KR101052516B1 - Membrane reinforcement having wrinkles, membrane assembly having same and construction method thereof - Google Patents

Abstract

The membrane reinforcing material having a wrinkle portion according to the present invention includes a bottom portion having a flat outer surface to contact the heat insulating structural member, and a support portion having an outer surface corresponding to the inner surface of the wrinkle portion so as to contact the inner surface of the wrinkle portion of the membrane. It includes a pipe-shaped reinforcing body consisting of a closed curve. The reinforcing material is disposed between the heat insulation structural member and the wrinkle part to support the inner surface of the wrinkle part, thereby reinforcing the rigidity of the wrinkle part. According to the present invention, by disposing a reinforcing member capable of supporting the inner surface of the wrinkle portion inside the wrinkle portion, it is possible to prevent collapse of the wrinkle portion due to pressure without increasing the surface rigidity of the wrinkle portion.

Description

Membrane reinforcing material having a corrugated portion, a membrane assembly having the same, and a construction method thereof

The present invention relates to a membrane reinforcing material, and more particularly, to a membrane reinforcing material having a wrinkle portion for improving the pressure resistance performance of the membrane having a wrinkle portion, a membrane assembly having the same and a construction method thereof.

Membrane with corrugation is used in various fields that require heat shock absorption due to structural strength and temperature change, such as sealing walls of storage tanks storing low temperature fluids such as LNG.

In the case of the sealing wall of the storage tank for low temperature fluid storage, a plurality of membranes made of metal are welded with neighboring edges overlapped to maintain the airtightness of the storage tank. When the low temperature fluid comes into contact with the membrane, the crease may be stretched to the side, thereby reducing local stress generated in the weld portion of the membrane.

Metallic membranes used in low temperature fluid storage tanks are made in a substantially rectangular shape and have a number of corrugations to facilitate expansion and contraction with changes in heat and load. Such a membrane is welded by four sides overlapping with four sides of another neighboring membrane, thereby forming a sealing wall for maintaining the airtightness of the storage tank.

However, since the conventional membrane has a plurality of raised wrinkles, the plastic membrane is easily collapsed while plastic deformation occurs at the side of the wrinkles under high hydrostatic pressure or dynamic pressure.

In order to solve this problem, a method of increasing the thickness of the membrane to reinforce the stiffness of the wrinkles has been proposed, but this method has a problem of lowering the flexibility of the membrane. A method of forming a reinforcing ridge in the wrinkles in a way to increase the stiffness of the wrinkles without increasing the thickness of the membrane has been proposed in US Patent Publication No. US2005 / 0082297.

 U.S. Patent Publication 2005/0082297 discloses a sealing wall structure comprising one or more membranes 10, as shown in FIGS. The membrane 10 is formed such that one or more of the first pleats 5 and the second pleats 6 are orthogonal to each other, and these pleats 5, 6 protrude toward the interior of the storage tank. The sealing wall structure has one or more reinforcing ridges 11 between the intersections 8 where the corrugations 5, 6 intersect each other. The reinforcing ridges 11 are generally convex, with one or more locally formed in the middle of the pleats 6. Reinforcing ridges prevent the creases from collapsing under the pressure of the fluid.

However, in the conventional membrane as shown in FIG. 2, when a force is applied in the direction of the arrow to the wrinkles, the wrinkles of which the surface stiffness is increased due to the reinforcement ridges do not exert the inflation and contraction function of the wrinkles, and thus heat shrinkage. Has a problem that the stress is increased in the weld. In addition, since there is no need for reinforcing ridges in areas that are not subjected to less or less pressure, there are inconveniences of preparing membranes with reinforcing ridges and membranes without reinforcing ridges, and arranging them appropriately during construction.

The present invention is to solve the above problems, the membrane reinforcing member having a pleated portion that can prevent the collapse of the pleat without inserting the inside of the pleated portion of the membrane without increasing the stiffness of the pleat, the membrane assembly having the same and The purpose is to provide the construction method.

