , and  FIG. 11D );   
               c) Can provide means to form desirable aesthetic shapes of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   
           d) Can provide geometry to deploy three-hundred-and-sixty-degree-orientational interchangeable-spline system  121  into an erect and locked position.   
       13) It is another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       multi-spline-interchangeable-hanger-attachment holes  133 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide means to screw multi-orientation-spline-supporting hanger  109  to interchangeable splines  123 ;   b) Can provide multiple holes around semi-circumferences of interchangeable splines  123  to mount multi-orientation-spline-supporting hanger  109  thereby allowing multi-orientation-spline-supporting hanger  109  to be selectively positioned in any of multiple positions
               in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150     (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               c) Can provide attachment for structural support to vertically tilt three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101 ; and   d) Can provide attachment for the suspending of no-sew single-cut three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from multi-orientation-spline-supporting hanger  109 .   
           
       14) It is yet another object of the new invention to provide a method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system, having
       multi-orientational-spline-attachment holes  134 .   Therefore, the method of manufacturing and using a five-device-in-one multi-function multi-orientation interchangeable reversible cantilever-stanchion carapace system:
           a) Can provide means to insert multi-orientational-spline screws and wing-nuts  119 , thereby securing interchangeable splines  123  to multi-orientational-spline holes  120 
               in the directions of arrows  143 ,  145   a ,  145   b ,  146   a ,  146   b ,  146   c ,  147 ,  148 ,  149 , and  150  (see  FIG. 9A ,  FIG. 10A ,  FIG. 11 ,  FIG. 12A ,  FIG. 12B , and  FIG. 12C );   
               b) Can provide multiple holes around circumferences of interchangeable splines  123 , to mount to multi-orientational-spline holes  120 , thereby allowing to be selectively secured in any one of multiple vertical positions; and   c) Can provide attachment for the suspending of three-hundred-and-sixty-degree-orientational spline-interchangeable carapace system  101  from carapace-tilting-and-multi-orienting snap-locking handle  114 
               (see  FIG. 6 ,  FIG. 7B , and  FIG. 8B ).