Patent Abstract:
A lifting bag having at least one side wall and a closed bottom forming an interior, the bag further having a closable top portion connected to the sidewall and adapted to close the interior of the bag. The opening is a single slit centered on the bag top and closable with a zipper. The lifting bag includes a sling coupled to the bag, generally through a edge strip positioned at ore near the top edge of the bag. The bag can be constructed from a single multilayered sheet. The bag is used in conjunction with a lifting strap system.

Full Description:
[0001]     This application is a continuation of PCT/US06/31369 filed on Aug. 11, 2006 and is a continuation in part of PCT/US06/06662 filed on Feb. 24, 2006 which claimed priority to U.S. provisional application No. 60/657,512, filed on Feb. 28, 2005. This application claims the priority benefit of these applications, and which are incorporated by reference herein in their entirety. 
     
    
     TECHNICAL FIELD  
       [0002]     This invention relates to large lifting bags for lifting and transporting hazardous or radioactive materials.  
       BACKGROUND ART  
       [0003]     Transportation of bulk materials in the United States is regulated by the United States Department of Transportation, particularly for transportation of hazardous or radioactive materials. See 49 CFR pt. 173 (incorporated by reference). In particular, containers for transportation of hazardous and radioactive materials are required to meet certain design safety criteria. See generally, 49 CFR 173 subpart I. Certain packaging design guidelines for Industrial Packaging, Types 1, 2, or 3, or Type A package (see 40 CFR 173.403) are specified in 49 CFR 410-411. Transportation of bulk materials is similarly regulated in Europe and elsewhere. Bags designed to large scale storage and transportation are typically adapted to carry loads in excess of 10000 pounds.  
         [0004]     The United States guidelines specify testing requirements that packaging must undergo to be certified as meeting the guidelines. See 49 CFR 173.465. Included in the testing procedures are a free drop test, and a stacking test. The free drop test requires a package to be loaded or filled to its design weight capacity and dropped from a specific height (1-4 feet, depending on design weight) and to maintain structural integrity after impact. The stack test requires a loaded package to be subject to a compressive load of five times the actual capacity weight of the package. Such testing requirements place substantial restrictions on possible construction of the packaging. For packaging that comprises a flexible bag capable of being lifted when loaded, the drop test and stack test present heavy design hurdles. One possible flexible bag design is shown in U.S. Pat. No. 6,142,727 (the &#39;727 patent), attached hereto and made a part hereof, in its entirety.  
         [0005]     The lifting bag in the &#39;727 patent has several drawbacks. First, the lifting straps are attached to the outer cover of the bag, which places stress on the outer cover during lifting operations. Second, the lifting straps encircle the bottom of the bag in an even rectangular grid, which results in an even distribution of weight during lifting provided the lifting forces are evenly distributed. If the lifting forces are not evenly distributed, the bag is subject to torsional forces and the rectangular webbing support grid on the bottom of the bag will not sufficiently compensate for these twisting forces, resulting in bag deformation and unnecessary stress, particularly on the bag seams. Further, an uneven load distribution within the bag can result in torsional forces despite the application of evenly applied lifting forces. Finally, the bag employs a complex flap folding procedure to seal the bag, which is cumbersome and time consuming.  
         [0006]     Another lifting bag design is that disclosed in PCT/US06/06662 (the &#39;662 application, hereby incorporated by reference in its entirety). This design uses a bottom support and side support lifting apparatus, where the support members are generally webbing or ropes, and is attached to the bag at designated locations, either on the bottom or the sides, but not the bag top portion. The bag can be constructed from a series of panels. While the bag design is less complicated that that of the &#39;727 patent, construction can be arduous and time consuming.  
       SUMMARY OF THE INVENTION  
       [0007]     A lifting bag including a lifting strap system designed to carry substantial loads. The lifting strap system may be detached from the bag but coupled to the bag, particularly, detached near the bag top portion. The lifting system can be one piece or a two piece unit. The lifting bag has a edge strip attached to or near the top edge to allow for placement of the lifting strap system. One of the bags that can be used has a top center zipper, and can be constructed from a single sheet of fabric. To open the bag, the zipper is unzipped and the top portion of the bag is inverted and placed over the frame or container. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0008]      FIG. 1  is a perspective view of one embodiment of a lifting bag.  