The membrane reinforcing material having a pleated portion according to an embodiment of the present invention for achieving the above object is corresponding to the inner surface of the pleated portion so as to contact the inner surface of the pleated portion of the membrane and the bottom portion having a flat outer surface to contact the insulating structural material It includes a support having an outer surface, the cross section includes a pipe-shaped reinforcing body consisting of a closed curve. The reinforcing member is disposed between the heat insulating structural member and the wrinkle portion to support the inner surface of the wrinkle portion, thereby reinforcing the rigidity of the wrinkle portion.

Membrane reinforcement having a corrugated portion according to an embodiment of the present invention may further include an auxiliary reinforcement means disposed in the reinforcement to support the inner surface of the reinforcement.

Here, the auxiliary reinforcing means may be a reinforcing pipe having a circular cross section, or may include a plurality of reinforcing bars extending outward from the center of the reinforcing material to contact the inner surface of the reinforcing material.

Membrane reinforcement having a corrugated portion according to an embodiment of the present invention may further include a heat insulating material disposed inside the reinforcing body to improve the heat insulating performance of the reinforcing material.

Here, a passage through which the fluid for leakage inspection may flow may be provided in the heat insulating material.

The surface hardness of the reinforcing body may be lower than the hardness of the membrane.

Membrane reinforcement having a pleated portion according to an embodiment of the present invention, may further include a buffer coupled to the outer surface of the reinforcing body to dampen the impact load of the reinforcement.

And the reinforcing body may have an insertion hole for coupling with the insulating structural material.

The membrane reinforcing material having a wrinkle portion according to an embodiment of the present invention, by contacting the inner surface of the wrinkle portion elastically deformed by the pressing means provided at the end of the body for the reinforcement to secure the reinforcing body to the inside of the wrinkle portion It may further include.

Here, the press-in means may be formed by cutting a portion of the end of the reinforcing body to be elastically deformed in contact with the inner surface of the wrinkles.

Membrane reinforcement having a corrugation portion according to an embodiment of the present invention further comprises an extension extending outward from the bottom end of the reinforcing body, the press-in means, the coil portion wound on the extension portion, and It may be provided with a pair of arms extending toward the inner surface of the wrinkle portion at both ends of the coil portion to be elastically deformed in contact with the inner surface of the wrinkle portion.

Membrane assembly according to an embodiment of the present invention for achieving the above object is a heat insulating structure having a flat surface, a membrane coupled to the flat surface of the heat insulating structure, and having a plurality of corrugations raised to the outside, and the heat insulating A reinforcement having a bottom portion having a flat outer surface to contact the structural member, and a support portion having an outer surface corresponding to the inner surface shape of the wrinkle portion so as to contact the inner surface of the wrinkle portion, and having a pipe-shaped reinforcing body whose cross section is a closed curve. It includes. The reinforcing member is disposed between the heat insulating structural member and the wrinkle portion to support the inner surface of the wrinkle portion, thereby reinforcing the rigidity of the wrinkle portion.

Here, the reinforcing body is provided with an insertion hole, the membrane assembly having a pleated portion according to an embodiment of the present invention, through the insertion hole to secure the reinforcing material to the insulating structure member is coupled to the insulating structure member It may further comprise a fixed means.

And the end of the pleated portion is formed with a depression recessed toward the heat insulating structure, the end of the reinforcing body elastically deformed in contact with the inner surface of the recess so that the reinforcing body can be fixed to the inside of the pleated portion It may be provided.

Method for constructing a membrane assembly according to an embodiment of the present invention for achieving the above object, a) a bottom portion having an outer surface corresponding to the surface of the insulating structural member between the inner surface of the corrugated portion of the membrane and the surface of the insulating structural member and the Disposing a reinforcement having a support having an outer surface corresponding to an inner surface of the corrugation, and b) coupling the membrane to the surface of the thermal insulation structure such that the inner surface of the corrugation is in contact with the outer surface of the reinforcement. The reinforcement may have a pipe-shaped reinforcement body whose cross section is a closed curve.

Here, in the step a), the reinforcing material may be attached to any one of the inner surface of the wrinkle part and the surface of the insulating structural material using an adhesive.

And in the step a) it is possible to fix the reinforcement to the surface of the heat insulating structure by inserting the fixing means provided to protrude to the outside of any one of the heat insulating structure and the reinforcement.

