US20150239658A1 - Modular storage structures - Google Patents
Modular storage structures Download PDFInfo
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- US20150239658A1 US20150239658A1 US14/710,940 US201514710940A US2015239658A1 US 20150239658 A1 US20150239658 A1 US 20150239658A1 US 201514710940 A US201514710940 A US 201514710940A US 2015239658 A1 US2015239658 A1 US 2015239658A1
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Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C1/00—Building elements of block or other shape for the construction of parts of buildings
- E04C1/39—Building elements of block or other shape for the construction of parts of buildings characterised by special adaptations, e.g. serving for locating conduits, for forming soffits, cornices, or shelves, for fixing wall-plates or door-frames, for claustra
- E04C1/395—Building elements of block or other shape for the construction of parts of buildings characterised by special adaptations, e.g. serving for locating conduits, for forming soffits, cornices, or shelves, for fixing wall-plates or door-frames, for claustra for claustra, fences, planting walls, e.g. sound-absorbing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D90/00—Component parts, details or accessories for large containers
- B65D90/22—Safety features
- B65D90/24—Spillage-retaining means, e.g. recovery ponds
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D88/00—Large containers
- B65D88/52—Large containers collapsible, i.e. with walls hinged together or detachably connected
- B65D88/526—Large containers collapsible, i.e. with walls hinged together or detachably connected with detachable side walls
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D90/00—Component parts, details or accessories for large containers
- B65D90/02—Wall construction
- B65D90/023—Modular panels
- B65D90/024—Modular panels with features of cylindrical curvature
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D90/00—Component parts, details or accessories for large containers
- B65D90/02—Wall construction
- B65D90/04—Linings
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D90/00—Component parts, details or accessories for large containers
- B65D90/02—Wall construction
- B65D90/08—Interconnections of wall parts; Sealing means therefor
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H7/00—Construction or assembling of bulk storage containers employing civil engineering techniques in situ or off the site
- E04H7/02—Containers for fluids or gases; Supports therefor
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
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- Y10T29/49—Method of mechanical manufacture
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Definitions
- the present application generally relates to modular storage structures, and more particularly, but not exclusively, to modular storage structures arranged to store a liquid material.
- Hydrocarbon exploration and extraction operations are conducted in places around the world, sometimes in very remote locations. Many of these operations involve very large volumes of fluids, equipment and/or other materials which need to be stored.
- hydraulic fracturing is a process in which large amounts of pressurized fluids fracture rock layers in order to release fossil fuels for extraction and recovery.
- Wellbore locations vary with rock formations, and some extraction operations may require temporary fluid storage near the wellbore's position.
- High volume liquid storage tanks may be necessary for storage of fracturing fluids, brine or process water during various oil field operations. These storage tanks may be designed to hold large quantities of liquid while fracking or other processes are underway.
- Structures for storing materials other than liquid may also be necessary. Further, the use of these structures may be implemented at sites other than where fracking occurs and/or in connection with operations other than fracking.
- the subject matter disclosed herein generally relates to modular storage structures, and more particularly, but not exclusively, to modular storage structures arranged to store a liquid material.
- a modular structure in one non-limiting embodiment, includes a plurality of stackable, inter-engaging blocks. Two or more of the blocks include at least two openings, and the blocks are configured to be removably coupled to one another with an opening of a first block aligned with an opening of a second block.
- the modular structure also includes at least two elongate members positionable through aligned hinge openings of at least two of the plurality of blocks positioned adjacent to one another, and at least one reinforcing member structured to extend between and engage the at least two elongate members between stacked layers of the blocks.
- a modular structure in another non-limiting embodiment, includes at least two components each including a body extending along an axis and including oppositely positioned sidewalls. A first opening is positioned between the sidewalls and extends transversely to the axis, and a second opening is positioned between the sidewalls and extends transversely to the axis.
- the components are configured to be removably coupled to one another with the first opening of a first component aligned with the second opening of a second component when the first and second components are positioned adjacent to one another.
- the modular structure also includes at least two elongate members.
- At least one of the elongate members is configured to be positioned through the aligned first and second openings of the first and second components when the first and second components are positioned adjacent to one another.
- the modular structure further includes one or more reinforcing members positionable along exterior surfaces of the first and second components when the first and second components are positioned adjacent to one another and into engagement with the at least two elongate members.
- a modular structure in yet another non-limiting embodiment, includes a plurality of stackable, inter-engaging blocks, and at least two of the plurality of blocks include at least two hinge openings.
- the structure also includes at least two elongate members, and each of the elongate members is positionable through aligned hinge openings of at least two of the plurality of blocks positioned adjacent to one another.
- the structure further includes at least one reinforcing member structured to extend between and engage the at least two elongate members between stacked layers of adjacent ones of the plurality of blocks.
- a method for assembling a modular structure includes positioning a first stackable block relative to a second stackable block.
- the first and second blocks are configured to inter-engage with one another and each include two or more openings.
- the method also includes inserting a first elongate member through a first opening of the first block and a second opening of the second block aligned with the first opening of the first block; inserting a second elongate member through a second opening of the first block; and positioning a reinforcing member over the first block with a first portion thereof extending around the first elongate member and a second portion thereof extending around the second elongate member.
- a modular structure in still another non-limiting embodiment, includes a plurality of stackable, inter-engaging blocks, and at least two of the plurality of blocks include at least two hinge openings.
- the structure further includes a plurality of elongate members, and at least two of the elongate members are configured to be positioned through aligned hinge openings of the at least two blocks.
- the structure also includes at least one reinforcing member positionable in line with the longitudinal axis of at least one of the blocks and into engagement with the two elongate members.
- FIG. 1 is a perspective view of a modular structure.
- FIG. 2A is a perspective view of a block component of the modular structure of FIG. 1 .
- FIG. 2B is a side view of the block component of FIG. 2A .
- FIG. 2C is a top view of the block component of FIG. 2A .
- FIG. 2D is a section view of the block component of FIG. 2A .
- FIG. 2E is a side view of a pair of alternatively configured block components.
- FIG. 2F is a side view of a pair of alternatively configured block components.
- FIG. 3A is a perspective view of an elongate member relative to an anchor component of the modular structure of FIG. 1 .
- FIG. 3B is a perspective view of an anchor stake of the modular structure of FIG. 1 .
- FIG. 4 is a side view of a portion of the modular structure of FIG. 1 .
- FIG. 5A is a perspective view of an elongate member of the modular structure of FIG. 1 .
- FIG. 5B is a top view of the elongate member of 5 A.
- FIG. 5C is a perspective view of an alternatively configured elongate member and a plurality of sleeve members relative to an anchor component.
- FIG. 5D is an exploded view of an alternatively configured elongate member relative to an anchor component.
- FIG. 6 is a perspective view of a portion of one form of the modular structure of FIG. 1 .
- FIG. 7 is a perspective view of a cap component of the modular structure of FIG. 1 .
- FIG. 8 is a perspective view of a cable of the modular structure of FIG. 1 .
- FIG. 9A is a perspective view of a center member of modular structure of FIG. 1 .
- FIG. 9B is a perspective view of a support element which may be used in connection with the modular structure of FIG. 1 .
- FIG. 10A is a perspective view of an alternative embodiment block component positioned relative to an alternative embodiment reinforcing member.
- FIG. 10B is a perspective view of another alternative embodiment block component.
- FIG. 10C is a perspective view of an alternative embodiment modular structure including the alternative embodiment block components illustrated in FIGS. 10A and 10B .
- FIG. 10D is an exploded, perspective illustration of the alternative embodiment modular structure illustrated in FIG. 10C .
- FIG. 10E is an exploded, perspective illustration of the modular structure illustrated in FIG. 10C without the block components.
- FIG. 10F is a plan view of a portion of the modular structure illustrated in FIG. 10C including a plurality of the block components illustrated in FIG. 10B .
- the subject matter disclosed herein generally relates to modular structures.
- the modular structures may be configured to store a volume of liquid. More particularly, with general reference to FIG. 1 , one non-limiting embodiment of a modular structure 100 is illustrated in a perspective view.
- the modular structure 100 includes a plurality of block components 200 that are configured to be removably coupled to one another.
- block components 200 are identical or substantially identical, although forms in which variations between block components 200 are present are also contemplated.
- Modular structure 100 also includes a plurality of base or anchor members such as components 300 configured to be positioned on a surface underlying the modular structure 100 , and a plurality of elongate members 500 each removably coupled to a respective base component or anchor component 300 .
- Each of elongate members 500 is further removably coupled to a respective one of a plurality of cap components 400 .
- the elongate members 500 are further configured to couple vertically and laterally adjacent block components 200 to one another, further details of which will be provided herein below.
- a center member 600 is positioned in substantially the center of modular structure 100 and is positioned on or near the surface underlying modular structure 100 .
- a plurality of cables 700 extend from center member 600 and each of cables 700 is removably coupled with a respective anchor component 300 . For the sake of clarity, only a few of the above-mentioned components have been identified in FIG. 1 .
- block components 200 are arranged in a circular configuration and define an enclosed space.
- the modular structure 100 is generally circular, the components as described herein permit modular structures with configurations in a variety of geometric configurations and sizes. Additionally, although the illustrated modular structure 100 includes block components 200 stacked six rows high, it should be understood that modular structures with any number of rows of block components 200 are possible.
- the block component 200 includes a body extending along an axis A 1 between a first end portion 204 and a second end portion 206 .
- the block component 200 includes a first sidewall 208 opposite a second sidewall 210 and an upper surface 222 opposite a lower surface 224 .
- a first opening 212 on the first end portion 204 extends through the upper and lower surfaces 222 , 224 of the block component 200 .
- the first opening 212 is positioned between the first and second sidewalls 208 , 210 as illustrated for example in FIG. 2C .
- the first end portion 204 includes a receptacle 216 configured to receive a second end portion of an adjacent block component which is the same or substantially identical to the second end portion 206 as illustrated for example in FIG. 2B .
- the receptacle 216 interrupts the first opening 212 into two spaced apart and aligned sections 212 A and 212 B.
- a second opening 214 extends through the second end portion 206 of the block component 200 .
- the second opening 214 is positioned between the first and second sidewalls 208 , 210 .
- the first and second openings 212 , 214 may also be referred to as hinge openings, although forms in which no hinge action is present between adjacent block components 200 are also envisioned.
- Non-illustrated embodiments include block components with multiple receptacles similar to receptacle 216 on the first and/or second end portions 204 , 206 to hingedly engage multiple block components.
- the block component 200 is at least partially formed of a plastic polymer, although it should be appreciated that it may be formed of other materials as well.
- the first and second sidewalls 208 , 210 and upper and lower surfaces 222 , 224 define an interior chamber 218 .
- the interior chamber 218 may be hollow or may be filled with a filler material (not shown).
- the filler material may be a foam material or a structural matrix.
- the filler material may include support members extending between the first and second sidewalls 208 , 210 and/or the upper and lower surfaces 222 , 224 .
- the interior chamber 218 may be filled with water or any other liquid or other material or component configured to increase the structural stability of the block component 200 or modular structure 100 .
- Forms in which block components 200 include a solid configuration and interior chamber 218 is absent are also contemplated.
- the block component 200 includes reinforcing members such as cables 220 extending around the first and second openings 212 , 214 .
- the cables 220 are positioned within the interior chamber 218 and are configured to structurally reinforce block component 200 .
- the cables 220 may be positioned exterior to the block component 200 or within the sidewalls 208 , 210 and/or the upper and lower surfaces 222 , 224 of the block component 200 .
- a variety of different types and numbers of cables 220 may be utilized in connection with the block component 200 .
- the block component 200 may be configured to withstand tensile stress without failing or breaking.
- configurations of the block component 200 may have an ultimate tensile strength greater than 15,000 pounds-force per square inch.
- configurations of the block component 200 may have an ultimate tensile strength greater than 6000 pounds-force per square inch. It should be appreciated however that alternative values for the tensile strength of the block component 200 are possible.
- the modular structure 100 may be configured such that some rows of block components 200 include reinforcing members such as cables 220 , and others do not.
- the modular structure 100 of FIG. 1 may include reinforcing members such as cables 220 associated with block components 200 in the first, second and uppermost rows of block components 200 but not in any rows positioned between the second and uppermost rows of block components.
- reinforcing members such as cables 220 may be associated with each block component 200 or cables 220 may not be associated with any of the block components 200 .
- Those skilled in the art will recognize that a number of different combinations of block components 200 with or without cables 220 are possible.
- the first and second end portions 204 , 206 include arcuate or semi-circular configurations structured to facilitate pivotable engagement between adjacent block components 200 .
- the first and second end portions 204 , 206 are configured such that adjacent block components 200 may engage one another at a variety of different angles.
- block components 200 may be engaged at or less than right angles with respect to each other, engaged substantially in a straight line with respect to each other, or at any configuration therebetween, just to provide a few non-limiting possibilities.
- block components 200 may be used to construct a modular structure having a variety of different sizes and shapes.
- the block component 200 includes a molded handle 226 configured to facilitate manipulation and handling of the block component 200 .
- Alternative arrangements for facilitating manipulation and handling of the block component 200 are possible.
- the block component 200 may additionally or alternatively include an opening, indentation, handle, pin, loop, hooks, or any other features for facilitating manipulation and handling of the block component 200 .
- a receptacle may not interrupt one of the openings into two spaced apart and aligned sections.
- adjacent block components 250 A and 250 B both include a first opening 252 and a second opening 254 .