         [0009]      FIG. 2A  is a plan view of the single sheet construction.  
         [0010]      FIG. 2B  is a plan view of the folded sheet of  FIG. 2A .  
         [0011]      FIG. 2C  is a perspective view of the cylinder formed by joining the sides of the sheet in  FIG. 2B   
         [0012]      FIG. 2D  is a perspective view of the cylinder in  FIG. 2C  which a bottom seam  
         [0013]      FIG. 3A  is a perspective view of the bag of  FIG. 2D  with a flattened bottom.  
         [0014]      FIG. 3B  is a top view of the bag of  FIG. 3A .  
         [0015]      FIG. 3C  is a perspective view of the bag of  FIG. 3   a  with the triangular folds removed.  
         [0016]      FIG. 3D  is a top view of the bag in  FIG. 3C .  
         [0017]      FIG. 4A  is a plan view of the single piece construction removing fabric before assembly.  
         [0018]      FIG. 4B  is a plan view of a two piece construction embodiment having a separate bottom.  
         [0019]      FIG. 4C  is a plan view of a two piece construction using two overlapping panels.  
         [0020]      FIG. 5 a  perspective view of the completed bag of  FIG. 3  with the top zippered closed.  
         [0021]      FIG. 6A  is a perspective view of the competed bag of  FIG. 5  placed in a container with the top zippered closed.  
         [0022]      FIG. 6B  is a perspective view of the completed bag of  FIG. 5  in a container with the top open and inverted.  
         [0023]      FIG. 7  is a perspective view of a two layer single piece construction having two closable tops.  
         [0024]      FIG. 8  is a perspective view of one embodiment of a lifting strap system.  
         [0025]      FIG. 9  is a perspective view of the lifting strap system of  FIG. 8  with an encompassing belly strap.  
         [0026]      FIG. 10 A  is a side view of one embodiment of an edge strip  
         [0027]      FIG. 10 B  is a top view of another embodiment of an edge strip  
         [0028]      FIG. 10C  is a side view of another embodiment of an edge strip.  
         [0029]      FIG. 11  is a perspective view of a completed lifting bag with lifting strap system and a raincap.  
         [0030]      FIG. 12A  is a plan view of the single piece double layered fabric composed showing an inner zipper and outer zipper. The view is an interior facing view.  
         [0031]      FIG. 12B  is a top view showing of a double zippered bag showing the relationship of the zippers. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0032]     Shown in  FIG. 1  is one embodiment of the invention, comprising a lifting bag  1 , constructed to meet IP-2 standards for 24,000 lbs capacity. The bag  1  has two opposing sidewalls  2 ,  3 ; two opposing end walls  4 ,  5 ; a top portion  10 ; and a bottom  20 . As shown, the lifting bag  1  forms a rectangular shaped enclosure (as shown, about 8′×7′×4.5′ or 8′×5.5′×5.5′), having an interior volume, with an open top defined by the upper ends of the end walls and sidewalls. Other bag shapes and sizes are possible, such as a cubical shape or cylindrical shape. As the bag is not self supporting, a frame must be provided to support the bag during loading. A metal or wooden frame can be used, such as shown in FIGS. 5-7 of U.S. Pat. No. 6,142,727, or a bulk container can be used, and all types of support will be considered as “frames.” The bag is positioned in the interior of the frame, and the top portion of the lifting straps  50  (later described) lie over the outside of the frame. The tops of the lifting straps may be secured to the exterior of the frame if desired. Alternatively, the bag may have support loops attached to the exterior to tie to the frame support frame during filling operations to tie the bag to the support structure.  
         [0033]     The bag sidewalls and bottom are constructed of a robust flexible fabric, such as 6.0-18+ oz coated woven (or non-woven) polypropylene or polyethylene, with coated polypropylene being preferred. The coating, if provided, is usually polyethylene (typically 1-3 mil coating). It is preferred that the top also be made of a robust flexible fabric. For strength, the bottom layer may be a multilayer construction. For one particular embodiment, a lifting bag, having two layers of 6.0 oz coated woven polypropylene, or one layer of 6.0 oz woven polypropylene and a second layer of 8 oz woven polypropylene have been utilized (more preferred). The bag may have a separate liner positioned in the interior of the bag (a bag in a bag) with the liner attached to the top of the bag, and if desired, also attached to the four side corners of the bag.  
