Patent Publication Number: US-2022228389-A1

Title: Building container outrigger and methods of use

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     To the full extent permitted by law, the present United States Non-provisional patent application is a continuation application of U.S. patent application Ser. No. 17/197,360, filed on Mar. 10, 2021, entitled “Building Container Outrigger and Methods of Use”, is a continuation-in-part application of U.S. patent application Ser. No. 17/216,329, filed on Mar. 29, 2021, entitled “Building Trash Container Outrigger and Methods of Use, is a continuation-in-part application of U.S. patent application Ser. No. 17/216,358, filed on Mar. 29, 2021, entitled “Building Crane Outrigger and Methods of Use and, which claims priority to U.S. Provisional Application No. 63/002,113, filed on Mar. 30, 2020, entitled “Building Construction Container Outrigger and Methods of Use”, which is incorporated by reference herein in its entirety. 
    
    
     FIELD OF THE DISCLOSURE 
     The present disclosure is directed to building construction. More specifically, the present disclosure is directed to a mobile container to move from floor to floor as construction phases move vertically with the build. 
     BACKGROUND 
     Currently high-rise building construction are constructed of steel and reinforced concrete used as residential, office building, or other functions including hotel, retail, or with multiple purposes combined. Construction of high-rise buildings requires moving materials, workers, and tools from floor to floor as construction phases move vertically with the build. One approach to moving materials and tools from the base of the build to floor to floor as construction phases move vertically is a tower crane used to lift materials and tools. One disadvantage to tower crane is the expense to move individual loads of materials and tools from the base of the build to floor to floor as construction phases move vertically. Another approach to moving workers, materials, and tools from the base of the build to floor to floor as construction phases move vertically is an exterior elevator used to lift workers, materials, and tools. One disadvantage to exterior elevator is the foot print and weight restrictions limit the amount of materials and tools that can be moved from the base of the build to floor to floor as construction phases move vertically. Moreover, workers carry their tools of trade daily to and from the floor where their trade is at work for the day congesting the exterior elevator to worker movements almost exclusively. Still furthermore, when a worker forgets a tool or material in their truck or needs a break the worker must vertically traverse the exterior elevator adding cost and time to the building construction project. 
     Therefore, it is readily apparent that there is a recognizable unmet need for a building container outrigger and methods of use that may be configured to address at least some aspects of the problems discussed above common to moving workers, materials, and tools from the base of the build to floor to floor as construction phases move vertically. 
     SUMMARY 
     Briefly described, in an example embodiment, the present disclosure may overcome the above-mentioned disadvantages and may meet the recognized need for a building container outrigger and methods of use to provide an elevated work space for use between concrete slabs, the concrete slab having a floor and an exterior or front slab edge of a high-rise building having a container having a front edge, sides and a floor, a plurality of support beams having an upper side and support ends, each support beam positioned lengthwise under the floor of the container and extend therefrom the sides to support the container, a pair of spaced apart outrigger beams having an underside, a first outrigger end and a second outrigger end, each underside side of each second outrigger end in contact with and affixed to the upper side of each support beam end, the underside of the a first outrigger end removeably anchored to the slab floor with the front edge of the container flush with the exterior or front slab edge and, thus, functions to efficiently move materials and tools from floor to floor as construction phases move vertically with the build and move break rooms, bathrooms, offices, meals, and the like from floor to floor as construction phases move vertically with the build. 
     Accordingly, in one aspect, the present disclosure saves time, money, and enables materials and personnel to complete work tasks on a designated floor of a high-rise building under construction or retrofit without having to ride an elevator up and down the building for tools, materials, breaks, bathroom, management discussions, meals, and the like. 
     Accordingly, in another aspect, the present disclosure saves time, money, and enables job specific pre-configured container with tools and material to be configured off site for a specific build and delivered to the build site when needed and elevated to a designated floor of a high-rise building under construction or retrofit to meet workers ready for the specific build. Moreover, if the specific build is longer than the workday remaining materials and tools may be secured in the container proximate designated floor for future uses saving time and money at the end of the day returning tools and materials to the base of the build. 