- Block components 250 A and 250 B are configured to be pivotably engaged with one another with opening 254 of block component 250 A aligned with opening 252 of block component 250 B. In such a configuration, it should be appreciated that the positioning of block components 250 A and 250 B may be switched to align opening 254 of block component 250 B with opening 252 of block component 250 A.
- FIG. 2F another alternative configuration includes adjacent block components 260 A and 260 B both including a first opening 262 and a second opening 264 .
- Block components 260 A and 260 B are configured to be pivotably engaged with one another with opening 264 of block component 260 A aligned with opening 262 of block component 260 B.
- block component 260 B is rotated 180 degrees about its axis relative to block component 260 A when the components are positioned adjacent to one another and pivotably engaged.
- Block component 260 B may be rotated relative to block component 260 A such that opening 264 may be positioned to be aligned with opening 264 of block component 260 A.
- Block component 260 A may also be similarly rotated relative to block component 260 B.
- modular structure 100 is illustrated with identical or substantially identical block components, it is contemplated that other non-illustrated forms of modular structure 100 may include one or more variations between one or more of the block components 200 .
- the anchor component 300 includes a base 306 extending between a first end portion 302 and a second end portion 304 .
- the base 306 is configured to be positioned on a surface underlying the anchor component 300 .
- the base 306 includes an opening 308 configured to receive an anchor stake 350 ( FIG. 3B ) or other anchor member to couple the anchor component 300 to the underlying surface.
- the base 306 also includes a plurality of connector openings 310 , each configured to receive one end of a respective one of cables 700 . It should be understood that the number of openings 308 and 310 in the anchor component 300 may deviate from the number shown in the illustrated form.
- a connector member 312 is positioned on the base 306 between the first and second end portions 302 , 304 .
- the connector member includes two oppositely positioned slots 314 .
- Each of the slots 314 includes a substantially vertical portion 313 and a transverse portion 315 extending orthogonally to the vertical portion 313 .
- elongate member 500 includes a pin 502 extending across a diameter of the elongate member.
- the elongate member 500 may be positioned such that the pin 502 is aligned with the slots 314 .
- the pin 502 may be inserted into the vertical portions 313 of the slots 314 .
- the elongate member 500 may be rotated relative to the anchor component 300 such that the pin 502 is positioned into the transverse portions 315 of the slots 314 , thereby axially locking the elongate member 500 relative to the anchor component 300 .
- the number of slots 314 on the connector member 312 configured to receive pins or protrusions to secure the elongate member 500 to the anchor component 300 may deviate from the number shown in the illustrated form.
- the illustrated slots 314 are substantially L or J shaped, although it should be appreciated that alternatively configured slots 314 are contemplated.
- the engaging features of elongate member 500 and the anchor component 300 may be switched such that elongate member 500 includes a slot that receives a pin or protrusion of the anchor component 300 .
- Further variations for coupling the elongate member 500 and the anchor component 300 are also possible however. For example, in one non-illustrated form, a threaded arrangement may be utilized to couple the elongate member 500 and the anchor component 300 .
- the anchor stake 350 is configured to couple the anchor component 300 to a surface underlying the anchor component, such as soil, dirt etc.
- the anchor stake 350 includes an engagement component 352 and an annular surface 354 positioned on a first end portion of a body 356 .
- the anchor stake 350 may be composed at least partially of steel or of any other suitable material.
- the annular surface 354 is configured to secure the anchor stake 350 to the anchor component 300 when the anchor stake 350 is positioned through the opening 308 and at least partially into the surface underlying the anchor component 300 .
- the engagement component 352 is configured to facilitate handling of the anchor stake 350 , including removal of the anchor stake 350 from the underlying surface or the anchor component 300 . Either or both of the engagement component 352 and the annular surface 354 may be welded to the anchor stake 350 , or anchor stake 350 may be formed as a single component including these features.
- block components 200 A, 200 B and 200 C are individually illustrated in FIG. 4 where like numerals refer to like features previously described.
- block components 200 A, 200 B and 200 C are identical, although it should be understood that forms where the block components are not identical are also possible.
- the block components 200 A, 200 B and 200 C are configured to be removably coupled to one another and include features corresponding to those described in connection with the block component 200 of FIGS. 2A-D .
- Block components 200 are configured to be positioned adjacent to one another and removably coupled to one another when positioned in such a manner.
- block component 200 A and block component 200 B are positioned laterally adjacent to one another and partially over the anchor component 300 .
- the openings of the block components 200 may be sized and shaped to receive at least a portion of the anchor component 300 .
- the connector member 312 of the anchor component 300 and the openings of the block components 200 are sized and configured such that the connector member 312 is received in an opening of a block component 200 .
- the second end portion 206 of block component 200 A is positioned in the receptacle 216 of the first end portion 204 of block component 200 B such that the second opening 214 of block component 200 A is aligned with the first opening 212 of the block component 200 B.
- the block components 200 are further configured to be placed on top of one another and removably coupled with one another when positioned in such a manner. As illustrated for example in FIG. 4 , block component 200 C is positioned or stacked on top of block component 200 A. In this configuration, opening 214 of block component 200 C is aligned with opening 214 of block component 200 A and opening 212 of block component 200 C is aligned with opening 212 of block component 200 A.
- block component 200 C may be rotated 180 degrees relative to its illustrated position in FIG. 4 such that opening 214 of block component 200 A is aligned with opening 212 of block component 200 C.
- Multiple rows (also referred to as layers) of block components 200 may be stacked or positioned as described above to assemble modular structures of various heights, sizes and volumes.
- the elongate member 500 is positioned through the aligned openings to removably couple blocks 200 A, 200 B and 200 C.
- the elongate member 500 is rotatably coupled to the anchor component 300 as described above, and in such configuration a portion of the connector member 312 is positioned inside of elongate member 500 .
- the interaction between the elongate member 500 and the connector member 312 occurs, in whole or in part, inside the opening of the connector block.
- the elongate member 500 includes a substantially cylindrical body extending between a first end portion 504 and a second end portion 506 .
- elongate member 500 includes a hollow interior 508 , although it should be appreciated that forms in which elongate member 500 is solid along at least a portion of its length are possible.
- the pin 502 extends through an annular sidewall of the elongate member 500 and across the hollow interior 508 at the second end portion 506 .
- the pin 502 is replaced with oppositely positioned projections or tabs that only extend partially into the hollow interior 508 from the sidewall of elongate member 500 .
- the elongate member 500 is further configured to receive at least a portion of the anchor component 300 and the cap component 400 inside of the hollow interior 508 at the first and second end portions 504 and 506 .
- the first end portion 504 of the elongate member 500 is configured substantially the same as the second end portion 506 ; i.e., it includes a pin extending across the hollow interior 508 or oppositely positioned projections or tabs that only extend partially into the hollow interior 508 from the sidewall of elongate member 500 .
- the elongate member 500 may be configured to be positioned inside one or both of the anchor component 300 and the cap component 400 .
- opposite ends 510 a and 510 b of the pin 502 extending from the sidewall of elongate member 500 may be aligned with and positioned inside of the slots 314 of the anchor component 300 or a similar slot of the cap component 400 .
- the pin 502 may not extend across the elongate member 500 and the elongate member 500 includes oppositely positioned protrusions or tabs in place of opposite ends 510 a and 510 b of the pin 502 .
- anchor component 300 may be omitted from one or more portions of the modular structure 100 .
- the elongate member 500 may include a helical or screw-like configuration to engage the ground or another surface below the modular structure 100 instead of being configured to engage with the anchor component 300 .
- the elongate member 500 may be configured to be positioned on the surface underlying the modular structure 100 and then one or more additional anchor elements may anchor the elongate member 500 to the surface. Still, it should be appreciated that alternative forms for anchoring the modular structure 100 are possible.
- the length of the elongate member 500 may be selected based on the desired height of the modular structure 100 .
- the length of the elongate member 500 may generally correspond to the cumulative height of the number of layers or rows of block components 200 of the modular structure 100 .
- the elongate member 500 in inserted into aligned openings of block components 200 after the final height of the modular structure 100 has been obtained, although other variations are possible.
- Elongate member 550 may be used in modular structure 100 in addition to or in lieu of elongate member 500 .
- Elongate member 550 includes a substantially cylindrical body extending between a first end portion 554 and a second end portion 556 and defining a hollow interior 558 .
- the first and second end portions 554 and 556 include slots 560 substantially corresponding to the structure and functionality of slots 314 .
- the elongate member 550 is configured to engage an alternatively configured anchor component 570 .
- the anchor component 570 substantially corresponds in functionality and structure to anchor component 300 , but includes an alternatively configured connector member 572 .
- the connector member 572 includes an opening 574 that is configured to receive the elongate member 550 and a pin 576 configured to engage the slots 560 of the elongate member 550 to provide an axially restrained relationship between the elongate member 550 and the anchor component 570 when the elongate member 500 is inserted into and rotated relative to the anchor component 570 .
- the elongate member 550 is further configured to engage an alternatively configured cap component 580 which includes a connector member 582 configured like the connector member 572 .
- the connector member 582 includes a pin configured to engage the slots 560 of the elongate member 550 to provide an axially restrained relationship between the elongate member 550 and the anchor component 572 when the elongate member 500 is inserted into and rotated relative to the cap component 580 .
- a plurality of sleeve members 590 are also illustrated in FIG. 5C .
- the sleeve members 590 are substantially cylindrical and define an opening 592 configured to receive the elongate member 550 , and the sleeve members 590 are further configured to engage with one another such that openings 592 are aligned with one another.
- the sleeve members 590 may be configured to be simply positioned on top of one another.
- the sleeve members 590 may be configured to interengage with one another to provide a locking or locked arrangement therebweteen.
- the inner diameter of the opening 592 is configured to facilitate placement of the elongate member 550 therein.
- the sleeve members 590 may also be used with the elongate member 500 provided that the elongate member 500 is sized to be inserted through the sleeve members 590 .
- sleeve members 590 When sleeve members 590 are employed in the modular structure 100 , they may be individually placed in aligned openings of block components 200 . In this manner, the sleeve members 590 can be individually stacked as successive rows of block components 200 of modular structure 100 are formed. More particularly, as a row of block components 200 is formed, a sleeve member 590 can be positioned in aligned openings of the block components 200 , and this process can be repeated until the final height of the modular structure 100 is reached. It is also contemplated that two or more sleeve members 590 may be positioned at the same time, or that the sleeve members 590 are all positioned through aligned openings of the block components 200 after the final height of the modular structure 100 is obtained.
- these sleeve members 590 provide provisional coupling and alignment of the block components 200 until the elongate member 500 is positioned through the sleeve members 590 .
- the elongate member 500 or 550 may be inserted through the sleeve members 590 and into engagement with an anchor component 300 . The positioning of the elongate member 500 in this manner further secures the coupling of the block components 200 to one another.
- the elongate members 520 may be used in the modular structure 100 in addition to or in lieu of elongate member 500 or 550 .
- the elongate members 520 extend between first and second end portions 524 and 526 .
- the first end portions 524 include slots 522 and the second end portions 526 include a pin 528 .
- a number of elongate members 520 are individually labeled as 520 A, 520 B and 520 C for the sake of clarity.
- Anchor component 530 substantially corresponds in structure to anchor component 570 and includes a connector member 532 , opening 534 and pin 536 .
- the configuration also includes a cap component 540 that substantially corresponds to the cap component 580 and includes a connector member 542 .
- the elongate members 520 are configured to engage with each other, the anchor component 530 and the cap component 540 .
- the elongate member 520 A is configured to be partially inserted into opening 534 of the anchor component 530 with the slots 522 engaging the pin 536 .
- the slots 522 and the pin 536 interact to provide an axially restrained or locked relationship between the elongate member 520 A and the anchor component 530 .
- Elongate member 520 B is configured to be positioned on top of the elongate member 520 A and may be rotatably coupled therewith.
- the pin 528 of elongate member 520 A may be positioned into the slot 522 of elongate member 520 B and the elongate member 520 B may be rotated relative to elongate member 520 A to removably couple the two.
- the cap component 540 may be similarly coupled to the uppermost one of elongate members 520 .
- the elongate members 520 When the elongate members 520 are employed in the modular structure 100 , they may be individually placed in aligned openings of block components 200 . For example, a first elongate member 520 may be placed through aligned openings and engaged with an anchor component. In this manner, the elongate members 520 can be stacked as successive rows of block components 200 are formed on modular structure 100 .
- a final elongate member 520 may be coupled with the next to final elongate member 520 and then the cap component 540 may be coupled with the final elongate member 520 . It should be understood that forms in which a single elongate member 520 is positioned through aligned openings of block components 200 and engaged with an anchor component and a cap component are also possible.
- modular structure 100 may include one or more reinforcing members to help provide stability and strength to structure 100 .
- the modular structure 100 includes reinforcing members such as structural cables or bands 512 configured to add stability to the modular structure 100 .
- the reinforcing members in the form of cables 512 are positioned above and below a respective block component 200 .
- a first cable 512 may be placed relative to elongate members 500 A and 500 B followed by positioning of a block component 200 on top of the first cable and a second cable 512 on top of the block component 200 .
- a single cable 512 may be employed for each row of block components 200 .
- the reinforcing cables 512 extend around two elongate members 500 A and 500 B and are configured to structurally connect the elongate members 500 A and 500 B. While not illustrated, it should be understood that cables 512 may connect more than two elongate members 500 or that more than two elongate members 500 may be connected by one or more than one cable 512 .
