KR101933105B1 - Mending method of the longitudinal expansion joint - Google Patents

Abstract

According to the present invention, there is provided a method of repairing a longitudinal expansion joint, comprising: a first step of removing an existing longitudinal stretch joint device installed along a longitudinal direction of a river from its upper portion of a girder (G) A second step of flattening the bottom surface of the slab S with no shrinkage mortar to the uneven surface of the slab S generated upon removal of the expansion joint, A third step of placing the expansion joint block 100 made by casting method and a third step of placing the elastic joint block 100 on the flat surface P of the slab S, And a fourth step in which the asphalt plug 200 having the asphalt plug 200 is installed on the second upper surface 134 of the expansion joint block 100 and the spacing space GAP provided on the flat surface P of the slab S, A method of repairing a directional expansion joint is provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a longitudinal expansion joint,

The present invention relates to a method of repairing a longitudinal expansion joint, and more particularly to a method of repairing longitudinal longitudinal expansion joints in a longitudinal direction of a bridge between neighboring bridge slabs (S) with respect to a transverse section of a bridge constructed longitudinally along a river or a river A repairing method of a longitudinal expansion joint device capable of preventing the gap expansion of the longitudinal expansion joint device by the longitudinal expansion joint device to be repaired in repairing the installed expansion joint device and improving the work efficiency of the replacement construction .

Generally, in a joint portion of a bridge slab, a prefabricated joint is installed to absorb the shock to the left and right of each slab. In the joint portion of the bridge slab, A prefabricated joint is installed to prevent infiltration of dirt such as rainwater or trash into the gap between the slabs against the expansion.

The conventional prefabricated joint is provided with a pair of joint members 10 facing each other at opposite ends of the adjacent slabs 60 of the bridge as shown in Fig. 1, and connecting the joint members 10 to each other A sound absorbing material 80 such as styrofoam is provided between the respective joint members 10 on the lower side of the rubber member 100 to prevent leakage of the slab 60, Thereby preventing foreign substances from penetrating into the lower coordinate device 70. However, in the conventional assembled joint as described above, leakage occurs to the contact surface between the joint member 10 and the concrete due to the crack due to drying shrinkage of the joint portion between the joint member 10 and the concrete, Leakage of water from the rubber member 100 due to frequent replacement of the jointed joint and leakage of water from the rubber member 70 increases the maintenance cost due to replacement of the quartz unit 70 which is corroded by the leakage of water, So that leakage and foreign matter penetrate into the lower portion of the slab.

In order to solve such a problem, Japanese Patent No. 558373 discloses, as shown in Fig. 2, a pair of joint members 10 installed to face each other at the tip of a bridge, A plurality of anchors 50 for fixing the joint members 10 and a plurality of anchors 50 for fixing the joint members 10 to the joint members 10 and the joint members 10, A flange portion 11 provided with a hole 12 and an upper coupling groove 20 formed in a longitudinal direction in a front face portion 14 of the joint member 10 and an upper coupling groove 20 formed in a front face portion 14 of the joint member 10 The lower joint groove 21 is formed at a lower portion of the upper joint groove 20 and is formed in the longitudinal direction of the upper joint groove 20. An upper rubber member 30 for blocking the upper and lower engagement grooves 21, A lower rubber member 31 which is installed so as to be fitted so as to prevent leakage of foreign matter once more to block the foreign matter from flowing into the lower portion of the bridge, and a lower rubber member 31 protruding in the longitudinal direction on the back surface of the joint member 10, A water leakage preventing jaw 40 for preventing leakage of water into the gap between the members 10 and the water leakage preventing jaw 40 so as to be inclined to the front surface portion 14 of the joint member 10, And a plurality of drain holes (42) arranged to drain the water blocked by the water leakage preventing jaw (40) to the lower rubber member (31).

In this case, however, as shown in FIG. 3, as the common period increases, the ends of the angle joints installed at the ends of the slab S, which are the ends of the adjacent bridges, There is a problem in that the steering force is lowered by causing the steering wheel to fall or to generate an unbalanced frictional force on the wheel. Therefore, it is required to develop a technique for repairing the expansion joint device which can solve such a problem.

