KR101460101B1 - Waterproofing Method of Drain used in Concrete Tanks - Google Patents

Abstract

The purpose of the present invention is to provide a method for waterproofing a drainpipe passing through a concrete water tank, which can improve workability by making the waterproofing work very quickly and conveniently, can prevent the water leak by maintaining a perfect watertightness between the drainpipe and a waterproof sheet and, in particular, can easily waterproof the edge where the drainpipe and the waterproof sheet meet each other by easily waterproofing the drainpipe by fitting a waterproof barrel to the drainpipe, thermally fusing one end of the waterproof barrel with the waterproof sheet to seal the one end, and welding the other end of the waterproof barrel with the drainpipe to seal the other end. The method for waterproofing a drainpipe comprises: manufacturing a first waterproof barrel formed in a barrel shape to surround the outer circumferential surface of the drainpipe by using the same synthetic resin material as the waterproof sheet; manufacturing a second waterproof barrel formed in a barrel shape to surround the outer circumferential surface of the drainpipe subsequently to the first waterproof barrel by using the same metal material as the drainpipe; generating an integrated waterproof barrel by coupling the first and second waterproof barrels to each other; fitting the integrated waterproof barrel to the outer circumferential surface of the drainpipe; thermally fusing a contact portion between the waterproof sheet and the first waterproof barrel, which are made of the synthetic resin material, to fix them to each other, and welding an end of the second waterproof barrel made of the metal material with the drainpipe to fix them to each other so as to seal a gap between the second waterproof barrel and the drainpipe.

Description

{Waterproofing Method of Drain Used in Concrete Tanks}

The present invention relates to a waterproofing method of a water pipe passing through a concrete water tank, and more particularly, to a waterproofing method of a water pipe penetrating a concrete water tank, and more particularly to a waterproofing method of a waterproof sheet made of a PE (polyethylene) The present invention relates to a waterproofing method of a water pipe penetrating a concrete water tank that prevents water from leaking between water pipes.

Typically, a building or facility is equipped with a water tank for the supply of water resources. The water tank is constructed of FRP or concrete depending on the size and application, and the shape of the water tank may vary depending on the application and installation place, such as cylindrical or hexahedral shape, and may be located at the roof or under the roof of the building or facility.

The water tank is a simple structure, so there is no big problem in construction, but since water is always stored, consideration of leakage is the most important part of design. The most vulnerable part of the leak is the penetration of the water inlet pipe and drainage pipe, where the penetration of the drainage pipe is very vulnerable to leakage because it is always immersed in water except when checking or cleaning the water tank.

Especially, the concrete tank is finished with the waterproof sheet of PE resin material in the inner wall and the bottom. In this case, since the material of the drainage pipe and the waterproof sheet of the metal material installed through the concrete water tank are different from each other, Prevention is not perfect.

As a method for waterproofing between a drainage pipe made of a metal material and a waterproof sheet made of a PE resin, which are installed through a concrete water tank in this manner, the " water leakage prevention method in a penetration part of a water tank drain pipe " in Korean Patent No. 10-0339919 is known .

The above-mentioned patent discloses a method of manufacturing a water tank, comprising the steps of: installing a water pipe through a water pipe at an inner wall surface of a water tank, the water pipe being closed at its lower end with a PE panel; and tightly winding the inner portion of the water pipe, A step of covering the portion where the water pipe and the water pipe meet with the wall with the PE sheet; a step of fixing the portion covered with the PE sheet on the water pipe with two metal bands; And a step of joining a part of the water pipe to the wall.

However, in the water leakage prevention method of the water tank penetration prevention method as described above, the operator must tightly close the expansive rubber band on the outer circumferential surface of the drain pipe directly on the site, cover the PE sheet on the expansive rubber band and fix it with two metal bands , The work is very troublesome and the working time is long and the workability is poor.