         [0034]     Various constructions of the enclosure are possible: the sidewalls and end walls may be constructed from a single piece of fabric; the bottom and sidewalls (or bottom and end walls) may each be constructed from a single sheet of fabric, etc. One embodiment uses separate cut pieces or panels of fabric for each wall, bottom and top, with the panels joined by stitching. Alternatively, two pieces of fabric could be overlaid in an “x” or “t” shape creating a double layer for the bottom of the bag. When separate pieces of fabric are used, the pieces can be joined through stitching. Means other than stitching can be utilized to join wall/bottom/top members, such as plastic welding (heat welding, radio frequency welding, etc), adhesion or a combination of means.  
         [0035]     A preferred means of construction is to build the bag from a single fabric sheet  1005  or a single multilayer fabric sheet. The multiple sheets can be coextensive when laid on top of one another, or the innermost fabric can be shorter in height that the outermost fabric if it is not desired to have the top of the resulting bag lined. An additional horizontal layer positioned near the bottom edge can be used to form a reinforced bottom. Other multilayered designs are possible by modifying the laminated structure of a multilayer sheet. For ease of explanation, construction will be described using a single sized multilayer fabric piece, with two side edges  1001 A and  1001 B, a bottom edge  1001 C, and a top edge  1001 D, as shown in  FIG. 2 .  
         [0036]     Using a single fabric piece constructed as described, the resulting assembled bag will have a center opening on the bag top, preferably closable with a zipper  1070 , such as shown in  FIG. 1 . To construct the bag with a zippered opening, one side of a zipper chain  1005  is attached one of the long edges of the fabric, shown in  FIG. 2A , at the top edge. Generally, a sewn attachment is preferred forming a seam. It is preferred that the edges of the fabric on the seam be folded over about 0.5-2 inches to create extra strength at the seam. This overlap is desired for all seams on the bag.  
         [0037]     Also attached lengthwise and parallel to the half zipper chain is a edge strip  1006 . In the present embodiment, this strip is positioned so that when the bag is complete, the edge strip  1006  is positioned at or near the top edge of the completed bag. As shown the strip is a single strip of fabric, here a strip of 2″ wide polyester webbing. The edge strip may be several discontinuous strips place only where needed to couple to the lifting straps in the lifting strap system, as later described. Other positions of the edge strip on the bag sides may be desired or additional edge strips may be included on the bag sides as needed (e.g. a strip positioned near the bag sidewall center or bag sidewall bottom edge). The edge strip  1006  is preferred but can be eliminated depending upon the type of lifting system used to lift a loaded bag, as later described. If the edge strip is not used, it is still desired, in a multilayered fabric embodiment, to place a stitch along a horizontal line at or near the location that will become the top edge of the completed bag. Such a stitch or join will keep the inner liner material from separating or sagging away from the outer material.  
         [0038]     For instance, to form an 8′4″×8′10′ bag, a single or multilayer fabric piece of 12×14′6′ fabric is used. To construct the bag, the single piece of bag fabric  1001  has the two ends  1001 A and  1001 B joined together, creating an opened top and bottom oblong cylinder  FIG. 2C . The bottom edge of the cylinder  1001 C (the edge opposite that having the zipper edge) is closed by attaching (preferably a sewn attachment) the opposing sides of the bottom edge of the cylinder (e.g. flatten the cylinder, creating two opposed sides, and attach the opposed sides). See  FIG. 2D . The resulting structure resembles an open end toothpaste tube, with a seam  1008  running across the tube&#39;s bottom  1 , and up one side  1007 . It is preferred that the tube like structure be created in a single step: the fabric piece  1001  is folded to align edges  1001 A and  1001 B, and a join (such as by sewing) edges  1001 A and  100 B together, and the opposing sides of the folded bottom edge  1001 C joined together, creating a bottom seam  1008  and single side seam  1007  (see  FIG. 2B ).  
