WO2020122987A1 - Réservoir de stockage de surface - Google Patents

Réservoir de stockage de surface Download PDF

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Publication number
WO2020122987A1
WO2020122987A1 PCT/US2019/036509 US2019036509W WO2020122987A1 WO 2020122987 A1 WO2020122987 A1 WO 2020122987A1 US 2019036509 W US2019036509 W US 2019036509W WO 2020122987 A1 WO2020122987 A1 WO 2020122987A1
Authority
WO
WIPO (PCT)
Prior art keywords
guide pin
interlocking
panels
flange
horizontal
Prior art date
Application number
PCT/US2019/036509
Other languages
English (en)
Inventor
William C. POLACEK
Marc Joseph SPECIALE
Randall SHANK
Original Assignee
Jwf Industries, Inc.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Jwf Industries, Inc. filed Critical Jwf Industries, Inc.
Publication of WO2020122987A1 publication Critical patent/WO2020122987A1/fr

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D90/00Component parts, details or accessories for large containers
    • B65D90/02Wall construction
    • B65D90/023Modular panels
    • B65D90/024Modular panels with features of cylindrical curvature

Definitions

  • This disclosure relates generally to large capacity tanks and, more particularly, to modular large capacity above-ground impoundment tanks.
  • Another method for storing fracturing fluid on the work site includes using large capacity tanks. These tanks are often transported to the work site as one unit or, if the tank is relatively large, they are transported in bulk pieces to be assembled at the work site. Once the pieces are delivered to the work site, workers must assemble the individual pieces according to the proper installation position of each piece. This requires an extended period of time to install and can slow down the drilling process at the work site. The pieces must be properly aligned before being connected, which requires a certain amount of precision in positioning each piece relative to one another.
  • Embodiments of the present invention are directed to an interlocking panel for constructing a large capacity tank.
  • the interlocking panel includes a plate having an outer surface, an inner surface, two horizontal edges, and two vertical edges; a horizontal flange extending from a first of the horizontal edges of the plate, the horizontal flange defining a first guide pin hole and a second guide pin hole horizontally offset from the first guide pin hole, wherein the first guide pin hole has a smaller diameter than the second guide pin hole; and a guide pin including a first portion and a second portion, a diameter of the first portion being smaller than a major diameter of the second portion, the first portion of the guide pin inserted into the first guide pin hole.
  • the second portion of the guide pin extends from the horizontal flange and is configured to be received by the second guide pin hole of a second interlocking panel positioned above the interlocking panel such that the second interlocking panel is offset horizontally relative to the interlocking panel located below the second interlocking panel.
  • the second portion of the guide pin is at least partially conical and tapers from the major diameter to a minor diameter.
  • the second portion of the guide pin defines a shoulder surface configured to rest on the horizontal flange.
  • the major diameter of the second portion of the guide pin is larger than the diameter of the first guide pin hole.
  • the horizontal flange defines at least one fastener hole extending through the horizontal flange and the at least one fastener hole of the horizontal flange is configured to align with the at least one fastener hole of the horizontal flange of the second interlocking panel positioned above the interlocking panel.
  • the interlocking panel further includes a first vertical flange extending from a first of the vertical edges of the plate and having at least one fastener hole extending through the first vertical flange, and a second vertical flange extending from a second of the vertical edges of the plate and having at least one fastener hole extending through the second vertical flange.
  • the at least one fastener hole of the second vertical flange is configured to align with the at least one fastener hole of the first vertical flange of a third interlocking panel positioned adjacent to the interlocking panel.
  • the interlocking panel Anther includes a tubular member extending from a second of the horizontal edges of the plate.
  • the plate and the horizontal flange have an arcuate shape.
  • the interlocking panel Anther includes a plurality of retaining ribs on the outer surface of the plate and extending between the first vertical flange and the second vertical flange.
  • the plurality of retaining ribs are evenly or unevenly spaced flora one another along the outer surface of the plate.
  • the large capacity storage tank includes a plurality of identical, stacked, and interlocked interlocking panels.