- the cables 512 may also be employed in forms where elongate members 520 or 550 are utilized.
- the cables 512 may be formed of steel or any other suitable materials. In one exemplary form, the reinforcing cables 512 may be formed by plurality of braided steel fibers.
- the cap component 400 includes a body 406 including connector openings 410 , each configured to receive one end of a respective cable 700 (discussed in further detail below).
- the connector openings 410 substantially correspond in size and configuration to the connector openings 310 of the anchor component 300 .
- a connector member 412 is positioned on the body 406 and substantially corresponds in structure and function to connector member 312 .
- the connector member 412 includes two oppositely positioned slots 414 .
- Each of the slots 414 includes a vertically extending portion 413 and a transverse portion 415 which extends substantially orthogonally to the vertical portion 413 , although other variations are contemplated.
- the cap component 400 is configured to rotatably couple or engage the elongate member 500 in an arrangement similar to that described above with respect to the anchor component 300 . It should be appreciated that the cap component may also be coupled to elongate members 520 or 550 in a similar fashion. After the block components 200 , anchor components 300 , and elongate members 500 are positioned and assembled as described above, each of the cap components 400 may be rotatably coupled to one of the elongate members 500 . In this arrangement, the body 406 may engage with or be positioned in close proximity to an uppermost block component 200 and provide a lock or clamp on the block components in combination with the anchor component 300 . Similarly, amongst other things, this arrangement prevents axial dislocation of the block components from the elongate member 500 .
- Cable 700 includes a connector 702 positioned on a first end 706 and a connector 704 positioned on a second end 708 .
- the connectors 702 , 704 are keyed to fit into corresponding connector openings of the anchor components 300 , cap components 400 and/or center member 600 .
- the connector openings 310 , 410 , 610 ( FIG. 9A) and 660 ( FIG. 9B ) are oriented such that the connectors 702 , 704 may be inserted into the connecting openings in a first orientation and then rotated to a second orientation in which the connectors become engaged with or locked in the connector openings.
- the connectors 702 , 704 are substantially square-shaped, and the connector openings 310 , 410 , 610 , and 660 are substantially square shaped.
- the connectors 702 , 704 may be turned about 45 degrees or so after insertion into the connector openings 310 , 410 , 610 , and 660 to provide a locking arrangement therebetween.
- other locking arrangements between connectors 702 , 704 and connector openings, 310 , 410 , 610 , and 660 are possible.
- the cable 700 also includes attachments 710 and 712 configured to couple the connectors 702 , 704 with a cable section 714 .
- the cable 700 may also include one or more optional tensioning devices that are not illustrated for clarity.
- the tensioning devices may be turnbuckles or any other suitable devices configured to adjust the tension of cable 700 .
- the tensioning devices may be optionally added to the cable 700 at any feasible position.
- the center member 600 is substantially circular and includes a plurality of connector openings 610 around the outside edge of the center member 600 .
- the connector openings 610 substantially correspond to the connector openings 310 and 410 and are configured to receive a connector 702 or, 704 of a cable 700 .
- the center member 600 also includes stake openings 608 positioned interior to the connector openings 310 .
- the stake openings 608 substantially correspond to the stake openings 308 and each is configured to receive an anchor stake 350 .
- only a few of the stake openings 608 and connector openings 610 are labeled in FIG. 9A .
- the center member 600 may include a number of stake openings 608 or connector openings 610 that deviates from the illustrated form.
- the positioning of stake openings 608 or connector openings 610 may also vary in non-illustrated forms.
- the number of connector openings 610 may be selected to correspond to the number of anchor components 300 of the modular structure 100 .
- forms in which the center member 600 includes a greater or lesser number of connector openings 610 than there is anchor components 300 in the modular structure 100 are also possible.
- the center member 600 is positioned in substantially the center of the modular structure 100 .
- the center member 600 is configured to attach to cables 700 to provide structural support for the modular structure 100 .
- the length of cable 700 roughly corresponds to the radius of the modular structure and the length of the cable section 714 may be selected based on the size of the modular structure 100 .
- each of the cables 700 may be extend between a pair of anchor components 300 or between a pair of cap components 400 .
- each anchor component 300 or cap component 400 may be coupled to more than one cable 700 to provide additional structural support.
- Such configurations may be generally circular or any geometric configuration and/or size.
- the modular structure 100 may be substantially rectangular and a plurality of cables 700 may be coupled to each anchor component 300 or cap component 400 and extend across the modular structure 100 where each of the plurality of cables 700 is individually coupled with a respective anchor component 300 or cap component 400 .
- the modular structure 100 may also include a support element 650 , which is not illustrated in FIG. 1 .
- the support element 650 includes an elongate section 662 extending between a first end 652 and a second end 654 .
- a base member 656 is positioned on the first end 652 and a top member 658 is positioned on the second end 654 .
- the top member 658 generally corresponds in structure and function to center member 600 and includes connector openings 660 .
- the second end 654 may also include spoke members 664 extending from the top member 658 to the elongate section 662 .
- the base member 656 is configured to be positioned substantially in the center of the modular structure 100 on a surface underlying the support element 650 .
- the underlying surface may be a liner positioned inside of the modular structure, the center member 600 , or the ground.
- the top member 658 is configured to be removably coupled to a first end of a plurality of the cables 700 with the other end of each cable 700 being coupled to a cap component 400 .
- This support configuration is similar to that of the center member 600 but positioned generally near the top of the modular structure 100 instead of near the bottom of the modular structure 100 .
- the support element 650 coupled to the cap components 400 with cables 700 may be generally referred to as a support element system.
- the support element system may be configured to provide additional structural support for the modular structure 100 .
- the support element system may also provide support for a cover for the modular structure 100 .
- the support element 650 may provide support for a vapor control system for the modular structure 100 .
- the support element 650 may be configured such that the elongate section 662 may be removably coupled to the first and/or second ends 652 , 654 .
- the elongate section 662 and the first and/or second ends 652 , 654 may include removable coupling features similar to the rotatable coupling configuration of elongate member 500 with anchor components 300 and/or cap components 400 .
- FIGS. 10A-10F an alternative embodiment block component 1200 and an alternative embodiment reinforcing member 800 are illustrated in a perspective view.
- the block component 1200 is similar to the block component 200 , and like numerals have been used in connection with like features previously described in connection with the block component 200 .
- the block component 1200 includes a pair of receptacles 1270 (only one is shown) structured to receive at least a portion of a reinforcing member 800 .
- the receptacles 1270 are positioned opposite one another on respective upper and lower surfaces 222 , 224 of the block component 1200 .
- Forms in which the block component 1200 only includes a single receptacle 1270 positioned on one of the upper and lower surfaces 222 , 224 are also possible.
- the receptacles 1270 extend around the first opening 212 of the block component 1200 and toward the second opening 214 of the block component 1200 .
- the receptacles 1270 do not extend around the second opening 216 .
- the receptacles 1270 are positioned inwardly from lateral edges of the block component 1200 such that portions of the upper and lower surfaces 222 , 224 are positioned on opposite sides of the receptacles 1270 , although other variations are contemplated.
- the receptacle 1270 formed in upper surface 222 includes a surface 1272 recessed with respect to the upper surface 222 .
- the recessed surface 1272 is positioned between first and second portions 1274 , 1276 of the upper surface 222 .
- the first portion 1274 extends along the first sidewall 208 and the second raised portion 1276 extends along the second sidewall 210 . While not shown, it should be appreciated that the receptacle 1270 on the lower surface 224 of the block component 1200 is similarly configured.
- the reinforcing member 800 includes a body 802 extending between a first end portion 804 and a second end portion 806 .
- the first end portion 804 includes an arcuate configuration which transitions from a linear configuration of the body 802
- the second end portion 806 also includes an arcuate configuration which transitions from the linear configuration of the body 802 .
- the configuration of the first and second end portions 804 , 806 of the reinforcing member 800 corresponds to the configuration of the first end portion 204 of the block component 1200 .
- the first end portion 804 of the reinforcing member 800 is associated with the first end portion 204 of a first one of the block components 1200 and the second end portion 806 is associated with the first end portion 204 of a second one of the block components 1200 .
- a first opening 812 extends through the first end portion 804 of the reinforcing member 800
- a second opening 814 extends through the second end portion 806 of the reinforcing member 800
- the first opening 812 may correspond in size and shape to the first opening 212 of the block component 1200
- the second opening 814 may correspond in size and shape to the second opening 214 of the block component 1200
- the reinforcing member 800 and/or the receptacles 1270 are generally dimensioned to facilitate positioning of at least a portion of the reinforcing member 800 in a receptacle 1200 .
- the reinforcing member 800 may generally include a width and thickness which facilitate positioning at least a portion thereof in the receptacles 1270 .
- the reinforcing member 800 may include a width that facilitates its positioning between the portions of the upper and lower surfaces 222 , 224 positioned on opposite sides of the receptacles 1270 .
- the reinforcing member 800 may include a thickness dimensioned such that the reinforcing member 800 is flush with or positioned below the upper or lower surfaces 222 , 224 when it is positioned in a receptacle 1270 .
- the reinforcing member 800 includes a thickness dimensioned such that a single reinforcing member 800 is positioned in receptacles 1270 of a pair of adjacent block components 1200 stacked one on top of the other are also possible.
- the reinforcing member 800 includes a thickness which is greater than the depth of the receptacles 1200 .
- FIG. 10B Another alternative embodiment block component 2200 is illustrated in a perspective view in FIG. 10B .
- the block component 2200 is similar to the block components 200 and 1200 , and like numerals have been used in connection with like features previously described in connection with the block components 200 and 1200 .
- the block component 2200 includes an offset base portion 2280 extending from the first sidewall 208 between the first and second end portions 204 , 206 .
- the base portion 2280 may facilitate in preventing the contents held by a modular structure including the block component 2200 from moving under and/or displacing the block component 2200 .
- the base portion 2280 extends between a first end 2284 and a second end 2286 and includes a portion 2282 having an arcuate or rounded configuration which extends from the first sidewall 208 of the block component 2200 to an edge 2288 of the base portion 2280 . More specifically, the portion 2282 defines an arcuate surface extending from a first plane in which the first sidewall 208 extends and a second plane in which the lower surface 224 extends. In other non-illustrated configurations, the portion 2282 may define a planar surface which extends between and transversely to the first and second planes.
- the lower surface of the base portion 2280 is aligned with the lower surface 224 such that positioning of the block component 2200 on a surface underlying the block component involves placement of both the lower surface 224 and the lower surface of the base portion 2280 on the underlying surface.
- the first and second ends 2284 , 2286 of the base portion extend parallel to one another and orthogonally to the sidewall 208 .
- forms in which the first and second ends 2284 , 2286 extend transversely to one another and to the sidewall 208 are possible in order to facilitate non-linear positioning of a number of adjacent block components 2200 . Further details of an arrangement of this nature are provided below in connection with FIG. 10F .
- FIGS. 10C-10F illustrate a modular structure 1100 that includes block components 1200 and 2200 .
- the modular structure 1100 includes block components 2200 A and 2200 B which are coupled together in end-to-end fashion.
- the modular structure 1100 also includes block components 1200 A-D with block components 1200 A and 1200 B engaged in end-to-end fashion with one another and positioned on top of the block components 2200 A and 2200 B, respectively.
- the block components 1200 C and 1200 D are engaged in end-to-end fashion with one another and positioned on top of the block components 1200 A and 1200 B, respectively.
- the modular structure 1100 could have any number of the block components 1200 and 2200 engaged with and stack relative to one another to form a variety of different configurations of the structure 1100 .
- FIGS. 10D and 10E illustrate details of assembly of the modular structure 1100 and of elements of the modular structure 1100 that are not numerically identified in FIG. 10C .
- the modular structure 1100 includes a plurality of base members 830 A-C, elongate members 820 A-C and 822 A-F, cap members 840 A-C, and reinforcing members 800 A-H.
- one or more of the elongate members 500 , 520 , or 550 may be used in addition to or in lieu of one or more of the elongate members 820 A-C and 822 A-F, that the anchor component 300 may be used in addition to or in lieu of one or more of the base members 830 A-C, and that the and cap members 840 A, 840 B may be used in addition to or in lieu of one or more of the cap members 840 A-C.
- the base members 830 A-C are substantially identical to the cap members 840 A-C and may be used interchangeably.
- the base members 830 A-C, the cap members 840 A-C and the elongate members 820 A-C and 822 A-F are configured for a press fit engagement with one another, although forms utilizing alternative locking arrangements between these components such as bayonet locking or ball-detent locking are contemplated.
- the base members 830 A-C each include an insertion portion and a collar portion. These elements are identified by numerals 832 A-B and 834 A-B, respectively, in FIG. 10E in connection with the base members 830 A and 830 B.
- the insertion portions of the base members 830 A-C are configured to be positioned inside a hollow portion of the elongate members 820 A-C such that the ends of the elongate members 820 A-C come into contact with the collar portion of the base members 830 A-C.
- the elongate members 822 A-F each include an insertion portion positioned opposite of a hollow portion. These elements are identified by numerals 824 A, B, D and E and 826 A, B, D and E, respectively, in FIG. 10E in connection with the elongate members 822 A, B, D and E.
- the insertion portion of the elongate members 822 A-C is configured to be positioned in a hollow portion of a respective elongate member 820 A-C
- the insertion portion of the elongate members 822 D-F is configured to be positioned in the hollow portion of a respective elongate member 822 A-C.
