KR200233198Y1 - water proofing tube of an underground structures - Google Patents

Abstract

PURPOSE: The present invention provides a waterproof tube of an underground structure that enables backfilling after verifying the waterproof performance of the structure body when constructing an underground structure by an open construction method.

Composition: The waterproof tubes 5, 7, and 9 according to the present invention form a waterproof verification space 11, and the outer periphery thereof is attached to the inner plate 13 and the outer plate 15 of elastic material, and the inner plate 13 and the outer plate 15. Valves provided on the outer plate 15 to allow the injection and discharge of air and the injection of the waterproofing liquid into the plurality of gap retaining cores 17 and the waterproofing verification space 11 so as not to be spaced apart by more than a predetermined interval ( 25, the first and second attachment pieces 19 and 21 attaching the inner and outer plates 13 and 15 to the inner and outer plates 13 and 15, respectively.

EFFECT: The present invention is equipped with a waterproof verification space, so that the waterproof performance can be verified before refilling when constructing an underground structure by an open construction method. It can improve the durability and safety.

Description

Water proofing tube of an underground structures

The present invention relates to a waterproof tube of an underground structure for waterproofing underground structures, such as subway construction, underground parking garages, underpasses that connect between buildings, underground pumping stations, and underground structures that are installed by an open construction method.

In recent years, many underground structures have been constructed in major cities around the country for subway construction, underground parking lots, and underground passages connecting buildings. This underground structure requires waterproofing of the foundation floor, side walls and ceiling slabs in order to utilize the interior space suitable for its use.

The waterproofing performance of the underground structure depends not only on the durability and safety of the underground structure, but also on the cost of repairing the leak and the secondary repair derived from the leak.

Nevertheless, when constructing the underground structure constructed by the open method, after the waterproofing treatment for the underground structure, the underground structure is filled back as it is without any performance verification of the waterproof performance.

This is a systematic problem in which the waterproofing performance of underground structures cannot be verified before refilling due to the nature of the open construction method. However, the reliability of the waterproofing method is degraded. It increases the cost of repairing and lowers the durability of underground structures due to corrosion by groundwater containing a large amount of metal such as iron or manganese.

The present invention has been made in view of the above-mentioned problems. When constructing an underground structure by an open construction method, the waterproofing performance is verified after finishing construction to improve reliability of waterproofing and prevent defects in the underground structure. The purpose is to provide a waterproof tube of the underground structure to reduce the cost of repair and improve the durability and stability of the underground structure.

The purpose is to form an inner and outer plate of elastic material, the outer periphery of which is attached to each other so as to form a waterproof verification space therein;

A gap retaining shim connecting the inner plate and the outer plate to each other at various positions in the waterproof verification space so that the inner plate and the outer plate are not separated from each other by a predetermined interval or more

A valve provided in the outer plate to enable the injection and discharge of air and the injection of a waterproofing liquid such as an epoxy resin into the waterproofing verification space forming a plate by the gap retaining shim,

A first attachment piece for attaching the inner plate and the inner plate adjacent to each other,

Attached to the shell plate adjacent to the shell plate is achieved by a waterproof tube of an underground structure consisting of a second attachment piece forming another waterproof verification space between the shell plate and the adjacent shell plate.

The first attachment piece may be integrally formed on opposite sides of the inner plate, respectively. The first attachment piece may be integrally formed on the inner plate, and the second attachment piece may be integrally formed on the outer plate opposite to the first attachment piece, respectively. The second attachment piece may be integrally formed on opposite sides of the outer plate, respectively.

1 is a longitudinal sectional view of an underground structure to which a waterproof tube according to the present invention is applied.

FIG. 2 is a longitudinal sectional view of the first type of waterproof tube of FIG. 1. FIG.

3 is a longitudinal cross-sectional view of a second type of waterproof tube of FIG. 1;

4 is a longitudinal cross-sectional view of the third type of waterproof tube of FIG. 1.

5 is a longitudinal sectional view of a valve applied to the waterproof tube.

6 is a perspective view of an underground structure waterproofed by waterproof tubes of the first, second and third types.

7 is a plan view in an expanded state in which the first, second, and third types of waterproof tubes are connected.

8 is a longitudinal sectional view taken along the line A-A of FIG.

9 is a longitudinal cross-sectional view taken along line B-B of FIG. 7.

10 is a plan view in which the waterproof tube of another embodiment is opened.

FIG. 11 is a longitudinal cross-sectional view taken along the line C-C of FIG. 10.

* Description of the symbols for the main parts of the drawings *

5,7,9,43: waterproof tube 11,23: waterproof verification space

13: inner board 15: outer board

17: space | interval retaining shim 19: 1st attachment piece

21: second attachment piece 25: valve

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a longitudinal sectional view of an underground structure to which the waterproof tube according to the present invention is applied, and the structure body 3 installed on the foundation concrete 1 forms a configuration in which the waterproof tubes 5, 7, and 9 are wrapped. Such a structure is preferably formed so as to surround each layer when the structure body 3 forms a double layer underground. This waterproof tube (5, 7, 9) is basically configured to facilitate the waterproof construction of the structure body (3), as well as to verify the waterproof performance after the waterproof construction.

The foundation concrete 1 is formed by excavating the foundation of the structure body 3 to a solid ground and casting concrete directly on the ground, and should have sufficient rigidity to safely support the structure body 3 in the ground.

The structure body (3) to be built on the foundation concrete (1) may be composed of cast in place, but may be composed of precast concrete that can shorten the air because the factory is made of reinforced concrete and assembled in the field to build .

On the other hand, the waterproof tube (5,7,9) is installed on the base concrete (1) and has a waterproof verification space 11 inside it to be waterproof, so that the structure body (3) by the construction method to build a waterproof After treatment, the waterproof performance of the body 3 of the structure is verified and appropriate measures can be taken if water-resistant failure is identified before refilling.

2, 3 and 4 illustrate a waterproof tube 5, 7, 9 which makes it possible to take such measures. The waterproof tubes 5, 7, and 9 have a waterproof verification space 11 therein for allowing air to be injected and discharged or to inject a waterproofing liquid such as an epoxy resin. Its outer circumferential surface is formed by the elastic inner plate 13 and outer plate 15 attached to each other, the inner plate 13 and the outer plate 15 is connected in a structure that is not spaced apart by a predetermined interval by the gap retaining core 17 do. Thus, the waterproof tubes 5, 7, and 9 are formed of plate-shaped tubes having a constant thickness. This plate-shaped waterproof tube (5,7,9) enables multiple waterproofing processes such as application of the waterproof sheet and the waterproofing liquid in one process such as connection of the waterproof tube (5,7,9). 3) to facilitate the waterproofing process, and the waterproof verification space (11) injects compressed air after waterproofing to check the waterproofing performance, and in case of poor waterproofing, the waterproofing tubes (5, 7, and 9) can be replaced. To be.

The waterproof tube 5, 7, 9 has the same waterproof structure as the inner and outer plates 13, 15 side of the waterproof tube 5, 7, 9 even in the connection portion between adjacent waterproof tubes 5, 7, 9. To illustrate the three types, each having a different shape to form a.

The waterproof tube 5 of FIG. 2 is installed on the lower side of the structure main body 3 in FIG. 1, and illustrates that the first attachment piece 19 extends on both sides of the inner plate 13. These first attachment pieces 19, 19 are located on the structure body 3 side when connected to other types of waterproof tubes 7, 9. In other words, one side of the first attachment pieces 19 and 19 is attached to the outer wall of the structure main body 3, and the other side is attached to the inner plate 13 of the waterproof tubes 7 and 9, respectively.

The waterproof tube 7 of FIG. 3 is installed on the left and right sides of the structure main body 3 in FIG. 1, wherein the first attachment piece 19 is on one side of the inner plate 13, and the second attachment piece 21 is on the outer plate. It illustrates what was extended each other side of (15). When this waterproof tube 7 is connected to the same type of waterproof tube 7 and another type of waterproof tube 9, the first attachment piece 19 is on the side of the structure body 3, the second attachment piece ( 21 are respectively located on opposite sides of the structure body 3. That is, since the first attachment piece 19 is attached to the same structure as the waterproof tube 7 of FIG. 2 to perform the same function, detailed description thereof will be omitted, and the second attachment piece 21 may have another waterproof verification space ( 23 is formed and attached to the outer plate 15 of the adjacent waterproof tube 5, 7. This waterproof verification space 23 has the same waterproof effect as the inner and outer plates 13 and 15 with the waterproof verification space 11 at the side connection portions of the waterproof tubes 5, 7, and 9, respectively. will be.

The waterproof tube 9 of FIG. 4 is installed on the upper side of the structure main body 3 in FIG. 1, and illustrates that the second attachment piece 21 extends on both sides of the outer plate 15. These second attachment pieces 21, 21 are located opposite the structure body 3 when connected to other types of waterproof tubes 5, 7. That is, since the second attachment pieces 21 and 21 are attached in the same structure as the waterproof tube 7 of FIG. 3 and have the same function, detailed description thereof will be omitted.

The waterproof verification space 11 of the waterproof tube 5, 7, 9 and the other waterproof verification space 23 formed by the second attachment piece 21 are blown with compressed air for waterproof verification. After the performance is confirmed and taken out, the valve 25 which allows the waterproofing liquid to be injected again is provided in the outer plate 15 and the second attachment piece 21, respectively.

5 is an embodiment of such a valve 25, which is fixed to the outer plate 15 and the second attachment piece 21 forming the waterproof verification spaces 11 and 23 by inner and outer bolts 27 and 29. Since the rubber band 39 controls the opening and closing of the outer body 31 and the hole 37 inserted into the outer body 31 and fixed by the cap 33 and connected to the inner passage 35, air is injected. And an inner body 41 to enable discharge and injection of the waterproofing liquid. The valve 25 is not limited to this configuration, and various things can be used depending on the site situation where the underground structure is installed.

FIG. 6 illustrates an underground structure constructed on the foundation concrete 1 by waterproofing the structure body 3 using a waterproof tube 5, 7, 9 configured as described above. At this time, the waterproof tubes 5, 7, and 9 are interconnected with other waterproof tubes 5, 7, and 9 adjacent to each other, and the connection part also forms a waterproof verification space 23.

FIG. 7 is a plan view showing the connection of the waterproof tubes 5, 7, and 9, and FIGS. 8 and 9 are cross-sectional views and longitudinal cross-sectional views taken along the lines A-A and B-B of FIG. That is, the waterproof tubes 5, 7, and 9 form the waterproof verification space 11 by the inner and outer plates 13 and 15, and the other waterproof verification space 23 by the second attachment piece 21, respectively. Doing. The waterproof tubes 5, 7, and 9 forming the waterproof verification spaces 11 and 23 are connected in the same structure, which is repeated in left and right directions. In particular, FIG. 9 illustrates a portion where the waterproof verification space 23 is formed by the attachment piece 21. This waterproof verification space 23 makes it possible to check the waterproof performance of the connection portion of the waterproof tubes 5, 7, and 9.

FIG. 10 is a plan view of the waterproof tube 43 connected to another embodiment, and FIG. 11 is a cross-sectional view taken along line CC of FIG. 10, and its overall configuration is the same as that of the waterproof tube 5, 7, 9. Only the other parts are explained. That is, the waterproof tube (5, 7, 9), the first and second attachment pieces (19, 21) are integrally formed on the inner plate 13 or the outer plate 15, the waterproof tube 43 of the present embodiment There is a difference that the first and second attachment pieces 19 and 21 are formed independently of the inner plate 13 or the outer plate 15. Accordingly, the first attachment piece 19 is mutually attached to the inner plates 13, 13 adjacent to the structure body 3 side, and the second attachment piece 21 is adjacent to the outer plate 15 on the opposite side of the structure body 3. 15 is attached while forming the waterproof verification space 23.

Referring to the process of waterproofing the underground structure with a waterproof tube (5, 7, 9 or 43) is configured and connected as described above are as follows.

First, the ground surface of the position where the underground structure is to be built is attached to a predetermined depth, and the foundation concrete 1 is poured.

Before installing the structure main body 3 on the solidified foundation concrete 1, a waterproof tube 5 connected in the longitudinal direction of the structure main body 3 is first installed to waterproof the bottom of the structure main body 3. Connecting and installing the waterproof tube 5 as described above simplifies the waterproofing process for the bottom of the structure body 3.

The structure body 3 is installed on the waterproof tube 5 installed as described above. The structure body 3 may be constructed by site casting, but it is preferable that the structure body is constructed of a precast concrete structure manufactured in a factory to reduce work man-hours and reduce air.

In order to waterproof the side and the upper surface of the structure body 3, it is installed so as to completely surround the structure body (3) by continuously connecting the other type of waterproof tube (7, 9) to the waterproof tube (5). At this time, the waterproof tube (5, 7, 9) is in close contact with the outer surface of the structure body 3 by the inner plate (13).

On the other hand, the process of connecting the waterproof tube (5, 7, 9) can be divided into three processes, the first process is to attach the sides of the adjacent waterproof tube (5, 7, 9) adjacent to each other, The second is to attach the opposite side of the waterproof tube (5,7,9) adjacent to one side of the waterproof tube (5,7,9) on the structure body (3) side with the first attachment piece (19). 2 Attach the opposite side of the waterproof tube 5, 7, 9 to one side of the waterproof tube 5, 7, 9 from the opposite side of the structure body 3 while forming the waterproof verification space 23 with the attachment piece 21. It is.

In order to verify that the waterproof tubes 5, 7, and 9, which are connected and closely installed to the structure main body 3, have a waterproof performance with respect to the structure main body 3, the respective waterproof verifications are performed through the valve 25. Compressed air is injected into the spaces 11 and 23.

At this time, if the injected compressed air leaks, it is necessary to replace the waterproof tubes (5, 7, and 9) for the portion. Otherwise, the air is removed, the waterproof liquid is injected again into the waterproof verification space (11, 23), and then backfilled. do. It is desirable to use a mixture of air of a specific color to make it easier to see leaks of compressed air. The waterproofing liquid injected into the waterproofing tubes 5, 7, 9, together with the waterproofing tubes 5, 7, 9, improves the waterproofing performance of the structure body 3, and in particular, as the time progresses, the waterproofing tubes 5, 7, 9 Even when) is aged, the coagulated waterproofing liquid will continue to be waterproof.

As described above, the present invention is constructed as a structure that surrounds the structure body by continuously connecting a waterproof tube having a waterproof verification space therein, so that the waterproofing process is performed several times without any verification of the waterproof construction. Unlike the prior art of backfilling, not only waterproof construction is easy but also the waterproofing performance is verified beforehand to refill the underground structures, thereby improving the reliability of waterproof construction, and air injected into the waterproof verification space. By removing the water and reinjecting the waterproofing liquid, it is possible to maintain excellent waterproofing ability even if the waterproofing tube is damaged over time. Moreover, as the waterproofing liquid injected into the waterproofing verification space coagulates with the waterproofing tube, The waterproofing layer consists of the waterproofing ability to be further strengthened To bend.

Therefore, the present invention can prevent the occurrence of defects on the waterproofing of the structure body in advance, thereby reducing the cost of repairing the defect, and also improving the durability and safety of the structure body.

Claims (5)

In the waterproof tube having a waterproof verification space and connected continuously and close to the outer wall of the structure body by the mounting method to realize waterproofing, Elastic inner and outer plates that the outer periphery is attached to each other to form the waterproof verification space therein, A plurality of gap retaining shims that connect the inner plate and the outer plate to each other in the waterproof verification space so that the inner plate and the outer plate are not separated by a predetermined interval or more; The valve is provided in the outer plate to enable the injection and discharge of air and the injection of the waterproofing liquid into the waterproof verification space to form a plate by the gap retaining seam, A first attachment piece for attaching the inner plate adjacent to the inner plate, And a second attachment piece respectively attaching the outer plate adjacent to the outer plate. The waterproof tube according to claim 1, wherein the first attachment piece is integrally provided on opposite sides of the inner plate, respectively. The waterproof tube according to claim 1, wherein the second attachment piece is integrally provided on opposite sides of the outer plate, respectively. The waterproof tube according to claim 1, wherein the first attachment piece is integrally provided with the inner plate, and the second attachment piece is integrally provided with the outer plate opposite to the first attachment piece, respectively. The waterproof tube according to claim 1, wherein the second attachment piece forms another waterproof verification space at an attachment portion of the adjacent outer plate, and the valve is installed in the waterproof verification space.