FLUID CONTAINMENT STRUCTURE AND SYSTEM

Abstract

A modular fluid containment system has wall segments that are joined at angled corners to form a closed wall. A membrane spans the closed wall and is connected to the closed wall with membrane attachment members. In some embodiments, a truss may span the closed wall and support a second membrane that protects impounded liquids from the environment.

Claims

1. A fluid spill protection system comprising: a fluid impervious membrane, a barrier wall comprising a plurality of wall segments, said plurality of wall segments comprising a plurality of generally horizontally extending pre-formed members, said generally horizontally extending pre-formed members joined at a first end and a second end of said wall segments, a planar member spanning a distance between a first and a second of said generally horizontally extending pre-formed members, said planar member positioned on an interior side of said wall segments, a plurality of said wall segments being joined to form a closed wall, and said fluid impervious membrane overlapping said barrier wall; said fluid impervious membrane being secured to said barrier wall via a membrane securing member, wherein the fluid impervious membrane and the membrane securing member are interposed between said first and a third of the plurality of generally horizontally extending pre-formed members such that frictional forces caused by interaction of the membrane securing member with each of the first and third of the plurality of generally horizontally extending pre-formed members and the fluid impervious membrane secure said fluid impervious membrane to said barrier wall.

2. (canceled)

3. The fluid spill protection system of claim 1 additionally comprising a tensioning system connected to at least two opposing wall segments of the plurality of said wall segments.

4. The fluid spill protection system of claim 1 wherein said fluid spill protection system forms a basin having a storage tank above said fluid impervious membrane and said storage tank being encircled by said plurality of wall segments supporting said membrane.

5. The fluid spill protection system of claim 1, wherein: said membrane securing member is selected depending on a thickness of said fluid impervious membrane to achieve the frictional forces necessary to said fluid impervious membrane to said barrier wall.

6. The fluid spill protection system of claim 5, wherein: at least said first and third ones of the plurality of generally horizontally extending pre-formed members are tubular.

7. A fluid containment system comprising: a fluid impervious membrane, a first and a second wall segment, each of said first and second wall segments comprising four generally horizontal tubular members, said generally horizontal tubular members joined at a generally triangular member at a first and a second end of each of said first and second wall segment, a generally planar member spanning a distance between a first and a second of said horizontal tubular members on a first side of each of said first and second wall segments, a corner member, said corner member connecting said first and said second wall segments such that said first and second wall segments, when connected, form an angle enabling said first and said second wall segments to couple with an additional plurality of wall segments to form a closed wall; and a membrane securing member, said fluid impervious membrane interposed between said membrane securing member and two of said generally horizontal tubular members such that frictional forces caused by interaction of the membrane securing member with each of the two of said plurality of generally tubular members and the fluid impervious membrane secure said fluid impervious membrane to said closed wall.

8. The fluid containment system of claim 7 wherein a tensioning member is connected to opposing ones of the wall segments forming the closed wall.

9. The fluid containment system of claim 8 wherein said tensioning member comprises a first and second cable connected to a retaining ring.

10. The fluid containment system of claim 7 wherein said first wall segment is connected to said corner member with four bolts.

11. The fluid containment system of claim 7 wherein said first and second wall segments form a right angle when joined to said corner member.

12. The fluid containment system of claim 7 wherein said first and second wall segments form an obtuse angle when joined to said corner member.

13. A method for containing unintended fluid spills comprising the steps of: connecting a plurality of wall segments to a plurality of angled corners, said plurality of wall segments comprising: a plurality of generally horizontal tubular members connected at a first end and a second end to a first and a second generally triangular end piece, respectively, the first and the second generally triangular end pieces being part of a first and a second ones of the plurality of angled corners, respectively, and a generally planar member interposed between a first and a second ones of the plurality of generally horizontal tubular members, said plurality of angled corners being narrower at an interior than at an exterior of the angled corners; said plurality of wall segments connected to said plurality of angled corners forming a closed wall; connecting a first wall segment of the plurality of wall segments to an opposing second wall segment of the plurality of wall segments with a tensioning member; placing a fluid impervious membrane in a space defined by the closed wall; securing said fluid impervious membrane to a wall segment by interposing said fluid impervious membrane between a membrane securing member and two of said generally horizontal tubular members such that frictional forces caused by interaction of the membrane securing member with each of the two of said plurality of generally tubular members and said fluid impervious membrane secure said fluid impervious membrane to said closed wall; and, placing a fluid storage vessel above said fluid impervious membrane and within said closed wall.

14. The method of claim 13 wherein said tensioning member is a cable.

15. The method of claim 13 wherein said tensioning member comprises a plurality of cables connected to a ring interposed between opposing ones of the plurality of wall segments.

16. A fluid containment system comprising: a barrier wall having a slot, said barrier wall comprising connected barrier wall segments and said slot having a plurality of slot walls, said barrier wall forming a closed wall; a first fluid impervious membrane spanning thea space between opposing barrier wall segments of the connected barrier wall segments, said first fluid impervious membrane being adjacent at least one of said plurality of slot walls; and a fluid impervious membrane securing member sized to be interposed between adjacent ones of said plurality of slot walls with said first fluid impervious membrane interposed between said fluid impervious membrane securing member and one of said plurality of slot walls such that frictional forces caused by interaction of the fluid impervious membrane securing member with each of the adjacent ones of said plurality of slot walls and said first fluid impervious membrane secure said first fluid impervious membrane to said closed wall.

17. The fluid containment system of claim 16 wherein: said barrier wall segments comprise a plurality of generally horizontally extending pre-formed members, said generally horizontally extending pre-formed members being joined at a first end and a second end of said barrier wall segments, a planar member spanning the a distance between a first and a second of said generally horizontally extending pre-formed members, said planar member positioned on the an interior side of said barrier wall segments, and said slot formed between a third of said generally horizontally extending pre-formed members and said first generally horizontally extending pre-formed member.

18. The fluid containment system of claim 17 further comprising: a tensioning member joining opposing ones of the barrier wall segments.

19. The fluid containment system of claim 16 further comprising: a truss, said truss spanning the a distance between opposing ones of the barrier wall segments; said truss supporting a second membrane above said first fluid impervious membrane; and, a plurality of truss supports, said truss supports elevating said truss above said opposing ones of the barrier wall segments and at least one of said truss supports having a foot engageable with said slot.

20. The fluid containment system of claim 19 wherein said foot at least partially secures said first fluid impervious membrane to said barrier wall.

21. The fluid containment system of claim 20 wherein said second membrane is interposed between a second slot and a second membrane securing member sized to secure said second membrane to said barrier wall when inserted into said second slot.

22. A barrier wall segment comprising: a first and second end adapted to connect said wall segment to adjacent wall segments; an inward face adapted to support a first fluid impervious membrane retaining a liquid; and, a first slot sized to receive said first fluid impervious membrane such that when a first membrane securing block is inserted into said first slot, said first membrane is interposed between two opposing walls of said first slot and said first membrane securing block such that frictional forces caused by interaction of said first membrane securing block with each of the two opposing walls of the first slot and said first membrane secures said first membrane to said barrier wall segment.

23. The barrier wall segment of claim 22 additionally comprising: a second slot sized to receive a second membrane securing block adapted to secure a second membrane supported above said barrier wall segment by a truss coupled to said barrier wall segment.

24. The barrier wall segment of claim 22 additionally comprising: a plurality of additional barrier wall segments connected to said barrier wall segment to form a closed wall.

25. The barrier wall segment of claim 22 wherein said barrier wall segment is connected to an adjacent barrier wall segment by an intermediate member such that a longitudinal axis of said barrier wall segment is angled relative to the longitudinal axis of said adjacent barrier wall segment.

26. The barrier wall segment of claim 23 wherein said first membrane securing block is connected to said truss and engages said truss with barrier wall segment when said truss is installed on said barrier wall segment.

27. The barrier wall segment of claim 22 wherein said first and second ends are generally triangular.

28. A membrane support structure comprising: a truss; a downward extending portion of said truss having a block at a distal end; and, said block adapted to engage a slot in a barrier wall and a fluid impervious membrane such that frictional forces caused by interaction of the block with each of at least two opposing walls of the slot and said fluid impervious membrane secure said fluid impervious membrane to said barrier wall.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] FIG. 1 depicts a perspective view of a fluid containment structure system.

[0009] FIG. 2 depicts a plan view of the system of FIG. 1.

[0010] FIGS. 3A-3C depict example installation configurations of the system of FIGS. 1-2.

[0011] FIG. 4A-4D depict examples of the angled member for use with the system of FIGS. 1-3C.

[0012] FIGS. 5A and 5B depicts a fluid containment structure, such as that of FIGS. 1-4D, in use with a barrier membrane.

[0013] FIGS. 6A and 6B depict an end and side view of a barrier membrane retainer.

[0014] FIGS. 7A-7C depict a truss, for use with the fluid containment structure, including supports that terminate in feet.

SUMMARY OF EMBODIMENTS

[0015] Embodiments of a fluid containment structure system discussed herein provide a fluid containment system that is not bulky, and therefore may be shipped efficiently. The components of smaller system may be assembled relatively quickly by two men. The preassembled wall segments are sufficiently light that two men can typically safely position the segments in place. For taller systems, a small forklift may be required to position the wall segments but the wall segments are inherently stable and are not easily toppled by common wind forces. Only three bolts are needed to connect adjacent segments in some embodiments and assembly typically takes less than one third of the time required to properly assemble previously known barrier system. Because embodiments herein do not require fluid to provide mass, the system may be used in colder climates without concern. Embodiments may also be used to create a barrier wall having variable configurations which enable adaptation to varying topography.

DETAILED DESCRIPTION

[0016] FIG. 1 depicts a perspective view of a fluid containment structure system 100, in embodiments. FIG. 2 depicts a plan view of the system 100 of FIG. 1. FIGS. 3A-3C depict example installation configurations of the system 100 of FIGS. 1-2. FIG. 4A-4D depict examples of the angled member 14 for use with the system 100 of FIGS. 1-3C, in embodiments. FIGS. 1-4D are best viewed together with the following description.

[0017] System 100 includes a wall segment 2 which includes four lengths of square tubing 4 attached to generally triangular end plates 6. It should be appreciated that square tubing 4 may be attached to triangular end plates 6 in one or more of a variety of ways, including welding, bonding, adhering, coupling via fasteners (screws, nails, bolts, etc.) without departing from the scope hereof. Two lengths of square tubing 4 form the base 8 of the wall segment 2. Two lengths of the square tubing 4 are spaced apart to form the top 10 of the wall segment 2. A plate 12 spans the distance between the inner top square tubing 10a and the inner base square tubing 8a. One of ordinary skill will appreciate that square tubing 4 may be replaced with other structural members and that the cross-sectional shape of the wall segment 2 need not be triangular, but may be any arbitrary shape without departing from the scope hereof. Moreover, other known connection methods may be used to join the components of the wall segment 2, and the wall segment could assume different shapes or have different numbers of component pieces without departing from the scope hereof.

[0018] In one embodiment, an angular member 14 joins adjacent wall segments 2a, 2b. The angular member 14 is joined to adjacent wall segments 2a and 2b with bolts 16 (not shown) through bolt holes 17. When joined to an angular member 14, adjacent wall segments 2a, 2b are angled with respect to one another and when sufficient additional wall segments 2 and angled members 14 are joined, a closed wall 18, as shown in FIGS. 3A, 3B and 3C may be formed.

[0019] Embodiments described herein provide a significant advantage of versatility of use of the system 100. With angled members 14 having a variety of angles (See FIGS. 4A, 4B, 4C and 4D for depictions of exemplary angles. Alternative angular configurations will be obvious to one of skill in the art.), the layout of the closed wall 18 is variable and may be adapted to terrain features existent on any given site. The wall segments 2 may be readily scaled to accommodate closed walls 18 that are relatively short (2-3 feet) or that are relatively tall (6-7 feet), as long as the relative proportions of the wall segment 2 are generally maintained. One of ordinary skill will appreciate that adjacent wall segments 2 may be joined to angular members 14 with any suitable attachment means such as, but not limited to, bolts, screws, nails, glue, welding, etc. Moreover, one of ordinary skill will appreciated that, if the end plates 6 of the wall segments 2 are not perpendicular to the longitudinal axis of the wall segment 2, a closed wall 18 may be formed without using angled members 14.

[0020] In certain embodiments, the force of retained fluids may be sufficient to move opposing wall segments 2 away from each other. To counteract this force, cables 22 may connect opposing wall segments 2. The cables 22 may directly connect opposing wall segments 2 or may connect through an intermediate ring 24. One of skill will understand other tensioning members may be used in lieu of the cables 22.

[0021] FIGS. 5A and 5B depict a fluid containment structure in use with a barrier membrane 26. The barrier membrane 26 may span the closed wall 18. In certain embodiments, a thin barrier membrane 26 having a 30 mil. thickness may suffice while, in other embodiments, a thicker barrier membrane 26 having an 80 mil. thickness may be required. Various barrier membranes are commonly known in the art.

[0022] FIGS. 6A and 6B depict an end and side view of a barrier membrane retainer 28. FIGS. 5A and 5B depict barrier membrane retainers 28. Barrier membrane retainers 28 may be sized to fit in the slot 30 formed between the inner top square tubing 10a and the outer top square tubing 10b. After the barrier membrane 26 is positioned over the wall segments 2, the barrier membrane retainer 28 is placed in the slot 30 with the barrier membrane interposed between the inner top square tubing 10a, the outer top square tubing 10b and the barrier membrane retainer 28. The barrier membrane retainer 28 may be attached to a wall segment 2 with a screw (not shown) or other know attachment methods. One of skill in the art will understand that the barrier membrane retainer 28 may assume a variety of shapes and still perform the desired function.

[0023] As shown in FIG. 5A, a liquid storage tank 32 may be positioned inside closed wall 18 on top of barrier membrane 26. While having a containment system to protect against leakage from a liquid storage tank 32 is an anticipated use of embodiments herein, it is not the only use. It is contemplated that embodiments discussed herein may be used independent of a liquid storage tank 32 to store liquid.

[0024] In some embodiments, it may be desirable to cover a liquid retained in the fluid containment system. FIG. 7A depicts a truss 34 placed over an assembled closed wall 18 covered by a barier membrane 26. FIG. 7B depicts a truss 34 including supports 36 that terminate in feet 38. The feet 38 are sized to engage slot 30 and to support the truss 34 above a wall segment 2 or an angular member 14. The feet 38 may be used to connect the truss 34 with the closed wall 18 and to secure the fluid retaining membrane 26 to the closed wall 18. A second membrane 40 may be placed over the truss 34 to protect retained liquid from the environment. As depicted in FIG. 7C, in an embodiment, a fifth square tubing 42 is added to create a second engagement slot 44 into which a membrane retainer 28 may be inserted to secure the second membrane 40 to the closed wall 18.

[0025] Many different arrangements of the various components depicted, as well as components not shown, are possible without departing from the spirit and scope hereof. Embodiments have been described with the intent to be illustrative rather than restrictive. Alternative embodiments will become apparent to those skilled in the art that do not depart from its scope of the invention claimed. A skilled artisan may develop alternative means of implementing the aforementioned improvements without departing from the scope hereof. It will be understood that certain features and sub combinations are of utility and may be employed without reference to other features and sub combinations and are contemplated to be within the scope of the claims. The specific configurations and contours set forth in the accompanying drawings are illustrative and not limiting.