- the cap members 840 A-C which are identical to the base members 830 A-C, include an insertion portion and a collar portion and the insertion portion is configured to be positioned in the hollow portion of a respective elongate member 822 D-F such that the ends of the elongate members 822 D-F engages with the collar portion. It should be appreciated however that alternative arrangements for engaging the base members 830 A-C, the elongate members 820 A-C and 822 A-F, and the cap members 840 A-C are possible and that a different number of these components could be present depending on the desired size and configuration of the modular structure 1100 .
- the base members 830 A, 830 B include corresponding connecting portions 832 A and 832 B.
- the connecting portion 832 A may be positioned through the first opening 812 of the reinforcing member 800 A to engage the reinforcing member 800 A with the connecting portion 832 A.
- the connecting portion 832 B may be positioned through the second opening 814 A of the reinforcing member 800 A to engage the reinforcing member 800 A with the connecting portion 832 B.
- the elongate member 820 A may be positioned through the first opening 812 of the reinforcing member 800 A into engagement with the connecting portion 832 A of the base member 830 A.
- the elongate member 820 B may be positioned through the second opening 814 A of the reinforcing member 800 A into engagement with the connecting portion 832 B of the base member 830 B.
- the base members 830 A-C are positioned and the reinforcing member 800 A is engaged with the base members 830 A-B with the collar portion of the base members 830 A-B being positioned in the first and second openings 812 , 814 of the reinforcing member 800 A.
- the reinforcing member 800 E is positioned over the reinforcing member 800 A at the base member 830 B and engaged with the base members 830 B-C with the collar portion of the base members 830 B-C being positioned in the first and second openings of the reinforcing member 800 E.
- the block component 2200 B may be place over the reinforcing member 800 E with a portion of the base member 830 B extending into the opening 212 of the block component 2200 B and the opening 214 of the block component 2200 B positioned in line with the base member 830 C.
- the block component 2200 A may then be positioned over the reinforcing member 800 A with the opening 214 thereof aligned with the opening 212 of the block component 2200 B and a portion of the base member 830 A extending into the opening 212 thereof.
- at least a portion of the reinforcing members 800 A, 800 E is positioned in the receptacles 1270 on the lower surfaces of the block components 2200 A and 2200 B.
- the elongate member 820 A may be positioned through the first opening 212 of the block component 2200 A and into engagement with the base member 830 A; i.e., with the insertion portion of the base member 830 A received in the elongate member 820 A.
- the elongate member 820 B may be positioned through the aligned first opening 212 of the block component 2200 B and the second opening 214 of the block component 2200 A and into engagement with the base member 830 B in a similar fashion.
- the elongate member 820 C may be positioned through the second opening 214 of the block component 2200 B and into engagement with the base member 830 C as described in connection with the elongate member 800 A and the base member 830 C.
- the reinforcing member 800 B may be positioned over the block component 2200 A with a portion of the elongate member 820 A extending through the opening 812 thereof and a portion of the elongate member 820 B extending through the opening 814 thereof.
- the reinforcing member 800 B is also positioned such that at least a portion thereof is received in the receptacle 1270 on the upper surface of the block component 2200 A.
- the reinforcing member 800 F is then positioned over the block component 2200 B with a portion of the elongate member 820 B extending through the opening 812 thereof and a portion of the elongate member 820 C extending through the opening 814 thereof.
- the reinforcing member 800 B is also positioned such that at least a portion thereof is received in the receptacle 1270 on the upper surface of the block component 2200 B, and such that a portion thereof is positioned over and overlaps with the reinforcing member 800 B around the elongate member 820 B.
- the block components 1200 A and 1200 B may then be positioned over the reinforcing members 800 B and 800 F in a manner similar to that described in connection with the positioning of the block components 2200 A and 2200 B, resulting in the reinforcing members 800 B and 800 F being positioned between the block components 2200 A and 1200 A and 2200 B and 1200 B, respectively.
- the elongate member 822 A may be inserted through the first opening 212 of the block component 1200 A and the insertion portion thereof may be positioned into engagement with the hollow portion of the elongate member 820 A.
- the elongate members 822 B-C may be similarly inserted through openings in one or both of the block components 1200 A and 1200 B and the insertion portions thereof may be brought into engagement with the elongate members 820 B-C, respectively.
- the remaining block components 1200 C-D, elongate members 822 D-F, and reinforcing members 800 C-D and 800 G-H may be added to the modular structure 1100 in a manner similar to that previously described with respect to like components. Once these components have been added to the modular structure 1100 and no additional rows of the block components 1200 are desired, the cap members 840 A-C may be positioned to engage with corresponding elongate members 822 D, 822 E and 822 F.
- the base portions 2280 A and 2280 B of the block components 2200 A and 2200 B interface with one another when the block components 2200 A and 2200 B are arranged in a non-linear configuration.
- the base portion 2280 A includes a first end 2284 A and an oppositely positioned second end 2286 A engaged with a first end 2284 B of the base portion 2280 B.
- the base portion 2280 B also includes a second end 2286 B positioned opposite the first end 2284 B. As illustrated for example in FIG.
- the ends 2284 A-B and 2286 A-B of the base portions 2280 A-BC are angled relative to the corresponding body of the block component 2200 A-B to permit the block components 2200 A-B to be angled with respect to one another, for example, to form a circular modular structure such as the modular structure 1100 .
- This arrangement also facilitates the formation of a continuous or substantially continuous surface by the base portions 2280 A-B on which, for example, a liner could be positioned.
- the modular structures 100 , 1100 may be used for a variety of purposes.
- the modular structures 100 , 1100 may form sidewalls upon which a roof or other enclosure is positioned in order to provide a shed or other storage building.
- the modular structures 100 , 1100 may form a corral or other enclosure for retaining animals.
- the modular structures 100 , 1100 may form a sidewall or perimeter structure that is used as the base for a liquid storage tank.
- a liner is placed in the modular structure 100 , 1100 and defines a reservoir for holding a liquid.
- the liner may be formed of a liquid-impermeable or substantially liquid-impermeable material, non-limiting examples of which include vinyl, rubber, water-proof fabrics, and plastics, just to provide a few non-limiting examples.
- the liner may include one or more securing straps or similar features which allow the liner to be secured to one or more features of the modular structure 100 , 1100 . Additionally or alternatively, the securing straps may be engaged to one or more anchors or similar components positioned around the modular structure 100 , 1100 .
- a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a plurality of block components with at least two openings to define an enclosed space.
- the plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components.
- the method also includes positioning a plurality of elongate members through the aligned openings, rotatably coupling each elongate member to one of the plurality of anchor components, rotatably coupling each of a plurality of cap components to one of the plurality of elongate members, and positioning a liner in the enclosed space such that the liner defines a reservoir for holding a liquid.
- a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a plurality of block components with at least two openings to define an enclosed space.
- the plurality of block components are stacked one on top of another, and the plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components.
- the method also includes positioning a plurality of elongate members through the aligned openings and rotatably coupling each elongate member to one of the plurality of anchor components.
- a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a plurality of block components with at least two openings to define an enclosed space.
- the plurality of block components are stacked one on top of another, and the plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components.
- the method also includes positioning a plurality of elongate members through the aligned openings and rotatably coupling each elongate member to one of the plurality of anchor components.
- a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a first plurality of block components with at least two openings to define an enclosed space.
- the first plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components.
- the method also includes positioning each of a first plurality of sleeve members through the aligned openings, stacking a second plurality of block components on the first plurality of block components with the second plurality of block components being positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components, and positioning each of a second plurality of sleeve members through the aligned openings of the second plurality of block components.
- the method also includes positioning each of a plurality of elongate members through one of the first plurality of sleeve members and one of the second plurality of sleeve members, and rotatably coupling each of the plurality elongate members with one of the plurality of anchor components.
- a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a first plurality of block components with at least two openings to define an enclosed space.
- the first plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components.
- the method also includes positioning each of a first plurality of elongate members through the aligned openings, rotatably coupling each of the first plurality of elongate members to one of the plurality of anchor components, and stacking a second plurality of block components on the first plurality of block components.
- the second plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components.
- the method also includes positioning each of a second plurality of elongate members through the aligned openings of the second plurality of block components, and rotatably coupling each of the second plurality of elongate members to one of the first plurality of elongate members.
- a method for assembling a modular structure includes positioning a plurality of block components to define an enclosed space and positioning a liner in the enclosed space such that the liner defines a reservoir for holding a liquid.
- a method for assembling a modular structure further includes rotatably coupling each of a plurality of cap components to one of the plurality of elongate members.
- a method for assembling a modular structure further includes positioning a support element in substantially the center of the modular structure, attaching the support element to first ends of a second plurality of cables, and attaching second ends of the second plurality of cables to the plurality of cap components.
- a method for assembling a modular structure further includes positioning a cover on the modular structure. In one embodiment, a method for assembling a modular structure further includes positioning a vapor control system on the modular structure.
- a method for assembling a modular structure further includes placing an anchor stake through an opening in the anchor component. In one embodiment, a method for assembling a modular structure further includes placing an anchor stake through an opening in center member.
- a method for assembling a modular structure further includes placing reinforcing cables around at least two block components. In one embodiment, a method for assembling a modular structure further includes placing reinforcing cables between at least two block components.
- a method for assembling a modular structure includes positioning a first stackable block relative to a second stackable block, the first and second blocks being configured to inter-engage with one another and each including two or more openings; inserting a first elongate member through a first opening of the first block and a second opening of the second block aligned with the first opening of the first block; inserting a second elongate member through a second opening of the first block; and positioning a reinforcing member over the first block with a first portion thereof extending around the first elongate member and a second portion thereof extending around the second elongate member.
- the method includes engaging the elongate member with a base member positioned below the first and second blocks.
Abstract
The subject matter disclosed herein generally relates to modular storage structures. In one non-limiting embodiment, a modular structure includes a plurality of stackable, inter-engaging blocks. Two or more of the blocks include at least two openings, and the blocks are configured to be removably coupled to one another with an opening of a first block aligned with an opening of a second block. The modular structure also includes at least two elongate members positionable through aligned hinge openings of at least two of the plurality of blocks positioned adjacent to one another. The modular structure also includes at least one reinforcing member structured to extend between and engage the at least two elongate members between stacked layers of the blocks. Other embodiments, forms, aspects and features are disclosed herein.
Description
- This application is a continuation in part of International Patent Application No. PCT/US2013/078110, filed Dec. 27, 2013, titled MODULAR STORAGE STRUCTURES, which claims priority to U.S. Provisional Patent Application No. 61/746,492, filed Dec. 27, 2012, titled MODULAR LIQUID STORAGE TANK, the contents of which are incorporated herein by reference in their entirety.
- The present application generally relates to modular storage structures, and more particularly, but not exclusively, to modular storage structures arranged to store a liquid material.
- Hydrocarbon exploration and extraction operations are conducted in places around the world, sometimes in very remote locations. Many of these operations involve very large volumes of fluids, equipment and/or other materials which need to be stored.
- For example, hydraulic fracturing, or “fracking,” is a process in which large amounts of pressurized fluids fracture rock layers in order to release fossil fuels for extraction and recovery. Wellbore locations vary with rock formations, and some extraction operations may require temporary fluid storage near the wellbore's position. High volume liquid storage tanks may be necessary for storage of fracturing fluids, brine or process water during various oil field operations. These storage tanks may be designed to hold large quantities of liquid while fracking or other processes are underway. Structures for storing materials other than liquid may also be necessary. Further, the use of these structures may be implemented at sites other than where fracking occurs and/or in connection with operations other than fracking.
- The subject matter claimed herein is not limited to embodiments that solve any disadvantages or that operate only in environments such as those described above. Rather, this background is only provided to illustrate one exemplary technology area where some embodiments described herein may be utilized.
- The subject matter disclosed herein generally relates to modular storage structures, and more particularly, but not exclusively, to modular storage structures arranged to store a liquid material.
- In one non-limiting embodiment, a modular structure includes a plurality of stackable, inter-engaging blocks. Two or more of the blocks include at least two openings, and the blocks are configured to be removably coupled to one another with an opening of a first block aligned with an opening of a second block. The modular structure also includes at least two elongate members positionable through aligned hinge openings of at least two of the plurality of blocks positioned adjacent to one another, and at least one reinforcing member structured to extend between and engage the at least two elongate members between stacked layers of the blocks.
- In another non-limiting embodiment, a modular structure includes at least two components each including a body extending along an axis and including oppositely positioned sidewalls. A first opening is positioned between the sidewalls and extends transversely to the axis, and a second opening is positioned between the sidewalls and extends transversely to the axis. The components are configured to be removably coupled to one another with the first opening of a first component aligned with the second opening of a second component when the first and second components are positioned adjacent to one another. The modular structure also includes at least two elongate members. At least one of the elongate members is configured to be positioned through the aligned first and second openings of the first and second components when the first and second components are positioned adjacent to one another. The modular structure further includes one or more reinforcing members positionable along exterior surfaces of the first and second components when the first and second components are positioned adjacent to one another and into engagement with the at least two elongate members.
- In yet another non-limiting embodiment, a modular structure includes a plurality of stackable, inter-engaging blocks, and at least two of the plurality of blocks include at least two hinge openings. The structure also includes at least two elongate members, and each of the elongate members is positionable through aligned hinge openings of at least two of the plurality of blocks positioned adjacent to one another. The structure further includes at least one reinforcing member structured to extend between and engage the at least two elongate members between stacked layers of adjacent ones of the plurality of blocks.