In the step a), the reinforcement may be press-fitted into the crease by contacting a portion of the reinforcement to the inner surface of the crease to elastically deform it.

According to the present invention, by disposing a reinforcing member capable of supporting the inner surface of the wrinkle portion inside the wrinkle portion, it is possible to prevent collapse of the wrinkle portion due to pressure without increasing the surface rigidity of the wrinkle portion.

In addition, according to the present invention, by arranging a filler such as a heat insulating material inside the reinforcing material, the heat insulating performance and the impact damping performance can be improved, and the shock damping performance can be improved by disposing the buffer material of the polymer material on the outer surface of the reinforcing material. .

Hereinafter, with reference to the accompanying drawings will be described for the membrane reinforcing material having a corrugated portion, the membrane assembly having the same and a construction method thereof according to various embodiments of the present invention. In the drawings, the size and shape of the components, etc. may be exaggerated or simplified to aid in understanding the invention.

3 is a cross-sectional view showing a part of a membrane assembly according to an embodiment of the present invention. As shown in FIG. 3, the membrane assembly 20 according to one embodiment of the present invention is coupled to the surface 21 of the insulating structure 22, the insulating structure 22 having a flat surface 21, and the outer side thereof. Membrane 23 having a pleated portion 25 is raised, and a reinforcement 26 is disposed inside the pleated portion 25 to reinforce the rigidity of the pleated portion 25. The membrane 23 may be bonded to the surface 21 of the insulating structural material 22 by an adhesive method by an adhesive, by welding, or by a mechanical method by a separate fixing means.

The membrane 23 has a flat portion 24 coupled to the surface 21 of the insulating structural material 22 and a plurality of corrugations 25 raised outward of the insulating structural material 22. The pleats 25 prevent the stress from concentrating on specific portions, such as welds, by expanding or contracting during thermal contraction of the membrane 23. The membrane 23 is mostly made of a metal material, but may be made of other materials. The insulating structural material 22 may be made of plywood or other various materials so as to form a heat insulating sealing wall together with the membrane 23.

The reinforcing material 26 serves to reinforce the rigidity of the pleats 25, which are susceptible to plastic deformation under high hydrostatic pressure or dynamic pressure, compared to the flat portion 24. The reinforcement 26 includes a reinforcement body 29 having a bottom portion 27 in contact with the surface 21 of the insulating structural material 22 and a support portion 28 in contact with the inner surface of the corrugation portion 25. The outer surface of the bottom portion 27 is flat so as to be in close contact with the surface 21 of the insulating structural material 22, and the outer surface of the support portion 28 is a curved surface corresponding to the inner surface shape of the corrugation portion 25. .

As described above, the reinforcing member 26 has a pipe shape having a cross section of a closed curve so that the structural strength is large and the inner surface of the corrugation portion 25 can be stably supported against the pressure applied to the corrugation portion 25. The reinforcement 26 preferably has a surface hardness lower than the hardness of the membrane 23 to reduce frictional damage of the membrane 23. To this end, the reinforcing material 26 may be made of a material lower than the hardness of the membrane 23. For example, when the membrane 23 is made of stainless steel, the reinforcing material 26 is made of a material having a hardness lower than that of stainless steel such as aluminum or brass. Alternatively, when the outer surface of the reinforcing material 26 is coated with a low hardness metal or polymer, the surface hardness of the reinforcing material 26 may be lowered regardless of the material of the reinforcing material 26.

The reinforcing material 26 is pressurized by the pleats 25 to the surface 21 of the insulating structural material 22 when the membrane 23 is joined to the surface 21 of the insulating structural material 22, so that the separate joining means. It can be maintained in close contact with the insulating structural member 22 without. For ease of assembly, the reinforcement 26 may be temporarily attached to the insulating structural material 22 or the membrane 23 by an adhesive.

4 and 5 show a portion of each of the membrane assemblies according to another embodiment of the present invention, the secondary reinforcing means is provided in the interior of the reinforcement to increase the stiffness of the reinforcement. Since most of the construction of the membrane assembly according to these embodiments is as shown in Figure 3, the same reference numerals are attached to the same parts and detailed description thereof will be omitted.