In addition, in the repair of the expansion joint made up of the angle joints provided between the slabs S of the bridge installed in the longitudinal direction along the river, the metal slab of the bridge using the cross- S), there is a problem that the linearity of the slab (S) is measured beforehand due to the linearity of the slab (S) termination due to the characteristics of the slab (S) of the bridge installed in the longitudinal direction of the stream In addition, there is a problem in that it is difficult to fit them properly in the field by processing them accurately in the factory according to the installation position, and as a result, the maintenance workability of the longitudinal expansion joint is extremely low. In addition, when a conventional longitudinal expansion joint is to be repaired, it is necessary to install a longitudinal extension joint which is newly installed through an anchor operation. Accordingly, it is required to perform a formwork necessary for casting concrete, There is a need to develop a technique capable of quickly replacing the longitudinal expansion joint.

It is therefore an object of the present invention to provide a longitudinal stretch joint capable of promptly and efficiently performing repair and maintenance work on a longitudinal stretch joint provided between neighboring transverse sections of a bridge slab S installed along the longitudinal direction of a river And a method of repairing the apparatus.

It is another object of the present invention to provide a method of repairing a longitudinal expansion joint capable of performing a repairing operation by arbitrarily adjusting the curvature characteristics of a bridge slab S installed in the longitudinal direction of a river in the field.

Still another object of the present invention is to provide a method of repairing a longitudinal expansion joint in which a gap phenomenon does not occur in a joint portion on a bridge slab S that is adjacent to the bridge slab S after a replacement maintenance operation of the longitudinal expansion joint will be.

According to the present invention, there is provided a method of repairing a longitudinal expansion joint, comprising: a first step of removing an existing longitudinal stretch joint device installed along a longitudinal direction of a river from its upper portion of a girder G of a bridge; A second step of flattening the bottom surface of the slab S with no shrinkage mortar to the uneven surface of the slab S generated upon removal of the expansion joint, A third step of placing the expansion joint block 100 made by casting method and a third step of placing the elastic joint block 100 on the flat surface P of the slab S, And a fourth step in which the asphalt plug 200 having the asphalt plug 200 is installed on the second upper surface 134 of the expansion joint block 100 and the spacing space GAP provided on the flat surface P of the slab S, A method of repairing a directional expansion joint is provided.

Here, the expansion joint block 100 is composed of a unit rectangular parallelepiped made by precast method, and the block of the unit rectangular parallelepiped is fixed on the flat surface P of the flat slab S, It is preferable that they are arranged in series in a row along the curvature end face.

The expansion joint block 100 includes a first block portion 110 having a first bottom surface 112 to be seated against the flat surface P of the slab S, And a second block 130 extending horizontally from an end of the extension 120 extending vertically or obliquely from the first block 130.

The first block portion 110 of the expansion joint block 100 has a first upper surface 114 and a second lower surface 112. The first upper surface 114 is opposed to the first upper surface 114 and the first upper surface 114 faces the flat surface P of the slab S, And the second block portion 130 of the expansion joint block 100 extends horizontally from the extension portion 120 to form the first block portion 110 of the adjacent expansion joint block 100, And a second upper surface 134 facing the second lower surface 132 for receiving the upper surface 114 and forming a constant flat surface P of the expansion joint block 100 in opposition thereto.

Both sides of the first block portion 110, the extension portion 120 and the second block portion 130 of the expansion joint block 100 have a width W so as to be flush with each other, The longitudinal length L1 of the first upper surface 114 of the second block portion 130 is preferably larger than the longitudinal length L2 of the second lower surface 132 of the second block portion 130. [

The front and rear surfaces constituting one side surface of the expansion joint block 100 are positioned so as to be in close contact with one vertical surface perpendicular to the flat surface P of the slab S of the one side girder G, It is preferable that the rear surface or the front surface forming the other side surface of the other side girder G is positioned with a predetermined spacing gap GAP with respect to the flat surface P end of the slab S of the other side girder G. [

A spacer for eliminating the gap between the flat surfaces P of the slab S is formed under the second bottom surface 132 of the first expansion joint block 100 among the plurality of the expansion joint blocks 100 arranged continuously It is preferable that a hexahedron block manufactured by the precast method is seated in correspondence with the gap.