         [0039]     To create a rectangular shaped boxlike structure from this closed bottom cylinder the closed end of the tube structure is flattened inwardly, with excess bottom fabric forming two triangular shaped flaps  1010 A and  1010 B that extend outwardly from the tube bottom (see  FIGS. 3A and 3B ). It is preferred that the triangular folds  1010 A and  1010 B be formed so that the bottom seam or join  1008  forms the perpendicular bisector of the triangular flaps  1010 A and B (see  FIG. 3B ). Each triangular flap  1010 A and  1010  B is cut or sheared off and the cut edges joined (preferably by sewing) creating two bottom edge seams,  1011 A and  1011 B. The resulting structure now approximates a rectangular shaped open top box structure, having two long sidewalls  1020 , two shorter end walls  1030  and a bottom  1040 . See  FIG. 3C . As seen in  FIG. 3D , the bottom of the structure has a seam running down the center of the bottom  1008  and along the two edges of the bottom  1031  adjacent the end walls. In the preferred embodiment, one of the end walls  1030  has a seam  1007  running from the top to the bottom edge. See  FIG. 3C . The fabric  1050  that will form these triangular folds can be removed or excised from the single fabric piece prior to assembly (such as shown in  FIG. 4A ), but this is not preferred, as it makes seam alignment during construction more critical for quality control. Alternatively, instead of removing these triangular folds, the triangular folds could be folded up and attached to the end walls or folded down and attached to the bottom of the bag. In this fashion, an open top boxlike structure is constructed from a single fabric piece.  
         [0040]     Alternatively, this same structure may be formed from two fabric pieced, the fist fabric piece forming the sidewalls of the structure having the ½ zipper chain  1005  attached and edge strip  1006  attached. A separate bottom is then sewn in, such as shown in  FIG. 4   b . Alternatively, two intersecting pieces of fabric can be used having sections of edge strip  1006  and ½ zipper chain attached ( FIG. 4B ).  
         [0041]     The next step is to form the top of the bag. Along the open top edge  1001 D of the boxlike structure  1060  is the single side of a zipper chain  1005 . The opposing sides of the open top are now operationally joined into a closable opening by attaching a zipper slide to the two half zipper chains, creating a functional zipper  1070 . Two sipper slides may be added if desired. Zipper stops at added at the two opposing terminal ends of the zipper to maintain the zipper slide on the resulting zipper  1070 . A zipper stop may simply be sewing the two ½ chains together, or otherwise fixing the two ½ chains together to keep the slide from sliding off the terminal ends, or can be a metal or plastic lug positioned at the end of each ½ chain to prevent the slide form exiting off the ½ chain. A #10 nylon coil zipper has been employed. The zippered top, when closed, again creates a toothpaste tube-like top end. The top end is pushed inwardly, again creating two triangular folds  1060 A and  1060 B on the top  1080  of the box shaped bag with the zipper bisecting the two triangular folds. See  FIG. 5 . As shown in  FIG. 5 , boxlike bag structure now has the edge strip  1006  positioned adjacent or near the top periphery of the edge forming the top portion  1080  of the bag.  
         [0042]     These top triangular flaps  1060 A ands  1060 B are designed to allow the top, when unzipped along the centerline, to be inverted “inside out” thereby allowing the top portion  1080  to be folded over the edges of the container or frame that the bag is placed in, thereby exposing the interior of the bag. The exposed opening is substantially aligned with the open top of the container or frame, allowing loading anywhere along the periphery of the container or frame. See  FIGS. 6 A  and B showing a container with bag placed inside. As described, the top opening of the bag has a zipper to closure device, but other closure means could be used, such as straps, ties, loops, Velcro, etc. As described, the bag is rectangular shaped, but the bag can be a square boxlike structure, or adapted to fix almost any container shape as the bag is manufactured from flexible fabric. For instance, for a cylindrical shaped container, the general design described above will work, but the bottom end may not be modified beyond creation of the toothpaste tube type bottom.  
