KR101352893B1 - Bridge expansion joints are leak-proof device and its construction method - Google Patents

Abstract

The present invention is easy to install and install even when the clearance between the slab of the bridge and the slab is 20 ~ 50mm narrow, the drainage plate of the expansion joint is made of steel plate, the life is permanent, and no leakage occurs during the heavy rain. The purpose of the present invention is to provide a device for preventing leakage of a new expansion joint of a bridge and a construction method thereof.
Bridge expansion joint leakage preventing device according to the present invention for achieving the above object is a support that is installed to face at a predetermined distance; A drain plate installed across the support; A degree table disposed on the drain plate; Inserted into the center of the order and at the same time characterized in that it is configured as a fixed fixedly installed inside the support.
In addition, the bridge expansion joint leakage preventing device construction method according to the present invention for achieving the above object is a support that is installed to face at a distance between the slab on one side and the slab on the other side; A drain plate installed across the support; A degree table disposed on the drain plate; A method of installing a bridge expansion joint leakage preventing device consisting of a fixed station that is inserted into the center of the order and fixedly installed inside the support, a step of forming a cut by cutting a portion of the slab on one side and the slab on the other side (S 1 ); Step (S 2) to install the support of the bridge expansion joint leakage preventing device to the reinforcing bar reinforcement portion; Placing an anhydrous mortar between the support and the incision (S 3); Installing a drain plate on the support (S 4); It characterized in that it comprises a step (S 5) to install the order on the support in a state in which the fixing plate is inserted into the order on the drain plate.

Description

Bridge expansion joints are leak-proof device and its construction method}

The present invention relates to a bridge expansion joint leakage preventing device and a construction method thereof, in particular the expansion joint leakage preventing device for preventing the leakage of rainwater flowing into the slab between the slab and the slab of the bridge and the construction method thereof It is about.

In general, the slab expansion joint spacing functions to accommodate the expansion and contraction of the slab due to temperature change, dry shrinkage, creep, etc., and to maintain the durability of the structure by preventing leakage to the slab clearance. Leakage occurs in the structure of the structure, due to which the huge budget is required to recover due to damage to the durability of the structure.

Here, in the case of road bridges, the leakage path of the current expansion joint is a crack occurs between the existing concrete and the futa concrete, or a crack occurs between the expansion joint and the futa concrete, as shown in FIG. Water leaks between cracks.

In addition, even in the case of the railway bridge, as shown in Figure 2, the waterproof sealing material installed between the expansion joint over time, the adhesive force between the concrete and the sealing material is weakened and leaks occur.

Therefore, in the past, the steel plate was welded to the expansion joint body when it was newly installed, but the steel plate and the waterproof expansion and contraction member were fixed with bolts. Without the waterproof material alone can not be replaced separately, it takes a lot of budget, the situation is not affected in time to affect the structure.

Accordingly, in order to solve the problems as described above, a new joint structure for railroad bridges of a registered utility model 20-0366052 guide rail track was proposed.

As shown in FIG. 3, the conventional expansion joint structure for the railway bridge of the induction track is a expansion joint structure formed between the ends of the upper structures 40 and 40 'of the bridge. An encapsulant 5 is provided between the ends of the 40 'to seal the opening therebetween, and an elastic material is provided on the upper part between the ends of the upper structures 40 and 40' provided with the encapsulant 5. The elastic pad 4 made of a cover is covered, and a plate-shaped cover plate 1 made of steel is installed on an upper portion of the elastic pad 4, and one side of the elastic pad 4 and the cover plate 1 is provided. Each of the through holes 14 and 33 is formed, one side of the through holes (14, 33) is formed is fixed to one end of the upper structure 40 by the bolt member 2, the other side is the upper structure ( 40 ') is installed to allow free horizontal movement at the upper end of the other end, The wedge member 2 is formed with a wedge portion 9 having a larger diameter at the lower end thereof, and the upper portion of the wedge portion 9 has a predetermined number of iron pieces connected to each other and the bottom portion is not constrained to each other. The iron piece 7 made up is wound around the bolt member 2, and a predetermined thread is formed on the upper part thereof. The bolt member 2 is fastened to the nut 3, and the elastic pad 4 and the cover plate ( When fixing 1) to the bridge upper structure 40 on one side, the bolt member 2 is moved upwards by rotating the nut 3, and at the same time the wedge portion 9 is upward Ugh

As it moves to the lower end of the iron piece 7 around the bolt member 2 is characterized in that the bolt member 2 is strongly rubbed and supported by the wall surface of the fastening hole 41 is inserted.