The membrane assembly 31 shown in FIG. 4 includes a heat insulating structural material 22, a membrane 23 having a pleated portion 25, a stiffener 26 for reinforcing the stiffness of the pleated portion 25, and a stiffener 26. It includes a reinforcement pipe 32 disposed inside the. The reinforcement pipe 32 has a circular cross section and is disposed inside the reinforcement 26 to increase the stiffness of the side of the reinforcement 26. The reinforcing pipe 32 supports the inner surface of the reinforcing material 26 by three-point contact with the inner surface of the reinforcing material 26 such as the inner surface of the bottom portion 27 and the left and right inner surfaces of the supporting part 28. The material of the reinforcing pipe 32 may be made of metal or various materials capable of supporting the inner surface of the reinforcing material 26.

In the membrane assembly 33 shown in FIG. 5, a plurality of reinforcing spokes 39 are disposed inside the reinforcement 34 as auxiliary reinforcing means for improving the rigidity of the reinforcement 34. The plurality of reinforcing bars 39 are radially disposed to extend from the center of the reinforcing material 34 toward the inner surface to contact the inner surface of the bottom portion 35, the inner surface of the top portion 36, and the left and right inner surfaces of the support portion 37. The plurality of reinforcing bars 39 may be made of metal or various materials that may be in contact with the inner surface of the reinforcing material 34 to improve the rigidity of the reinforcing material 34.

In the present invention, the auxiliary reinforcing means for improving the rigidity of the reinforcement is not limited to the structure shown in Figures 4 and 5, it can be changed to another structure that is disposed inside the reinforcement to support the inner surface of the reinforcement. have.

6-9 illustrate a portion of each of the membrane assemblies according to another embodiment of the present invention.

The membrane assembly 38 shown in FIG. 6 has the interior of the reinforcement 26 filled with insulation 40. As the heat insulating material 40, various materials having heat insulating properties such as urethane foam may be used. The heat insulating material 40 not only improves the heat insulating performance of the reinforcing material 26, but also improves the damping performance against the impact load.

The membrane assembly 41 shown in FIG. 7 has the same configuration as most of the membrane assembly 38 shown in FIG. 6, except that the passage 30 is formed inside the heat insulator 40. The passage 30 is for flowing a leak test fluid for inspecting the leak of the membrane 23.

In the membrane assembly 42 illustrated in FIG. 8, the cushioning material 43 is disposed on the outer surface of the reinforcing material 26. The cushioning material 43 surrounds the entire outer surface of the reinforcing material 26 and serves to dampen the impact load between the insulating structural material 22 and the bottom portion 27 and between the corrugation portion 25 and the support portion 28. The shock absorbing material 43 not only attenuates the impact load, but also reduces the friction between the reinforcing material 26 and the insulating structural material 22 and between the reinforcing material 26 and the pleats 25 to prevent surface damage of the reinforcing material 26. It plays a role. As the cushioning material 43, a polymer coating layer or one of various materials having elasticity may be used.

In the membrane assembly 44 shown in FIG. 9, the buffer 45 is disposed only on a portion of the outer surface of the stiffener 26. The shock absorbing material 45 is disposed on the bottom portion 27 of the reinforcing material 26 to cushion the impact load between the reinforcing material 26 and the heat insulating structural material 22, and the outer surface of the bottom portion 27 is the heat insulating structural material 22. Prevents damage by friction with.

10 to 12 show a portion of each of the membrane assemblies according to another embodiment of the present invention, wherein the reinforcement is fixed to the insulating structure by a separate fastening means.

The membrane assembly 46 shown in FIG. 10 is a reinforcing member 26 fixed by a hook-type fixing member 47 fixed to the insulating structural member 22. The hook-type fixing member 47 may be made of various materials capable of fixing plastic, metal, or reinforcing material 26. And the hook-type fixing member 47 may be coupled to the insulating structural material 22 by adhesive, welding, or other mechanical method depending on the material. The hook-type fastening member 47 has a hook 48 protruding perpendicularly from the surface 21 of the heat insulating structure 22, which hook 48 is formed at the bottom 27 of the reinforcement 26. The reinforcing material 26 is fixed to the heat insulating structural member 22 by being inserted into the insertion hole 49.