The asphalt plug 200 may further comprise 5 to 30 wt% of styrene-conjugated diene block copolymer, 5 to 40 wt% of waste tire rubber powder, 0.01 to 5 wt% of styrofoam, 0 to 30 wt% of plasticizer or softener %, A tackifier of 0.02 to 5 wt%, and an inorganic filler of 4 to 30 wt%.

The asphalt plug 200 having elastic properties is disposed between the first upper surface 114 of the first block portion 110 of the expansion joint block 100 and the second lower surface 132 of the second block portion 130, Is preferably applied with a predetermined thickness.

Thus, according to the present invention, it is possible to quickly and efficiently perform replacement and maintenance work on a longitudinal expansion joint provided between neighboring transverse portions of a bridge slab S installed along the longitudinal direction of a river, The curvature characteristics of the slab S can be arbitrarily adjusted in the field so that the repair work can be performed and the gap phenomenon does not occur in the joint portion on the neighboring bridge slab S afterwards.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an illustration showing a conventional bridge extension joint and a leakage path.
2 is a perspective view of a joint of a bridge expansion joint according to Japanese Patent No. 558373.
Fig. 3 shows a state in which the gap of the angle joint is opened in accordance with an increase in common time in an expansion joint of an angle joint installed between bridge slabs S of the RC ramen bridge near the Daebong bridge located along the longitudinal direction of Chungju stream It is a photograph.
4 is a view illustrating a state in which a conventional longitudinal expansion joint is removed in a method of repairing a longitudinal expansion joint according to a first preferred embodiment of the present invention.
5A is a perspective view illustrating a state in which the expansion joint block 100 according to the first preferred embodiment of the present invention is seated.
5B is a cross-sectional view taken along line BB of FIG. 5A showing a state in which the expansion joint block 100 according to the first preferred embodiment of the present invention is seated.
FIG. 6 is a cross-sectional view illustrating a state in which an asphalt plug 200 having elastic properties is installed in a state where the expansion joint blocks 100 are continuously arranged and installed, with reference to a line BB in FIG. 5a.

Hereinafter, a method of repairing a longitudinal expansion joint according to a first preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a view illustrating a state in which a conventional longitudinal expansion joint is removed in a method of repairing a longitudinal expansion joint according to a first preferred embodiment of the present invention, and FIG. 5A is a cross- 5B is a sectional view taken along line BB of FIG. 5A showing a state in which the expansion joint block 100 according to the first preferred embodiment of the present invention is seated; FIG. 5B is a perspective view showing a state where the expansion joint block 100 according to the first embodiment of the present invention is seated; And FIG. 6 is a cross-sectional view illustrating a state where the asphalt plug 200 having elastic properties is installed in a state where the expansion joint blocks 100 are continuously arranged and mounted, with reference to the BB line of FIG. 5A.

4, the existing longitudinal stretch joint device installed along the longitudinal direction of the river is connected to the girder G of the bridge as shown in FIG. 4, Remove it from the top.

At this time, it is desirable to remove the portion of the slab (S) made of concrete at least to the portion where the conventional longitudinal expansion joint device is connected to the reinforcing bars of the girder (G) or to the position where it is anchored.

The bottom surface of the slab S to be removed by the non-shrinkage mortar is planarized with respect to the uneven surface of the slab S generated by the breaker used in removing the conventional longitudinal expansion joint. It is preferable that the height is about 5 cm or so and slightly higher than the height of the uneven surface generated in the breaker operation.

5, the expansion joint block 100 according to the first preferred embodiment of the present invention is mounted on the flat surface P of the flattened slab S, as shown in Fig. The expansion joint block 100 is a block manufactured by a precast method and is composed of a plurality of blocks in order to exhibit a proper connection state corresponding to the curved end face of the slab S of the bridge installed along the curvature C of the stream desirable.

'의 형상을 가지는 것이 바람직하다. 본 발명의 바람직한 제1 실시예에 따른 신축이음블록(100)은 슬라브(S)의 평탄면(P)에 대하여 안착되기 위한 제1 하면(112)을 가진 제1 블록부(110), 제1 블록부(110)의 일단부로부터 수직하게 연장된 연장부(120)의 단부로부터 수평하게 연장되는 제2 블록부(130)로 이루어진다.The expansion joint block 100 according to the first preferred embodiment of the present invention has a longitudinal cross-

'. The expansion joint block 100 according to the first preferred embodiment of the present invention includes a first block portion 110 having a first bottom surface 112 to be seated against the flat surface P of the slab S, And a second block part 130 extending horizontally from an end of the extension part 120 extending vertically from one end of the block part 110.