- In another non-limiting embodiment, a method for assembling a modular structure includes positioning a first stackable block relative to a second stackable block. The first and second blocks are configured to inter-engage with one another and each include two or more openings. The method also includes inserting a first elongate member through a first opening of the first block and a second opening of the second block aligned with the first opening of the first block; inserting a second elongate member through a second opening of the first block; and positioning a reinforcing member over the first block with a first portion thereof extending around the first elongate member and a second portion thereof extending around the second elongate member.
- In still another non-limiting embodiment, a modular structure includes a plurality of stackable, inter-engaging blocks, and at least two of the plurality of blocks include at least two hinge openings. The structure further includes a plurality of elongate members, and at least two of the elongate members are configured to be positioned through aligned hinge openings of the at least two blocks. The structure also includes at least one reinforcing member positionable in line with the longitudinal axis of at least one of the blocks and into engagement with the two elongate members.
- This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential characteristics of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
- Additional features and advantages will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The features and advantages may be realized and obtained by means of the instruments and combinations particularly pointed out in the appended claims. These and other features of the present invention will become more fully apparent from the following description and appended claims, or may be learned by the practice of the invention as set forth hereinafter.
-
FIG. 1 is a perspective view of a modular structure. -
FIG. 2A is a perspective view of a block component of the modular structure ofFIG. 1 . -
FIG. 2B is a side view of the block component ofFIG. 2A . -
FIG. 2C is a top view of the block component ofFIG. 2A . -
FIG. 2D is a section view of the block component ofFIG. 2A . -
FIG. 2E is a side view of a pair of alternatively configured block components. -
FIG. 2F is a side view of a pair of alternatively configured block components. -
FIG. 3A is a perspective view of an elongate member relative to an anchor component of the modular structure ofFIG. 1 . -
FIG. 3B is a perspective view of an anchor stake of the modular structure ofFIG. 1 . -
FIG. 4 is a side view of a portion of the modular structure ofFIG. 1 . -
FIG. 5A is a perspective view of an elongate member of the modular structure ofFIG. 1 . -
FIG. 5B is a top view of the elongate member of 5A. -
FIG. 5C is a perspective view of an alternatively configured elongate member and a plurality of sleeve members relative to an anchor component. -
FIG. 5D is an exploded view of an alternatively configured elongate member relative to an anchor component. -
FIG. 6 is a perspective view of a portion of one form of the modular structure ofFIG. 1 . -
FIG. 7 is a perspective view of a cap component of the modular structure ofFIG. 1 . -
FIG. 8 is a perspective view of a cable of the modular structure ofFIG. 1 . -
FIG. 9A is a perspective view of a center member of modular structure ofFIG. 1 . -
FIG. 9B is a perspective view of a support element which may be used in connection with the modular structure ofFIG. 1 . -
FIG. 10A is a perspective view of an alternative embodiment block component positioned relative to an alternative embodiment reinforcing member. -
FIG. 10B is a perspective view of another alternative embodiment block component. -
FIG. 10C is a perspective view of an alternative embodiment modular structure including the alternative embodiment block components illustrated inFIGS. 10A and 10B . -
FIG. 10D is an exploded, perspective illustration of the alternative embodiment modular structure illustrated inFIG. 10C . -
FIG. 10E is an exploded, perspective illustration of the modular structure illustrated inFIG. 10C without the block components. -
FIG. 10F is a plan view of a portion of the modular structure illustrated inFIG. 10C including a plurality of the block components illustrated inFIG. 10B . - For purposes of promoting an understanding of the described subject matter, reference will now be made to the following embodiments and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of the invention is thereby intended, such alterations and further modifications in the described subject matter, and such further applications of the principles of the invention as described herein being contemplated as would normally occur to one skilled in the art to which the invention relates.
- The terms and words used in the following description and claims are not limited to the bibliographical meanings, but, are merely used by the inventor to enable a clear and consistent understanding of the invention. It is to be understood that the singular forms “a,” “an,” and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a component surface” includes reference to one or more of such surfaces.
- By the term “substantially” it is meant that the recited characteristic, parameter, or value need not be achieved exactly, but that deviations or variations, including for example, tolerances, measurement error, measurement accuracy limitations and other factors known to skill in the art, may occur in amounts that do not preclude the effect the characteristic was intended to provide.
- The subject matter disclosed herein generally relates to modular structures. In one form, the modular structures may be configured to store a volume of liquid. More particularly, with general reference to
FIG. 1 , one non-limiting embodiment of amodular structure 100 is illustrated in a perspective view. Themodular structure 100 includes a plurality ofblock components 200 that are configured to be removably coupled to one another. In the illustrated form,block components 200 are identical or substantially identical, although forms in which variations betweenblock components 200 are present are also contemplated.Modular structure 100 also includes a plurality of base or anchor members such ascomponents 300 configured to be positioned on a surface underlying themodular structure 100, and a plurality ofelongate members 500 each removably coupled to a respective base component oranchor component 300. Each ofelongate members 500 is further removably coupled to a respective one of a plurality ofcap components 400. Theelongate members 500 are further configured to couple vertically and laterallyadjacent block components 200 to one another, further details of which will be provided herein below. Acenter member 600 is positioned in substantially the center ofmodular structure 100 and is positioned on or near the surface underlyingmodular structure 100. A plurality ofcables 700 extend fromcenter member 600 and each ofcables 700 is removably coupled with arespective anchor component 300. For the sake of clarity, only a few of the above-mentioned components have been identified inFIG. 1 . - In the illustrated form,
block components 200 are arranged in a circular configuration and define an enclosed space. Although themodular structure 100 is generally circular, the components as described herein permit modular structures with configurations in a variety of geometric configurations and sizes. Additionally, although the illustratedmodular structure 100 includesblock components 200 stacked six rows high, it should be understood that modular structures with any number of rows ofblock components 200 are possible. - Turning now to
FIGS. 2A-D , details of one non-limiting embodiment of theblock component 200 will be provided. In the illustrated form, theblock component 200 includes a body extending along an axis A1 between afirst end portion 204 and asecond end portion 206. Theblock component 200 includes afirst sidewall 208 opposite asecond sidewall 210 and anupper surface 222 opposite alower surface 224. - A
first opening 212 on thefirst end portion 204 extends through the upper andlower surfaces block component 200. Thefirst opening 212 is positioned between the first andsecond sidewalls FIG. 2C . Thefirst end portion 204 includes areceptacle 216 configured to receive a second end portion of an adjacent block component which is the same or substantially identical to thesecond end portion 206 as illustrated for example inFIG. 2B . Thereceptacle 216 interrupts thefirst opening 212 into two spaced apart and alignedsections second opening 214 extends through thesecond end portion 206 of theblock component 200. Thesecond opening 214 is positioned between the first andsecond sidewalls second openings adjacent block components 200 are also envisioned. Non-illustrated embodiments include block components with multiple receptacles similar toreceptacle 216 on the first and/orsecond end portions block component 200 is at least partially formed of a plastic polymer, although it should be appreciated that it may be formed of other materials as well. - Turning now to
FIG. 2D , the first andsecond sidewalls lower surfaces interior chamber 218. Theinterior chamber 218 may be hollow or may be filled with a filler material (not shown). The filler material may be a foam material or a structural matrix. The filler material may include support members extending between the first andsecond sidewalls lower surfaces interior chamber 218 may be filled with water or any other liquid or other material or component configured to increase the structural stability of theblock component 200 ormodular structure 100. Forms in which blockcomponents 200 include a solid configuration andinterior chamber 218 is absent are also contemplated. - As illustrated for example in
FIG. 2D , theblock component 200 includes reinforcing members such ascables 220 extending around the first andsecond openings cables 220 are positioned within theinterior chamber 218 and are configured to structurally reinforceblock component 200. In non-illustrated examples, thecables 220 may be positioned exterior to theblock component 200 or within thesidewalls lower surfaces block component 200. When present, a variety of different types and numbers ofcables 220 may be utilized in connection with theblock component 200. - The
block component 200 may be configured to withstand tensile stress without failing or breaking. For example, configurations of theblock component 200 may have an ultimate tensile strength greater than 15,000 pounds-force per square inch. In some forms, configurations of theblock component 200 may have an ultimate tensile strength greater than 6000 pounds-force per square inch. It should be appreciated however that alternative values for the tensile strength of theblock component 200 are possible. - The
modular structure 100 may be configured such that some rows ofblock components 200 include reinforcing members such ascables 220, and others do not. For example, themodular structure 100 ofFIG. 1 may include reinforcing members such ascables 220 associated withblock components 200 in the first, second and uppermost rows ofblock components 200 but not in any rows positioned between the second and uppermost rows of block components. In other configurations, reinforcing members such ascables 220 may be associated with eachblock component 200 orcables 220 may not be associated with any of theblock components 200. Those skilled in the art will recognize that a number of different combinations ofblock components 200 with or withoutcables 220 are possible. - As illustrated for example in
FIGS. 2A and 2C , the first andsecond end portions adjacent block components 200. The first andsecond end portions adjacent block components 200 may engage one another at a variety of different angles. For example, blockcomponents 200 may be engaged at or less than right angles with respect to each other, engaged substantially in a straight line with respect to each other, or at any configuration therebetween, just to provide a few non-limiting possibilities. Given the potential variation in the angular relationship betweenadjacent block components 200, it should be understood thatblock components 200 may be used to construct a modular structure having a variety of different sizes and shapes. - As illustrated for example in
FIG. 2D , theblock component 200 includes a moldedhandle 226 configured to facilitate manipulation and handling of theblock component 200. Alternative arrangements for facilitating manipulation and handling of theblock component 200 are possible. For example, theblock component 200 may additionally or alternatively include an opening, indentation, handle, pin, loop, hooks, or any other features for facilitating manipulation and handling of theblock component 200. - Alternative configurations for facilitating engagement of
adjacent block components 200 are possible. For example, as illustrated inFIGS. 2E and 2F , a receptacle may not interrupt one of the openings into two spaced apart and aligned sections. As illustrated inFIG. 2E ,adjacent block components first opening 252 and asecond opening 254.Block components block component 250A aligned with opening 252 ofblock component 250B. In such a configuration, it should be appreciated that the positioning ofblock components block component 250B with opening 252 ofblock component 250A. - As illustrated in
FIG. 2F , another alternative configuration includesadjacent block components first opening 262 and asecond opening 264.Block components block component 260A aligned with opening 262 ofblock component 260B. In such a configuration,block component 260B is rotated 180 degrees about its axis relative to blockcomponent 260A when the components are positioned adjacent to one another and pivotably engaged.Block component 260B may be rotated relative to blockcomponent 260A such thatopening 264 may be positioned to be aligned with opening 264 ofblock component 260A.Block component 260A may also be similarly rotated relative to blockcomponent 260B. - Those skilled in the art will appreciate that other configurations of block components including one or more aspects of
block components 200, 250 and 260 are possible. Although themodular structure 100 is illustrated with identical or substantially identical block components, it is contemplated that other non-illustrated forms ofmodular structure 100 may include one or more variations between one or more of theblock components 200. - Turning now to
FIG. 3A , further details regarding theanchor component 300 will be provided. More particularly, theanchor component 300 includes a base 306 extending between afirst end portion 302 and asecond end portion 304. Thebase 306 is configured to be positioned on a surface underlying theanchor component 300. Thebase 306 includes anopening 308 configured to receive an anchor stake 350 (FIG. 3B ) or other anchor member to couple theanchor component 300 to the underlying surface. The base 306 also includes a plurality ofconnector openings 310, each configured to receive one end of a respective one ofcables 700. It should be understood that the number ofopenings anchor component 300 may deviate from the number shown in the illustrated form. - A
connector member 312 is positioned on the base 306 between the first andsecond end portions slots 314. Each of theslots 314 includes a substantiallyvertical portion 313 and atransverse portion 315 extending orthogonally to thevertical portion 313. - As illustrated for example in
FIG. 3A ,elongate member 500 includes apin 502 extending across a diameter of the elongate member. Theelongate member 500 may be positioned such that thepin 502 is aligned with theslots 314. Thepin 502 may be inserted into thevertical portions 313 of theslots 314. Subsequently, theelongate member 500 may be rotated relative to theanchor component 300 such that thepin 502 is positioned into thetransverse portions 315 of theslots 314, thereby axially locking theelongate member 500 relative to theanchor component 300. - It should be understood that the number of
slots 314 on theconnector member 312 configured to receive pins or protrusions to secure theelongate member 500 to theanchor component 300 may deviate from the number shown in the illustrated form. The illustratedslots 314 are substantially L or J shaped, although it should be appreciated that alternatively configuredslots 314 are contemplated. It is also contemplated that the engaging features ofelongate member 500 and theanchor component 300 may be switched such thatelongate member 500 includes a slot that receives a pin or protrusion of theanchor component 300. Further variations for coupling theelongate member 500 and theanchor component 300 are also possible however. For example, in one non-illustrated form, a threaded arrangement may be utilized to couple theelongate member 500 and theanchor component 300. - Turning to
FIG. 3B , theanchor stake 350 is configured to couple theanchor component 300 to a surface underlying the anchor component, such as soil, dirt etc. Theanchor stake 350 includes anengagement component 352 and anannular surface 354 positioned on a first end portion of abody 356. Theanchor stake 350 may be composed at least partially of steel or of any other suitable material. Theannular surface 354 is configured to secure theanchor stake 350 to theanchor component 300 when theanchor stake 350 is positioned through theopening 308 and at least partially into the surface underlying theanchor component 300. Theengagement component 352 is configured to facilitate handling of theanchor stake 350, including removal of theanchor stake 350 from the underlying surface or theanchor component 300. Either or both of theengagement component 352 and theannular surface 354 may be welded to theanchor stake 350, oranchor stake 350 may be formed as a single component including these features. - Turning now to
