KR101336449B1 - Method for making waterproofing sheet integrated with concrete lining in tunnel and tunnel construction method - Google Patents

Abstract

A waterproof sheet constructed to be integrated with a concrete lining in a tunnel between a shotcrete layer of an inner wall of the tunnel and the concrete lining is disclosed. The waterproof sheet includes a synthetic resin sheet; a non-woven fabric intermittently connected to the upper part of the synthetic resin sheet by point or line welding; a fixed wing attached to the non-woven fabric to be fixed to a shotcrete lining by a nail driven to the shotcrete layer; and a non-woven fabric thin film formed on the outer surface of the synthetic resin sheet with a thickness thinner than the synthetic resin sheet to integrate the concrete lining and the waterproof sheet when the concrete lining is constructed.

Description

METHOD FOR MAKING WATERPROOFING SHEET INTEGRATED WITH CONCRETE LINING IN TUNNEL AND TUNNEL CONSTRUCTION METHOD}

The present invention relates to a waterproof sheet which is integrated with the concrete lining of the tunnel, and more specifically, to form a structure that is integral with the concrete lining of the waterproof sheet, to prevent damage to the waterproof sheet during construction and to the outer surface of the waterproof sheet A technique for reinforcing a concrete lining structure to be integrated.

Various methods such as NATM method and TBM method have been developed and applied to tunnels, and most of underground spaces including urban subway tunnels are being constructed by NATM method. Tunnel construction by NATM method forms tunnel hole through excavation and blasting work, and stabilizes and flattens tunnel excavation surface by pouring shotcrete for subsequent waterproofing work on excavation surface of tunnel hole, and from tunnel wall surface on shotcrete layer surface To prevent the infiltration of groundwater into the interior, it is waterproofed and then lining concrete is used to protect the tunnel walls.

The inner wall surface of the tunnel is provided with a first shotcrete layer and a waterproof sheet is installed on the outside of the shotcrete layer. After the waterproof sheet is installed, concrete lining is installed outside. Accordingly, the waterproof sheet is located between the shotcrete layer and the waterproof sheet. After the waterproof sheet is installed, concrete lining may be applied after reinforcing the reinforcing bars.

The waterproof sheet includes a synthetic resin sheet that substantially performs a waterproof function, and the nonwoven fabric is integrally coupled to the upper surface of the synthetic resin sheet. A plurality of fixed vanes are coupled to the upper surface of the nonwoven fabric. At this time, the fixed blade may be a non-woven fabric cut in advance to a narrow width. As the tableting nail penetrates the fixed wing and is embedded in the shotcrete layer, the waterproof sheet is fixed to the shotcrete layer on the inner wall surface of the tunnel. The outer surface of the waterproof sheet is a synthetic resin surface, and concrete lining is applied to the synthetic resin surface. The waterproof sheet prevents water from penetrating into the tunnel by the synthetic resin sheet and at the same time induces and drains the water introduced through the tunnel wall to the bottom along the nonwoven fabric. However, the prior art may damage the waterproof sheet when reinforcing the reinforcement after the concrete lining construction, and the sharp aggregate or sand compounded in the concrete may damage the waterproof sheet by the pressure of the pump car when the concrete lining is placed. It is customary to use pump cars for concrete lining and voids are inevitable due to dry shrinkage during curing of concrete. In particular, the arch crown area is more severely voided.

Therefore, the problem to be solved by the present invention is to combine the non-woven fabric with the waterproof sheet to form an outer surface to be integrated with the concrete lining, to provide a waterproof sheet that can strengthen the concrete lining structure.

According to one aspect of the invention, there is provided a waterproof sheet which is constructed to be integrated with the concrete lining of the tunnel between the shotcrete layer of the tunnel inner wall surface and the concrete lining. The waterproof sheet, synthetic resin sheet; Nonwoven fabric intermittently bonded and bonded to the upper surface of the synthetic resin sheet by point welding or pre-welding; A fixed blade attached to the nonwoven fabric to be fixed to the shotcrete lining by a tableting nail that is embedded in the shotcrete layer; In the construction of concrete lining, in order to integrate the concrete lining and the waterproof sheet, the outer surface of the synthetic resin sheet includes a non-woven thin film formed to be thinner than the thickness of the synthetic resin sheet.

