KR100529195B1 - Elasticized waterproofing sheet and waterproofing structure of tunnel using the same - Google Patents

Abstract

The present invention relates to a waterproof sheet used for waterproof construction, and more particularly, by installing an elastic rod fixed to the waterproof sheet formed with a waterproof layer on one surface of the nonwoven fabric, which can be particularly useful in tunnel construction. It relates to a waterproof sheet.

The present invention is basically a non-woven fabric having a sheet shape to have a predetermined width and length; and an elastic rod installed along the longitudinal direction on the upper surface of the nonwoven fabric as a length member having an elastic; And, an impermeable waterproof layer formed to cover the upper surface of the elastic rod and the nonwoven fabric.

In addition, the present invention is a tunnel waterproof structure, the shotcrete layer formed on the excavation surface of the tunnel; and the elastic waterproof sheet of the present invention having the configuration as described above is installed so that the longitudinal direction along the inner circumferential surface of the shotcrete layer, the elastic waterproof The sheet is an induction waterproof layer formed on top of the shotcrete layer by jointing several sheets along the longitudinal direction of the tunnel; And a lining concrete layer formed on top of the induction waterproofing layer.

Description

Elastic waterproof sheet and waterproofing structure of tunnel using the same}

The present invention relates to a waterproof sheet used for waterproof construction, and more particularly, by installing an elastic rod fixed to the waterproof sheet formed with a waterproof layer on one surface of the nonwoven fabric, which can be particularly useful in tunnel construction. It relates to a waterproof sheet.

A tunnel is a tunnel with a substantial internal cross section formed by drilling holes in a mountain, underground, or cutlery for the purpose of transportation, water transportation, etc. In recent years, the construction of urban tunnels that penetrate underground spaces of the city has been increasing as the construction of subways has increased in order to distribute road traffic on the ground.

As a construction method of such a tunnel, various methods have been developed and applied from the prior art, and most of the development of underground spaces including subway tunnels in urban areas is currently constructed by NATM method. Referring to FIG. 1, when the tunnel is constructed by the NATM method, the construction of the tunnel is performed by using an excavation device at the site where the tunnel is to be constructed. Form a tunnel ball through. As the excavated surface E of the tunnel formed as described above is extremely curved and not suitable for undertaking subsequent waterproofing work, shotcrete S is sprayed to stabilize the tunnel excavated surface E and smooth the waterproof base surface. After installation, waterproof layer is installed to prevent the infiltration of groundwater into the tunnel. It is made by laying lining concrete (L), a concrete reinforcement wall that protects the tunnel inner wall.

On the other hand, it is essential to perform waterproof construction to prevent moisture from penetrating the inside of the structure, such as the tunnel, in contact with moisture, and in particular, the importance of such waterproofing is emphasized in the case of the tunnel in constant contact with the groundwater. In general, the waterproof construction inside the tunnel is installed by fixing the non-woven fabric (F) to the upper portion of the shotcrete (S), and laminated the waterproof sheet (W) on the upper portion of the non-woven fabric (F) is the non-woven fabric ( It is carried out in an inductive waterproofing manner, which flows downward along the F) to be discharged through the drain pipe D installed in parallel with the tunnel. In other words, if the amount of water flowing from the outside is large, such as a tunnel, a waterproof layer is formed on the outside of the tunnel structure to direct the incoming water to one place rather than directly blocking the inflow of water from the outside, and drain the water pipe (D). By using the drainage method to reduce the risk of leakage due to damage to the waterproof layer.

On the other hand, in the formation of the induction waterproof layer as described above, when seeing the conventional general method of fixing the non-woven fabric (F) and the waterproof sheet (W), first to install the non-woven fabric (F) on the upper portion of the shotcrete (S) surface The nonwoven is fixed by tableting the nails at regular intervals (usually in a lattice arrangement) on the nonwoven. At this time, in order to fix the waterproof sheet to be installed on the upper portion of the nonwoven fabric, a member, usually called RANDEL (R), is installed together by a nail. The upper portion of the nonwoven fabric F installed as above is, for example, an ECB (Ethylene Copolymer Bitumen) sheet. The water-permeable waterproof sheet W is padded and heat bonded to the landel R to form a waterproof layer.