         [0043]     When used for construction debris, the bag may include an inner liner  30 , lining all or part of the interior. One liner  30  is constructed from 6 to 12 oz non-woven polypropylene fabric (12 oz being most preferred with a 24,000 lb capacity bag). Alternatively, a liner can be constructed in multiple layers of differing fabrics or materials for strength, puncture resistance or other desired physical properties. It may be desired to reinforce the bag bottom against tearing, in which event a bottom panel can be glued or otherwise directly attached to the exterior bag bottom as a reinforcing patch, or an extra layer of fabric sized to accommodate the resulting bottom can be sewn on the one-piece sheet design in the appropriate location. Inner liner may have a separate zipper attached distinct from the topmost zipper.  
         [0044]     When two zippers are used, the liner and exterior fabric can be attached at the zippers, at the edge strip  1006 , or between the edge strip and the zippers, or a combination. If only joined or attached at the edge strip, the liner and exterior fabric remain as separate flaps above the edge strip. Each can have a half zipper chain  1005 A and  1005 B attached, as shown in  FIG. 7A . The liner may be cut slightly shorter (2-4 inches) then the topmost fabric (the “topmost” fabric is that fabric that will form the exterior facing fabric), making it easier for the liner and outer fabric to be zippered shut separately. If it is desired that the inner and outer fabric be joined along the top edge, the two can be seamed together above the edge strip. Alternatively, both inner and outer lining can be joined together when the ½ chain zipper is added if the inner liner is cut shorter (1-2 inches) or the inner zipper ½ chain  2050  is attached about 1-2 inches below the top edge (see  FIGS. 12 A  and B). The separation of the inner ½ chain zipper  2050  from the outer ½ chain zipper  2060  provides enough freedom between the two zippers on the assembled bag to allow closure of the inner then closure of the outer completed zipper.  
         [0045]     This sheet constructed bag can be used with any lifting strap system know in the art, including a system of intersecting webbing straps are attached to the bag sidewalls, end walls or the bottom of the bag. For instance, the above describe one piece bag can be used with the lifting strap system described in the &#39;727 patent. In this instance, the 5 strap 3 strap pattern intersect at right angles on the bag bottom and the straps are continuously attached on the bottom and walls of the bag, and extend above the bag for lifting. Alternatively, and more preferred, the lifting straps or webbing can be attached to the bag but left “detached” from the bag near the half portion of the bag, to prevent undue stress on the exterior surface of the bag during lifting operations. IAs described in the &#39;662 application, retention loops can be used to position the lifting straps on the exterior surface of the bag, as shown in FIGS. 1-3 of the &#39;662 application.  
         [0046]     Additionally, the one piece bag can be used with a split lifting strap system having a side lifting portion and a bottom lifting portion as described in the &#39;662 application, where the side or bottom portions can be attached either on the lower sidewalls or the bottom of the bag, or both. Again, it is preferred that the lifting strap system be detached from the exterior surface of the bag near the top portion of the bag. However, attaching the lifting strap system directly to the bag, such as by sewing (as described in the &#39;727 patent) or attaching the lifting strap system straps indirectly through retention loops, requires extensive sewing to join the retention loops and the straps to the bag and is labor intensive.  
         [0047]     A more preferred design is to use a lifting strap system that is everywhere detached from the bag or only indirectly attached to the bag (e.g. coupled to the bag) to support and lift the bag. As used herein, “directly” attached means a sewn or welded attachment (or another means of attachment) where the lifting strap, at the point of attachment, cannot move independently from the bag material. Indirect attachment, or coupling, is a means of positioning the lifting strap on the exterior of the bag but allows for movement of the strap with respect to the exterior bag material at the point of indirect attachment. For instance, using a retention loop to position the lifting strap on the bags, as shown in the &#39;662 application, is indirect attachment or coupling of the lifting straps to the bag.  
         [0048]     A preferred lifting strap system is shown in  FIG. 8 . As shown, the system is a first series of parallel straps  2000 , and a second series of parallel straps  2001 , where the first and second series intersect at right angles creating a grid that will be located adjacent the bag bottom. Each strap has two distal ends that terminate in a connector  2010 . As described, the straps are generally a fabric webbing, such as 2-3 inch polyester webbing, but other materials can be used. As generically described, the lifting strap system is composed of support straps, (continuous piece straps or multi piece straps). The connector can be a loop of fabric  2010  (shown in  FIG. 8 ) or can be a connector such as a carbineer, snap hook, etc. or a partially or totally encircling perimeter support member (such as a rope). It is preferred that the first and second group of straps be directly joined at one or several point of intersection along the lifting system bottom portion to maintain a integrated structure, but it is not necessary that every intersection be a direct join. As shown in  FIG. 8 , the first groups of straps  2000  is a series of four straps, and the second group  2001  is a series of three straps. The actual number of straps in each group can vary with the application. The first group will extend between the long sidewalls and support the bag bottom, while the second group will extend between the shorter length end walls and support the bottom.  