In addition, an anchor bolt structure of a railway bridge constructed by the evazo joint method has been proposed.

As shown in FIG. 4, the anchor bolt structure of a railway bridge constructed by a conventional EVA joint joint method is a concrete concrete including a cushioning rubber pad and a cover plate used in the EVA joint joint method adopted for connecting the railway bridge and the bridge. In the anchor bolt for fixing to the hex piece groove 12 is formed so as to rotate the screw to the top of the threaded portion 11 is formed with a screw having a certain length and the plate head bolt having a plate head shape ( 13) and the bush 14 positioned below the countersunk head bolt 13 and placed on the threaded portion 11, and absorbs the impact generated when the track vehicle passes through the lower portion of the bush 14, 11 and a taper 16 formed of a synthetic resin material shock absorbing ring 15, and a plurality of chucks 16a which are disposed under the shock absorbing ring 15 and placed on the threaded portion 11 and have a predetermined inclination. ) And the te It is characterized in that it consists of a nut 17 to contact the inner diameter of the chuck 16a of the wiper 16 to open the chuck 16a outward along the inclined inner diameter of the chuck 16a when the countersunk bolt 13 rotates. do.

Conventional techniques as described above, as a waterproof elastic sealant, it is not easy to cause leakage due to dropout when the adhesive function is degraded and replacement during train operation.

In addition, the expansion joint leakage preventing member is a rubber-based material, which has a problem that the maintenance cost increases due to the need for periodic replacement because the life is short due to deterioration caused by aging mill daylight over time.

Accordingly, in order to solve the above problems, a buried type leakage preventing device of a bridge that can be replaced has been proposed.

In the conventional replaceable bridge-type leak prevention apparatus as shown in FIG. 5, the clearance gap 110 is a space between the slab 100 and the slab 100 whose upper surfaces both form a constant gradient around the width of the bridge. In the leakage preventing device is installed in the), the insertion space 220 is formed inside the frame body 210 in a hollow shape, of the frame body 210

An upper protrusion plate 230 protruding to an upper portion of the frame body 210 to be in close contact with the side surface of the slab 100 is formed on one side of the upper portion of the frame body 210, and protrudes to a lower portion of the lower portion of the slab 100. The lower protrusion plate 240 is formed to be in close contact with the side surface, and the insertion passage 250 communicates with the inner insertion space 220 of the frame body 210 between the upper protrusion plate 230 and the lower protrusion plate 240. A pair of buried frames 200 each of which is formed to be embedded so that the insertion passage 250 is symmetrical on both sides of the slab 100 of the bridge; The first inclined surface 312 is formed to be inclined upwardly to the outside of the upper side of the first drainage plate body 311, the first inclined surface 312 is formed, extending from the upper end of the first inclined surface 312 to the lower inward passage of the buried frame 200 Inserted into the insertion space 220 of the frame body 210 through the 220 and the lower end is supported on the inner lower portion of the frame body 210 of the insertion space 220 to support both sides of the first drainage plate body 311, respectively A first support plate 313 is formed, and the first support plate 313 and the lower protrusion plate 240 of the buried frame 200 is spaced at regular intervals so that the first support plate 313 at the lower end of the first A first drainage plate 310 having a first gap holding protrusion 314 protruding in an inward direction of the drainage plate main body 311 is provided, and is inclined upwardly to the outside at both upper ends of the second drainage plate main body 321 to have a second inclined surface. 322 is formed and extends from the upper end of the second inclined surface 322 to the lower inner side. It is inserted into the internal insertion space 220 of the frame body 210 through the insertion passage 220 of the air buried frame 200 and the lower end is supported on the inner lower portion of the frame body 210 of the insertion space 220, the second drainage plate A second support plate 323 is formed to support both sides of the main body 321, and the second support plate 323 and the lower protrusion plate 240 of the buried frame 200 may be spaced apart at regular intervals. The second gap holding protrusion 324 protrudes from the lower end of the second support plate 320 toward the inner side of the second drainage plate body 321, and the front ends of the second support plate 323 on both sides of the second drainage plate main body 321. A second drainage plate 320 having a locking projection 330 is formed on both sides of the front upper portion of the second support plate 323 by cutting a portion, and the front end portion of the second drainage plate 320 is located inside the rear end of the first drainage plate 310. Is inserted, the locking step 330 is caught on the rear end of the first support plate 313 of the first drainage plate 310 and the rear end and the second drainage of the first drainage plate 310 (320) The front end portion is coupled so as to overlap each other, the first drain plate 310 and the second drain plate 320 is a pair of embedded material made of any one of stainless steel plate, copper plate, polyvinyl chloride, polyethylene, engineering plastics The frame 200 is characterized in that the first drain plate 310 and the second drain plate 320 of the second support plate 313 and the second support plate 323 of the second support plate 323 is characterized in that the configuration is configured.