  • Each of the interlocking panels includes a plate having an outer surface, an inner surface, two horizontal edges, and two vertical edges; a horizontal flange extending from a first of the horizontal edges of the plate, the horizontal flange defining a first guide pin hole and a second guide pin hole horizontally offset from the first guide pin hole, wherein the first guide pin hole has a smaller diameter than the second guide pin hole; and a guide pin including a first portion and a second portion, a diameter of the first portion being smaller than a major diameter of the second portion, the first portion of the guide pin inserted into the first guide pin hole.
  • the horizontal flange of a first of the plurality of interlocking panels positioned in a lower row of panels faces upward.
  • the horizontal flange of a second of the plurality of interlocking panels positioned in an upper row of panels faces downward and abuts the horizontal flange of the first of the plurality of interlocking panels.
  • the second portion of the guide pin of the first of the plurality of interlocking panels is received by the second guide pin hole of the second of the plurality of interlocking panels such that the second of the plurality of interlocking panels is offset horizontally relative to the first of the plurality of interlocking panels.
  • the second portion of the guide pin of each of the plurality of interlocking panels is at least partially conical and tapers from the major diameter to a minor diameter. [0018] In some embodiments, the second portion of the guide pin of each of the plurality of interlocking panels defines a shoulder surface configured to rest on the horizontal flange.
  • the major diameter of the second portion of the guide pin of each of the plurality of interlocking panels is larger than the diameter of the first guide pin hole.
  • the horizontal flange of each of the plurality of interlocking panels defines at least one fastener hole extending through the horizontal flange, and the at least one fastener hole of the horizontal flange of the first of the plurality of interlocking panels is configured to align with the at least one fastener hole of the horizontal flange of the second of the plurality of interlocking panels.
  • each of the plurality of interlocking panels further includes a first vertical flange extending from a first of the vertical edges of the plate and having at least one fastener hole extending through the first vertical flange and a second vertical flange extending from a second of the vertical edges of the plate and having at least one fastener hole extending through the second vertical flange.
  • the at least one fastener hole of the second vertical flange of the first of the plurality of interlocking panels is aligned with the at least one fastener hole of the first vertical flange of a third of the plurality of interlocking panels positioned adjacent to the first of the plurality of interlocking panels.
  • each of the plurality of interlocking panels further includes a tubular member extending from a second of the horizontal edges of the plate.
  • FIG. 1 Other embodiments of the present invention are directed to a method of assembling an above ground large capacity tank.
  • the method includes providing a plurality of identical interlocking panels.
  • Each of the interlocking panels includes a plate having an outer surface, an inner surface, two horizontal edges, and two vertical edges; a horizontal flange extending from a first of the horizontal edges of the plate, the horizontal flange defining a first guide pin hole and a second guide pin hole horizontally offset from the first guide pin hole, wherein the first guide pin hole has a smaller diameter than the second guide pin hole; and a guide pin including a first portion and a second portion, a diameter of the first portion being smaller than a major diameter of the second portion, the first portion of the guide pin inserted into the first guide pin hole.
  • the method Anther includes positioning a first of the plurality of interlocking panels in a lower row of panels such that horizontal flange of the first of the plurality of interlocking panels faces upward, and positioning a second of the plurality of interlocking panels in an upper row of panels such that the horizontal flange of the second of the plurality of interlocking panels faces downward and abuts the horizontal flange of the first of the plurality of interlocking panels and the second portion of the guide pin of the first of the plurality of interlocking panels is received by the second guide pin hole of the second of the plurality of interlocking panels such that the second of the plurality of interlocking panels is offset horizontally relative to the first of the plurality of interlocking panels.
  • the horizontal flange of each of the plurality of interlocking panels defines at least one fastener hole extending through the horizontal flange.
  • the second of the plurality of interlocking panels is positioned such that the at least one fastener hole of the horizontal flange of the first of the plurality of interlocking panels is aligned with the at least one fastener hole of the horizontal flange of the second of the plurality of interlocking panels.
  • the method further includes inserting at least one fastener through the aligned at least one fastener holes of the horizontal flanges of the first and the second of the plurality of interlocking panels.