In addition, if the work is not carried out slowly and slowly, there is a risk of leaking after construction, and skill is required. Especially, it is not easy to waterproof the corners where the water pipe and the waterproof sheet meet, there is a problem.

Also, since the PE sheet covered on the outer circumferential surface of the drain pipe is pressurized with two metal bands and adhered to the drain pipe, watertightness between the PE sheet and the drain pipe is maintained. Thus, the two parts fixed by the metal band are the PE sheet and the drain pipe The watertightness can be maintained by the adhesive force. However, the portion that is not pressed by the metal band has a weak adhesive force, so that the watertightness function gradually deteriorates, so that there is a problem that it is difficult to maintain perfect water tightness over the entire outer circumferential surface of the watertightness.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a waterproofing sheet of a PE (polyethylene) resin material for waterproofing the inner wall surface of a concrete water tank, In the waterproofing process to prevent water from leaking, a waterproof cylinder is inserted into a drain pipe, one end of the waterproof cylinder is sealed with a waterproof sheet by heat sealing, and the other end of the waterproof cylinder is sealed by welding with a drain pipe It is possible to improve the workability by making the operation of the water drainage pipe very fast and convenient and to prevent the water leakage due to the complete watertightness maintenance between the water pipe and the waterproof sheet and in particular to the corner where the water pipe and the waterproof sheet meet The present invention provides a waterproofing method for a water pipe through a concrete water tank which is easy to be waterproofed at a portion of the water pipe.

In order to accomplish the above object, the present invention provides a concrete water tank, comprising: a waterproof sheet made of a synthetic resin material installed on an inner wall surface of a concrete water tank; and a water tank made of a metal material installed through an inner wall surface of the concrete water tank, A step of manufacturing a first waterproofing cylinder formed in a tubular shape having a length that surrounds the outer circumferential surface of the water pipe from a wall surface of the water tub to a predetermined length in the same waterproofing material as the waterproof sheet in the waterproofing method of the water pipe; A second waterproofing cylinder formed in a tubular shape having a length that surrounds the outer circumferential surface of the water pipe in a predetermined length successively to the first waterproofing cylinder by using the same metal material as the water pipe; A coupling step of coupling one end of the first watertight tubular body and one end of the second watertight tubular body in a watertight manner to form an integral watertight cylinder; The first watertight tubular body made of a synthetic resin material is located on the inner wall surface side of the water tank and the end surface of the first watertight tubular material is inserted into the waterproof sheet provided on the inner wall surface so as to be in contact with the waterproof tubular body integrally formed in the coupling step Mounting process; And a contact portion between the waterproof sheet of the synthetic resin material and the first watertight tubular body is fixed by heat fusion and the end of the second watertight tubular body made of a metal is welded and fixed to the watertight pipe so as to seal the gap between the second watertight tub and the watertight pipe And a waterproofing method of a drain pipe through a concrete water tank including a sealing process.

The present invention further includes a double sealing step of covering a corner portion where the first watertight tubular body and the waterproof sheet meet with a sealing sheet made of the same synthetic resin as the watertight sheet and thermally fusing the sealing sheet to the first watertight tub and the waterproof sheet And the waterproofing method of the water pipe passing through the concrete water tank.

Further, the present invention is characterized in that, in the step of manufacturing the first watertight tubular body, an extension part is formed at the end of the first watertight tubular body which is in contact with the waterproof sheet to be thermally fused, Is characterized by the waterproofing method.

The present invention further includes a double sealing step of covering the extended portion of the first watertight tubular body and a part of the waterproof sheet with a sealing sheet made of the same synthetic resin as the waterproof sheet and thermally fusing the sealing sheet to the extended portion and the waterproof sheet It is characterized by the waterproofing method of the drain pipe penetrating the concrete water tank.

Further, the present invention is characterized in that, in the step of manufacturing the second watertight tubular body, a waterproofing method of a water pipe penetrating through a concrete water tank is formed at an opposite end portion of the watertight tubular body to be coupled with the first watertight tubular body, .