The first block portion 110 of the expansion joint block 100 has a first upper surface 114 whose upper and lower surfaces are respectively flat and a first lower surface 112 facing the flat surface P of the slab S, Lt; / RTI > The second block portion 130 of the expansion joint block 100 extends horizontally from the extension portion 120 and seats on the first upper surface 114 of the first block portion 110 of the adjacent expansion joint block 100 And a second upper surface 134 opposed to the second lower surface 132 to define a constant flat surface P of the expansion joint block 100. It is preferable that both side surfaces of the first block portion 110, the extension portion 120 and the second block portion 130 of the expansion joint block 100 have a width W so as to be flush with each other. As described above, the expansion joint block 100 according to the first preferred embodiment of the present invention has a rectangular plane as viewed from the upper surface. The longitudinal length L1 of the first upper surface 114 of the first block 110 is preferably greater than the longitudinal length L2 of the second lower surface 132 of the second block 130 . As described above, according to the method of repairing a longitudinal expansion joint according to the first preferred embodiment of the present invention, the first bottom surface 112 of the first block portion 110 of the one- The second bottom surface 132 of the second block portion 130 of the adjacent one of the adjacent compression joint blocks 100 is seated on the flat surface P of the one joint elastic joint block 100, The length L2 of the second lower surface 132 of the one-piece extensible joint block 100 is smaller than the length L2 of the first upper surface 114 of the one- The one-piece stretch joint block 100 and the adjacent one-piece stretch joint block 100 are seated on the flat surface P of the flattened slab S having a predetermined curvature, .

'가 연속하여 배열됨으로써 소정의 곡률을 가지면서 아스팔트플러그(200)의 지지면을 형성할 수 있다.As described above, according to the method for repairing the longitudinal expansion joint according to the first preferred embodiment of the present invention, the elastic joint of the elastic joint block 100, which corresponds to the curved end face of the slab S of the bridge installed along the curvature of the river, The cross-

'Can be continuously arranged to form a supporting surface of the asphalt plug 200 having a predetermined curvature.

Meanwhile, in the first preferred embodiment of the present invention, the extension portion 120 of the expansion joint block 100 may be extended obliquely without being vertically granular.

The front surface or the rear surface constituting the one side surface 100A of the expansion joint block 100 is positioned so as to be in close contact with one vertical surface perpendicular to the flat surface P of the slab S of the one side girder G, It is preferable that the rear surface or the front surface of the other side 100B of the block 100 is positioned with a predetermined spacing GAP with respect to the flat surface P of the slab S of the other side girder G. [ The overall height of the expansion joint block 100 is preferably less than or equal to the height of the slab S removed.

A plurality of spacers 100 for disposing a gap between the flat surfaces P of the slab S under the second lower surface 132 of the first expansion joint block 100, (Not shown) corresponding to the gap is seated on the block of the hexahedron manufactured by the precast method. According to a preferred modification of the present invention, the first expansion joint block 100 is formed such that the second lower surface 132 of the second block portion 130 is the same as the first lower surface 112 of the first block portion 110 And the first upper surface 114 of the first block portion 110 of the last flexible joint block 100 is positioned on the same surface as the second upper surface 134 of the second block portion 130 .

6, when the elastic joint block 100 is continuously arranged and placed on the flat surface P of the slab S, the asphalt plug 200 having elastic properties is inserted into the slab S and a second upper surface 134 of the expansion joint block 100. The first and second upper surfaces 134,

The asphalt plug 200 having elastic properties may comprise 5 to 30% by weight of styrene-conjugated diene block copolymer, 5 to 40% by weight of waste tire rubber powder, 0.01 to 5% by weight of styrofoam, 0 to 5% by weight of plasticizer or softener 0 By weight to 30% by weight, a tackifier of 0.02 to 5% by weight, and an inorganic filler of 4 to 30% by weight.