     Accordingly, in another aspect, the present disclosure saves time, money, and enables pre-configured containers for breaks, bathroom, management discussions, meals, and the like to be located proximate workers and supervisors saving time and money to transit personnel to trailers previously positioned on the ground. 
     Accordingly, in another aspect, the present disclosure saves time, money, and enables pre-configured containers to be anchored to elevated floor slab exterior edge saving ground space at the base of the build needed for equipment, storage, shipping and receiving, parking, and local traffic. 
     In an exemplary embodiment of a building container outrigger system may include a container having sides, a front edge, and a floor, a pair of outrigger beams having an upper outrigger side and a lower outrigger side, each the outrigger beam positioned proximate one of the sides of the container, and a plurality of support beams having ends, an upper support side, and lower support side, each the support beam positioned under the floor of the container, the lower support side ends of the support beam removeably affixed to the lower outrigger side of each the outrigger beam. 
     In another exemplary embodiment of a method of equipping slabs of a high-rise building for a construction task, including the steps of providing an outrigger work space having a container having sides, a front edge, and a floor, a pair of outrigger beams having an upper outrigger side and a lower outrigger side, each the outrigger beam positioned proximate one of the sides of the container, and a plurality of support beams having ends, an upper support side, and lower support side, each the support beam positioned under the floor of the container, the lower support side ends of the support beam, selecting furnishings to complete the construction task, loading the container with the materials and tools, transporting the container to the building, lifting the container to a position between slabs of the building, positioning an extended end of the outrigger beam therebetween the slabs of the building, securing the extended end of the outrigger beam therebetween the floor slabs/concrete slabs of a high-rise building, and accessing the container from the slab of the building. 
     A feature of the present disclosure may include a variety of container job configurations, such as pre-equipped for a scheduled build with tools and materials for current build for a designated floor of a high-rise building under construction or retrofit task, including but not limited to rough in of walls, electrical, plumbing, insulation, HVAC, drywall, windows, trim, flooring, paint, furnishings, which may be ordered, fulfilled and shipped as a container service to the build site furnished with tools and materials needed to complete such task. 
     A feature of the present disclosure may include a variety of possible container interior configurations such as for use as office, break, lunch, bathroom, storage, management discussions, meals, and the like to be located proximate workers. 
     A feature of the present disclosure may include a variety of attachment or mechanical connections systems between parts and elements. 
     A feature of the present disclosure may include beams, channels, angle, tubes or like supports constructed to connect container to concrete slab floor and an exterior or front slab edge. 
     These and other features of the building container outrigger and methods of use will become more apparent to one skilled in the art from the prior Summary and following Brief Description of the Drawings, Detailed Description of exemplary embodiments thereof, and Claims when read in light of the accompanying Drawings or Figures. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The present a building container outrigger and methods of use will be better understood by reading the Detailed Description of the Preferred and Selected Alternate Embodiments with reference to the accompanying drawing Figures, in which like reference numerals denote similar structure and refer to like elements throughout, and in which: 
         FIG. 1  is a perspective view of an exemplary embodiment of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 2  is a side view of an exemplary embodiment of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 3  is a perspective view of an exemplary embodiment of an outrigger beam of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 3A  is an exploded view of a section of the outrigger beam of the building container outrigger according to select embodiments of the instant disclosure in  FIG. 3 ; 
         FIG. 3B  is an exploded view of a section of the outrigger beam of the building container outrigger according to select embodiments of the instant disclosure in  FIG. 3 ; 
         FIG. 4  is a perspective view of an exemplary embodiment of a support beam of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 4A  is an exploded view of a section of a support beam of the building container outrigger according to select embodiments of the instant disclosure in  FIG. 4 ; 
         FIG. 4B  is an exploded view of a section of an alternate support beam of the building container outrigger according to select embodiments of the instant disclosure in FIG. 