Further, the present invention is characterized in that, in the above-mentioned bonding step, the concrete water tank is formed by forming a flange portion at a connecting portion between the first watertight tubular body and the second watertight tubular body and fastening them with bolts and nuts, It is characterized by the waterproofing method of the drain pipe.

Further, the present invention is characterized by the waterproofing method of the water pipe passing through the concrete water tank formed by directly molding the second waterproofing cylinder made of metal at the time of injection molding of the first waterproofing cylinder made of synthetic resin.

Further, the present invention is characterized in that the joining step is a waterproofing method of passing a water pipe through a concrete water tank in which the outer circumferential surface of the second waterproof tubular body is press-fitted into the inner circumferential surface of the first waterproofing cylinder.

In the drain pipe waterproofing method of the present invention having such a characteristic process, a waterproof pipe integrating a first waterproofing cylinder made of synthetic resin and a second waterproofing cylinder made of metal is mounted on the outer circumferential surface of a drain pipe, The first waterproofing cylinder made of a synthetic resin material is sealed by heat sealing with the waterproofing sheet made of a synthetic resin material and the second waterproofing cylinder made of a metal is welded and sealed with a water drain pipe made of a metal material so that waterproofing work can be performed very quickly and conveniently, , The watertightness of the entire circumference of the water pipe can be maintained.

According to the present invention, an extension part is formed at the end of the first waterproofing cylinder to be thermally fused with the waterproof sheet to increase the heat fusion area with the waterproof sheet, and the extension part of the first waterproofing cylinder and the waterproof sheet are sealed with a sealing sheet It is possible to complete the waterproofing treatment by completely sealing the waterproof sealant by heat sealing. Thus, it is possible to prevent the leakage of water after the construction, and in particular, the waterproofing treatment at the corner portion where the water drain pipe and the waterproof sheet contact each other is easy.

FIGS. 1A to 1E are process drawings showing a waterproofing method of a drain pipe passing through a concrete water tank according to an embodiment of the present invention.
FIG. 2A and FIG. 2B are cross-sectional views illustrating a waterproofing method of a water pipe passing through a concrete water tank according to another embodiment of the present invention;
FIG. 3 and FIG. 4 are cross-sectional views illustrating a waterproofing method of a drain pipe penetrating a concrete water tank according to a modified example of the joining process in the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1A to 1E are cross-sectional views illustrating a waterproofing method of a water pipe passing through a concrete water tank according to a first embodiment of the present invention. The waterproof sheet S and the concrete waterproof sheet S, which are provided on the inner wall surface of the concrete water tank T, In order to perform waterproofing between the water pipes P which are made of metal and installed through the inner wall surface of the water tub T, first of all, as shown in FIG. 1A, The watertight tubular body 10 and the second watertight tubular body 20 are manufactured.

The first watertank sleeve (10) is made of the same material as the waterproof sheet (S). For example, the waterproof sheet S is usually made of a soft PE (polyethylene) resin, and the first waterproof cylinder 10 is also made of a PE resin so that the waterproof sheet S and the first So that the waterproof tubular body 10 can be fixed and sealed by heat fusion. The first watertight tubular body 10 is manufactured by injection-molding the outer peripheral surface of the water discharge pipe P into a cylindrical shape having a length enclosing a certain length from the inner wall surface of the water tank T.

The second watertight tubular body (20) is made of the same material as the drain pipe (P). For example, the water pipe P is usually made of a cast iron pipe or stainless steel. The second water pipe 20 is likewise made of a cast iron pipe or stainless steel so that the water pipe P and the second water pipe 20 can be fixed and sealed by welding. The second watertight tubular body 20 is formed in a tubular shape having a length that surrounds the outer circumferential surface of the watertight pipe P successively to the first watertight tubular body 10 and is formed by cutting a cast iron pipe or stainless pipe to a predetermined length Can be manufactured.