The conventional refillable leak-proof device of the bridge which can be configured as described above has a problem in that the construction is difficult when the slab clearance is 20 to 50 mm.

The reason is that the slab and the slab's spacing is 20-50mm, so the drainage plate is inevitably smaller. It is difficult to bend it into a U shape, and furthermore, because the slab spacing is narrow, it is impossible to install and dismantle the drainage plate between the slabs at the top of the slab. .

In addition, since the slab length for constructing the frame body is 6 to 15 m, a gap is generated between the frame body and the drain plate because a step and a deviation occur in each part of the frame body.

This is because the rainwater filled in the gap between the slab and the slab during heavy rain is leaked into the gap of the frame body of the bent portion of the drainage plate, there is a problem that the drainage plate leaks.

Utility Model Registration 20-0366052 Patent Registration 10-0529735 Patent Registration 10-0936970

Therefore, the present invention has been made to solve the above problems, easy to install and install even in the narrow gap between the slab of the bridge and the slab of 20 to 50mm, the drain plate of the expansion joint is made of steel sheet The purpose of the present invention is to provide a bridge expansion joint leakage preventing device and a construction method thereof, which are constructed so that the service life is permanent and leaks do not occur even during heavy rain.

Bridge expansion joint leakage preventing device according to the present invention for achieving the above object is a support that is installed to face at a predetermined distance; A drain plate installed across the support; A degree table disposed on the drain plate; Inserted into the center of the order and at the same time characterized in that it is configured as a fixed fixedly installed inside the support.

In addition, the bridge expansion joint leakage preventing device construction method according to the present invention for achieving the above object is a support that is installed to face at a distance between the slab on one side and the slab on the other side; A drain plate installed across the support; A degree table disposed on the drain plate; A method of installing a bridge expansion joint leakage preventing device consisting of a fixed station that is inserted into the center of the order and fixedly installed inside the support, a step of forming a cut by cutting a portion of the slab on one side and the slab on the other side (S 1 ); Step (S 2) to install the support of the bridge expansion joint leakage preventing device to the reinforcing bar reinforcement portion; Placing an anhydrous mortar between the support and the incision (S 3); Installing a drain plate on the support (S 4); It characterized in that it comprises a step (S 5) to install the order on the support in a state in which the fixing plate is inserted into the order on the drain plate.

As described above, the buried type leakage preventing device and the construction method of the replaceable bridge according to the present invention has the following effects.

First, the present invention is installed in a flat plate shape that does not bend the U-shaped drain plate even when the clearance between the slab and the slab of the bridge is narrow (20 ~ 50mm), leaks due to the adhesive degradation of the rubber elastic material over time You can solve the problem.

Second, in the present invention, since the drain plate is flat plate-shaped, the drain plate does not bend repeatedly due to the stretching action of the bridge slab, and only the support plate is stretched in the space between the supports (extension amount). This has a permanent advantage.

Thirdly, the present invention has the advantage that the waterproofing is achieved because the order plate installed on the fixed base presses the drain plate at a constant pressure by the compression spring.

Fourth, the present invention has a permanent life because the main member is made of steel, such as a support, a drain plate, the order.

Fifth, the present invention has a simple construction because it is installed by supporting the drainage plate is pushed from the top to the bottom of the support inclined surface space after installing the support, bolt assembly is installed from the top bolt assembly.

Sixth, the present invention has an advantage that can be easily installed because the internal space is wide when installing the drainage plate.

Seventh, the present invention has the advantage that the manufacturing cost is reduced because the drain plate can be easily manufactured in a flat plate shape.