         FIG. 5  is a perspective view of a spreader beam of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 6  is an exploded view of a section of spreader beam of the building container outrigger according to select embodiments of the instant disclosure in  FIG. 5 ; 
         FIG. 7  is a perspective view of an exemplary embodiment of a spreader beam cabled to the outrigger beam of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 8  is an exploded perspective view of an exemplary embodiment of a spreader beam cabled to the outrigger beam of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 9  is a perspective view of an exemplary embodiment of a crane cabled to a spreader beam cabled to the outrigger beams of the building container outrigger according to select embodiments of the instant disclosure; 
         FIG. 10  is a side view of an exemplary embodiment of a crane cabled to a spreader beam cabled to the outrigger beams of the building container outrigger according to select embodiments of the instant disclosure, shown inserting outrigger beams between slabs; 
         FIG. 11  is a side view of an exemplary embodiment of a crane cabled to a spreader beam cabled to the outrigger beams of the building container outrigger according to select embodiments of the instant disclosure, shown anchoring outrigger beams between slabs; 
         FIG. 12  is a side view of an exemplary embodiment of the building container outrigger according to select embodiments of the instant disclosure, shown anchored between slabs; 
         FIG. 13  is a plan view of an exemplary embodiment of the container floor plan of the building container outrigger according to select embodiments of the instant disclosure; and 
         FIG. 14  is a flow chart of a process or method of equipping floor or slabs, such as concrete slabs of a high-rise building with container outrigger according to select embodiments of the instant disclosure. 
     
    
    
     It is to be noted that the drawings presented are intended solely for the purpose of illustration and that they are, therefore, neither desired nor intended to limit the disclosure to any or all of the exact details of construction shown, except insofar as they may be deemed essential to the claimed disclosure. 
     DETAILED DESCRIPTION 
     In describing the exemplary embodiments of the present disclosure, as illustrated in the figures specific terminology is employed for the sake of clarity. The present disclosure, however, is not intended to be limited to the specific terminology so selected, and it is to be understood that each specific element includes all technical equivalents that operate in a similar manner to accomplish similar functions. Embodiments of the claims may, however, be embodied in many different forms and should not be construed to be limited to the embodiments set forth herein. The examples set forth herein are non-limiting examples, and are merely examples among other possible examples. It is recognized herein that the optimum dimensional relationships, to include variations in size, materials, shape, form, position, connection, function and manner of operation, assembly and use, are intended to be encompassed by the present disclosure. 
     Referring now to  FIGS. 1, 2, 3, 3A, 3B, 4, and 4A , by way of example, and not limitation, there is illustrated an example embodiment of container outrigger  10  and its parts, according to this select embodiment. Container outrigger  10  is preferably configured having primary parts, such as a storage or meeting enclosure or space, such as container  100 , a plurality of or more specifically a pair of extending lateral supports in one direction, such as outrigger beams  200 , and a plurality of or more specifically three container supports in another direction, such as support beams  300 . 
     Container  100  may have front edge  112  and floor  114 , sidewalls  140 , and ceiling  130 . Container  100  may include a variety of configurations, such as, configured with a floor plan to accommodate or be used as an office, break, lunch, bathroom, storage, management discussions, meals, and the like. Moreover, container  100  may include an entrance  120  or exit including doors, windows, vents, hatch, roof accesses  120  therein ceiling  130 , and the like. Furthermore, container  100  may be configured with a floor plan of an observation deck, sales space simulating an eventual office, residential, or balcony space with actual windows, doors, decking and furnishings to simulate a space with a view from building. 
     Container  100  may be configured with sidewalls  140 , such as front sidewall  141 , left sidewall  142 , back sidewall  143 , and right sidewall  144 . 
     It is contemplated herein that container  100  may be dimensioned as approximately eight feet by twenty feet. 
     Support beams  300  may include first support beam  301 , second support beam  302 , and third support beam  303 . Support beams  300  may include upper support side  321 , lower support side  322 , and beam support ends  330 , such as first support end  331  and second support end  332 . Each support beam  300  may be positioned lengthwise under floor  114  of container  100  and extend therefrom or beyond sidewalls  140  to support container  100  from below. Each support beam  300  may be positioned in spaced apart and parallel alignment thereunder container  100  and removeably affix or affix upper support side  320  of support beams  300  to floor  114  of container  100 . 
     Support beams  300  may be further configured with a plurality, at least one, and more specifically a pair of hollow shore receptacles  350 , such as first support shore cup  351  and second support shore cup  352 . First support shore cup  351  may be affixed to upper support side  321  and positioned proximate first support end  331 . Second support shore cup  252  may be affixed to upper support side  321  and positioned proximate second support end  332 . 