1B is a cross-sectional view showing a state in which the first waterproofing cylinder 10 and the second waterproofing cylinder 20 are connected to each other in the longitudinal direction so that one end of the first waterproofing cylinder 10 and the second waterproofing cylinder 20 ) Is watertightly connected to form an integral watertight cylinder.

1A and 1B, the flange portions 11 and 21 are respectively formed at the connecting portions of the first waterproofing cylinder 10 and the second waterproofing cylinder 20 in the manufacturing process And then the bolts 32 and the nuts 33 are fastened to the flanges 11 and 21 by inserting the holes 31 and the packing 31 therebetween. Therefore, watertightness can be maintained with respect to the coupling portion when the first watertank 10 and the second watertight tub 20 are connected, and the first watertight tub 10 and the second watertight tub 20, (30) surrounding the outer peripheral surface of the waterproof tube (P) is formed.

1C shows a mounting process in which the waterproof tubular body 30 integrally formed in the coupling process is fitted to the outer circumferential surface of the water pipe P. When the first waterproof tubular body 10 made of PE resin is inserted into the water tub T, And the end surface of the waterproof sheet S is fitted in contact with the waterproof sheet S provided on the inner wall surface. This makes it possible to cover the entire circumference of the water pipe P excluding the both ends of the water pipe at a watertight state by a simple operation of fitting the watertight cylinder 30 to the outer circumferential surface of the water pipe P. [

1D shows a sealing process of the water pipe P. The first waterproofing cylinder 10 and the second waterproofing cylinder 20 of different materials are connected to each other through a waterproofing cylinder 30, And seals between the water discharge pipe (P) and the waterproof sheet (S).

That is, the first waterproofing cylinder 10 made of a PE resin is thermally fused with the waterproof sheet S of the same material, and the second waterproofing cylinder 20 made of a metal is welded to the water pipe P of the same material for sealing For example, when hot air is applied to the first watertank sleeve 10 and the waterproof sheet S in a state where the contact portion of the first watertank sleeve 10 and the watertight sheet S is slightly spaced, both surfaces of the contact portion become molten, The waterproof sheet S of the same material and the first waterproof tubular body 10 are firmly and thermally fused integrally and fixed to the heat sealable portion a, The watertightness between them is maintained.

The second waterproofing cylinder 20 made of a metal is fixed to the first waterproofing cylinder 10 and the water pipe P by the welding portion c by welding the end of the second waterproofing cylinder 20 along the circumferential direction of the water pipe P having the same material. At the same time, the watertightness is maintained by sealing them.

In this manner, the integral watertight tubular body 30 is attached to the water pipe P, and one of the first watertight tubular bodies 10 is thermally fused with the same waterproof sheet S made of the same synthetic resin material and the other second watertight tubular body 20 can be quickly and conveniently sealed between the water discharge pipe (P) and the waterproof sheet (S) by welding with a water pipe (P) of the same metal material.

At this time, the second waterproofing cylinder 20 is preferably formed as an inclined portion 22 which is inclined so that an end portion of the second waterproofing cylinder 20 to be welded to the water discharge pipe P is close to the outer peripheral surface of the water discharge pipe P. That is, the inner diameter of the second watertank 20 is formed to be larger than the outer diameter of the water pipe P so that the second watertight cylinder 20 can be easily mounted. The end portion of the second watertight tube 20 is formed as an inclined portion 22, The second watertight cylinder 20 and the water discharge pipe P are welded to each other in the sealing process by the contact or the maximum proximity to the water P and the watertightness due to welding is good and the watertightness can be reliably maintained.

1E shows a double seal process for duplicating the seal between the waterproof sheet S and the first waterproof tubular body 10. The first waterproof sheet 10 is made of the same PE resin material as the waterproof sheet S and the first watertight tub 10 The sealing sheet 40 is positioned so as to cover the corner portion where the first watertank sleeve 10 and the waterproof sheet S meet, that is, the end portion of the first watertank sleeve 10 and a part of the waterproof sheet S, When the hot air is applied by the hot air in a state where the sheet 40 is slightly floated, the contact surface between the sealing sheet 40 and the waterproof sheet S and the first watertank 10 becomes molten, The sealing sheet 40 and the waterproof sheet S as well as the sealing sheet 40 and the first waterproof tubular body 10 are thermally fused together and fixed firmly as the melted portion is cured The watertightness between the waterproof sheet S and the first waterproofing cylinder 10 is maintained by the heat-sealed portion b, The can more reliably maintain a water-tight seal to function as a dual-heat-sealed portion (a, b).

The waterproof sheet S is manufactured by forming the first waterproofing cylinder 10 in the above-described embodiment. In the waterproofing method of the present invention, And the extended portion 12 is formed at the end of the first waterproof tubular body 10 which is brought into contact with the waterproof sheet 10 by thermal fusion to increase the contact area with the waterproof sheet S. The other processes are the same as those described with reference to Figs. This is the same as the above embodiment.

2A, the watertightness between the waterproof sheet S and the first watertight cylinder 10 is increased, so that the watertightness between them can be further improved. Further, The fixing force of the waterproof sheet S and the first waterproof tubular body 10 can be further increased.

FIG. 2B shows a double-sealing process for double-sealing the seal between the waterproof sheet S and the first watertight tub 10, and in the same manner as the above-described embodiment shown in FIG. 1E, The sealing sheet 40 is placed so as to cover the extended portion 12 of the first waterproof tubular body 10 and a part of the waterproof sheet S with the sealing sheet 40 made of the same PE resin material as the first waterproof tubular body 10, The contact surface of the sealing sheet 40, the waterproof sheet S and the extension portion 12 of the first watertank 10 becomes molten, and then the melted portion The sealing sheet 40 and the waterproof sheet S which are made of the same material and the extension sheet 12 of the sealing sheet 40 and the first waterproof tubular body 10 are integrally formed So that the watertightness between them is maintained by the heat-welded portion b1.

As a result, the watertightness between the waterproof sheet S and the first waterproof tubular body 10 can be doubly sealed as the heat-sealed portions a1 and b1, and watertightness performance can be more reliably maintained.

3 shows a modification of the coupling process in which the first waterproofing cylinder 10 and the second waterproofing cylinder 20 are connected in a watertight manner to form a single waterproofing cylinder 30 in the above- Is directly insert molded into the second waterproofing tubular body (20) made of a metal material during the injection molding of the first waterproofing cylinder (10) made of the PE resin material.

That is, the insert molding has a structure in which a second waterproofing cylinder 20 made of a metal is mounted in an injection mold, a molten resin for molding the first waterproofing cylinder 10 is injected into an injection mold and integrated with the second waterproofing cylinder 20 By the bonding process using the insert molding, the watertightness at the joining portion of the first watertank sleeve 10 and the second watertight tub 20 can be maintained, as well as a rigid coupling can be achieved. At this time, the concave and convex portions 23 are formed in the insert molding portion of the second waterproofing cylinder 20 to increase the coupling area of the first waterproofing cylinder 10 when insert-molding the first waterproofing cylinder 10, desirable.

4 shows another modification of the engaging process in which the first waterproofing cylinder 10 and the second waterproofing cylinder 20 are connected in a watertight manner to form a single waterproofing cylinder 30 in the above embodiment And the outer circumferential surface of the second waterproof tubular body 20 is press-fitted into the inner circumferential surface of the first watertight tub 10 to be integrated.

That is, the outer diameter dimension of the second waterproofing cylinder 20 is made slightly larger than the inner diameter dimension of the first waterproofing cylinder 10 so that the outer circumferential face of the second waterproofing cylinder 20 is formed on the inner circumferential face of the first waterproofing cylinder 10 The inner diameter of the first waterproof tubular body 10 is enlarged by the elasticity of the PE resin material and the first waterproof tubular body 10 is inserted with the contracting force of the first waterproof tubular body 10 by the enlarged diameter, And the press-fit portion of the second watertank 20 can be tightly coupled and watertight can be maintained therebetween.