According to an embodiment, the stretch ratio of the synthetic resin sheet on which the nonwoven thin film is formed is determined to be equal to the stretch ratio of the synthetic resin sheet before the formation of the nonwoven thin film.

According to one embodiment, the nonwoven thin film is formed by bonding to the outer surface of the synthetic resin sheet by hot air.

According to one embodiment, the nonwoven thin film is formed by bonding to the outer surface of the synthetic resin sheet by a special adhesive.

According to one embodiment, the synthetic resin sheet is very low density polyethylene (VLDPE) resin in ethylene vinyl acetate (EVA; Ethylene Vinyl Acetate) resin or linear low-density polyethylene (LLDPE) in ethylene vinyl acetate resin It is formed by molding a resin material mixed with an appropriate amount of polyethylene to a first thickness, the non-woven thin film is formed together with the thickness of the synthetic resin sheet is bonded to the concrete lining surface to strengthen the strength. The stretch rate of the synthetic resin sheet formed on the outer surface of the nonwoven fabric thin film is determined to be the same as the stretch rate of the synthetic resin sheet before forming the nonwoven fabric thin film, wherein the nonwoven thin film is bonded to the outer surface of the synthetic resin sheet by hot air or a special adhesive. do.

According to another aspect of the invention, the non-woven fabric bonded to the outer surface of the synthetic resin sheet to be constructed between the shotcrete layer of the inner wall of the tunnel and the concrete lining has a number of brushed, the production of a waterproof sheet to be constructed to be easily integrated with the concrete lining A method is provided. The manufacturing method of the waterproof sheet, the fixed wing is attached to the nonwoven fabric; Forming a nonwoven thin film on the outer surface of the synthetic sheet for integration with the concrete lining; The nonwoven fabric with the fixed wing is attached to the upper surface of the synthetic resin sheet on which the nonwoven fabric thin film is formed by bonding the point by fusion or pre-sealing to produce a waterproof sheet.

According to an embodiment, the stretch ratio of the synthetic resin sheet on which the nonwoven thin film is formed is determined to be the same as the stretch ratio of the synthetic resin sheet before formation of the nonwoven thin film.

According to one embodiment, hot air or a special adhesive is used to form the nonwoven thin film on the outer surface of the synthetic resin sheet.

According to the present invention, in a waterproof sheet comprising a non-woven fabric and a synthetic resin sheet with a fixed wing, by forming a non-woven thin film for integration with the concrete lining on the outer surface of the waterproof sheet, to integrate the waterproof sheet and the concrete lining structure In this way, it is possible to suppress cracking of the concrete lining or breakage of the waterproof sheet.

1 is a view schematically showing a cross section of a tunnel to which a waterproof sheet is applied,
2 is a perspective view showing a waterproof sheet according to the present invention,
3 is a cross-sectional view showing the waterproof sheet according to the present invention integrated with the concrete lining,
Figure 4 is a view for explaining a waterproof sheet manufacturing method according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided as examples to sufficiently convey the spirit of the present invention to those skilled in the art. Therefore, the present invention is not limited to the embodiments described below and may be embodied in other forms. In the drawings, the width, length, thickness, and the like of the components may be exaggerated for convenience.

1 is a view schematically showing a cross section of a tunnel to which a waterproof sheet is applied, and FIG. 2 is a perspective view showing a waterproof sheet according to the present invention, and FIG. 3 is a state in which the waterproof sheet according to the present invention is integrated with a concrete lining. It is sectional drawing.

Referring to FIG. 1, the shotcrete layer 2 is first formed on the inner wall surface of the tunnel. In addition, the waterproof sheet 1 is constructed on the outer surface of the shotcrete layer 2. A concrete lining 3 is constructed on the outer surface of the waterproof sheet 1 so that the waterproof sheet 1 is interposed between the shotcrete layer 2 and the concrete lining 3 of the tunnel.