  • each of the plurality of interlocking panels further includes a first vertical flange extending from a first of the vertical edges of the plate and having at least one fastener hole extending through the first vertical flange, and a second vertical flange extending from a second of the vertical edges of the plate and having at least one fastener hole extending through the second vertical flange.
  • the method further includes positioning a third of the plurality of interlocking panels adjacent to the first of the plurality of interlocking panels such that the at least one fastener hole of the second vertical flange of the first of the plurality of interlocking panels aligns with the at least one fastener hole of the first vertical flange of the third of the plurality of interlocking panels, and inserting at least one fastener through the at least one fastener hole of the second vertical flange of the first of the plurality of interlocking panels and the at least one fastener hole of the first vertical flange of the third of the plurality of interlocking panels.
  • An interlocking panel for constructing a large capacity tank comprising: a plate having an outer surface, an inner surface, two horizontal edges, and two vertical edges; a horizontal flange extending from a first of the horizontal edges of the plate, the horizontal flange defining a first guide pin hole and a second guide pin hole horizontally offset from the first guide pin hole, wherein the first guide pin hole has a smaller diameter than the second guide pin hole; and a guide pin comprising a first portion and a second portion, a diameter of the first portion being smaller than a major diameter of the second portion, the first portion of the guide pin inserted into the first guide pin hole; wherein the second portion of the guide pin extends from the horizontal flange and is configured to be received by the second guide pin hole of a second interlocking panel positioned above the interlocking panel such that the second interlocking panel is offset horizontally relative to the interlocking panel located below the second interlocking panel.
  • An above ground large capacity tank comprising: a plurality of identical, stacked, and interlocked interlocking panels, each of the interlocking panels comprising: a plate having an outer surface, an inner surface, two horizontal edges, and two vertical edges; a horizontal flange extending from a first of the horizontal edges of the plate, the horizontal flange defining a first guide pin hole and a second guide pin hole horizontally offset from the first guide pin hole, wherein the first guide pin hole has a smaller diameter than the second guide pin hole; and a guide pin comprising a first portion and a second portion, a diameter of the first portion being smaller than a major diameter of the second portion, the first portion of the guide pin inserted into the first guide pin hole, wherein the horizontal flange of a first of the plurality of interlocking panels positioned in a lower row of panels faces upward, wherein the horizontal flange of a second of the plurality of interlocking panels positioned in an upper row of panels faces downward and abuts the
  • Clause 14 The above ground large capacity tank of any of clauses 11 to 13, wherein the major diameter of the second portion of the guide pin of each of the plurality of interlocking panels is larger than the diameter of the first guide pin hole.
  • Clause 15 The above ground large capacity tank of any of clauses 11 to 14, wherein the horizontal flange of each of the plurality of interlocking panels defines at least one fastener hole extending through the horizontal flange, and wherein the at least one fastener hole of the horizontal flange of the first of the plurality of interlocking panels is configured to align with the at least one fastener hole of the horizontal flange of the second of the plurality of interlocking panels.
  • each of the plurality of interlocking panels further comprises: a first vertical flange extending from a first of the vertical edges of the plate and having at least one fastener hole extending through the first vertical flange; and a second vertical flange extending from a second of the vertical edges of the plate and having at least one fastener hole extending through the second vertical flange, wherein the at least one fastener hole of the second vertical flange of the first of the plurality of interlocking panels is aligned with the at least one fastener hole of the first vertical flange of a third of the plurality of interlocking panels positioned adjacent to the first of the plurality of interlocking panels.
  • each of the plurality of interlocking panels further comprises a tubular member extending from a second of the horizontal edges of the plate.