Here, Landel is a disk-shaped member for fixing the waterproof sheet installed on the upper part. The material is made of the same or similar material as that of the waterproof sheet. It is a kind of fastening member for heat-sealing waterproof sheet.

However, the conventional method as described above is made by a method of thermal fusion of the Randell (R) and the waterproof sheet (W) installed at a predetermined interval on the nonwoven fabric (F), when the non-woven fabric is burned when excessive heat is applied. There is a risk that there is a problem that it is difficult to install a solid construction of the builder because the connection with the Randelle is not visible, and furthermore, there is a problem that the work is cumbersome because the construction of the non-woven fabric and the waterproof sheet is made of a separate process.

Therefore, in order to solve the above problems, the waterproof sheet is integrated and attached to one surface of the nonwoven fabric and a waterproof sheet that can be fixed without using Landel has been developed and used.The nonwoven fabric integrated waterproof sheet is a Korean Patent Application No. 2002-0019378 It can be confirmed in a call etc.

However, the conventional waterproof sheet including the non-woven fabric integrated waterproof sheet is intended to be fixed to the inner surface of the tunnel and other structures because the material is to have flexibility, because of the flexibility of the sheet does not maintain a certain form due to the installation work There has been inconvenience. In other words, in order to install the nonwoven fabric and the waterproof sheet according to the conventional method, at least two or more workers should be arranged to support one or more workers so that the nonwoven fabric does not sag down, and another worker should perform the tableting operation of the nail. I did.

Therefore, the above-described method is very cumbersome and requires a lot of effort, and not only the work efficiency is lowered, but also a large number of workforces are put into the work efficiency and economics. In addition, when installing the ceiling part, it is necessary to perform the upward work. According to the conventional method, the inconvenience of the work is further increased, which makes it difficult to install the nonwoven fabric and the waterproof sheet moreover. There was a risk of a safety accident such as a fall.

Accordingly, the present inventors have repeatedly studied to recognize and solve the problems in the conventional tunnel waterproofing construction as described above. By providing elasticity to the waterproof sheet, the elastic waterproof sheet can be easily and immediately installed on a structure such as a tunnel. Was developed.

The present invention has been made to solve the problems of the prior art as described above, the present invention is an elastic rod that can be easily fixed to a structure such as a tunnel by providing elasticity by placing an elastic rod on a waterproof sheet is formed on one surface of the nonwoven fabric It is a technical object of the present invention to provide a waterproof sheet and a tunnel waterproof structure using the same.

In order to achieve the above technical problem, the present invention is characterized in that the elastic rod, which is a length member having elasticity along its longitudinal direction, is integrally fixed to a normal waterproof sheet having an impervious waterproof layer laminated on an upper surface of the nonwoven fabric. An elastic waterproof sheet is provided.

In addition, the present invention is a tunnel waterproof structure, the shotcrete layer formed on the excavation surface of the tunnel; and the elastic waterproof sheet of the present invention having the configuration as described above to be installed so that the longitudinal direction is upright, but the elastic waterproof sheet has several sheets An induction waterproof layer formed on the shotcrete layer by jointing along the length direction of the tunnel; And a lining concrete layer formed on top of the induction waterproofing layer.

That is, the elastic waterproof sheet of the present invention in the waterproof sheet formed with a waterproof layer on one side of the nonwoven fabric elastically the entire waterproof sheet by integrally configuring the elastic rod which is a length member having elasticity along the longitudinal direction of the sheet between the nonwoven fabric and the waterproof layer. When installing and installing the water-resistant sheet in close proximity to the inner circumferential surface of the tunnel just by releasing the water-resistant sheet from the roll due to the elasticity of the waterproof sheet is implemented to enable easy installation without additional fixing work.

Hereinafter, with reference to the accompanying drawings will be described in more detail the configuration and effect of the present invention by the preferred embodiment according to the present invention. At this time, the same components having the same function in each drawing used the same name and the same reference numerals.