At this time, it is preferable to form mountain-like or serrated irregularities 24 in the press-fit portion of the second water-proof tubular body 20 to further improve watertightness and bonding force.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative of the present invention and not to be construed as limiting the scope of the present invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: first watertight cylinder 11, 21: flange portion
12: extension part 22: inclined part
30: waterproof cylinder 40: sealing sheet
T: Water tank S: Waterproof sheet
P: Water pipe

Claims (8)

A waterproofing method of a water pipe penetrating a concrete water tank for waterproofing between a waterproof sheet made of a synthetic resin material provided on an inner wall surface of a concrete water tank and a water pipe made of a metal material installed through an inner wall surface of a concrete water tank,
A step of manufacturing a first watertight tubular body having a tubular shape having a length that encloses the outer circumferential surface of the water pipe from the wall surface in the water tank to the same length as a synthetic resin material of the waterproof sheet;
A second waterproofing cylinder formed in a tubular shape having a length that surrounds the outer circumferential surface of the water pipe in a predetermined length successively to the first waterproofing cylinder by using the same metal material as the water pipe;
A coupling step of coupling one end of the first watertight tubular body and one end of the second watertight tubular body in a watertight manner to form an integral watertight cylinder;
The first watertight tubular body made of a synthetic resin material is located on the inner wall surface side of the water tank and the end surface of the first watertight tubular material is inserted into the waterproof sheet provided on the inner wall surface so as to be in contact with the waterproof tubular body integrally formed in the coupling step Mounting process; And
And the second watertight tubular end of the metal material is welded to the watertight seal member and the first watertight tubular body by welding with a drain pipe so that a gap between the second watertight tub and the watertight pipe is sealed, wherein the waterproofing method comprises a step of sealing the concrete water tank. The method according to claim 1, further comprising a double sealing step of covering a corner portion where the first waterproofing cylinder and the waterproofing sheet meet with a sealing sheet made of the same synthetic resin as the waterproofing sheet and thermally fusing the sealing sheet to the first waterproofing cylinder and the waterproof sheet Wherein the watertightness of the water pipe passing through the concrete water tank is characterized by including the waterproofing method. The waterproof sheet as claimed in claim 1, wherein in the step of manufacturing the first watertight tubular body, an extended portion is formed at an end of the first watertight tubular body which is in contact with the waterproof sheet to be thermally fused to increase the contact area with the waterproof sheet Waterproofing method of a drain pipe through a water tank. The method according to claim 3, further comprising a double sealing step of covering the extended portion of the first watertight tubular body and a part of the waterproof sheet with a sealing sheet made of the same synthetic resin as the waterproof sheet and thermally fusing the sealing sheet to the extended portion and the waterproof sheet A waterproofing method of a water pipe passing through a concrete water tank. The concrete water tank according to claim 1, characterized in that, in the step of producing the second watertight tubular body, an inclined part inclined to approach the outer circumferential surface of the drain pipe is formed at the opposite end of the watertank, Waterproofing method of drain pipe. The method according to any one of claims 1 to 5, wherein the engaging step is performed by forming a flange portion at a connecting portion between the first watertank sleeve and the second watertight tubular body, Wherein the watertightness of the drainage pipe penetrates through the concrete water tank. The concrete water tank as claimed in any one of claims 1 to 5, wherein the joining step is performed by insert molding directly onto a second waterproof tubular body made of a metal material during injection molding of the first waterproof tubular material made of synthetic resin. Waterproofing method of drain pipe penetrating through. The concrete water tank according to any one of claims 1 to 5, wherein the joining step is performed by press-fitting the outer circumferential surface of the second watertight tubular body on the inner circumferential surface of the first watertight tubular body. Waterproofing method.

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