As shown in Figures 2 and 3, the waterproof sheet 1 is coupled to the upper surface of the synthetic resin sheet 11 to perform a substantially waterproof function, and the synthetic resin sheet 11 to perform a buffer function and drainage induction function. Nonwoven fabric 12. In addition, the waterproof sheet 1 includes a fixed wing 13 of a nonwoven material coupled to the upper surface of the nonwoven fabric 12 in the longitudinal direction of the nonwoven fabric 12. The fixed wing 13 is provided to fix the waterproof sheet 1 to the shotcrete layer 2 with a tableting nail F without damaging the synthetic resin sheet 11 and the nonwoven fabric 12.

In addition, the waterproof sheet 1 includes a non-woven thin film 14 that is almost entirely bonded to the outer surface of the synthetic resin sheet 11 and integrated with the concrete lining 3 when constructing the concrete lining 3.

The synthetic resin sheet 11 is a very low density polyethylene (VLDPE) resin in ethylene vinyl acetate (EVA; Ethylene Vinyl Acetate) resin or a linear low-density polyethylene (LLDPE) in ethylene vinyl acetate resin It is preferable to form the mixed resin material into a sheet having a thickness of approximately 1 mm. The synthetic resin sheet 11 basically satisfies KS F 4911 and has a standard tensile strength required by the customer, and has sufficient elongation to be installed with flexibility with respect to the curved surface of the shotcrete layer 2. In addition, the synthetic resin sheet 11 has sufficient impact resistance.

The nonwoven fabric 12 is intermittently bonded and bonded to the upper surface of the synthetic resin sheet 11 by a plurality of fusion (W). The welding portion (W) may be a tack welding portion as shown, alternatively, may be a pre-fusion portion. Since the nonwoven fabric 12 is intermittently bonded and bonded to the upper surface of the composite sheet 11 by the fusion portions W, despite the bonding of the nonwoven fabric 12, the synthetic resin sheet 11 There is virtually no decrease in elongation.

The nonwoven fabric 12 should have a permeability coefficient to be able to have a sufficient drainage induction capacity and to perform a sufficient cushioning function.

Nonwoven fabric fixed wing 12 is coupled to one side edge area is sewn or fused (preferably, line fusion) to the upper surface of the synthetic resin sheet (11). In the present embodiment, the fixed blade 13 is coupled by sewing, so that the sewing line 121 connecting the fixed blade 13 and the synthetic resin sheet 11 is one side edge area of the fixed blade 13 Is formed. When the waterproof sheet 1 is constructed, the fixed nail 13 is loosened so that the fixed blade 13 can cope with the overhang of the shotcrete layer 2 of the tunnel, and the tableting nail F penetrating the fixed blade 13 is the shotcrete layer 2. ), The waterproof sheet 1 is fixed to the shotcrete layer 2.

When sewing is used to engage the stator blades 13, the stitching needle 13 is attached to the nonwoven fabric 12 before the fusion splicing between the nonwoven fabric 12 and the synthetic resin sheet 11 so that the sewing needle is made of the synthetic resin sheet 11. ) Can be prevented from being damaged, that is, the fixed blade 13 is attached to the nonwoven fabric 12 in advance, and then the nonwoven fabric 12 to which the fixed blade 12 is attached is attached to the upper surface of the synthetic sheet 11. Intermittent fusion is good.

On the other hand, the nonwoven fabric thin film 14 is formed to be bonded to the outer surface of the synthetic resin sheet 11 to a thickness thin enough not to lower the elongation of the synthetic resin sheet (11).

As shown in FIG. 3, the nonwoven thin film 14 has a plurality of nonwoven fibers in a raised form to facilitate integration with the concrete lining 3. Many of the nonwoven fabrics in the form of this brush can maximize the adhesion to the concrete to strengthen the tension of the concrete to minimize the occurrence of cracks. When the nonwoven fabric thin film 14 is formed by attaching a large number of brushed nonwoven fabric to the outer surface of the synthetic resin sheet 11 with hot air or a special adhesive, the nonwoven fabric thin film 14 affects the quality of the synthetic sheet 11 and the like. Do not give. In addition, after the lining concrete is poured, the protruding fibers of the nonwoven thin film 14, i.e., brushed up, are reliably formed by the reaction heat of the concrete itself (i.e., about 60 to 90 DEG C generated by curing after the concrete is poured). Integrated, it is possible to further strengthen the concrete lining 2.

The stretch ratio of the synthetic resin sheet 11 having the nonwoven fabric thin film 14 is preferably the same as that of the synthetic resin sheet 11 to which the nonwoven thin film is not attached. That is, since the nonwoven fabric thin film 14 needs only surface properties excellent in adhesion to the concrete lining 3 on the outer surface of the synthetic resin sheet 11, the nonwoven fabric thin film 14 is formed on the upper portion of the synthetic resin sheet 11 that requires drainage induction. Unlike the nonwoven fabric 12, no large thickness is required.

The nonwoven fabric thin film 14 is surface bonded to the outer surface of the synthetic resin sheet 11 by hot air or a special adhesive to be integrated. At one edge of the outer surface of the synthetic resin sheet 11, there is a blank area in which the nonwoven fabric 14 is not present, and this blank area is formed of a synthetic resin sheet adjacent to each other when the waterproof sheets are connected by edges. 11) provided to allow bonding between them.

The above-described point fusion or pre-fusion of the nonwoven fabric 12 is performed with respect to the upper surface of the synthetic resin sheet 11 in which the nonwoven fabric thin film 14 is bonded to the sheet.

The manufacturing method of the above-described waterproof sheet 1 will be described with reference to FIG. 4 together with FIGS. 2 and 3 as follows.

 As previously described, a suitable amount of linear low-density polyethylene (LLDPE) is applied to ethylene vinyl acetate (EVA) resin or very low density polyethylene (VLDPE) resin. The mixed resin is formed by molding into a sheet form.

Next, the non-woven film 14 is formed on the outer surface of the synthetic resin sheet 11 to a thickness thinner than the thickness of the synthetic resin sheet 11 (A2). At this time, the thickness of the nonwoven fabric thin film 14 is determined such that the stretch ratio of the synthetic resin sheet 11 formed on the outer surface of the nonwoven fabric thin film 14 is the same as that of the synthetic resin sheet 11 before forming the nonwoven fabric thin film 14. . For forming the nonwoven fabric thin film 14, it is preferable to use hot air bonding of the nonwoven fabric thin film 14 to the outer surface of the synthetic resin sheet 11 or a special adhesive.

Apart from the preparation of the synthetic resin sheet 11 and the formation of the nonwoven fabric thin film 14, the fixed blade 13 is coupled to the nonwoven fabric 12 (B). The fixed blade 13 is coupled to the nonwoven fabric 12 by sewing or fusion. When using a coupling method by sewing, while supplying the fixed blade 13 and the nonwoven fabric 12 to the sewing machine while adjusting the feed rate, the control of the feed rate can be made by a stagnation machine.

Next, the nonwoven fabric 12 having the fixed blade 13 coupled to the upper surface of the synthetic resin sheet 11 having the nonwoven fabric thin film 14 formed on the outer surface is bonded by point welding or pre-welding (C).

2: shotcrete layer 3: concrete lining
1: waterproof sheet 11: synthetic resin sheet
12: nonwoven fabric 13: fixed wing
14: nonwoven thin film

Claims (11)

A waterproof sheet constructed to be integrated with the concrete lining of the tunnel between the shotcrete layer on the inner wall of the tunnel and the concrete lining,
Synthetic resin sheet;
Nonwoven fabric intermittently bonded and bonded to the upper surface of the synthetic resin sheet by point welding or pre-welding;
A fixed blade attached to the nonwoven fabric so as to be fixed to the shotcrete lining by a tableting nail impregnated in the shotcrete layer; And
When constructing concrete lining, in order to integrate the concrete lining and the waterproof sheet, the outer surface of the synthetic resin sheet includes a non-woven thin film formed to a thickness less than the thickness of the synthetic resin sheet,
One side edge of the outer surface of the synthetic resin sheet has a blank area exposed to the synthetic resin sheet without the non-woven thin film for bonding with another synthetic resin sheet, the non-woven thin film is entirely on the outer surface of the synthetic resin sheet except the blank area Waterproof sheet, characterized in that formed. The waterproof sheet according to claim 1, wherein the stretch ratio of the synthetic resin sheet on which the nonwoven thin film is formed is equal to or higher than the stretch ratio of the synthetic resin sheet before formation of the nonwoven thin film.  The waterproof sheet according to claim 1 or 2, wherein the nonwoven fabric thin film is bonded to the outer surface of the synthetic resin sheet by hot air, and includes a plurality of brushed surfaces on the surface integrated with the concrete lining. The waterproof sheet according to claim 1 or 2, wherein the nonwoven fabric thin film is bonded to an outer surface of the synthetic resin sheet by a special adhesive, and includes a plurality of brushed surfaces on the surface integrated with the concrete lining. The method according to claim 1 or 2, wherein the synthetic resin sheet is a very low density polyethylene (VLDPE) resin or linear low-density polyethylene (LLDPE) resin in the ethylene vinyl acetate (EVA; Ethylene Vinyl Acetate) resin The nonwoven fabric thin film is formed by molding a mixed material to a first thickness, and the nonwoven fabric thin film is formed to have a thickness thinner than the thickness of the synthetic resin sheet, and the elongation of the synthetic resin sheet having the nonwoven fabric thin film formed on the outer surface of the synthetic resin sheet before forming the nonwoven fabric thin film. It is determined to be the same as the elongation rate, wherein the non-woven thin film is waterproof sheet, characterized in that formed by bonding to the outer surface of the synthetic resin sheet by hot air or special adhesive. As a method of manufacturing a waterproof sheet constructed to be integrated with the concrete lining of the tunnel between the shotcrete layer on the inner wall surface of the tunnel and the concrete lining,
Attaching the stator blades to the nonwoven fabric,
Forming a non-woven thin film on the outer surface of the synthetic sheet for integration with the concrete lining,
Bonding the nonwoven fabric with the stator blade to the upper surface of the synthetic resin sheet on which the nonwoven fabric thin film is formed by point welding or line welding,
The forming of the nonwoven fabric thin film may include forming the nonwoven thin film on the entire outer surface of the synthetic resin sheet except for the blank region, leaving one edge of the outer surface of the synthetic resin sheet as a blank area for bonding with another synthetic resin sheet. Method of manufacturing a waterproof sheet integrated with concrete lining. The method of manufacturing a waterproof sheet integrated with a concrete lining according to claim 6, wherein the stretch ratio of the synthetic resin sheet on which the nonwoven thin film is formed is equal to or higher than the stretch ratio of the synthetic resin sheet before forming the nonwoven thin film.  The method according to claim 6 or 7, wherein a hot air or a special adhesive is used to form the nonwoven thin film on the outer surface of the synthetic resin sheet, the nonwoven thin film is characterized in that it comprises a plurality of brushed on the surface integrated with the concrete lining Method of manufacturing a waterproof sheet integrated with the concrete lining. Forming a tunnel hole; Forming a shotcrete layer on the inner wall surface of the tunnel hole; Installing a waterproof sheet including a synthetic resin sheet, a nonwoven fabric, and a nonwoven film on the shotcrete layer; A concrete lining is formed on the outer surface side of the waterproof sheet, and a fixed wing fixed to the shotcrete layer is attached to the nonwoven fabric by a tableting nail, and the nonwoven thin film is formed toward the concrete lining to form the concrete lining. The nonwoven thin film is integrally combined with a lining, and the nonwoven thin film is formed to have a thickness smaller than the thickness of the synthetic resin sheet, and the non-woven thin film has an empty area at one side edge of the outer surface of the synthetic resin sheet, and the waterproof sheet is another waterproof. When connecting to the sheet construction, the tunnel construction method characterized in that the joint of the edge of the synthetic resin sheet in which the blank area exists with the edge of the other synthetic resin sheet. The tunnel construction method of claim 9, wherein the nonwoven thin film includes a plurality of brushed surfaces on the surface integrated with the concrete lining. delete

Images