     It is contemplated herein that support beams  300  may be dimensioned as approximately twenty-five feet in length SL. 
     Outrigger beams  200  may include first outrigger beam  201  and a second outrigger beam  202 . Outrigger beams  200  may include upper outrigger side  221  and lower outrigger side  222 . Outrigger beams  200  may include outrigger ends  230 , such as first outrigger end  231  (extended end) and second outrigger end  232 . Each outrigger beams  200  may be positioned lengthwise with second outrigger end  232  positioned above support beams  300 . Each support beam  300  may be positioned in spaced apart and parallel alignment and removeably affix or affix lower outrigger side  222  of outrigger beams  200  to upper support side  321  of support beams  300  proximate beam support ends  330  with extended section  340 , which extend therefrom or beyond sidewalls  140 . 
     Outrigger beams  200  may be configured with a plurality and more specifically a pair of shackle connectors, such as first outrigger lug plate  241  and second outrigger lug plate  242 . First outrigger lug plate  241  may be affixed to upper outrigger side  221  and positioned between first outrigger end  231  and second outrigger end  232 . Second outrigger lug plate  242  may be affixed to upper outrigger side  221  and positioned proximate second outrigger end  232 . 
     It is contemplated herein that first outrigger lug plate  241  and second outrigger lug plate  242  may include one or more spaced apart lug plate aperture  243  configured to receive a connect bolt, shackle, or pin to lift outrigger beams  200 . 
     Outrigger beams  200  may be further configured with a plurality of, at least one, and more specifically a pair of hollow shore receptacles  250 , such as first outrigger shore cup  251  and second outrigger shore cup  252 . First outrigger shore cup  251  may be affixed to upper outrigger side  221  and positioned proximate first outrigger end  231 . Second outrigger shore cup  252 , a backup shore cup, may be affixed to upper outrigger side  221  and positioned proximate first outrigger shore cup  251 . It is contemplated herein that hollow shore receptacles  250  may be configured to receive anchor mechanism, such as shores SH. 
     Outrigger beams  200  may be further configured with a plurality of, at least one, and more specifically a pair of bearing plates  260 , such as first outrigger bearing plate  261 , 264  and second outrigger bearing plate  262 ,  263 . First outrigger bearing plate  261 , 264  may be affixed to lower outrigger side  222  and positioned proximate first outrigger end  231 . Second outrigger bearing plate  262 , 263  may be affixed lower outrigger side  222  and positioned proximate between first outrigger end  231  and second outrigger end  232 . It is contemplated herein that outrigger bearing plates  260  enable or assist lower outrigger side  222  of outrigger beams  200  in sliding across floor F of slab S 1 , see  FIGS. 10 and 11 . 
     It is contemplated herein that outrigger beams  200  may be dimensioned as approximately twenty-nine feet in length OL. It is further contemplated herein that a connection device between outrigger beams  200  and support beams  300  to enable shipping and quick assembly at worksite between outrigger beams  200  and support beams  300 , such as slotted connectors, telescoping or slide adjust in length  270 , first outrigger end  231  of outrigger beams  200 , second outrigger end  232  of  300  outrigger beams  200  configured to hinge or pivot  280  about beam support ends  330  of support beams  300  or other quick connect or quick assembly configuration to be capable of being performed at the worksite. 
     Furthermore, support beams  300  may be configured in a spaced apart and parallel alignment and may be releasably affixed or affixed to outrigger beams  200  proximate second outrigger end  232  proximate beam support ends  330  and extended section  340  of support beams  300 , which extend therefrom or beyond sidewalls  140 . Moreover, upper support side  321  of each support beams  300 , such as first support beam  301 , second support beam  392 , and third support beam  303  may be releasably affixed or affixed to outrigger beams  200  in spaced apart and parallel alignment, such as first outrigger beam  201  and a second outrigger beam  202 , and more specifically to lower outrigger side  222  of outrigger beams  200 . 