As described above, according to the method of repairing a longitudinal expansion joint according to the first preferred embodiment of the present invention, the front surface and the rear surface forming one side of the expansion joint block 100 are slabs S The rear surface or the front surface of the other side of the expansion joint block 100 is located on the flat surface of the slab S of the other side girder G Since the asphalt plug 200 having elastic properties is filled in the spacing gap GAP in a state in which the slab S of the bridge is positioned with a predetermined spacing gap GAP relative to the ends of the slab S, The expansion joint block 100 slides on the flat surface P of the slab S at the same time as vibration or the like and at the same time the impact due to the behavior of the slab S in the spacing gap GAP can be buffered.

In the state where the expansion joint block 100 is continuously placed on the flat surface P of the slab S, the horizontal region of the slab S is removed from the upper surface of the expansion joint block 100, Since the plug 200 is filled and installed, a gap is not generated, thereby preventing a safety accident, and it is also possible to prevent a bridge from being deteriorated due to leaks, rain or the like.

According to the method of repairing a longitudinal expansion joint according to the second preferred embodiment of the present invention, the shape of the expansion joint block 100 in the above-described first embodiment is almost the same, An asphalt plug 200 having elastic properties is applied between the first upper surface 114 of the first block portion 110 and the second lower surface 132 of the second block portion 130 with a predetermined thickness.

According to the repair method of the longitudinal expansion joint apparatus according to the second preferred embodiment of the present invention, when the stepped surface is not constant due to the step generated in the field, Since the asphalt plug 200 having elastic properties is applied between the first upper surface 114 and the second lower surface 132 of the second block portion 130 with a predetermined thickness, 100). ≪ / RTI >

According to the third embodiment of the present invention, the expansion joint block 100 is constituted by a unit rectangular parallelepiped (not shown) manufactured by a precast method, and the blocks of the unit rectangular parallelepiped are flattened on the flattened slab S (G) of the slab (S) with respect to the plane (P). At this time, the air gap between the end faces of the neighboring expansion joint block 100 is filled with the asphalt plug 200 having elasticity, and the remaining processes are performed by the longitudinal expansion joint device 100 according to the first preferred embodiment of the present invention It is the same as the repair method.

AS: Asphalt
GAP: Spacing space
S: Slav
P: flat face
100: Expansion joint block
11O: first block portion
112: First
114: first upper surface
120: Extension
130: second block portion
132: second
134: second upper surface
200: Asphalt plug

Claims (9)

delete delete delete delete In a method of repairing a longitudinal expansion joint,
A first step of removing the existing longitudinal stretch joint device installed along the longitudinal direction of the river and its peripheral portion from the upper portion of the girder G of the bridge;
A second step of flattening the bottom surface of the slab S by the non-shrinkage mortar with respect to the uneven surface of the slab S generated upon removal of the existing longitudinal expansion joint device;
A third step of placing a stretch joint block 100 manufactured by a precast method on the flat surface P of the flattened slab S; And
The asphalt plug 200 having elastic properties is placed on the flat surface P of the slab S in a state in which the expansion joint block 100 is continuously arranged and placed on the flat surface P of the slab S, And a fourth step of being installed on the gap space (GAP) provided on the second upper surface (134) of the expansion joint block (100)
The expansion joint block 100 includes a first block portion 110 having a first bottom surface 112 to be seated against the flat surface P of the slab S, Or a second block portion 130 horizontally extending from an end of the elongated extension portion 120,
The first block portion 110 of the expansion joint block 100 has a first upper surface 114 whose upper and lower surfaces are respectively flat and a first lower surface 112 facing the flat surface P of the slab S, Lt; / RTI >
The second block portion 130 of the expansion joint block 100 extends horizontally from the extension portion 120 and seats on the first upper surface 114 of the first block portion 110 of the adjacent expansion joint block 100 And a second upper surface 134 opposite to the second lower surface 132 to form a constant flat surface P of the expansion joint block 100,
Both sides of the first block portion 110, the extension portion 120 and the second block portion 130 of the expansion joint block 100 have the respective widths W to be flush with each other,
The longitudinal length L1 of the first upper surface 114 of the first block 110 is greater than the longitudinal length L2 of the second lower surface 132 of the second block 130. [ A method for repairing a directional expansion joint. delete delete delete delete

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