         [0049]     Additional straps can be attached to the lifting strap system and placed at other locations on the lifting system, as desired. One such additional strap is positioned “horizontally” when the strap system is coupled to the bag, joining the first and second groups of straps. As shown in  FIG. 9 , this additional strap creates a perimeter encircling “belly strap”  2020  that is located at a height to provide support around the perimeter of the bag about ⅓-½ of the distance from the bag bottom. It has been found that a fully loaded bag naturally forms a teardrop like bulge near the bottom ½ of the bag. The belly strap  2020  provides additional sidewall and end wall support in this case. When using a belly strap  2020 , it is not necessary that the first and second group of straps be directly joined at intersections along the bottom.  
         [0050]     Other lifting strap system designs are possible. When torsional forces are a concern, the bottom portion of the lifting strap system can be constructed to accommodate side-to-side forces, such as the bottom design shown in FIG. 10 or 13 of the &#39;662 application and included herein for reference. Preferred materials for the sling lifting straps are 1.5-3″ wide polyethylene webbing, but other materials can be used where appropriate.  
         [0051]     As described, the lifting strap system (henceforth considered as a number of straps) are joined together at some of all of the strap intersections, generally by sewing. The completed lifting strap system is a one piece unitary structure in the sense that there are enough direct joins of the crossing straps so that if the system is lifted at one strap, all straps will be lifted. The lifting strap system can be composed of two parts, a bottom weave and a side weave that can be joined together, as shown in FIGS. 1, 6 and 10 of the &#39;662 application.  
         [0052]     It is necessary to position the lifting strap system next to the lifting bag for lifting purposes. One means to position the lifting strap system is by using retention loops to couple or indirectly attach the straps to the bag, such as shown in FIG. 2 of the &#39;662 application. These retention loops are short pieces of fabric, such as webbing, that are stitched to the bag at opposing ends of the fabric strip to create a loop much like a belt loop with a center opening through which a lifting strap can be threaded. Retention loops are positioned on the exterior surface of the bag as needed to support and properly position the lifting straps in the sling. However, it is simpler and more efficient to directly attach (sewn is the preferred method) to the bag exterior walls a single edge strip  1006 , as described above. One version of the edge strip  1006  is shown in  FIG. 10A . As shown, it is a single 2″ wide webbing (such as polypropylene, polyester, polyethylene) strap with slits  1061  positioned along a line offset from the strap center line. The strap is attached (e.g. sewn) to the bag near the bag top edge, and the slits  1061  in the strap are aligned with the desired side lifting straps of the lifting strap system, allowing the side portions of the lifting strap system to be threaded through the slits  1061 . Instead of a single strap, the edge strip  1006  can be constructed from two straps, one a straight strap  1006 A that will be attached to the bag&#39;s side and end walls, and as second strap  1006 B that is attached to the first strap  1006  leaving undulations in the second strap. A top view is of this two strap arrangement is shown in  FIG. 10B . Alternatively, the edge strip  1006  may be a singled strap with grommets  1009  instead of slits positioned periodically therethrough ( FIG. 10C ). Individual fabric or webbing strips could be threaded through one or two grommets where needed to form a loop to accommodate one of the lifting straps, or a single fabric strip could be threaded though a series of grommets creating the undulations shown in  FIG. 10C . It may be desired to also have another edge strip  1006  positioned around the bag&#39;s sidewall bottom perimeter or the edge of the bag adjacent to the bag bottom, to support the lifting straps near or on the bag bottom. Retention loops and the edge strip may be constructed from 1.5-2.5 inch polypropylene or polyester webbing, 1.5-2.5 inch elastic knitted latex webbing, ¾ inch rope, or any suitable material. Strap material can be constructed from 1.5-3 inch polypropylene, polyester or nylon webbing, ¾″ rope (kermantal preferred) or other suitable materials.  