1 is a front view showing the expansion joint using a rubber material on the top of the conventional slab flow;
Figure 2 is a front view showing the expansion joint using the inner sealing material in the conventional slab clearance;
Figure 3 is a front view showing the expansion joint structure for the railway bridge of the conventional guided rail,
Figure 4 is a front view showing the anchor bolt structure of the railway bridge constructed by the conventional EVA joint joint method,
5 is a front view showing a conventional leak-proof leak-proof device of the bridge that can be replaced;
Figure 6 is a front view showing a bridge expansion joint leak prevention apparatus according to the present invention,
7 is an exploded front view of the bridge expansion joint leak prevention apparatus according to the present invention,
8 is a front view showing the support of the bridge expansion joint leakage preventing device according to the present invention,
Figure 9a, 9b is a front view showing the drain plate of the bridge expansion joint leak prevention apparatus according to the present invention,
10a and 10b is a front view showing the order of the bridge expansion joint leak prevention apparatus according to the invention,
11 is a front view showing the fixing rod of the bridge expansion joint leakage preventing device according to the present invention,
12 is a front view illustrating a state in which a bridge expansion joint leakage preventing device according to the present invention is installed at a clearance;
13a to 13f is a process chart showing a process of installing a bridge expansion joint leak prevention apparatus according to the present invention in the flow path,
14 is a front view showing a first embodiment of the bridge expansion joint leak prevention apparatus according to the present invention,
15 is a front view showing a second embodiment of the bridge expansion joint leak prevention apparatus according to the present invention.
16 is a front view showing a third embodiment of the bridge expansion joint leak prevention apparatus according to the present invention.

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

Figure 6 is a front view showing the bridge expansion joint leakage preventing device according to the present invention, Figure 7 is an exploded front view showing the bridge expansion joint leakage preventing device according to the present invention,

As shown in these drawings, the bridge expansion joint leakage preventing device (A) according to the present invention includes a support 100 which is installed to face at a predetermined distance; A drain plate 200 installed across the support 100; A degree table 300 disposed on the drain plate 200; It is inserted into the center of the order 300 and at the same time consists of a fixing stand 400 is fixedly installed in the support.

That is, the bridge expansion joint leakage preventing device (A) according to the present invention, as shown in Figs. 6 and 7, the support 100, the drain plate 200, the carrier 300 and the fixing unit 400 is organic It is a device made of combined.

Here, the support 100 is a member made of a predetermined shape by bending the steel 110, as shown in Figure 8, the groove 120 is formed on the inner side along the longitudinal direction of the steel (110); Ascending from the groove 120 to the upper portion, the inclined surface 130 has a constant inclined upper portion; A fastening hole 140 formed on the top of the inclined surface 130 to be drilled with a predetermined diameter; A coupling groove 150 formed at an upper end of the coupling hole 140 and bent outwardly; A protrusion 160 formed to be bent at a predetermined height from an end of the groove 120 to an upper end thereof; Consists of a support portion 170 formed to be bent inwardly from the lower end of the protruding portion 160, irregularities 122 is formed on the outer surface of the groove 120, the fixing projection on the surface of the coupling groove 150 152 is formed.

Such a protrusion 160 is formed so that water introduced through the expansion joint is no longer leaked to the outside, but is collected in the recess 120.

In addition, the drain plate 200, as shown in Figure 9a, a steel plate 210 having a predetermined width, thickness and width; Both ends of the steel plate 210 is composed of a bent portion 220 bent upward at a right angle.

And the drainage plate 200, as shown in Figure 9b, a steel plate 210 having a predetermined width, thickness and width; A bent part 220 in which both ends of the steel plate are bent upwardly at a right angle; The center portion of the steel sheet is composed of a recess 230 protruding downward.

In addition, the order 300 is made of a steel, as shown in Figure 10a, vertical plates 310 are arranged vertically opposite to each other at regular intervals; The lower plate of the vertical plate 310 is composed of a connecting plate 320 for connecting the vertical plate 310 integrally with each other, the vertical plate 310 has a curved surface portion 312 having a constant curvature of the upper end portion At the same time, an insertion groove 314 having a predetermined diameter is formed at the same time, and a rubber packing 316 is installed at the insertion groove 314, and a spring guide pin 330 is formed at the inner side of the collar 300. It is integrally formed, and the compression spring 340 is installed on the spring guide pin 330.

The rubber packing 316 is to prevent the penetration of water between the order 300 and the fixture 400.

And the order 300 is a hollow portion 350 made of a rubber material, as shown in Figure 10b; A wing portion 360 extending upward at a predetermined height on both sides of the upper end of the hollow portion 350; The protrusion 370 is formed to protrude at a predetermined interval on the lower outer surface of the hollow part 350.

On the other hand, as shown in Figure 11, the holder 400 is made of steel, vertical portion 410 is disposed vertically; An insertion groove 420 having a top portion of the vertical portion 410 recessed therein; A fastening hole 430 formed in a predetermined diameter in the insertion groove 420; Consists of a locking groove 440 is formed in a predetermined recess in the upper end of the insertion groove 420.

Here, when the compression spring 340 is in the free field, the fixing stand 400 forms a space 180 for installing the fixing stand 400 in the support 100 when the compression spring 340 is in a free field.

In addition, a predetermined space is formed between the vertical portions 410 of the fixing member 400 so that the spring guide pin 330 to which the ordering member 300 is attached can be inserted.

Bridge expansion joint leakage preventing device (A) according to the present invention made of a configuration as described above is a drain plate 200 even when the gap (G) between the slab (S) and the slab (S) of the bridge is narrow to 20 to 50mm ) Can be installed in a flat plate shape that is not bent in a U-shape, so that the problem of water leakage due to adhesive degradation of the rubber elastic material with time can be overcome, and since the drain plate 200 is a flat plate shape, the bridge slab (S) Due to the expansion and contraction of the drainage plate 200 does not repeatedly bend, simply because the support 100 stretches only in the space (extension amount) between the support (100) the life of the drainage plate 200 is permanent, fixed Since the order 300 installed in the 400 is compressing the drainage plate 200 at a predetermined pressure by the compression spring 340, complete waterproof is achieved, and the support 100, the drainage plate 200, the ordering vessel 300 ) And the main part such as the holder (400) Life is permanent because it is made of steel, and after installing the support 100, the drain plate 200 is pushed down from the top to the space of the support inclined surface 130, the holder 300 is inserted into the holder 300 ) Is easy to install because it is installed by assembling the bolt from the top, and the internal space is wide when the drainage plate 200 is installed, and can be easily installed, and the manufacturing cost is reduced because the drainage plate 200 can be easily manufactured in a flat plate shape. There is.

Hereinafter, the construction of the bridge expansion joint leakage preventing device according to the present invention having the configuration as described above will be described.

 12 is a front view illustrating a state in which the bridge expansion joint leakage preventing device according to the present invention is installed in the gap, and FIGS. 13A to 13F illustrate a process of installing the bridge expansion joint leakage preventing apparatus according to the present invention in the gap. It is a process chart.

As shown in these drawings, the bridge expansion joint leakage preventing device construction method according to the present invention is installed to be opposed to the spacing (G) between the slab (S) on one side and the slab (S) on the other side. A support 100; A drain plate 200 installed across the support 100; A degree table 300 disposed on the drain plate 200; As a method of installing a bridge expansion joint leakage preventing device (A) consisting of a fixed support 400 is inserted into the center of the order 300 and fixedly installed inside the support,

Forming a cutout portion C by cutting a portion of the slab S on one side and the slab S on the other side (S 1); Step (S 2) of welding the support 100 of the bridge expansion joint leakage preventing device (A) to the reinforcing bars (R) arranged in the cutout (C); Placing the non-contraction mortar (M) between the support (100) and the incision (C) (S 3); Installing a drain plate (200) on the support (100) (S 4); Comprising a step (S 5) for installing the order stand 300 to the support 100 in a state in which the fixing stand 400 is inserted into the order stand 300 on the drain plate 200.

That is, the bridge expansion joint leakage preventing device (A) construction method according to the present invention is the incision (C) forming step (S 1); Support step 100 installation step (S 2); Anhydrous mortar (M) pouring step (S 3); The drainage plate installation step (S 4); The installation step (S 5) of the fixing table 400 is sequentially performed to install the bridge expansion joint leakage preventing device A in the bridge expansion joint.

Here, the cutting portion (C) forming step (S 1), as shown in Figure 13a, by cutting a portion of the slab located on one side and the other side relative to the clearance gap (G) to form the cut portion (C).

At this time, the incision until the rebar (R) reinforcement to the slab (S) is exposed.

Subsequently, the mounting step (S 2) of the support 100 is welding the support 100 of the bridge expansion joint leakage preventing device (A) to the reinforcement (R) of the incision (C) as shown in Figure 13b To fix it.

Subsequently, as shown in FIG. 13C, the non-contraction mortar (M) is poured into the non-contraction mortar (M) between the support 100 and the cutout C.

Subsequently, as shown in FIG. 13D, the drainage plate installation step S 4 is to install the drainage plate 200 on the support 100 on both sides, and the drainage plate is inclined through the gap G between the supporters 100. It is inserted in the state and installed in the form which can collect water on the protrusion part of a support.

This is because the length of the drainage plate is longer than the gap G, so it cannot be inserted straight, so it is inserted in an inclined state and finally installed in a straight state.

Subsequently, as shown in FIG. 13E, the fixing stand 400 is installed in the locking groove of the support in a state in which the fixing stand 400 is built in the ordering stand 300.

Finally, the bridge expansion joint leakage preventing device (A) is installed in the gap G through the steps as described above, and then the anchor bolt is mounted on the bridge expansion joint leakage preventing device as shown in FIG. 13F. Install the slab clearance cover plate as a medium.

On the other hand, Figure 14 is a front view showing a first embodiment of the bridge expansion joint leakage preventing device according to the present invention, the shape of the drain plate is different compared to the basic example of the present invention.

15 is a front view showing a second embodiment of the bridge expansion joint leak prevention apparatus according to the present invention, the shape of the water tank and the drain plate is different compared to the basic example of the present invention.

16 is a front view showing a third embodiment of the bridge expansion joint leak prevention apparatus according to the present invention, the shape of the drain plate is different compared to the basic example of the present invention.

What has been described above is merely illustrative in all respects, and should not be construed as limited thereto, and all embodiments that fall within the true spirit and scope of the present invention are included in the claims of the present invention.

100: support 110: steel
120: groove 122: irregularities
130: slope 140: fastening hole
150: coupling groove 152: fixing protrusion
160: protrusion 170: support
180: fixture mounting space 200: drain plate
210: steel plate 220: bent portion
230: recess 300: the sink
310: vertical plate 312: curved portion
314: insertion groove 316: rubber packing
320: connecting plate 330: spring guide pin
340: compression spring 350: hollow part
360: wing 370: protrusion
400: holder 410: vertical part
420: insertion groove 430: fastening hole
440: locking groove 500: slab clearance cover plate
510: anchor bolt A: bridge expansion joint leakage prevention device
B: Anchor Bolt C: Incision
G: gangan M: non-shrink mortar
R: Reinforcement S: Slab

Claims (13)

delete delete delete delete delete delete And the support 100 is installed to face at a predetermined distance; A drain plate 200 installed across the support 100; A degree table 300 disposed on the drain plate 200; Consisting of the holder 400 is inserted into the center of the order 300 and fixedly installed inside the support,
The order table 300 is made of steel, vertical plates 310 are arranged vertically to face each other at regular intervals; Bridge expansion joint leakage prevention device, characterized in that consisting of connecting plates 320 for connecting the vertical plates 310 integrally between each other at the lower end of the vertical plate (310). The method of claim 7, wherein
The vertical plate 310 is a bridge expansion joint leakage prevention device, characterized in that the upper end portion is formed with a curved portion 312 having a predetermined curvature to the outside and at the same time an insertion groove 314 having a predetermined diameter inside. 9. The method of claim 8,
Rubber expansion joint to the bridge, characterized in that the rubber packing 316 is installed in the insertion groove (314). The method of claim 7, wherein
Spring guide pins 330 are integrally formed inside the order 300, and the compression spring 340 is installed on the spring guide pins 330, the leakage expansion device of the bridge. And the support 100 is installed to face at a predetermined distance; A drain plate 200 installed across the support 100; A degree table 300 disposed on the drain plate 200; Consisting of the holder 400 is inserted into the center of the order 300 and fixedly installed inside the support,
The order stand 300 is a hollow portion 350 made of a rubber material; A wing portion 360 extending upward at a predetermined height on both sides of the upper end of the hollow portion 350; Bridge expansion joint leakage preventing device, characterized in that consisting of a protrusion 370 protruding at a predetermined interval on the lower outer surface of the hollow portion (350).
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