Figure 2a and Figure 2b is a perspective view showing the configuration of a preferred embodiment of the present invention, respectively, referring to the drawings, the elastic waterproof sheet according to the present invention is one surface of the nonwoven fabric 10 of the sheet shape to have a predetermined width and length It can be seen that the water-permeable waterproof layer 20 is laminated on and the elastic rod 30 is fixedly installed thereon.

First, the nonwoven fabric 10 is formed into a sheet to form a bottom of the elastic waterproof sheet 1 of the present invention to have a predetermined width and length. The nonwoven fabric 10 is installed to be located on the outer ground side of the tunnel during the construction of the elastic waterproof sheet 1 of the present invention serves as an induction path of the influent in the induction waterproof system of the tunnel. That is, as is well known, a nonwoven fabric is a fabric fabric in which a myriad of unit fiber filaments are entangled with each other without having a certain direction, and the fiber structure is not completely dense, but rather a space is formed between the unit fiber yarns. It is to guide the water flowing into the tunnel through the water pipe installed in the lower part of the tunnel.

The waterproof layer 20 is laminated on the upper surface of the nonwoven fabric 10. The waterproof layer 20 serves as a layer made of an impermeable material to block leakage and prevents water absorbed by the nonwoven fabric 10 from penetrating into the tunnel inner wall through lining concrete.

Such waterproofing materials include various types of waterproofing materials currently used in waterproofing construction, for example, liquid waterproofing materials such as polyurethane, polyurea, epoxy, molten asphalt and sheet types such as ECB sheets, EPDM sheets, and EVA sheets. Waterproofing materials and the like can all be used. The present invention proposes polyurethane as the liquid waterproofing material and EVA (Ethylene Vinyl Acetate) sheet as the sheet waterproofing material.

That is, as described in detail later, the present invention provides a joint structure formed by filling a liquid waterproofing material between waterproof sheets installed side by side to be spaced apart from each other as a joint structure of the adjacent elastic waterproof sheet 1. In such a joint structure, the material of the waterproof layer 20 is required to be well bonded with the liquid waterproof material to be filled. In addition, as the material of the liquid waterproof material, it is most preferable to use polyurea in terms of construction convenience and waterproof performance. As a waterproof material having good adhesion to the polyurea, polyurea, polyurethane, and EVA sheet are used. Can be mentioned. Among them, polyurea is the same material as the liquid waterproofing material filled in the gap between the joints, so it is the most adhesive material, but it is very expensive compared to other waterproofing materials, so it is used for a large area such as tunnel walls. It is not suitable as a material. Therefore, the material of the waterproof layer 20 is most preferably made of polyurethane or EVA sheet.

The elastic rod 30 is integrally fixed to the waterproof sheet composed of the nonwoven fabric 10 and the waterproof layer 20 as described above. The elastic rod 30 is a length member having elasticity, which is the most characteristic component in the present invention for imparting elasticity to the entire elastic waterproof sheet 1 of the present invention.

The elastic rod 30 is processed into an elongated rod shape so that it can be fixed by embedding or other methods by the waterproof layer 20, for example, using a small diameter wire as shown in FIGS. 2A and 2B. can do. In addition, the elastic rod 30 is made of an elastic material having a predetermined elasticity, and such elastic materials include conventional synthetic resin, FRP (Fiber Reinforced Plastic), CFRP (Carbon Fiber Reinforced Plastic), carbon fiber and aramid fiber, etc. Can be used. Among these, the present invention proposes an elastic rod made of FRP and aramid fibers as the most preferable elastic material in consideration of the elastic ability, processability and economic efficiency of the material.

In addition, the elastic rod 30 is installed along the longitudinal direction of the nonwoven fabric 10 and the waterproof layer 20 is integrally formed along the longitudinal direction of at least one or more to impart elasticity to the elastic waterproof sheet 1 of the present invention. An elastic rod 30 is needed. In this embodiment, as shown in Figures 2a and 2b has a configuration in which two copies of each one is installed near each end of the nonwoven fabric 10, it is easy to handle during construction and the waterproof sheet The shape of is well maintained and has the advantage of more advantageous in terms of workability. However, if the width of the manufactured waterproof sheet is considerably wide, it may be desirable to additionally arrange one or more elastic rods at both ends as well as the central portion of the waterproof sheet.