FIG. 4 , where a number ofblocks 200 have been labeled individually for the sake of clarity, further details regarding the relationship ofblocks 200 relative to one another will be provided. More particularly,block components FIG. 4 where like numerals refer to like features previously described. In the illustrated form,block components block components block component 200 ofFIGS. 2A-D . -
Block components 200 are configured to be positioned adjacent to one another and removably coupled to one another when positioned in such a manner. For example, inFIG. 4 block component 200A andblock component 200B are positioned laterally adjacent to one another and partially over theanchor component 300. While not previously discussed, it should be understood that the openings of theblock components 200 may be sized and shaped to receive at least a portion of theanchor component 300. For example, in one form, theconnector member 312 of theanchor component 300 and the openings of theblock components 200 are sized and configured such that theconnector member 312 is received in an opening of ablock component 200. Thesecond end portion 206 ofblock component 200A is positioned in thereceptacle 216 of thefirst end portion 204 ofblock component 200B such that thesecond opening 214 ofblock component 200A is aligned with thefirst opening 212 of theblock component 200B. - The
block components 200 are further configured to be placed on top of one another and removably coupled with one another when positioned in such a manner. As illustrated for example inFIG. 4 ,block component 200C is positioned or stacked on top ofblock component 200A. In this configuration, opening 214 ofblock component 200C is aligned with opening 214 ofblock component 200A andopening 212 ofblock component 200C is aligned with opening 212 ofblock component 200A. - In one non-limiting, alternative configuration,
block component 200C may be rotated 180 degrees relative to its illustrated position inFIG. 4 such thatopening 214 ofblock component 200A is aligned with opening 212 ofblock component 200C. Multiple rows (also referred to as layers) ofblock components 200 may be stacked or positioned as described above to assemble modular structures of various heights, sizes and volumes. - The
elongate member 500 is positioned through the aligned openings to removably couple blocks 200A, 200B and 200C. Theelongate member 500 is rotatably coupled to theanchor component 300 as described above, and in such configuration a portion of theconnector member 312 is positioned inside ofelongate member 500. Similarly, in forms where at least a portion ofconnector member 312 extends into an opening of aconnector block 200, the interaction between theelongate member 500 and theconnector member 312 occurs, in whole or in part, inside the opening of the connector block. - With more particular reference to
FIGS. 5A-5B for example, theelongate member 500 will be described in further detail. Theelongate member 500 includes a substantially cylindrical body extending between afirst end portion 504 and asecond end portion 506. In the illustrated form,elongate member 500 includes ahollow interior 508, although it should be appreciated that forms in which elongatemember 500 is solid along at least a portion of its length are possible. Thepin 502 extends through an annular sidewall of theelongate member 500 and across thehollow interior 508 at thesecond end portion 506. In other forms, it is contemplated that thepin 502 is replaced with oppositely positioned projections or tabs that only extend partially into thehollow interior 508 from the sidewall ofelongate member 500. Theelongate member 500 is further configured to receive at least a portion of theanchor component 300 and thecap component 400 inside of thehollow interior 508 at the first andsecond end portions FIG. 5A , thefirst end portion 504 of theelongate member 500 is configured substantially the same as thesecond end portion 506; i.e., it includes a pin extending across thehollow interior 508 or oppositely positioned projections or tabs that only extend partially into thehollow interior 508 from the sidewall ofelongate member 500. - In alternative configurations, the
elongate member 500 may be configured to be positioned inside one or both of theanchor component 300 and thecap component 400. In such configurations, opposite ends 510 a and 510 b of thepin 502 extending from the sidewall ofelongate member 500 may be aligned with and positioned inside of theslots 314 of theanchor component 300 or a similar slot of thecap component 400. In other configurations, thepin 502 may not extend across theelongate member 500 and theelongate member 500 includes oppositely positioned protrusions or tabs in place of opposite ends 510 a and 510 b of thepin 502. - In certain non-illustrated forms, it is contemplated that
anchor component 300 may be omitted from one or more portions of themodular structure 100. In these forms, theelongate member 500 may include a helical or screw-like configuration to engage the ground or another surface below themodular structure 100 instead of being configured to engage with theanchor component 300. In other forms where theanchor component 300 is absent from themodular structure 100, theelongate member 500 may be configured to be positioned on the surface underlying themodular structure 100 and then one or more additional anchor elements may anchor theelongate member 500 to the surface. Still, it should be appreciated that alternative forms for anchoring themodular structure 100 are possible. - The length of the
elongate member 500 may be selected based on the desired height of themodular structure 100. For example, the length of theelongate member 500 may generally correspond to the cumulative height of the number of layers or rows ofblock components 200 of themodular structure 100. In one technique for assembling themodular structure 100, theelongate member 500 in inserted into aligned openings ofblock components 200 after the final height of themodular structure 100 has been obtained, although other variations are possible. - Turning to now
FIG. 5C , an alternatively configuredelongate member 550 is illustrated.Elongate member 550 may be used inmodular structure 100 in addition to or in lieu ofelongate member 500.Elongate member 550 includes a substantially cylindrical body extending between afirst end portion 554 and asecond end portion 556 and defining ahollow interior 558. The first andsecond end portions slots 560 substantially corresponding to the structure and functionality ofslots 314. - The
elongate member 550 is configured to engage an alternatively configuredanchor component 570. Theanchor component 570 substantially corresponds in functionality and structure to anchorcomponent 300, but includes an alternatively configuredconnector member 572. Theconnector member 572 includes anopening 574 that is configured to receive theelongate member 550 and apin 576 configured to engage theslots 560 of theelongate member 550 to provide an axially restrained relationship between theelongate member 550 and theanchor component 570 when theelongate member 500 is inserted into and rotated relative to theanchor component 570. - The
elongate member 550 is further configured to engage an alternatively configuredcap component 580 which includes aconnector member 582 configured like theconnector member 572. Although not shown, theconnector member 582 includes a pin configured to engage theslots 560 of theelongate member 550 to provide an axially restrained relationship between theelongate member 550 and theanchor component 572 when theelongate member 500 is inserted into and rotated relative to thecap component 580. - A plurality of
sleeve members 590 are also illustrated inFIG. 5C . Thesleeve members 590 are substantially cylindrical and define anopening 592 configured to receive theelongate member 550, and thesleeve members 590 are further configured to engage with one another such thatopenings 592 are aligned with one another. For example, in one form thesleeve members 590 may be configured to be simply positioned on top of one another. In another form, thesleeve members 590 may be configured to interengage with one another to provide a locking or locked arrangement therebweteen. It should be appreciated that the inner diameter of theopening 592 is configured to facilitate placement of theelongate member 550 therein. In addition, thesleeve members 590 may also be used with theelongate member 500 provided that theelongate member 500 is sized to be inserted through thesleeve members 590. - When
sleeve members 590 are employed in themodular structure 100, they may be individually placed in aligned openings ofblock components 200. In this manner, thesleeve members 590 can be individually stacked as successive rows ofblock components 200 ofmodular structure 100 are formed. More particularly, as a row ofblock components 200 is formed, asleeve member 590 can be positioned in aligned openings of theblock components 200, and this process can be repeated until the final height of themodular structure 100 is reached. It is also contemplated that two ormore sleeve members 590 may be positioned at the same time, or that thesleeve members 590 are all positioned through aligned openings of theblock components 200 after the final height of themodular structure 100 is obtained. When one ormore sleeve members 590 are positioned in aligned openings of theblock components 200 before the final height of themodular structure 100 is reached, thesesleeve members 590 provide provisional coupling and alignment of theblock components 200 until theelongate member 500 is positioned through thesleeve members 590. In this respect, once themodular structure 100 reaches its final height and thesleeve members 590 have been positioned, theelongate member sleeve members 590 and into engagement with ananchor component 300. The positioning of theelongate member 500 in this manner further secures the coupling of theblock components 200 to one another. - Turning to now
FIG. 5D , a plurality of elongate members 520 are illustrated. The elongate members 520 may be used in themodular structure 100 in addition to or in lieu ofelongate member second end portions first end portions 524 includeslots 522 and thesecond end portions 526 include apin 528. A number of elongate members 520 are individually labeled as 520A, 520B and 520C for the sake of clarity. -
Anchor component 530 substantially corresponds in structure to anchorcomponent 570 and includes aconnector member 532, opening 534 andpin 536. The configuration also includes acap component 540 that substantially corresponds to thecap component 580 and includes aconnector member 542. - The elongate members 520 are configured to engage with each other, the
anchor component 530 and thecap component 540. For example, theelongate member 520A is configured to be partially inserted into opening 534 of theanchor component 530 with theslots 522 engaging thepin 536. Upon rotation of theelongate member 520A relative to theanchor component 530, theslots 522 and thepin 536 interact to provide an axially restrained or locked relationship between theelongate member 520A and theanchor component 530.Elongate member 520B is configured to be positioned on top of theelongate member 520A and may be rotatably coupled therewith. More particularly, thepin 528 ofelongate member 520A may be positioned into theslot 522 ofelongate member 520B and theelongate member 520B may be rotated relative to elongatemember 520A to removably couple the two. Thecap component 540 may be similarly coupled to the uppermost one of elongate members 520. When the elongate members 520 are employed in themodular structure 100, they may be individually placed in aligned openings ofblock components 200. For example, a first elongate member 520 may be placed through aligned openings and engaged with an anchor component. In this manner, the elongate members 520 can be stacked as successive rows ofblock components 200 are formed onmodular structure 100. Once themodular structure 100 reaches its final height, a final elongate member 520 may be coupled with the next to final elongate member 520 and then thecap component 540 may be coupled with the final elongate member 520. It should be understood that forms in which a single elongate member 520 is positioned through aligned openings ofblock components 200 and engaged with an anchor component and a cap component are also possible. - While not previously described, it should be appreciated that
modular structure 100 may include one or more reinforcing members to help provide stability and strength to structure 100. For example, as illustrated inFIG. 6 , themodular structure 100 includes reinforcing members such as structural cables orbands 512 configured to add stability to themodular structure 100. In one aspect, the reinforcing members in the form ofcables 512 are positioned above and below arespective block component 200. For example, afirst cable 512 may be placed relative to elongatemembers block component 200 on top of the first cable and asecond cable 512 on top of theblock component 200. It should be understood that alternative arrangements are possible however. For example, asingle cable 512 may be employed for each row ofblock components 200. As illustrated, the reinforcingcables 512 extend around twoelongate members elongate members cables 512 may connect more than twoelongate members 500 or that more than twoelongate members 500 may be connected by one or more than onecable 512. Thecables 512 may also be employed in forms whereelongate members 520 or 550 are utilized. Thecables 512 may be formed of steel or any other suitable materials. In one exemplary form, the reinforcingcables 512 may be formed by plurality of braided steel fibers. - Turning now to
FIG. 7 , thecap component 400 will be described in further detail. Thecap component 400 includes abody 406 includingconnector openings 410, each configured to receive one end of a respective cable 700 (discussed in further detail below). In the illustrated form, theconnector openings 410 substantially correspond in size and configuration to theconnector openings 310 of theanchor component 300. Aconnector member 412 is positioned on thebody 406 and substantially corresponds in structure and function toconnector member 312. Theconnector member 412 includes two oppositely positionedslots 414. Each of theslots 414 includes a vertically extendingportion 413 and atransverse portion 415 which extends substantially orthogonally to thevertical portion 413, although other variations are contemplated. - The
cap component 400 is configured to rotatably couple or engage theelongate member 500 in an arrangement similar to that described above with respect to theanchor component 300. It should be appreciated that the cap component may also be coupled toelongate members 520 or 550 in a similar fashion. After theblock components 200,anchor components 300, andelongate members 500 are positioned and assembled as described above, each of thecap components 400 may be rotatably coupled to one of theelongate members 500. In this arrangement, thebody 406 may engage with or be positioned in close proximity to anuppermost block component 200 and provide a lock or clamp on the block components in combination with theanchor component 300. Similarly, amongst other things, this arrangement prevents axial dislocation of the block components from theelongate member 500. - With reference to
FIG. 8 , for example, thecable 700 will be described in further detail.Cable 700 includes aconnector 702 positioned on afirst end 706 and aconnector 704 positioned on asecond end 708. Theconnectors anchor components 300,cap components 400 and/orcenter member 600. Theconnector openings FIG. 9A) and 660 (FIG. 9B ) are oriented such that theconnectors connectors connector openings connectors connector openings connectors - The
cable 700 also includesattachments connectors cable section 714. Thecable 700 may also include one or more optional tensioning devices that are not illustrated for clarity. The tensioning devices may be turnbuckles or any other suitable devices configured to adjust the tension ofcable 700. The tensioning devices may be optionally added to thecable 700 at any feasible position. - With reference to
FIG. 9A , for example, thecenter member 600 will be described in further detail. Thecenter member 600 is substantially circular and includes a plurality ofconnector openings 610 around the outside edge of thecenter member 600. Theconnector openings 610 substantially correspond to theconnector openings connector cable 700. Thecenter member 600 also includesstake openings 608 positioned interior to theconnector openings 310. Thestake openings 608 substantially correspond to thestake openings 308 and each is configured to receive ananchor stake 350. For the sake of clarity, only a few of thestake openings 608 andconnector openings 610 are labeled inFIG. 9A . - In alternative configurations, it should be appreciated that the
center member 600 may include a number ofstake openings 608 orconnector openings 610 that deviates from the illustrated form. The positioning ofstake openings 608 orconnector openings 610 may also vary in non-illustrated forms. In one non-limiting form, the number ofconnector openings 610 may be selected to correspond to the number ofanchor components 300 of themodular structure 100. However, forms in which thecenter member 600 includes a greater or lesser number ofconnector openings 610 than there isanchor components 300 in themodular structure 100 are also possible. - In the illustrated form, the
center member 600 is positioned in substantially the center of themodular structure 100. Thecenter member 600 is configured to attach tocables 700 to provide structural support for themodular structure 100. The length ofcable 700 roughly corresponds to the radius of the modular structure and the length of thecable section 714 may be selected based on the size of themodular structure 100. - In non-illustrated configurations a