  • a method of assembling an above ground large capacity tank comprising the steps of: providing a plurality of identical interlocking panels, each of the interlocking panels comprising: a plate having an outer surface, an inner surface, two horizontal edges, and two vertical edges; a horizontal flange extending from a first of the horizontal edges of the plate, the horizontal flange defining a first guide pin hole and a second guide pin hole horizontally offset from the first guide pin hole, wherein the first guide pin hole has a smaller diameter than the second guide pin hole; and a guide pin comprising a first portion and a second portion, a diameter of the first portion being smaller than a major diameter of the second portion, the first portion of the guide pin inserted into the first guide pin hole; positioning a first of the plurality of interlocking panels in a lower row of panels such that horizontal flange of the first of the plurality of interlocking panels faces upward; and positioning a second of the plurality of interlocking panels in an upper row of panels such that: the horizontal
  • each of the plurality of interlocking panels further comprises: a first vertical flange extending from a first of the vertical edges of the plate and having at least one fastener hole extending through the first vertical flange; and a second vertical flange extending from a second of the vertical edges of the plate and having at least one fastener hole extending through the second vertical flange, and wherein the method further comprises: positioning a third of the plurality of interlocking panels adjacent to the first of the plurality of interlocking panels such that the at least one fastener hole of the second vertical flange of the first of the plurality of interlocking panels aligns with the at least one fastener hole of the first vertical flange of the third of the plurality of interlocking panels; and inserting at least one fastener through the at least one fastener hole of the second vertical flange of the first of the plurality of interlocking panels and the at least one fastener hole of the first vertical f
  • FIG. 1 is a perspective view of an interlocking panel in accordance with this disclosure.
  • FIG.2 is an enlarged and isolated view of a detailed portion labeled 2 in FIG. 1.
  • FIG. 3 is a front view of the interlocking panel of FIG. 1.
  • FIG.4A is a right side view of the interlocking panel of FIG. 1.
  • FIG.4B is a left side view of the interlocking panel of FIG. 1.
  • FIG. 5 is a top view of the interlocking panel of FIG. 6.
  • FIG. 6 is a perspective view of a guide pin in accordance with this disclosure.
  • FIG. 7 is a side view of the guide pin of FIG. 6.
  • FIG. 8 is a bottom view of the guide pin of FIG. 6.
  • FIG. 9 is a top view of the guide pin of FIG. 6.
  • FIG. 10 is a perspective view showing a large capacity tank with two levels of interlocking panels in accordance with this disclosure.
  • FIG. 11 is an isolated view of the connection of the first-level interlocking panels to the second-level interlocking panels of the large capacity tank shown in FIG. 10.
  • FIG. 12 is an exploded view of the connection of the first-level interlocking panels to the second-level interlocking panels shown in FIG. 11.
  • the term“at least one of’ is synonymous with“one or more of’.
  • the phrase“at least one of A, B, and C” means any one of A, B, and C, or any combination of any two or more of A, B, and C.
  • “at least one of A, B, and C” includes one or more of A alone; or one or more B alone; or one or more of C alone; or one or more of A and one or more of B; or one or more of A and one or more of C; or one or more of B and one or more of C; or one or more of all of A, B, and C.
  • the term“at least two of’ is synonymous with“two or more of’.
  • the phrase“at least two of D, E, and F’ means any combination of any two or more of D, E, and F.
  • “at least two of D, E, and F’ includes one or more of D and one or more of E; or one or more of D and one or more of F; or one or more of E and one or more of F; or one or more of all of D, E, and F.
  • an interlocking panel 100 in accordance with a nonlimiting aspect of this disclosure generally includes a plate 112 with an outer surface, an inner surface, two opposing horizontal edges, and two opposing vertical sides.
  • the horizontal edges and vertical edges define the shape of the plate 112.
  • the plate 112 may have an arcuate, curved shape; however, additional shapes are contemplated.
  • the outer surface and the inner surface of the plate 112 are generally smooth, continuous surfaces, but it is contemplated that slight imperfections, bumps, or chips may result from the manufacturing process or develop on the inner and outer surfaces of the plate 112.
  • a first vertical flange 114 extends from a first of the vertical edges of the plate 112 in the direction of the outer surface of the plate 112.
  • the first flange 114 may be welded or otherwise fastened to the plate 112, or the first flange 114 may be integral with the plate 112.
  • the first flange 114 may define at least one fastener hole 116 extending therethrough.
  • fasteners may be inserted into the at least one fastener hole 116 to connect adjacently positioned panels 100 to each other.
  • the at least one fastener hole 116 may include a plurality of fastener holes 116 located at an even or uneven distribution along the length of the first flange 114.
  • the fastener holes 116 may be spaced closer together near the bottom of the first flange 114 so that more fasteners may be inserted near the bottom of panel 100 where hydrostatic pressure of liquid contained by the panel is the greatest.
  • a second vertical flange 118 extends from a second of the vertical edges of the plate 112 in the direction of the outer surface of the plate 112.
  • the second flange 118 may be welded or otherwise fastened to the plate 112, or the second flange 118 may be integral with the plate 112.
  • the second flange 118 may define at least one fastener hole 120 extending therethrough, similar to the manner in which the at least one fastener hole 116 extends through the first flange 114.
  • the location(s) of the least one fastener hole 120 on the second flange 118 may be substantially identical to the location(s) of the at least one fastener hole 116 on the first flange 114.
  • At least one fastener hole 116 on the first flange 114 of one panel 100 may align with the at least one fastener hole 120 on the second flange 118 of the adjacent panel 100.
  • the plurality of fastener holes 116, 120 on the first and second flanges 114, 118 may be distributed unevenly.
  • the uneven distribution of fastener holes 116, 120 along the length of the first and second flanges 114, 118 may ensure that fastener holes 116, 120 of the first and second flanges 114, 118 of adjacent panels 100 only align when the adjacent panels 100 are properly positioned relative to one another.
  • a horizontal flange 122 extends from a first of the horizontal edges of the plate 112 in the direction of the outer surface of the plate 112.
  • a tubular member 128 may extend from a second of the horizontal edges of the plate 112 in the direction of the outer surface of the plate 112.
  • the tubular member 128 may have a generally square cross-sectional shape, although other cross-sectional shapes are contemplated.
  • the horizontal flange 122 and the tubular member 128 may be welded or otherwise fastened to the plate 112, or the horizontal flange 122 and the tubular member 128 may be integral with the plate 112.
  • the horizontal flange 122 and the tubular member 128 may each have an arcuate, curved shape corresponding to the shape of the plate 112; however, additional shapes are contemplated.
  • the horizontal flange 122 may define at least one fastener hole 124 extending therethrough. As will be explained in greater detail herein, fasteners may be inserted into the at least one fastener hole 124 to connect stacked rows of panels 1(H) to one another.
  • the at least one fastener hole 124 of the horizontal flange 122 may include a plurality of holes 124 which may be evenly spaced, unevenly spaced, or spaced in groups along the longitudinal axis of the horizontal flange 122.
  • the horizontal flange 122 may further define a first guide pin hole 136 and a second guide pin hole 146 horizontally offset from the first guide pin hole 136 extending therethrough.
  • the first guide pin hole 136 may have a diameter smaller than a diameter of the second guide pin hole 146, and the first guide pin hole 136 may be configured to receive a guide pin 126.
  • the guide pin 126 may have a cylindrical first portion 210 configured to fit into first guide pin hole 136 of the horizontal flange 122.
  • the first portion 210 may be affixed, e.g.
  • An end of the guide pin 126 opposite the first portion 210 may include a second at least partially conical or frustoconical portion 220 configured to be inserted into the second guide pin hole 146 of another panel 100 vertically stacked onto the panel 100 to which the guide pin 126 is affixed.
  • the second portion tapers from a major diameter adjacent to the first portion 210 to a minor diameter spaced apart from the first portion 210.
  • the major diameter of the second portion 220 may be greater than the diameter of the first guide pin hole 136 such that the second portion 220 cannot slide through the first guide pin hole 136.
  • the sloping sides of the second portion 220 assist the worker in indexing the identical interlocking panels 100 in the proper position for assembly.
  • the guide pin 126 further includes a shoulder surface 230 continuous with the base of the second portion 220.
  • the shoulder surface 230 has a diameter greater than the diameter of the first portion 210 such that shoulder surface 230 engages the horizontal flange 122 when the guide pin 126 is positioned in the corresponding one of the plurality of holes 124 of the horizontal flange 122.
  • the interlocking panel 100 also includes at least one or, typically, a plurality of retaining ribs 130 positioned on the outer surface of the plate 112.
  • the retaining ribs 130 extend across the plate 112 from the first vertical flange 114 to the second flange 118.
  • Each of the plurality of retaining ribs 130 may be tubular members having a generally square cross-sectional shape; however, additional cross-sectional shapes are contemplated.
  • the retaining ribs 130 may be positioned on the plate 112 by welding or fastening the retaining ribs 130 to the plate 112 or the retaining ribs 130 may be integral with the plate 112.
  • the plurality of retaining ribs 130 may be spaced evenly between the horizontal flange 122 and the tubular member 128.
  • the plurality of retaining ribs 130 may have an arcuate, curved shape corresponding to the shape of the plate 112; however, additional shapes are contemplated.
  • the retaining ribs 130 provide resistance to hydrostatic pressure exerted by liquid contained by the plate 112 to prevent outward bulging of the plate 112. By adding additional retaining ribs 130, greater support is applied to the plate 112 preventing bulging, fatigue, or weakening of the plate 112 against the pressure of the stored fluid. In some embodiments, a greater number of retaining ribs 130 are placed towards the bottom of the plate 112 where the hydrostatic pressure is greatest.
  • At least one or, typically, a plurality of lifting rings 134 may also be attached to the plurality of retaining ribs 130.
  • a plurality of lifting rings 134 can be placed along the outer surface of the retaining rib 130.
  • the lifting rings 134 facilitate lifting of the panel 100 via machinery, such as a crane or forklift.
  • FIGS. 10-12 a plurality of identical interlocking panels including a first panel 100, a second panel 100', and a third panel 100" may be assembled into a large capacity tank 1000.
  • Each of the first panel 100, the second panel 100', and the third panel 100" may be constructed substantially as described with regard to FIGS. 1-9, with like reference numerals referring to like components.
  • a single apostrophe (') is used to denote components of the second panel 100', and a double apostrophe (") is used to denote components of the third panel 100".
  • the first panel 100 and the third panel 100" may be arranged side by side, with their respective horizontal flanges 122, 122" facing upward, to form a first row of panels.
  • the third panel 100" may be positioned adjacent to the first panel 100 such that the second vertical flange 118 of the first panel 100 abuts the first vertical flange 114" of the third panel 100".
  • the at least one fastener hole 120 of the second vertical flange 118 of the first panel 100 aligns with the at least one fastener hole 116" of the first vertical flange 114" of the third panel 100".
  • the fastener holes 120, 116 aligned with at least one fastener (not shown), such as bolts, may be inserted through the fastener holes 120, 116" to secure the first and third panels 100, 100" to one another.
  • the second panel 100* may be positioned on top of the first panel 100 and the third panel 100", with the horizontal flange 122' of the second panel 100* facing downwards, to form a second row of panels.
  • the horizontal flange 122' of the second panel 100* therefore abuts the horizontal flanges 122, 122" of the first and third panels 100, 100".
  • the second portion 220 of the guide pin 126 of the first panel 1(H) may extend into the guide pin hole 146* of the horizontal flange 122' of the second panel 100*.
  • the second portion 220' of the guide pin 126* of the second panel 100' may extend into the guide pin hole 146 of the horizontal flange 122 of the first panel 100.
  • the guide pins 126, 126', 126" and the guide pin holes 146, 146', 146" may be arranged on their respective horizontal flanges 122, 122', 122" such that when assembled, each panel in the second row of panels is horizontally offset from the panels located below it in the first row of panels.
  • the seams between the first and third panels 100, 100" in the first row of panels is horizontally aligned with a mid- portion of the second panel 100* in the second row of panels.
  • each of the fastener holes 124* of the horizontal flange 122* of the second panel 100* may align with one of the fastener holes 124, 124" of the horizontal flanges 122, 122" of the first or third panels 100, 100".
  • One or more fasteners may be inserted through the fastener holes 124, 124', 124" in the horizontal flanges 122, 122', 122" to secure the panels 100, 100', 100" to one another.
  • Subsequent panels of the large capacity tank 1000 may be assembled and joined to the first, second, and third panels 100, 100', 100" in the same manner described above until the large capacity storage tank 1000 forms a continuous perimeter boundary.
  • the perimeter boundary may be substantially circular due to the arcuate shape of the panels 100, 100', 100".
  • the panels 100, 100', 100" may be constructed in non- arcuate shapes, which may consequently define a non-circular perimeter boundary of the storage tank 1000.
  • a liner (not shown) may be along the ground surface enclosed by the storage tank 1000 and up the internal surface of the panels 100, 100', 100" in order to create a liquid-proof barrier for containing liquid within the storage tank 1000.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Filling Or Discharging Of Gas Storage Vessels (AREA)

Abstract

L'invention concerne un panneau à verrouillage permettant de construire un réservoir de grande capacité, ledit panneau à verrouillage comprenant une plaque ayant une surface externe, une surface interne, deux bords horizontaux et deux bords verticaux. Une bride horizontale s'étend à partir d'un premier des bords horizontaux de la plaque et délimite un premier trou de tige de guidage et un second trou de tige de guidage décalé horizontalement par rapport au premier trou de tige de guidage. Le premier trou de tige de guidage possède un diamètre plus petit que le second trou de tige de guidage. Le panneau comprend en outre une tige de guidage ayant une première partie et une seconde partie. La première partie de la tige de guidage est insérée dans le premier trou de tige de guidage. La seconde partie de la tige de guidage s'étend à partir de la bride horizontale de façon à être reçue par le second trou de tige de guidage d'un second panneau positionné au-dessus du panneau de telle sorte que le second panneau est décalé horizontalement par rapport au panneau.
PCT/US2019/036509 2018-12-14 2019-06-11 Réservoir de stockage de surface WO2020122987A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US201862779936P 2018-12-14 2018-12-14
US62/779,936 2018-12-14

Publications (1)

Publication Number Publication Date
WO2020122987A1 true WO2020122987A1 (fr) 2020-06-18

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Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6715243B1 (en) * 1999-02-16 2004-04-06 Jansens & Dieperink B.V. Method for production of a silo
US20130098929A1 (en) * 2011-10-21 2013-04-25 Sean Michael Lovelace Portable Reservoir Frame
US8534480B1 (en) * 2012-06-13 2013-09-17 Pinnacle Companies, Inc. Tank segment connection apparatus
US20130327776A1 (en) * 2012-06-11 2013-12-12 Global Fabrication, Inc. Variable-diameter storage tank system
US20140166648A1 (en) * 2011-08-10 2014-06-19 Tokyo Kizai Kogyou Co., Ltd. Sidewall unit, fabricating method thereof, and fluid storage tank comprising the sidewall unit
US20140319130A1 (en) * 2013-04-24 2014-10-30 JWF Industries Large Capacity Above Ground Impoundment Tank
US20180195264A1 (en) * 2014-11-06 2018-07-12 Kajima Corporation Tank and method for constructing dike

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6715243B1 (en) * 1999-02-16 2004-04-06 Jansens & Dieperink B.V. Method for production of a silo
US20140166648A1 (en) * 2011-08-10 2014-06-19 Tokyo Kizai Kogyou Co., Ltd. Sidewall unit, fabricating method thereof, and fluid storage tank comprising the sidewall unit
US20130098929A1 (en) * 2011-10-21 2013-04-25 Sean Michael Lovelace Portable Reservoir Frame
US20130327776A1 (en) * 2012-06-11 2013-12-12 Global Fabrication, Inc. Variable-diameter storage tank system
US8534480B1 (en) * 2012-06-13 2013-09-17 Pinnacle Companies, Inc. Tank segment connection apparatus
US20140319130A1 (en) * 2013-04-24 2014-10-30 JWF Industries Large Capacity Above Ground Impoundment Tank
US20180195264A1 (en) * 2014-11-06 2018-07-12 Kajima Corporation Tank and method for constructing dike

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