In consideration of the fact that the elastic waterproof sheet of the present invention having the above configuration is mainly used in a relatively large area, such as tunnel construction, a larger dimension than a conventional waterproof sheet, for example, a roll of 2.0 m in width x 200 m in length It is preferable that the factory is manufactured in a form so as to be easily carried in to the construction site, stored and installed. In addition, in order to determine the length of the product to be used in order to fit the inner circumference of the tunnel to be constructed will be able to maximize the construction efficiency because no additional cutting work is required during construction.

In addition, when the product is manufactured in a roll shape as described above, the waterproof sheet forms a gentle arc due to the elastic force to restore it to a curled state in construction when it is released. As compared with the case of constructing the waterproof sheet in a flat state, In constructing a circular structure such as this has the advantage that the installation work becomes easier.

Next, the manufacturing method of the elastic waterproof sheet according to the present invention will be described.

First, in the case of using a polyurethane coating waterproofing material as the waterproofing layer, for example, as shown in Fig. 3a, the elastic rod 30 is placed on the upper surface to convey the temporarily bonded nonwoven fabric 10 by a conveying means such as a conveyor or a conveying roller. In this case, a hopper M1 containing liquid polyurethane is disposed at the upper portion of the line where the nonwoven fabric 10 is transferred, and the polyurethane liquid is discharged to the upper portion of the nonwoven fabric 10 through an outlet provided at the lower portion thereof. The waterproof layer 20 is formed on the upper surface of the nonwoven fabric 10 with the elastic rod 30 embedded therein. After the polyurethane coating process, the surface is flattened by a flat roller (M2) or the like, and then cut to an appropriate size, thereby completing a rolled product as shown in FIG. 2A.

In addition, when using a sheet-like waterproofing material such as EVA sheet, it can be produced by the method of heat fusion. For example, as shown in FIG. 3B, the EVA sheets as the nonwoven fabric 10, the elastic rod 30, and the waterproof layer 20 are laminated, and then passed through the heated pair of rollers M3 to each other by a heating and pressing process. After being integrally bonded, it may be manufactured by a cooling process using a cooler M4 or the like, and through such a process, a product as shown in FIG. 2A may be obtained.

Alternatively, as shown in FIG. 3C, a nonwoven fabric-integrated waterproof sheet 1a having a waterproof layer 20 formed on an upper surface of the nonwoven fabric 10 may be manufactured. In this case, as shown, the elastic rods 30 are disposed on the upper surface of the waterproof layer 20 and the heating roller is covered with the elastic rod 30 by the strip 20a made of the same material as the waterproof layer 20. It is manufactured by passing between M3, and through such a process, a product as shown in Fig. 2B can be obtained.

Next, a method of constructing an elastic waterproof sheet according to the present invention and a tunnel waterproof structure applied to the tunnel waterproof construction will be described with reference to FIGS. 4 and 5.

In order to install the elastic waterproof sheet 1 according to the present invention on the tunnel wall, it is first cut to a predetermined length to fit the inner circumferential length of the shotcrete surface 200 cast on the tunnel wall and then the cut elastic waterproof sheet 1 is cut. Initiate fixing to tunnel walls. In the construction of the elastic waterproof sheet of the present invention, a method different from the construction of a conventional waterproof sheet is used. That is, while one end of the elastic waterproof sheet cut to a predetermined length is fixed to the lower portion of the tunnel wall, the operator grasps the other end and moves to the opposite tunnel wall, wherein the elastic waterproof sheet of the present invention is embedded in Elasticity is given by the elastic rod, which causes the waterproof sheet to be arched without sagging upwards. In this state, the worker fixes the other end of the waterproof sheet to the lower part of the tunnel, whereby the elastic waterproof sheet of the present invention is installed.