center member 600 may not be included and each of thecables 700 may be extend between a pair ofanchor components 300 or between a pair ofcap components 400. In such configurations, eachanchor component 300 orcap component 400 may be coupled to more than onecable 700 to provide additional structural support. Such configurations may be generally circular or any geometric configuration and/or size. In one form for example, themodular structure 100 may be substantially rectangular and a plurality ofcables 700 may be coupled to eachanchor component 300 orcap component 400 and extend across themodular structure 100 where each of the plurality ofcables 700 is individually coupled with arespective anchor component 300 orcap component 400. - Turning to
FIG. 9B , themodular structure 100 may also include asupport element 650, which is not illustrated inFIG. 1 . Thesupport element 650 includes anelongate section 662 extending between afirst end 652 and asecond end 654. Abase member 656 is positioned on thefirst end 652 and atop member 658 is positioned on thesecond end 654. Thetop member 658 generally corresponds in structure and function to centermember 600 and includesconnector openings 660. Thesecond end 654 may also include spokemembers 664 extending from thetop member 658 to theelongate section 662. - The
base member 656 is configured to be positioned substantially in the center of themodular structure 100 on a surface underlying thesupport element 650. The underlying surface may be a liner positioned inside of the modular structure, thecenter member 600, or the ground. - The
top member 658 is configured to be removably coupled to a first end of a plurality of thecables 700 with the other end of eachcable 700 being coupled to acap component 400. This support configuration is similar to that of thecenter member 600 but positioned generally near the top of themodular structure 100 instead of near the bottom of themodular structure 100. - The
support element 650 coupled to thecap components 400 withcables 700 may be generally referred to as a support element system. The support element system may be configured to provide additional structural support for themodular structure 100. Although not illustrated, the support element system may also provide support for a cover for themodular structure 100. Additionally or alternatively, thesupport element 650 may provide support for a vapor control system for themodular structure 100. - Although not illustrated, the
support element 650 may be configured such that theelongate section 662 may be removably coupled to the first and/or second ends 652, 654. Theelongate section 662 and the first and/or second ends 652, 654 may include removable coupling features similar to the rotatable coupling configuration ofelongate member 500 withanchor components 300 and/orcap components 400. - Further details regarding alternative embodiment block components and modular structures will now be provided in connection with
FIGS. 10A-10F . Turning first toFIG. 10A , an alternativeembodiment block component 1200 and an alternativeembodiment reinforcing member 800 are illustrated in a perspective view. Theblock component 1200 is similar to theblock component 200, and like numerals have been used in connection with like features previously described in connection with theblock component 200. - In the illustrated form, the
block component 1200 includes a pair of receptacles 1270 (only one is shown) structured to receive at least a portion of a reinforcingmember 800. Thereceptacles 1270 are positioned opposite one another on respective upper andlower surfaces block component 1200. Forms in which theblock component 1200 only includes asingle receptacle 1270 positioned on one of the upper andlower surfaces receptacles 1270 extend around thefirst opening 212 of theblock component 1200 and toward thesecond opening 214 of theblock component 1200. However, since thesecond opening 214 is positioned medially of the upper andlower surfaces receptacles 1270 do not extend around thesecond opening 216. In addition, thereceptacles 1270 are positioned inwardly from lateral edges of theblock component 1200 such that portions of the upper andlower surfaces receptacles 1270, although other variations are contemplated. As shown for example, thereceptacle 1270 formed inupper surface 222 includes asurface 1272 recessed with respect to theupper surface 222. The recessedsurface 1272 is positioned between first andsecond portions upper surface 222. Thefirst portion 1274 extends along thefirst sidewall 208 and the second raisedportion 1276 extends along thesecond sidewall 210. While not shown, it should be appreciated that thereceptacle 1270 on thelower surface 224 of theblock component 1200 is similarly configured. - The reinforcing
member 800 includes abody 802 extending between afirst end portion 804 and asecond end portion 806. Thefirst end portion 804 includes an arcuate configuration which transitions from a linear configuration of thebody 802, and thesecond end portion 806 also includes an arcuate configuration which transitions from the linear configuration of thebody 802. Generally speaking, in the illustrated form the configuration of the first andsecond end portions member 800 corresponds to the configuration of thefirst end portion 204 of theblock component 1200. Similarly, when a pair of theblock components 1200 are engaged with one another in end-to-end fashion (i.e., with afirst end portion 204 engaged with a second end portion 206), thefirst end portion 804 of the reinforcingmember 800 is associated with thefirst end portion 204 of a first one of theblock components 1200 and thesecond end portion 806 is associated with thefirst end portion 204 of a second one of theblock components 1200. - A
first opening 812 extends through thefirst end portion 804 of the reinforcingmember 800, and asecond opening 814 extends through thesecond end portion 806 of the reinforcingmember 800. As illustrated for example inFIG. 10A , thefirst opening 812 may correspond in size and shape to thefirst opening 212 of theblock component 1200 and thesecond opening 814 may correspond in size and shape to thesecond opening 214 of theblock component 1200. The reinforcingmember 800 and/or thereceptacles 1270 are generally dimensioned to facilitate positioning of at least a portion of the reinforcingmember 800 in areceptacle 1200. For example, the reinforcingmember 800 may generally include a width and thickness which facilitate positioning at least a portion thereof in thereceptacles 1270. In one non-limiting aspect, the reinforcingmember 800 may include a width that facilitates its positioning between the portions of the upper andlower surfaces receptacles 1270. In addition, the reinforcingmember 800 may include a thickness dimensioned such that the reinforcingmember 800 is flush with or positioned below the upper orlower surfaces receptacle 1270. Forms in which the reinforcingmember 800 includes a thickness dimensioned such that a single reinforcingmember 800 is positioned inreceptacles 1270 of a pair ofadjacent block components 1200 stacked one on top of the other are also possible. In these forms, the reinforcingmember 800 includes a thickness which is greater than the depth of thereceptacles 1200. - Another alternative
embodiment block component 2200 is illustrated in a perspective view inFIG. 10B . Theblock component 2200 is similar to theblock components block components block component 2200 includes an offsetbase portion 2280 extending from thefirst sidewall 208 between the first andsecond end portions base portion 2280 may facilitate in preventing the contents held by a modular structure including theblock component 2200 from moving under and/or displacing theblock component 2200. - As illustrated, for example, the
base portion 2280 extends between afirst end 2284 and asecond end 2286 and includes aportion 2282 having an arcuate or rounded configuration which extends from thefirst sidewall 208 of theblock component 2200 to anedge 2288 of thebase portion 2280. More specifically, theportion 2282 defines an arcuate surface extending from a first plane in which thefirst sidewall 208 extends and a second plane in which thelower surface 224 extends. In other non-illustrated configurations, theportion 2282 may define a planar surface which extends between and transversely to the first and second planes. The lower surface of thebase portion 2280 is aligned with thelower surface 224 such that positioning of theblock component 2200 on a surface underlying the block component involves placement of both thelower surface 224 and the lower surface of thebase portion 2280 on the underlying surface. In form illustrated inFIG. 10B for example, the first andsecond ends sidewall 208. However, it should be understood that forms in which the first andsecond ends sidewall 208 are possible in order to facilitate non-linear positioning of a number ofadjacent block components 2200. Further details of an arrangement of this nature are provided below in connection withFIG. 10F . -
FIGS. 10C-10F illustrate amodular structure 1100 that includesblock components FIG. 10C for example, themodular structure 1100 includesblock components modular structure 1100 also includesblock components 1200A-D withblock components block components block components block components modular structure 1100 could have any number of theblock components structure 1100. -
FIGS. 10D and 10E illustrate details of assembly of themodular structure 1100 and of elements of themodular structure 1100 that are not numerically identified inFIG. 10C . In addition to theblock components 1200A-D and 2200A-B, themodular structure 1100 includes a plurality ofbase members 830A-C,elongate members 820A-C and 822A-F,cap members 840A-C, and reinforcingmembers 800A-H. In non-illustrated forms, it is contemplated that one or more of theelongate members elongate members 820A-C and 822A-F, that theanchor component 300 may be used in addition to or in lieu of one or more of thebase members 830A-C, and that the andcap members cap members 840A-C. - In the illustrated form, the
base members 830A-C are substantially identical to thecap members 840A-C and may be used interchangeably. Thebase members 830A-C, thecap members 840A-C and theelongate members 820A-C and 822A-F are configured for a press fit engagement with one another, although forms utilizing alternative locking arrangements between these components such as bayonet locking or ball-detent locking are contemplated. For example, thebase members 830A-C each include an insertion portion and a collar portion. These elements are identified bynumerals 832A-B and 834A-B, respectively, inFIG. 10E in connection with thebase members base members 830A-C are configured to be positioned inside a hollow portion of theelongate members 820A-C such that the ends of theelongate members 820A-C come into contact with the collar portion of thebase members 830A-C. - The
elongate members 822A-F each include an insertion portion positioned opposite of a hollow portion. These elements are identified bynumerals 824 A, B, D and E and 826 A, B, D and E, respectively, inFIG. 10E in connection with theelongate members 822 A, B, D and E. The insertion portion of theelongate members 822A-C is configured to be positioned in a hollow portion of a respectiveelongate member 820A-C, and the insertion portion of theelongate members 822D-F is configured to be positioned in the hollow portion of a respectiveelongate member 822A-C. Thecap members 840A-C, which are identical to thebase members 830A-C, include an insertion portion and a collar portion and the insertion portion is configured to be positioned in the hollow portion of a respectiveelongate member 822D-F such that the ends of theelongate members 822D-F engages with the collar portion. It should be appreciated however that alternative arrangements for engaging thebase members 830A-C, theelongate members 820A-C and 822A-F, and thecap members 840A-C are possible and that a different number of these components could be present depending on the desired size and configuration of themodular structure 1100. - The
base members portions portion 832A may be positioned through thefirst opening 812 of the reinforcingmember 800A to engage the reinforcingmember 800A with the connectingportion 832A. Similarly, the connectingportion 832B may be positioned through the second opening 814A of the reinforcingmember 800A to engage the reinforcingmember 800A with the connectingportion 832B. Theelongate member 820A may be positioned through thefirst opening 812 of the reinforcingmember 800A into engagement with the connectingportion 832A of thebase member 830A. Theelongate member 820B may be positioned through the second opening 814A of the reinforcingmember 800A into engagement with the connectingportion 832B of thebase member 830B. - One non-limiting technique for assembling the
modular structure 1100 involves the following steps, although other variations in the assembly are contemplated. Thebase members 830A-C are positioned and the reinforcingmember 800A is engaged with thebase members 830A-B with the collar portion of thebase members 830A-B being positioned in the first andsecond openings member 800A. The reinforcingmember 800E is positioned over the reinforcingmember 800A at thebase member 830B and engaged with thebase members 830B-C with the collar portion of thebase members 830B-C being positioned in the first and second openings of the reinforcingmember 800E. - After the reinforcing
members base members 830A-C, theblock component 2200B may be place over the reinforcingmember 800E with a portion of thebase member 830B extending into theopening 212 of theblock component 2200B and theopening 214 of theblock component 2200B positioned in line with thebase member 830C. Theblock component 2200A may then be positioned over the reinforcingmember 800A with theopening 214 thereof aligned with theopening 212 of theblock component 2200B and a portion of thebase member 830A extending into theopening 212 thereof. In this configuration, at least a portion of the reinforcingmembers receptacles 1270 on the lower surfaces of theblock components - Once the
block components elongate member 820A may be positioned through thefirst opening 212 of theblock component 2200A and into engagement with thebase member 830A; i.e., with the insertion portion of thebase member 830A received in theelongate member 820A. Theelongate member 820B may be positioned through the aligned first opening 212 of theblock component 2200B and thesecond opening 214 of theblock component 2200A and into engagement with thebase member 830B in a similar fashion. Theelongate member 820C may be positioned through thesecond opening 214 of theblock component 2200B and into engagement with thebase member 830C as described in connection with theelongate member 800A and thebase member 830C. - Following placement of the
elongate members 820A-C, the reinforcingmember 800B may be positioned over theblock component 2200A with a portion of theelongate member 820A extending through theopening 812 thereof and a portion of theelongate member 820B extending through theopening 814 thereof. The reinforcingmember 800B is also positioned such that at least a portion thereof is received in thereceptacle 1270 on the upper surface of theblock component 2200A. The reinforcingmember 800F is then positioned over theblock component 2200B with a portion of theelongate member 820B extending through theopening 812 thereof and a portion of theelongate member 820C extending through theopening 814 thereof. The reinforcingmember 800B is also positioned such that at least a portion thereof is received in thereceptacle 1270 on the upper surface of theblock component 2200B, and such that a portion thereof is positioned over and overlaps with the reinforcingmember 800B around theelongate member 820B. Theblock components members block components members block components - Following positioning of the
block components 1200A-B, theelongate member 822A may be inserted through thefirst opening 212 of theblock component 1200A and the insertion portion thereof may be positioned into engagement with the hollow portion of theelongate member 820A. Theelongate members 822B-C may be similarly inserted through openings in one or both of theblock components elongate members 820B-C, respectively. - The remaining
block components 1200C-D,elongate members 822D-F, and reinforcingmembers 800C-D and 800G-H may be added to themodular structure 1100 in a manner similar to that previously described with respect to like components. Once these components have been added to themodular structure 1100 and no additional rows of theblock components 1200 are desired, thecap members 840A-C may be positioned to engage with correspondingelongate members - In
FIG. 10F , it can be seen that thebase portions block components block components base portion 2280A includes afirst end 2284A and an oppositely positionedsecond end 2286A engaged with afirst end 2284B of thebase portion 2280B. Thebase portion 2280B also includes asecond end 2286B positioned opposite thefirst end 2284B. As illustrated for example in FIG. 10F, theends 2284A-B and 2286A-B of thebase portions 2280A-BC are angled relative to the corresponding body of theblock component 2200A-B to permit theblock components 2200A-B to be angled with respect to one another, for example, to form a circular modular structure such as themodular structure 1100. This arrangement also facilitates the formation of a continuous or substantially continuous surface by thebase portions 2280A-B on which, for example, a liner could be positioned. - While not previously discussed in specific detail, it should be understood that the
modular structures modular structures modular structures modular structures modular structures modular structure modular structure modular structure - In one embodiment, a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a plurality of block components with at least two openings to define an enclosed space. The plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components. The method also includes positioning a plurality of elongate members through the aligned openings, rotatably coupling each elongate member to one of the plurality of anchor components, rotatably coupling each of a plurality of cap components to one of the plurality of elongate members, and positioning a liner in the enclosed space such that the liner defines a reservoir for holding a liquid.