     It is recognized herein that support beams  300  may be affixed or removeably affixed to outrigger beams  200 , such as affixed by welding or riveted or the like, removeably affixed by bolted (holes, apertures, bolt, washer, lock washer, and nuts), or quick release (slots, channels, latches, quick connectors) or the like to enable disassembly of container  100  and support beams  300  from outrigger beams  200  to simplify dimensions for shipping container  100  and support beams  300  separate from or in conjunction with outrigger beams  200 . It is contemplated that other attachment or mechanical connections are contemplated herein. 
     It is contemplated herein that support beams  300  and outrigger beams  200  may be configured as I-beam, channel beam, angle iron, square tube, other tube, or like elongated supports structures constructed to support and connect container  100  to building B. 
     Referring now to  FIGS. 5 and 6 , by way of example, and not limitation, there is illustrated an example embodiment of spreader beam  600 , according to this select embodiment. Spreader beam  600  may include upper spreader side  621  and lower spreader side  622 . Spreader beam  600  may include spreader ends  630 , such as first spreader end  631  and second spreader end  632 . Spreader beam  600  may be positioned lengthwise above container  100  with first spreader end  631  positioned above left sidewall  142  and second spreader end  632  positioned above right sidewall  144 . 
     Spreader beam  600  may be configured with a plurality and more specifically a pair of shackle connectors, such as first spreader pick plate  641  and second spreader pick plate  642 . First spreader pick plate  641  may be affixed to upper spreader side  621  proximate first spreader end  631 . Second spreader pick plate  642  may be affixed to upper spreader side  621  and positioned proximate second spreader end  632 . It is contemplated herein the a crane CN or other lift device may be releasably connected to first spreader pick plate  641  and second spreader pick plate  642 , via hole or aperture  645 . 
     Spreader beam  600  may be configured with a plurality and more specifically a pair of shackle connectors, such as first or third spreader lug plate  643  and second or fourth spreader lug plate  644 . Third spreader lug plate  643  may be affixed to lower spreader side  622  proximate first spreader end  631 . Second spreader lug plate  644  may be affixed to lower spreader side  622  and positioned proximate second spreader end  632 . It is contemplated herein that the a crane CN or other lift device may be releasably connected to first spreader pick plate  641  and second spreader pick plate  642 , via hole or aperture  645 . 
     It is contemplated herein that third spreader lug plate  643  and fourth spreader lug plate  644  of spreader beam  600  may be connected, such as chain, cable and shackle or the like to first outrigger lug plate  241  and second outrigger lug plate  242  of outrigger beams  200  to enable spreader beam  600  via a crane CN or the like to lift or reposition outrigger beams  200 , support beams  300 , and container  100  simultaneously. 
     It is contemplated herein that first spreader pick plate  641  and second spreader pick plate  642  and as third spreader lug plate  643  and fourth spreader lug plate  644  may include plate aperture  645  configured to receive a connect bolt, shackle, or pin to lift outrigger beams  200 . 
     Referring now to  FIGS. 7, 8 and 9 , by way of example, and not limitation, there is illustrated an example embodiment of lift mechanism  700  according to this select embodiment. For example, lift mechanism  700  may include plurality of lift bridles with thimble eyes, cables, ropes, chains, rope, wire rope or the like with loop ends, such as wire lift rope  730  and removable shackle connectors, clasps, pins, clamps, or the like, such as lift connectors  710 . 
     Wire lift rope  730  may include two leg lift bridle configured as first wire lift rope  731  having a first end removeably connected to first spreader pick plate  641  of spreader beam  600  via first lift connector  711  and other end of first wire lift rope  731  removeably connected to lift ring  750  via second lift connector  712 . Wire lift rope  730  may include second wire lift rope  732  having a first end removeably connected to second spreader pick plate  642  of spreader beam  600  via fourth lift connector  714  and other end of second wire lift rope  732  removeably connected to lift ring  750  via third lift connector  713  (releasably connected). 
     Moreover, wire lift rope  730  may include a pair of two leg lift bridles, the first of the pair of two leg lift bridle  801  configured as third wire lift rope  733  having a first end removeably connected to third spreader lug plate  643  of spreader beam  600  via fifth lift connector  715  and other end of third wire lift rope  733  removeably connected to second outrigger lug plate  241  of outrigger beam  201  via sixth lift connector  716 . Wire lift rope  730  may include fifth wire lift rope  735  having a first end removeably connected to third spreader lug plate  643  of spreader beam  600  via ninth lift connector  719  and other end of fifth wire lift rope  735  removeably connected to fourth outrigger lug plate  244  of outrigger beam  201  via eighth lift connector  720  (releasably shackled). 
     Moreover, wire lift rope  730  may include the second of the pair of two leg lift bridle  802  configured as fourth wire lift rope  734  having a first end removeably connected to fourth spreader lug plate  644  of spreader beam  600  via seventh lift connector  717  and other end of fourth wire lift rope  734  removeably connected to second outrigger lug plate  242  of outrigger beam  202  via eighth lift connector  718 . Wire lift rope  730  may include sixth wire lift rope  736  having a first end removeably connected to fourth spreader lug plate  644  of spreader beam  600  via eleventh lift connector  721  and other end of sixth wire lift rope  736  removeably connected to third outrigger lug plate  243  of outrigger beam  202  via tenth lift connector  722  (releasably shackled). 
     Referring now to  FIGS. 10, 11 and 12 , by way of example, and not limitation, there is illustrated an example embodiment of lift mechanism  700  lifting and positioning container outrigger  10  according to this select embodiment. For example, crane CN may be connected to lift ring  750  to lift spreader beam  600 , outrigger beams  200 , support beams  300 , and container  100  as a unit container outrigger  10 . Moreover, container outrigger  10  may be raised adjacent floors of a building under construction with slabs S poured with remaining slab supports SS. Crane CN may be utilized to position first outrigger end  231  of outrigger beams  200  between slabs S, such as first slab&#39;s floor, floor slab S 1  and second slab&#39;s underside or slab ceiling S 2  with lower outrigger side  222  and floor bearings  260  in contact with floor F of slab S 1 . Outrigger beams  200  and container outrigger  10  may be anchored in place having front edge  112  and floor  114  of container  100  in contact with front slab edge  810  and floor F slab S 1  with no threshold deviation in height therebetween, via plurality or one or more shores SH inserted in shore receptacles  250  and in contact with ceiling of the above slab. Container outrigger  10  may be anchored to floor F of slab S 1  an cantilevered thereto any slab S or floor of building B. Container outrigger  10  may be utilized to efficiently move materials and tools from floor to floor as construction phases move vertically with the build and move break rooms, bathrooms, offices, meals, and the like as container  100  from floor to floor as construction phases move vertically with the building of building B. 
     Referring now to  FIG. 13 , by way of example, and not limitation, there is illustrated an example embodiment of container  100  according to this select embodiment. Container  100  may be configured with sidewalls  140 , such as front sidewall  141 , left sidewall  142 , back sidewall  143 , and right sidewall  144 . In this embodiment, container  100  may be configured with roll-up door  1332 , exit door  1331 , window  1333 , and other like points of entry. Internally in this embodiment, container  100  may be configured having interior separation walls  1350  and interior lockable doors  1341  to partition container  100  and lighting  1320 . Container may be furnished with shelves  1310 , drafting tables or other work desks or stations  1370  with seating, such as chair  1380 , computing devices, such as monitors, and other like furnishings. 
     Container  100  may include a variety configurations such as configured with a floor plan to accommodate or be used as an office, break, lunch, bathroom, outfitted with furnishings, storage, tool and material storage, management discussions, meals, and the like for its intended use or task. It is further contemplated herein that other and all possible construction materials whether exterior or interior are contemplated herein for container  100 . 
     It is further contemplated herein that container  100  may be outfitted or equipped with supplies, tools, and materials for current floor use or tasks of a high-rise building under construction or retrofit task, such as rough in of walls, electrical, plumbing, insulation, HVAC, drywall, windows, trim, flooring, paint, furnishings, which may be ordered, fulfilled and shipped as a service to site furnished for with tools and materials needed to complete such task. 
     With respect to the description herein, it is to be realized that the optimum dimensional relationships, to include variations in size, materials, shape, form, position, connection, function and manner of operation, assembly and use, are intended to be encompassed by the present disclosure. 
     It is contemplated herein that container outrigger  10  components may be constructed of steel, stainless steel, aluminum, or the like materials and of different dimensions. This and other materials herein may be constructed of metal, steel, alloy, or plastic or more specifically high density polyethylene or similar high tensile or strengthened materials, as these material offers a variety of forms and shapes and provide strength with reduced weight; however, other suitable materials or the like, can be utilized, provided such material has sufficient strength and/or durability as would meet the purpose described herein to enable container outrigger  10  to meet construction and building specifications and worker safety. 
     It is understood herein that various changes in the material used, shape, size, arrangement of parts, and parts are connected with bolts, pins, screws or similar fasteners or other rotating devices without departing from the spirit of the scope of the claims herein. 
     It is further understood herein that the parts and elements of this disclosure may be located or position elsewhere based on one of ordinary skill in the art without deviating from the present disclosure. 
     Referring now to  FIG. 14 , there is illustrated a flow diagram  1400  of a method of equipping floor slab S, such as concrete slabs of a high-rise building B with container  100  equipped with tools and materials for current floor tasks or construction task of a high-rise building B under construction or retrofit task, such as rough in of walls, electrical, plumbing, insulation, HVAC, drywall, windows, trim, flooring, paint, furnishings, which may be ordered, fulfilled and shipped as a service to site furnished for with tools and materials needed to complete such task or configured with a floor plan to accommodate or be used as an office, break, lunch, bathroom, storage, tool and material storage, management discussions, meals, and the like. 
     In block or step  1410 , providing container outrigger  10  having container  100 , outrigger beams  200 , and support beams  300 , as described above in  FIGS. 1-13 . In block or step  1415 , configuring container  100  with a floor plan to accommodate its designated use. In block or step  1420 , outfitting container  100  for its intended task, with tools, materials, or furnishings, or interior configuration, or configured as office, break, lunch, bathroom, storage room, tool and material storage, management discussions, meals, and the like. In block or step  1425 , transporting container  100  to the build site (building B). In block or step  1430 , assembling container outrigger  10 . 
     In block or step  1435 , elevating or lifting container  100  via a crane CN to its intended floor between slabs S of building B. In block or step  1440 , positioning first outrigger end  231  an extended end of outrigger beams  200  therebetween slabs S of the building B. In block or step  1440 , securing, anchoring, or shoring an extended end of outrigger beams  200  therebetween slabs S of the building B. In block or step  1445 , accessing cantilevered container  100  in an elevated position therebetween slabs S of the building B to access tools and materials for current floor tasks of a high-rise building under construction or retrofit task, such as rough in of walls, electrical, plumbing, insulation, HVAC, drywall, windows, trim, flooring, paint, furnishings, which may be ordered, fulfilled and shipped as a service to building B site furnished for with tools and materials needed to complete such task or configured with a floor plan to accommodate or be used as an office, break, lunch, bathroom, storage, tool and material storage, management discussions, meals, and the like to save time, money and enable materials and personnel to complete work tasks on a designated floor of a high-rise building B under construction or retrofit without having to ride an elevator up and down the building for tools, materials, breaks, bathroom, management discussions, meals, and the like. 
     With respect to the above description then, it is to be realized that the optimum dimensional relationships, to include variations in size, materials, shape, form, position, movement mechanisms, function and manner of operation, assembly and use, are intended to be encompassed by the present disclosure. 
     The foregoing description and drawings comprise illustrative embodiments. Having thus described exemplary embodiments, it should be noted by those skilled in the art that the within disclosures are exemplary only, and that various other alternatives, adaptations, and modifications may be made within the scope of the present disclosure. Merely listing or numbering the steps of a method in a certain order does not constitute any limitation on the order of the steps of that method. Many modifications and other embodiments will come to mind to one skilled in the art to which this disclosure pertains having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Although specific terms may be employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation. Moreover, the present disclosure has been described in detail, it should be understood that various changes, substitutions and alterations can be made thereto without departing from the spirit and scope of the disclosure as defined by the appended claims. Accordingly, the present disclosure is not limited to the specific embodiments illustrated herein but is limited only by the following claims.