At this time, as a method of fixing the waterproof sheet, it is also possible to fix using a nail or the like in the lower part of the tunnel. As shown in FIG. If you install along and insert the elastic waterproof sheet 1 here, the installation work will be more efficient.

On the other hand, the elastic waterproof sheet of the present invention is a unit sheet material having a certain width and length bar, when using it to be installed on the surface of the structure, such as a tunnel, it must be used by connecting a plurality of sheets to each other. As a method of constructing the connection part between such sheets, a method in which one side of the waterproof sheet is overlapped by a predetermined width to the periphery of the other waterproof sheet adjacently arranged as is commonly used as a connection method of the conventional waterproof sheet, and mutually bonded by heat fusion This can be applied. However, in this case, the non-woven fabric is integrally attached to the bottom of the waterproof sheet of the present invention, and the non-woven fabric and the waterproofing material are in contact with each other, so that the bonding is not performed well, and external moisture penetrates through the nonwoven fabric. There is a risk of causing it.

Therefore, the present invention proposes an improved structure as follows as a connection structure in the waterproof structure using the elastic waterproof sheet of the present invention. Specifically, as shown in FIG. 5, the adjacent elastic waterproof sheets 1 are disposed to be spaced apart from each other at regular intervals, and the liquid waterproof member 50 is filled by filling the liquid waterproof member 50 between the waterproof sheets. By adjacent adjacent waterproof sheets are to be integrated with each other.

Adopting the connection structure as described above, it is possible to process the connection in a much simpler way compared to the conventional jointing method, and can also expect a tight connection processing because it is used by the filling method of the liquid liquid of the flowable liquid. Rather, there is an advantage that you can immediately check the construction status of the connection with the naked eye. Furthermore, in the connection structure as described above, since the flow of water introduced from the ground by the hardened liquid waterproofing material is limited within the range of each waterproofing sheet, it is easy to find the defective part even if a leak occurs due to breakage of the waterproofing layer. Will appear.

As the material of the liquid waterproofing material may be used in general, such as polyurethane or epoxy, but in the present invention, it is most preferable to spray construction using polyurea. That is, in the case of tunnel waterproof construction, unlike the usual waterproof construction, the waterproof construction is mainly performed on the wall and ceiling rather than the floor surface. In the case of liquid waterproofing materials such as polyurethane, it takes a considerable time from curing to hardening. There is a risk that the liquid waterproofing material flows down and the connection waterproofing becomes poor.

On the other hand, the polyurea waterproofing material is very suitable as a waterproofing material in a closed environment such as a tunnel because the time from application to curing is very short as few seconds and there is no influence of environmental pollution and temperature. The construction of the polyurea waterproofing material is preferably sprayed, and sprayed along the connection portion between the waterproof sheets 1 as shown in FIG. 5, the waterproofing material is hardened while filling the gaps between the waterproof sheets and is very easily connected. Is done.

When the waterproof construction using the elastic waterproof sheet is made as described above, the process of pouring the lining concrete 300, which is a subsequent process, is carried out, and the single-layer structure of the tunnel waterproofing made by the above process can be confirmed in FIG. That is, the tunnel waterproof structure according to the present invention as shown in the drawing is a shotcrete layer 200 formed on the excavation surface of the tunnel and the induction waterproof layer 100 and the induction waterproof layer 100 formed on the shotcrete layer 200 It is configured to include a lining concrete 300 formed on the top of the), the induction waterproof layer 100 is made by using a plurality of elastic waterproof sheet described above as another aspect of the present invention.

In addition, the elastic waterproof sheet constituting the induction waterproof layer 100 as a preferred configuration of the tunnel waterproof structure according to the present invention is installed so as to have a predetermined distance between the elastic waterproof sheets 1 disposed adjacent to each other as shown in FIG. The connection between the elastic waterproof sheets by filling the liquid waterproof member 50 is as described above.