- In another embodiment, a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a plurality of block components with at least two openings to define an enclosed space. The plurality of block components are stacked one on top of another, and the plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components. The method also includes positioning a plurality of elongate members through the aligned openings and rotatably coupling each elongate member to one of the plurality of anchor components.
- In still another embodiment, a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a plurality of block components with at least two openings to define an enclosed space. The plurality of block components are stacked one on top of another, and the plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components. The method also includes positioning a plurality of elongate members through the aligned openings and rotatably coupling each elongate member to one of the plurality of anchor components.
- In a further embodiment, a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a first plurality of block components with at least two openings to define an enclosed space. The first plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components. The method also includes positioning each of a first plurality of sleeve members through the aligned openings, stacking a second plurality of block components on the first plurality of block components with the second plurality of block components being positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components, and positioning each of a second plurality of sleeve members through the aligned openings of the second plurality of block components. The method also includes positioning each of a plurality of elongate members through one of the first plurality of sleeve members and one of the second plurality of sleeve members, and rotatably coupling each of the plurality elongate members with one of the plurality of anchor components.
- In another embodiment, a method for assembling a modular structure includes positioning a center member, attaching the center member to first ends of a plurality of cables, attaching second ends of the plurality of cables to a plurality of anchor components, and positioning a first plurality of block components with at least two openings to define an enclosed space. The first plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components. The method also includes positioning each of a first plurality of elongate members through the aligned openings, rotatably coupling each of the first plurality of elongate members to one of the plurality of anchor components, and stacking a second plurality of block components on the first plurality of block components. The second plurality of block components are positioned such that at least one opening of each of two adjacently positioned block components is aligned with one of the anchor components. The method also includes positioning each of a second plurality of elongate members through the aligned openings of the second plurality of block components, and rotatably coupling each of the second plurality of elongate members to one of the first plurality of elongate members.
- In one embodiment, a method for assembling a modular structure includes positioning a plurality of block components to define an enclosed space and positioning a liner in the enclosed space such that the liner defines a reservoir for holding a liquid.
- In one embodiment, a method for assembling a modular structure further includes rotatably coupling each of a plurality of cap components to one of the plurality of elongate members.
- In one embodiment, a method for assembling a modular structure further includes positioning a support element in substantially the center of the modular structure, attaching the support element to first ends of a second plurality of cables, and attaching second ends of the second plurality of cables to the plurality of cap components.
- In one embodiment, a method for assembling a modular structure further includes positioning a cover on the modular structure. In one embodiment, a method for assembling a modular structure further includes positioning a vapor control system on the modular structure.
- In one embodiment, a method for assembling a modular structure further includes placing an anchor stake through an opening in the anchor component. In one embodiment, a method for assembling a modular structure further includes placing an anchor stake through an opening in center member.
- In one embodiment, a method for assembling a modular structure further includes placing reinforcing cables around at least two block components. In one embodiment, a method for assembling a modular structure further includes placing reinforcing cables between at least two block components.
- In yet another embodiment, a method for assembling a modular structure includes positioning a first stackable block relative to a second stackable block, the first and second blocks being configured to inter-engage with one another and each including two or more openings; inserting a first elongate member through a first opening of the first block and a second opening of the second block aligned with the first opening of the first block; inserting a second elongate member through a second opening of the first block; and positioning a reinforcing member over the first block with a first portion thereof extending around the first elongate member and a second portion thereof extending around the second elongate member. In some forms, the method includes engaging the elongate member with a base member positioned below the first and second blocks.
- The present invention may be embodied in other specific forms without departing from its spirit or essential characteristics. The described embodiments are to be considered in all respects only as illustrative and not restrictive. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.
Claims (30)
1. A modular structure, comprising:
at least two components each including a body extending along an axis and including oppositely positioned sidewalls, a first opening positioned between the sidewalls and extending transversely to the axis, and a second opening positioned between the sidewalls and extending transversely to the axis, wherein the components are configured to be removably coupled to one another with the first opening of a first component aligned with the second opening of a second component when the first and second components are positioned adjacent to one another;
at least two elongate members, wherein at least one of the elongate members is positionable through the aligned first and second openings of the first and second components when the first and second components are positioned adjacent to one another; and
one or more reinforcing members positionable along exterior surfaces of the first and second components when the first and second components are positioned adjacent to one another and into engagement with the at least two elongate members.
2. The modular structure of claim 1 , wherein the at least two components are further configured to be placed on top of one another with the first openings of the first and second components aligned and the second openings of the first and second components aligned, and the at least one elongate member is further configured to be inserted through the aligned first openings or the aligned second openings when the at least two components are placed on top of one another.
3. The modular structure of claim 1 , wherein the at least two components are configured to be pivotably coupled to one another.
4. The modular structure of claim 1 , wherein at least one of the at least two components further comprises a reinforcing band extending around the first and second openings.
5. The modular structure of claim 1 , wherein at least one of the reinforcing members is a reinforcing band configured to structurally connect the two or more elongate members.
6. The modular structure of claim 1 , wherein at least one of the reinforcing members is configured to be positioned over the first component after the at least one elongate member is positioned through the aligned first and second openings of the first and second components.
7. The modular structure of claim 1 , wherein at least one of the reinforcing members is configured to be positioned in a recess defined in an upper surface of the body of the first component.
8. The modular structure of claim 1 , further comprising a plurality of sleeve members, wherein at least one of the sleeve members is engageable with another sleeve member and the at least one elongate member is positionable through one or more sleeve members into engagement with the base component.
9. The modular structure of claim 1 , wherein the at least one elongate member is configured to removably engage with a second elongate member.
10. A modular structure, comprising:
a plurality of stackable, inter-engaging blocks, at least two of the plurality of blocks including at least two hinge openings;
at least two elongate members, each of the elongate members positionable through aligned hinge openings of at least two of the plurality of blocks positioned adjacent to one another; and
at least one reinforcing member structured to extend between and engage the at least two elongate members between stacked layers of adjacent ones of the plurality of blocks.
11. The modular structure of claim 10 , wherein the reinforcing member is configured to be positioned in a recess defined in an upper surface of the body of at least one of the plurality of blocks.
12. The modular structure of claim 10 , wherein at least one of the reinforcing members is a structural cable configured to connect the at least two elongate members.
13. The modular structure of claim 10 , wherein at least one of the blocks includes:
an offset base portion extending from a first sidewall of the block between a first end portion and a second end portion, the base portion including a surface aligned with a lower surface of the block and a tapered portion extending between the first sidewall and the lower surface.
14. The modular structure of claim 10 , wherein the plurality of blocks are inter-engaged to define an enclosed space.
15. The modular structure of claim 14 , wherein the plurality of blocks are arranged in multiple layers with at least one reinforcing member positioned between each of the multiple layers.
16. The modular structure of claim 14 , further comprising a liner positioned in the enclosed space and defining a reservoir for holding a liquid.
17. The modular structure of claim 10 , further comprising a center connector and a cable connecting the center connector to a base member.
18. The modular structure of claim 17 , wherein the cable includes a connecting member configured to be received in an opening of the base member.
19. The modular structure of claim 10 , wherein the at least one elongate member is configured to rotatably engage with a base member.
20. The modular structure of claim 10 , further comprising at least one top member configured to rotatably engage with the at least one elongate member.
21. The modular structure of claim 20 , further comprising a support element and a cable connecting the support element to the at least one top member.
22. A method for assembling a modular structure, comprising:
positioning a first stackable block relative to a second stackable block, the first and second blocks being configured to inter-engage with one another and each including two or more openings;
inserting a first elongate member through a first opening of the first block and a second opening of the second block aligned with the first opening of the first block;
inserting a second elongate member through a second opening of the first block; and
positioning a reinforcing member over the first block with a first portion thereof extending around the first elongate member and a second portion thereof extending around the second elongate member.
23. The method of claim 22 , further comprising engaging the elongate member with a base member positioned below the first and second blocks.
24. The method of claim 23 , wherein engaging the elongate member with the base member includes rotating the elongate member relative to the base member.
25. The method of claim 23 , further comprising connecting a cable from a center connector to the base member.
26. The method of claim 23 , further comprising engaging the elongate member with the reinforcing member opposite the base member.
27. The method of claim 23 , wherein the reinforcing member is placed between the first and second blocks.
28. The method of claim 22 , further comprising placing reinforcing cables around at least one of the first and second blocks.
29. A modular structure, comprising:
a plurality of stackable, inter-engaging blocks each extending along a longitudinal axis and at least two of the plurality of blocks including at least two hinge openings;
a plurality of elongate members, at least two of the elongate members being configured to be positioned through aligned hinge openings of the at least two blocks; and
at least one reinforcing member positionable in line with the longitudinal axis of at least one of the blocks and into engagement with the two elongate members.
30. The modular structure of claim 29 , wherein the reinforcing member is configured to be positioned in a recess defined in an upper surface of the body of at least one of the plurality of blocks.
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NZ577073A (en) * | 2006-11-20 | 2010-12-24 | David Anthony Carey | Relocatable tensioned wire road barrier with tensioning cables within and moulded to body of barrier |
US7614825B2 (en) * | 2007-08-09 | 2009-11-10 | Polystar Incorporated | Deployable containment system |
WO2009124092A2 (en) * | 2008-03-31 | 2009-10-08 | Paul Andrew Redburn | Interlocking bolted blocks and method of constructing walls |
-
2013
- 2013-12-27 WO PCT/US2013/078110 patent/WO2014106120A1/en active Application Filing
-
2015
- 2015-05-13 US US14/710,940 patent/US20150239658A1/en not_active Abandoned
- 2015-07-03 CA CA2896054A patent/CA2896054A1/en not_active Abandoned
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US2716992A (en) * | 1953-10-30 | 1955-09-06 | Arthur E Campfield Inc | Supporting means for tents |
US4869617A (en) * | 1988-09-09 | 1989-09-26 | Chiodo Alfred A | Portable highway barrier |
US20060054579A1 (en) * | 2004-09-07 | 2006-03-16 | Sang-Hyun Choe | Sectional display stand and making method thereof |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10849425B2 (en) | 2017-10-06 | 2020-12-01 | The Intellectual Property Network, Inc. | Motorized modular smart shelving and storage unit |
USD905281S1 (en) * | 2018-10-16 | 2020-12-15 | Tim Sarkkinen | Garden bed block |
US20220010538A1 (en) * | 2020-07-13 | 2022-01-13 | Eun Ho Oh | Universal joint type water flow guiding assembly capable of adjusting to uneven ground |
Also Published As
Publication number | Publication date |
---|---|
CA2896054A1 (en) | 2016-11-13 |
WO2014106120A1 (en) | 2014-07-03 |
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Legal Events
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AS | Assignment |
Owner name: TUFF TANKS, LLC, UTAH Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:CHRISTENSEN, RYAN LEE;ROBERTS, DERREK LEON;COLLIER, KEVIN E.;SIGNING DATES FROM 20150512 TO 20150513;REEL/FRAME:035628/0185 |
|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |