KR101384738B1 - Waterproofing method for precast tunnel structure - Google Patents

Abstract

A waterproofing method for a precast tunnel structure is disclosed. In a precast tunnel structure using divided segments, the divided segments are easily connected by using connecting bolts and connecting nuts in connecting recesses at a ceiling and a longitudinal coupling part to secure joining performance, and waterproof performance in coupling parts of a precast tunnel structure coupled to each other can be ensured through primary, secondary, and tertiary waterproofing methods using asphalt sheets, calking materials, and water stops according to waterproofing positions. [Reference numerals] (AA) Longitudinal coupling part; (BB) Ceiling coupling part

Description

WATERPROOFING METHOD FOR PRECAST TUNNEL STRUCTURE}

The present invention relates to a waterproofing method of a precast tunnel structure. More specifically, the present invention relates to a waterproofing method of a precast tunnel structure in which a tunnel structure is constructed by continuously connecting segments segmented to a foundation structure.

1A and 1B illustrate a perspective view of a tunnel structure and a fixing means constructed by fixing a conventional segment to each other.

That is, as shown in FIG. 1A, the first and second segments 11 and 12 (segmented arch members) are arcuate, so that earth pressure, hydraulic pressure, and traffic load acting from the outside are axial in the first and second segments 11 and 12. Since it acts as a compressive force, economical cross-sectional design is possible by making the most of the high compressive strength of concrete.

This arcuate structure has almost no cracks due to the nature of the concrete supporting the compressive force, so that the maintenance of the structure is easy, and the base structures 31 and 32 are installed on the base structures 31 and 32 to interconnect and fix the plurality of first segments 11 adjacent to each other. And fixing means for interconnecting and fixing the plurality of second segments 12 adjacent to each other.

The fixing means fixes the plurality of first segments 11 adjacent to each other and fixes the plurality of second segments 12 adjacent to each other.

Each of the fixing means 50 is a reinforcing bar (51a, 51b) (52a, 52b) is arranged so that a part protrudes to the outer edge of the end of each of the first and second segments 11, 12, as shown in Figure 1b, On the upper surface of the boundary between the first segment 11 and the second segment 12

Separating block 55 to be seated, and concrete (53) (54), and the concrete (53) (54) and the separation block (poured) so that each reinforcing bar (51a, 51b) (52a, 52b) is laid The waterproof film 56 is applied to the outer surface of the 55, and the waterproof protective film 57 is applied to the surface of the waterproof film 56.

The separation block 55 employs a material such as styrofoam so that the poured concrete 53 and 54 are separated from each other, so that the sediment blocks 55 are filled on the outer circumferential surface of the first and second segments 11 and 12 to be constructed. In the process, the connecting portion of the first and second segments 11 and 12 may be hinged.

However, only the waterproof membrane 56 and the waterproof protective membrane 57 have a lot of room for improvement, such as the fact that there is a limit to the waterproofing of the actual tunnel structure.

Accordingly, the present invention has a technical problem to solve the precast tunnel structure waterproofing method which is more advantageous and more economical to maintenance by having a more reliable waterproof performance in the ceiling and longitudinal coupling portion of the segment segment of the precast tunnel structure.

In order to achieve the above object,

In the precast tunnel structure using segmented segments, waterproofing the precast tunnel structure by easily connecting the segmented segments using connecting bolts and connecting nuts in the connecting grooves of the ceiling and longitudinal coupling parts to secure the jointing performance. To ensure performance by default,

By using asphalt sheet, caulking material, and water-expandable index material, the joints of precast tunnel structures joined to each other, that is, to ensure more reliable waterproof performance through the 1,2,3 waterproof means depending on the waterproof position.

According to the present invention, in the method of waterproofing the precast tunnel structure, it is possible to sufficiently install the necessary connection bolts in the connection grooves formed in the ceiling and the longitudinal coupling part, thereby sufficiently securing the bonding performance of the segmented segments, thereby securing the waterproofing performance. While making it possible, by applying a rational waterproof means according to the waterproof portion of the tunnel structure, it becomes possible to more efficiently and economically waterproof the precast tunnel structure.

Thus, it is possible to secure enough durability in the precast tunnel structure, and to prevent the outflow or cavitation of the outer ground of the tunnel structure penetrating into the leaking area, and thus it is possible to maintain the backfill and stabilization of the surrounding fill layer. It is possible to provide a comfortable tunnel structure that is advantageous for the driver's safety accident prevention and maintenance.

1a and 1b is a construction of the arch structure using a conventional segmented segment,
Figures 2a and 2b is a perspective view of the segmented segment and the connecting means according to the first embodiment of the present invention,
3A and 3B are perspective views of a segmented segment and a connecting means according to Embodiment 2 of the present invention;
4A and 4B are perspective views of a segmented segment and a connecting means according to Embodiment 3 of the present invention;
5 is a construction flowchart of the precast tunnel structure according to the present invention;
6A, 6B, 6C and 6D are construction diagrams of waterproof methods of the precast tunnel structure according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

The present invention is to ensure the waterproof performance of the tunnel structure by the method of more closely contacting the coupling portion of the segmented segment as described above, look at the connecting means of the segmented segment through Examples 1, 2, 3 Let's see.

That is, in the ceiling and longitudinal coupling of the present invention, the segmented segments are connected by using the connecting means according to the embodiments 1,2 and 3 according to FIGS. 2, 3 and 4. For example, the connecting means according to the embodiments 1,2 or 3 is used for the ceiling coupling of the segmented segment, and the connecting means according to the embodiment 1,2 and the second embodiment used for the longitudinal coupling also the ceiling coupling. Just do it. Of course, combinations of Embodiment 1 for ceiling coupling and Embodiment 2 or 3 for longitudinal coupling are also possible.

[Connecting means of segmented segment for securing waterproof performance of tunnel structure (Example 1)]

2A and 2B show perspective views of the segmented segments 110 and 120 and the connecting means 200 according to the first embodiment of the present invention.

That is, as shown in FIG. 2A, it can be seen that the connection grooves S are formed in the conventionally segmented segments 110 and 120, and the connection grooves S are formed in the longitudinal coupling part in addition to the ceiling and the ceiling of the segmented segments 110 and 120. It can be seen that a plurality is formed so that the connection grooves communicate with each other, and the segments 110 and 120 segmented by the connection means 200 in the connected connection grooves are coupled to each other.

Segmented segments 110 and 120 are arcuate or semi-circular segments which are ceiling-coupled in a connecting groove S in which two left and right sides are laterally communicated with each other, and the segmented segments 110 and 120 are set to be in contact with each other in the longitudinal direction. It can be seen that the longitudinal coupling in the connected connecting groove of the segment other than the ceiling.

At this time, in the ceiling and longitudinal coupling, the connecting means 200 is such that the vertical connecting plate 210 having the fastening hole 211 is formed adjacent to each other in the connecting connection groove, but the vertical connecting plate 210 is vertically The lower portion is embedded in the segment 110, 120 is segmented and the upper portion is set to protrude into the connecting groove (S).

On the lower rear surface of the vertical connection plate 210, the vertical support plate 230 is formed to extend horizontally spaced apart from each other. This vertical support plate 230 is arranged to be embedded in the segmented segments 110 and 120 as well.

At this time, a plurality of support reinforcement 240 is formed on the side of the vertical support plate 230 so that the connecting means 200 is fixed to the segment segment is extended in the horizontal direction.

Accordingly, the support reinforcement 240 and the vertical support plate 230 are embedded in the segmented segments 110 and 120 so that the upper portion of the vertical connection plate 210 fixed to the vertical support plate 230 is exposed to the connection groove S so that the connection bolt ( 250) to be coupled to each other.

The worker inserts the fastening hole 211 formed in the vertical connection plate 210 adjacent to each other in the connecting groove 250 in the connection groove (S) and the connecting bolt 250 by the connection nut 260 vertical connection plate (210) It can be seen that the ceiling and longitudinal coupling of the segment (110, 120) segmented by fastening.

At this time, the ceiling coupling of the segmented segment (110, 120) is the vertical connecting plate 210 is in contact with each other in the transverse direction in the ceiling as shown in Figure 2a and 2b and the longitudinal width (d1) of the vertical connecting plate 210 is Slightly larger than the longitudinal width (d2), so as to sufficiently secure the transverse width (d3) of the coupling groove to insert the connecting bolt 250 in the coupling groove to be inserted into the fastening hole 22 of the vertical connecting plate. do.

It is preferable to use a double-end connection method (using a plurality of connecting bolts) by minimizing the width of the connecting groove in the lateral width d3 and installing a plurality of connecting bolts in the case of the longitudinal width d1. Do.

Also, the longitudinal coupling of the segmented segments 110 and 120 is also perpendicular to each other in the longitudinal coupling portion 210 in the longitudinal coupling portion as shown in FIGS. 2A and 2B and also the longitudinal width d1 of the vertical coupling plate 210. ) Is slightly larger than the longitudinal width (d2) of the connecting groove, and the connecting bolt 250 is also inserted into the connecting groove in the longitudinal width of the connecting groove to insert into the fastening hole (211) of the vertical connecting plate (2) d3) is sufficiently secured.

In addition, the lateral width (d3) of the connecting groove is minimized, and in the case of the longitudinal width (d1) to be able to install a plurality of connecting bolts to use a double-stage connection method (using a plurality of connecting bolts). desirable.

It can be seen from Example 1 that the segmented segments eventually bolted to each other, which allows the segmented segments to be hinged to each other but with a type of rotating spring (semi-hinge) connected.

That is, the bolt connection as in the present invention has the advantage of allowing the segmented segments to be securely coupled to each other while allowing rotation at the ceiling and longitudinal coupling sites of the segmented segments.

Connecting means of segmented segment for securing waterproof performance of tunnel structure (Example 2)

3A and 3B show another configuration perspective view of the segmented segments 110, 120 and connecting means 200 of the present invention.

That is, it can be seen that the segmented segments 110 and 120 are also formed in the connection grooves S as shown in FIG. 3A, and the plurality of connection grooves are formed in longitudinal coupling portions other than the ceiling and the ceiling of the segmented segments 110 and 120. It is formed so that the connection grooves are in communication with each other so that the segments 110, 120 segmented by the connection means 200 in the communication connection grooves are coupled to each other.

Segmented segments 110 and 120 are also arcuate or semi-circular segments, the left and right of which are two ceilings coupled to each other in the connecting groove S of the ceiling, and the segmented segments 110 and 120 are set to be in contact with each other in the longitudinal direction. It can be seen that even in the connecting connecting groove of the segment segment facing in the direction.

At this time, the connecting means 200 in the ceiling coupling as shown in Figures 3a and 3b is the end vertical support plate 220 is exposed to the inner surface (S1) of the connecting groove (S) in communication with the lower connection groove (S) It can be seen that it is formed to be buried in the lower portion. It can be seen that the upper portion is formed so as to be exposed to the connection groove.

As a result, it can be seen that the end vertical support plates 220 are spaced apart from each other and are disposed to face each other in the transverse direction. The support reinforcement 240 extends horizontally on the rear surface of the end vertical support plates 220. It can be seen that the end vertical support plate 220 is extended to the rear side.

In this case, it can be seen that the two vertical connection plates 210 having fastening holes 211 are formed on the front surfaces of the both ends of the vertical support plate 220 so that the ends overlap each other at the central portion of the connection groove.

The fastening holes 211 of the vertical connecting plate 210 overlapped with each other are communicated in the longitudinal direction, so that it can be seen that two connecting bolts 250 can be installed one by one in the longitudinal direction using the connecting nut 260. have.

That is, in the second embodiment, it can be seen that the connecting grooves connect the segments segmented by the two connecting bolts 250 to each other, and the connecting bolts can be inserted and fastened in the longitudinal direction at the center of the connected connecting grooves. More reliable double-ended connection method (using two connecting bolts) as well as securing enough bonding performance when the connecting grooves of the same size by 2a are used. It can be seen that the space of the groove can be used more efficiently (using the space of the connected connecting groove).

Furthermore, in the longitudinal coupling as shown in FIGS. 3A and 3B, the connecting means 200 is also exposed in the connecting groove S, which is connected to the inner end surface S1 of the end vertical support plate 220, so that the lower portion is also the connecting groove ( S) It can be seen that it is formed to be buried in the lower portion and the upper portion is exposed.

It can be seen that the end vertical support plate 220 in the connecting groove (S) communicated with each other are spaced apart from each other in the longitudinal direction and the support reinforcement 240 extends horizontally on the rear surface of the end vertical support plate 220. It can be seen that the end vertical support plate 220 is extended to the rear side.

At this time, it can be seen that the vertical connection plate 210, which is formed with the fastening hole 211, is also extended on each of the two ends of the vertical support plate 220 and the ends overlap each other.

The fastening holes 211 of the vertical connecting plate 210 overlapped with each other are communicated in the horizontal direction so that it can be seen that two connecting bolts 250 can be installed one by one in the horizontal direction using the connecting nut 260. have.

It can also be seen that the segments segmented by the two connecting bolts 250 can be connected to each other and can be fastened by inserting the connecting bolts in the transverse direction at the center of the connected connecting grooves of the same size as shown in FIG. More reliable double-ended connection method (using two connecting bolts) as a reference for connecting grooves, which not only ensures sufficient joining performance, but also makes space for connecting grooves more efficient by inserting connecting bolts into the connecting grooves in the transverse direction. It can be seen that it can be used (using the space of the connecting groove connected).

As a result, it can be seen that the connection bolt according to the second embodiment of the present invention uses the internal space of the connection groove more effectively than the first embodiment, and also sufficiently secures the jointing performance of the segmented segment.

[Section 3] Connecting means of segmented segment for securing waterproof performance of tunnel structure

4A and 4B show another configuration perspective view of the segmented segments 110, 120 and connecting means 200 of the present invention.

That is, it can be seen that the segmented segments 110 and 120 are also formed in the connecting grooves S as shown in FIG. 4A, and the plurality of connecting grooves are formed in the longitudinal coupling portion in addition to the ceiling and the ceiling of the segmented segments 110 and 120. The connection grooves are communicated with each other so that the segments 110 and 120 segmented by the connection means 200 in the connected connection grooves are coupled to each other.

The segment 110, 120 is also an arcuate or semi-circular segment, the left and the right of the two are ceiling-coupled in the connecting groove of the ceiling and each other, the segmented segment (110, 120) is set in contact with each other in the longitudinal direction in the longitudinal direction It is also longitudinally coupled to the communicating connecting grooves of the segmented segments that are in contact.

At this time, the connecting means 200 in the ceiling coupling as shown in Figures 4a and 4b is to be arranged vertically adjacent to each other laterally adjacent to the vertical connecting plate 210 formed with a fastening hole 211 in the connecting groove, the vertical The connecting plate 210 is installed vertically, but the lower part is embedded in the segment 110, 120 is segmented and the upper part is set to protrude into the connecting groove.

A support reinforcement 240 is formed on the lower rear surface of the vertical connecting plate 210 so as to be secured to the segmented segment.

In addition, both sides of the vertical connection plate 210 is set to contact the backing plate 270 is also formed with a fastening hole 271,

Inserting the connecting bolt 250 in the longitudinal direction into the coupling hole 271 of the backing plate 270 and the vertical connecting plate 210 to fasten the vertical connecting plate 210 by using the connecting nut 260. Eventually, the segmented segments 110 and 120 are combined.

That is, even in the connecting groove according to the third embodiment, it can be seen that the segments segmented by the two connecting bolts 250 can be connected to each other. It can be seen that the double-sided connection method (using two connection bolts) can be more reliably used based on the connection grooves of the same size shown in FIG. 2A.

Furthermore, in the longitudinal coupling as shown in FIGS. 4A and 4B, the connecting means 200 is also installed in the vertically connected connecting groove so that the vertical connecting plate 210 is in contact with the longitudinal direction, but in the segment 110 having the lower portion thereof. It is embedded and set so that the upper part protrudes into the connecting groove.

A support reinforcement 240 is also formed on the lower rear surface of the vertical connecting plate 210 so as to be secured to the segmented segment.

In addition, both sides of the vertical connection plate 210 is set to contact the backing plate 270 is also formed with a fastening hole 271,

Inserting the connecting bolt 250 in the transverse direction into the fastening hole 271 of the backing plate 270 and the vertical connecting plate 210 to fasten the vertical connecting plate 210 by using the connecting nut 260. Eventually, the segmented segment 110 is longitudinally coupled.

Also in the longitudinal coupling, it can be seen that the segments segmented by the two connecting bolts 250 can be connected to each other. It can be seen that the double-stage connection method (using two connecting bolts) can be used more reliably based on the same size of the connecting groove.

Next, as described above, in addition to the method of more closely connecting the joint of the segmented segment, the present invention provides a waterproofing means in the joint of the segmented segment.

[Waterproof part of precast tunnel structure]

Figure 5 shows the construction completion of the precast tunnel structure.

That is, the coupling parts formed on the ceiling of the segmented segments 110 and 120 can secure the basic waterproofing performance by being closely adhered to each other by the above-described connecting means. However, soil or water may penetrate into the gap between the joint surfaces of the segmented segments. It becomes possible.

In addition, the longitudinal coupling portions of the segmented segments 110 and 120 may also be in close contact with each other by the connecting means to secure basic waterproofing performance, but may allow soil or water to penetrate into the gap between the joint surfaces of the segmented segments.

To this end, the present invention by applying the first, second, third waterproof means to enable a more reliable waterproof of the precast tunnel structure and look at it as follows.

At this time, the waterproof part of the precast tunnel structure is the outer circumferential surface of the segmented segment, the adjacent surface of the segmented segment without the connection groove S, the adjacent surface of the segmented segment with the connection groove S, and its drainage treatment Based on).

[Waterproofing method of precast tunnel structure]

Figure 6a shows the primary waterproof means of the precast tunnel structure. The primary waterproof means is a method of applying the entire outer peripheral surface of the segmented segment (110,120) constituting the precast tunnel structure to the asphalt sheet 410, and attaching a sheet protective material 420 to the upper surface of the asphalt sheet 410. .

The asphalt sheet 410 is formed on the outer circumferential surfaces of the segments 110 and 120 in which the sheet is attached to the back surface of the waterproof sheet (polyethylene-based hard or soft sheet) in a state in which the asphalt is heated and melted with a propane gas burner (torch burner). How to unfold and paste.

Such an improved asphalt sheet has the same size of the reinforcing nonwoven fabric sheet as the asphalt sheet and is thermally fused to one side of the asphalt sheet. The other side of the asphalt sheet is in the form of a roll and has a release paper for preventing adhesion to each other.

The sheet protective material 420 forms a waterproofing layer by applying a primer (a kind of adhesive) to the asphalt sheet 410 from which the backing paper is removed to form an adhesive layer, and then applying an inorganic elastic coating waterproofing agent to the upper surface of the adhesive layer at least once. It is formed in such a way that the thickness is usually formed to about 30mm.

The primary waterproof means of such a precast tunnel structure is to cover the entire outer circumferential surface of the segmented segment is the most basic waterproof means.

Figure 6b is a waterproof method (secondary waterproof means) in particular for the joints of the segment (110, 120) segmented, the water-expandable index (430) on the adjacent surfaces where the coupling groove is not formed in these joints Along the installation, the caulking material 440 is installed on the upper surface of the adjacent surface, and the asphalt sheet 410a described above is installed on the upper surface of the adjacent surface.

That is, the upper surface of the coupling part is waterproof by attaching the asphalt sheet 410a, and after further attaching the asphalt sheet 410 to the upper surface of the asphalt sheet 410a, a sheet protective material on the upper surface of the additionally attached asphalt sheet 410 420 is a construction method.

Figure 6c is a waterproofing method (third waterproofing means) for the coupling portion, that is, the ceiling and the longitudinal coupling portion of the segment 110, 120 in particular, these coupling portions are formed because the connecting groove (S) should be closed .

Accordingly, the water-expandable index member 430 is installed along the adjacent surfaces on the adjacent surfaces of the segments, and the caulking material 440 is installed on the upper surfaces of the segments, and the connection groove S is finished with non-contraction mortar M. In addition, the asphalt sheet 410 described above is installed on the upper surface of the adjacent surface.

In addition, after the asphalt sheet 410 is further attached to the upper surface of the asphalt sheet 410, the sheet protective material 420 is constructed on the upper surface of the additionally attached asphalt sheet 410.

FIG. 6D shows that the blind structure 510 is installed in the foundation structure 500 that serves to support the segmented segments 110 and 120 while the lower ends of the segments 110 and 120 are hinged, and the like. It can be seen that the water expansion index 430 is connected to the water so that the water can be drained along the water expansion index 430 through the blind culvert.

Since the water-expandable index 430 is installed and connected to the joint surfaces in the transverse and longitudinal directions of the segmented segment, it can be seen that water can be effectively drained.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a connected form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: tunnel structure
110, 120: segmented segment
200: connecting means
210: vertical connection plate
211: fastening hole
220: end vertical support plate
240: support steel
250: connection bolt 260: connection nut
270: mounting plate 271: fastening hole
300: foundation structure
410,410a: asphalt sheet
420: sheet protective material
430: water expansion index
440: caulking material
500: foundation 510: blind

Claims (5)

In the method of waterproofing the precast tunnel structure to construct the segmented segment by combining the ceiling and longitudinal coupling,
The foundation structure 300 is installed on the ground, and the segmented segments 110 and 120 are lifted, and the segmented segments at the ceiling are coupled to the ceiling using the connecting means 200, and the segmented segments are continuously connected to each other in the longitudinal direction. Longitudinally coupling using a connecting means 200 and waterproofing the combined segmented segment,
The ceiling coupling using the connecting means 200 is formed so that both vertical support plate is exposed to the inner surface (S1) of the connecting groove (S) in communication with the connecting groove (S) and the lower portion is embedded in the lower connection groove (S) The upper portion is exposed to the connection groove (S) in the communication groove (S) in communication with the vertical support plate to be spaced apart from each other in the horizontal direction to be disposed, a plurality of vertical connection plate formed with a fastening hole on the front of the two vertical support plate The fastening holes of the vertical connecting plates overlapping each other so that the ends overlap at each other in the center of the connecting groove are extended so as to communicate with each other in the longitudinal direction, and a plurality of connecting bolts are installed in the longitudinal direction by using the connecting nuts.
Waterproofing of the segmented segments (110, 120) is to be made of the primary waterproof means for applying the entire outer peripheral surface to the asphalt sheet 410, attaching the sheet protective material 420 to the upper surface of the asphalt sheet 410,
Longitudinal coupling using the connection means 200
In the connecting groove (S) connected to the vertical connection plate 210 is installed in the vertically connected connection groove so as to contact in the longitudinal direction, the lower part is embedded in the segment 110, and the upper part is set to protrude into the connection groove, A support reinforcement 240 is formed on the lower rear surface of the vertical connecting plate 210 so as to be fixed to the segmented segment, and an additional plate 270 having fastening holes 271 formed on both sides of the vertical connecting plate 210 is formed. It is set to contact, and the connecting bolt 250 in the transverse direction by inserting the connecting bolt 250 in the connecting hole 271 of the backing plate 270 and the vertical connecting plate 210 by using the connecting nut 260 ( 210 is a method for waterproofing the precast tunnel structure, characterized in that for longitudinal coupling of the segment 110 by fastening. The method according to claim 1,
In addition to the primary waterproof means,
On the adjacent surfaces of the segmented segment, the water-expandable index member 430 is extended along the adjacent surfaces, and the upper surface of the joint portion is provided with a caulking material 440, and the upper surface of the coupling part, which is the upper surface of the adjacent surface, is installed on the asphalt sheet 410a. Secondary waterproof means for attaching the asphalt sheet 410 to the upper surface of the asphalt sheet 410a, and constructing a sheet protective material 420 on the upper surface of the additionally attached asphalt sheet 410a). Waterproofing method of the precast tunnel structure, characterized in that further formed. 3. The method of claim 2,
In addition to the secondary waterproof means,
The water-expandable index member 430 is installed to extend along the adjacent surfaces on the adjacent surfaces where the connection grooves of the segmented segments are formed, the caulking material 440 is installed on the upper surface of the adjacent surfaces, and the non-shrink mortar is provided in the connection groove S. After installing the asphalt sheet 410a on the upper surface of the adjacent surface, and additionally attaching the asphalt sheet 410 to the upper surface of the asphalt sheet 410a, a sheet protective material on the upper surface of the additionally attached asphalt sheet 410 Waterproofing method of the precast tunnel structure, characterized in that the third waterproof means for constructing 420 is further formed. The method of claim 3, wherein
In addition to the third waterproof means,
The blind structure 510 is installed in the foundation 500 to which the lower ends of the segmented segments 110 and 120 are hinged.
The blind expansion 510 is connected to the water expansion index 430 is water-proof method of the precast tunnel structure, characterized in that water along the water expansion index 430 can be drained through the blind. delete

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