Here, it is preferable that the elastic waterproof sheet is constructed in a factory, and the nonwoven fabric, the elastic rod and the waterproof layer are integrally carried in the construction site, but in contrast, the factory manufactures a product having only the elastic rod attached to the nonwoven fabric and imports it to the site. The formation of may also be carried out directly in the field, in which case it will also be understood that it does not depart from the scope of the invention. For example, a method of importing and installing only a nonwoven fabric having an elastic rod attached thereto, and installing a randel in the same manner as the conventional method, and then heat-sealing the waterproof sheet may also correspond to this feature. Since the technical configuration is included as it is, it will fall within the scope of the technical idea of the present invention.

In the above, the present invention has been described in detail only by the embodiments described, but the present invention is not limited to the above-described embodiments, and should be understood by those skilled in the art to which the present invention pertains within the scope of the technical idea of the present invention. Many variations and modifications will be possible. In particular, the present invention has been described in order to solve the problem of the motive was developed in the conventional tunnel waterproofing construction to solve this problem in detail that is also carried out in the tunnel waterproofing construction in mind that other structures other than the tunnel For example, a general building structure, drain pipes or underground joints can be easily dedicated to various fields, such embodiments are also within the scope of the technical idea of the present invention, the scope of the invention defined by the appended claims It should be understood to belong to.

According to the present invention described in detail above, by providing an elastic waterproof sheet is provided by the elastic rod elasticity waterproofing work by fixing only the both ends of the waterproof sheet without fixing the separate waterproof sheet as in the conventional tunnel waterproofing construction You can easily complete the effect.

In addition, the present invention provides a method of using a liquid waterproofing material, such as polyurea as a connection structure between the adjacent elastic waterproof sheet, according to this, to obtain a reliable connection structure by a simpler method in the construction of the connection portion of the waterproof sheet When it is applied to the construction of the elastic waterproof sheet of the present invention, the effect can be more easily completed the waterproof construction.

1 is a view showing a conventional tunnel waterproof structure.

2A and 2B are perspective views illustrating the configuration of preferred embodiments according to the present invention.

Figure 3a to 3c is a view showing a simplified manufacturing process of the elastic waterproof sheet of the present invention.

4 is a view showing a tunnel waterproof structure of the present invention.

Figure 5 is a plan view and a partial cross-sectional view of the joint between the elastic waterproof sheet in the tunnel waterproof structure of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: elastic waterproof sheet 10: nonwoven fabric

20: waterproof layer 30: elastic rod

50: liquid waterproofing material 100: induction waterproofing layer

200: shotcrete layer 300: lining concrete

400: fixed member

M1: Hopper M2: Flat Roller

M3: heating roller M4: cooler

Claims (7)

In the normal waterproof sheet in which an impermeable waterproof layer is laminated on the upper surface of the nonwoven fabric, The waterproof sheet is integrally laid with an elastic rod which is a length member having elasticity along its longitudinal direction, The elastic rod is an elastic waterproof sheet, characterized in that each installed near the both ends of the nonwoven fabric. The elastic rod of claim 1, wherein the elastic rod is made of fiber reinforced plastic (FRP) or aramid fibers. The elastic waterproof sheet of claim 1 or 2, wherein the waterproof layer is polyurethane or EVA. As a tunnel waterproof structure, A shotcrete layer formed on the excavation surface of the tunnel; The elastic waterproof sheet of any one of claims 1 to 3 is installed so that its longitudinal direction is upward, but the elastic waterproof sheet is formed on the shotcrete layer by connecting several sheets along the longitudinal direction of the tunnel. Induction waterproofing layer; And, Lining concrete formed on top of the induction waterproof layer; Tunnel waterproof structure using an elastic waterproof sheet configured to include. According to claim 4, wherein the elastic waterproof sheet is installed so that the adjacent elastic waterproof sheets having a predetermined distance from each other, the gap between the elastic waterproof sheet is connected by filling the liquid waterproofing material, characterized in that using the elastic waterproof sheet Tunnel waterproof structure. The material of the liquid waterproofing material in a tunnel waterproof structure using an elastic waterproof sheet, characterized in that the polyurea resin. delete