         [0053]     In use, a lifting strap system is coupled to the bag by threading the individual straps (some or all) through the edge strip  1006 , at suitable locations. By threading the lifting straps through the loops created by the edge strip, the lifting straps are positionally fixed horizontally (with some degree of movement) with respect to the bag, but still free to move vertically. It may be desired to removably fix the lifting straps vertically to the edge strip or retention loops. To accomplish this, a fastener is provided to removably bridge vertically around the edge strip. For instance, the area of the side straps near the loop on the edge strip are lined with one side of a hook and loop type fastener, such as Velcro. Attached to the lifting strap is a strip or flap of material (a closure flap) of the remaining side of the hook and loop type fastener. The closure strap is positioned to allow the closure strap to bridge across the edge strip material and connect to the lined area on the strap, thereby preventing the side strap from sliding through the retention loop.  
         [0054]     For explanatory purposes, suppose the “loop” side of the fastener is positioned suitably on the lifting strap. Attached to the closure strap is the mating “hook” material. The closure strap bridges the opening in the edge strip (or retention loop) in a closed loop by the join of the hook and loop attachment member, capturing the edge strip material there between, thereby substantially fixing the vertical position of the strap with respect to the to the edge strip. This prevents the lifting strips from slipping through the edge strip and separating the sling from the lifting bag. The fastener should not be used during lifting of a loaded bag, as a lifting stress will be transmitted to the exterior walls of the bag by the fastener, potentially causing the exterior fabric to tear or rip, an undesired result. See FIG. 4 of the &#39;662 application for details of this vertical attachment.  
         [0055]     The bag is then placed in a frame or container, the top zipper  1070  is opened and the top inverted “inside out” over the sides of the frame or container. The bag is then loaded. Once the bag is filled to the desired height, the top of the bag is re-inverted into an outside “out” relationship, and the zipper  1070  closed. Once closed, the two end wall triangular pieces  1060  A and B are folded down onto the top, and can be joined together with a strap or wire or rope to keep these triangles from flapping during transportation. The lifting bag, once loaded or filled, can be lifted using a lifting frame, such as shown in FIG. 8 U.S. Pat. No. 6,142,727 and FIG. 14 herein, (suitably modified for the number of straps on the bag to be lifted) or any other type of lifting frame known in the art. For instance, a square frame lifting frame may be used instead of the parallel lifting bars attached with a center support such as shown in FIG. 14 of the &#39;662 application. Generally each side support member is a lineal element with a top and bottom end: the top end attaches to the lifting frame and the bottom end attaches to or is attached to the bottom support. Alternatively, a rope or webbing may be threaded through the top loops of the lifting straps, and a crane used to lift the filled bag. Alternatively, the lifting straps or side support members can be made sufficiently long to allow the top loops to be gathered together, joined, and lifted by crane or other lifting device.  
         [0056]     Finally, it may be desirable to include a rain cap for the bag. During storage of a loaded bag, the bag will settle, and a valley may form in the top of the bag, generally near the centerline. Because the zipper  1070  is in the center of the top, the zipper  1070  can be a source of water leakage into the bag interior. To prevent this, a rain cap  2070  can be provided to cover the top, such as shown in  FIG. 11 . One embodiment of such is a single piece of waterproof fabric that is draped over the bag&#39;s top and partially over the sides, and cinched down around the bag&#39;s top periphery using loops positioned along the bottom or sides of the bag, or off the belly strap or a similar location.  
         [0057]     Finally, the bag can include a cinch straps positioned near the top four corners (preferably, two straps on each long side of the bag). The cinch straps can tie into the edge strip. For very large bags, additions cinch straps may be needed near the center of the bag. Cinch straps can be constructed from rope, polypropylene, polyester or other suitable material. The cinch straps runs vertically on the side of the bag and in use, allows the top of the bag to be drawn toward the bottom of the bag. A loop or connector can be attached to the bag as needed for coupling the cinch straps.  
         [0058]     It is intended that the following claims be interpreted as covering all such alterations and modifications as fall within the true spirit and scope of the invention.

Technology Classification (CPC): 8