The membrane assembly 50 shown in FIG. 11 uses a hook-type plug 51 as a fixing means. An insertion hole 54 is formed in the bottom portion 27 of the reinforcing material 26 to couple the hook-type plug 51, and an engagement hole 55 is formed in the heat insulating structure 22. The hook-type plug 51 has a head 52 larger than the insertion hole 54 and a hook 53 inserted into the coupling hole 55 and not easily detached. The hook-type plug 51 is inserted into the coupling hole 55 through the insertion hole 54 in the reinforcing material 26 to thereby fix the reinforcing material 26 to the heat insulating structure 22.

If the hook-type fixing member 47 shown in FIG. 10 and the hook-type plug 51 shown in FIG. 11 are used as fixing means for fixing the reinforcement 26 to the insulating structural member 22, a separate mounting tool There is an advantage that can be easily fixed to the heat insulating structure 22 without using the reinforcement 26. The hook-type plug 51 shown in FIG. 11 may be provided with an integral protrusion protruding outward from the bottom portion 27 of the reinforcing material 26.

The membrane assembly 56 shown in FIG. 12 uses a screw 57 as a fastening means. An insertion hole 58 is formed in the bottom portion 27 of the reinforcing material 26 for coupling the screw 57, and a screw hole 59 is formed in the heat insulating structure 22. And the support part 28 of the reinforcing material 26 is provided with the through-hole 60 for accessing the screw 57 to the tool for tightening the screw 57. FIG. In the state in which the reinforcing material 26 is disposed in the insulating structural material 22, the fixing operation may be performed by inserting the screw 57 and the tool through the through hole 60.

As shown in FIGS. 10 to 12, when the reinforcement 26 is first mounted on the heat insulating structure 22 using the fixing means, the pre-mounted reinforcement 26 is positioned at the pleats 25 of the membrane 23. It can serve as a guide to hold. Fixing means for fixing the reinforcement 26 to the inside of the pleats 25 may be used with an adhesive.

FIG. 13 illustrates a membrane of a membrane assembly according to another embodiment of the present invention, and FIGS. 15 to 17 illustrate various types of reinforcements that may be coupled to the membrane shown in FIG. 13.

As shown in FIG. 13, the membrane 61 is arranged such that the plurality of corrugations 62 vertically intersect. The intersection part 63 of a special form is formed in the part which the wrinkle part 62 crosses. Recesses 64 are formed at both ends of the pleats 62 adjacent to the intersection 63. The recessed portion 64 has a shape in which the top portion 65 of the pleats 62 is recessed and spread laterally. The depression 64 includes a hill 66 that is gently curved at the top 65 and a valley 67 connected to the end of the hill 66. As shown in FIG. 14, the width of the valleys 67 is greater than the width of other portions, and a pair of concave portions 68 curved on both sides are formed on the inner surface of the valleys 67.

15 to 17 has a press-fit means that can be elastically deformed in contact with the inner surface of the bent portion, it can be fixed to the membrane without a separate fixing means.

The reinforcement 69 shown in FIG. 15 includes a reinforcing body 70 for supporting the inner surface of the corrugation part 62 and a closed elastic deformation part 71 provided at both ends of the reinforcing body 70. do. The closed elastic deformation part 71 may be formed by cutting a portion of an end portion of the reinforcing body 70 and plastically deforming both ends to protrude outward. A pair of clasps 72 protruding outward are formed at both ends of the closed elastic deformation part 71. The clasp 72 is a portion corresponding to the concave portion 68 of the corrugation portion 62. The clasp portion 72 is press-fitted into the concave portion 68 and elastically deformed to fix the reinforcing body 70 inside the crease portion 62. Can be. At both ends of the reinforcing body 70, slopes 73 corresponding to the hills 66 formed at both ends of the pleat 62 are formed.

The reinforcing member 73 shown in FIG. 16 is an open type elastic deformation portion 75 provided in pairs at both ends of the reinforcing body 74 and the reinforcing body 74 for supporting the inner surface of the corrugation portion 62. It includes. The open elastic deformation part 75 may be integrally formed with the reinforcing body 74 by cutting and deforming a portion of the reinforcing body 74. At the end of the open elastic deformation portion 75, a clasp 76 bent outward is provided, and the clasp 76 is press-fitted into the concave portion 68 of the corrugation portion 62, thereby reinforcing the body 74. May be fixed to the inside of the pleats 62 without a separate fixing means. At both ends of the reinforcing body 74, inclined portions 77 corresponding to the hill portions 66 of the pleats 62 are formed.

In the present invention, the closed elastic deformation portion 71 or the open elastic deformation portion 75 is not limited to a form in which a part of the reinforcing bodies 70 and 74 are modified as shown and described. That is, the closed elastic deformation part 71 or the open elastic deformation part 75 may be separately manufactured and then coupled to the reinforcing bodies 70 and 74.

The reinforcement 78 shown in FIG. 17 has an extended clip 82 which is a press-fit means at both ends of the reinforcing body 79. The reinforcement 78 has an extension 81 for engaging the expandable clip 82. The extension portion 81 protrudes outward from the bottom portion 80 of the reinforcing body 79. The extended clip 82 extends from both ends of the coil portion 83 toward the inner surface of the wrinkle portion 62 so as to be elastically deformed in contact with the inner surface of the coil portion 83 and the wrinkle portion 62 wound around the extension portion 81. Pair of arms 84. When the stiffener 78 is inserted into the pleats 62, the tip of the arm 84 contacts the concave portion 68 of the pleats 62 so that the clip 82 is elastically deformed so that the stiffener 78 is It may be fixed inside the pleats 62.

Since the reinforcement 69, 73, 78 shown in Figs. 15 to 17 has a press-fit means elastically deformed in contact with the inner surface of the corrugation portion 62, the corrugation portion 62 without adhesive or a separate fixing means It can be fixed inside. Therefore, the rigidity of the pleats 62 can be reinforced by installing a reinforcing material by a conventional construction method without changing the structure of the insulating structural material 22.

 The present invention described above is not limited to the configuration and operation as shown and described. That is, the present invention is capable of various changes and modifications within the spirit and scope of the appended claims.

1 and 2 are a perspective view showing a conventional membrane and wrinkles of the membrane.

3 is a cross-sectional view showing a portion of a membrane assembly according to one embodiment of the present invention.

4 to 12 are cross-sectional views showing a part of each of the membrane assemblies according to another embodiment of the present invention.

13 is a perspective view showing a membrane of a membrane assembly according to another embodiment of the present invention.

14 is a cross-sectional view taken along the line A-A of FIG.

15 to 17 are perspective views showing various forms of reinforcement that can be coupled to the membrane shown in FIG.

♣ Explanation of symbols for the main parts of the drawing ♣

22: insulating structural material 23, 61: membrane

25, 62: wrinkles 26, 34, 69, 73, 78: reinforcement

27, 35, 80: bottom portion 28, 37: support portion

29, 70, 74, 79: reinforcing body 32: reinforcing pipe

39: reinforcement 40: heat insulating material

43, 45: cushioning material 47: hook-type fixing member

51 hook type plug 57 screw

63: intersection 64: depression

66: hill portion 67: goal portion

71: closed elastic deformation portion 75: open elastic deformation portion

82: expandable clip

Claims (19)

In the reinforcing member for the membrane having a wrinkle portion for reinforcing the rigidity of the wrinkle portion provided in the membrane bonded to the insulating structural material, Disposed between the insulating structural member and the pleats; And a support having a bottom portion having a flat outer surface to contact the insulating structural material, and an outer surface corresponding to the inner surface of the wrinkle portion so as to contact the inner surface of the wrinkle portion, and having a pipe-shaped reinforcing body whose cross section is a closed curve. Reinforcing material for a membrane having a wrinkle portion, characterized in that. The method of claim 1, The reinforcement for membrane having a wrinkle portion, characterized in that it further comprises an auxiliary reinforcement means disposed in the reinforcement to support the inner surface of the reinforcement. The method of claim 2, The auxiliary reinforcing means is a reinforcing member for a membrane having a pleat, characterized in that it comprises a reinforcing pipe having a circular cross section. The method of claim 2, And the auxiliary reinforcing means includes a plurality of reinforcing ribs extending outward from the center of the reinforcing member to contact the inner surface of the reinforcing member. The method of claim 1, Membrane reinforcement having a pleat portion further comprises a heat insulating material disposed inside the reinforcing body to improve the heat insulating performance of the reinforcing material. The method of claim 5, A reinforcement for membrane having a corrugation portion, characterized in that a passage through which the leak-testing fluid can flow in the heat insulating material. The method of claim 1, Surface hardness of the reinforcing body is a membrane reinforcement having a wrinkles, characterized in that lower than the hardness of the membrane. The method of claim 1, Membrane reinforcement having a pleat portion further comprises a cushioning material coupled to the outer surface of the reinforcing body to dampen the impact load of the reinforcing material. The method of claim 1, The reinforcing body has a corrugated reinforcement member, characterized in that it has an insertion hole for coupling with the insulating structural material. The method of claim 1, Membrane reinforcement having a crimp portion, characterized in that it further comprises a press-in means provided at the end of the reinforcing body to be fixed to the inner surface of the reinforcing body by elastic deformation in contact with the inner surface of the wrinkles. 11. The method of claim 10, The press-in means is in contact with the inner surface of the wrinkle portion reinforcement for the membrane having a wrinkle portion, characterized in that formed by cutting a portion of the end portion of the reinforcing body to be elastically deformed. 11. The method of claim 10, Further comprising an extension extending outward from the bottom end of the reinforcing body, The press-in means has a coil wound around the extension portion and a pair of arms extending from the both ends of the coil portion toward the inner surface of the wrinkle portion so as to be elastically deformed in contact with the inner surface of the wrinkle portion Reinforcing material for membranes with parts. An insulating structural material having a flat surface; A membrane coupled to the flat surface of the insulating structural material and having a plurality of corrugations raised outwardly; A support portion disposed between the heat insulating structure member and the wrinkle portion, having a bottom portion having a flat outer surface to contact the heat insulating structure member, and a support portion having an outer surface corresponding to an inner surface of the wrinkle portion so as to contact the inner surface of the wrinkle portion; And a reinforcing member having a pipe-shaped reinforcing body formed of the closed curve. The method of claim 13, The reinforcing body has an insertion hole, Membrane assembly further comprising a fixing means coupled to the insulating structural member through the insertion hole to secure the reinforcing member to the insulating structural member. The method of claim 13, At the end of the wrinkle portion is formed a depression recessed toward the heat insulating structure, Membrane assembly, characterized in that the end of the reinforcing body is provided with a press-in means that is elastically deformed in contact with the inner surface of the recess so that the reinforcing body can be fixed to the inside of the pleats. In the construction method of the membrane assembly comprising a membrane having a corrugated portion, and the insulating structural material having a flat surface to which the membrane is bonded, a) disposing a reinforcement having a bottom portion having an outer surface corresponding to the surface of the insulating structural material and a support portion having an outer surface corresponding to the inner surface of the corrugated portion, between the inner surface of the corrugated portion and the surface of the insulating structural member; b) bonding the membrane to the surface of the insulating structural material such that the inner surface of the corrugation portion is in contact with the outer surface of the stiffener; The reinforcing member is a construction method of the membrane assembly, characterized in that the cross section has a pipe-shaped reinforcement body consisting of a closed curve. The method of claim 16, In the step a), the method of constructing a membrane assembly, wherein the reinforcing material is adhered to any one of an inner surface of the wrinkle part and a surface of the insulating structural material using an adhesive. The method of claim 16, In the step a), the method of constructing a membrane assembly, characterized in that to fix the reinforcement to the surface of the insulating structure by inserting a fixing means provided to protrude to the outside of any one of the insulating structure and the reinforcement to the other. . The method of claim 16 In the step a), the method of constructing a membrane assembly, wherein a part of the reinforcing material is elastically deformed by contacting the inner surface of the wrinkled part to press-fit the reinforcing material into the wrinkled part.

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