KR102367556B1 - Expansion joint for bridge using elastic sealant - Google Patents

Abstract

The present invention relates to an expansion joint device for a bridge using an elastic sealing material that connects a pair of adjacent slabs (C1, C2) to each other, and a pair installed on opposite surfaces of the pair of slabs (C1, C2) of the fixed frame 20; an elastic bar member 40 installed between the pair of fixing frames 20, the side surfaces and bottom surfaces of which are supported by the pair of fixing frames 20; and a pair of press bars 30 respectively installed on the upper surfaces of the pair of fixing frames 20 , some of which press the upper surfaces of the elastic bar member 40 .
Here, the pair of fixing frames 20 are respectively attached to and fixed to the upper surfaces C1' and C2' of the pair of slabs, and the horizontal fixing parts 20a and the pair of slabs are opposite to each other. It may include a vertical fixing part 20b installed on the side surfaces C1'' and C2''.

Description

Expansion joint device for bridge using elastic bar material {EXPANSION JOINT FOR BRIDGE USING ELASTIC SEALANT}

The present invention relates to an expansion joint device for a bridge using an elastic bar material, and more particularly, by removing a process that requires a lot of effort in the construction process, increases the efficiency of construction and reduces the cost, and, as time passes after construction, It relates to an expansion joint device for a bridge using an elastic sealing material that can prevent leakage even if the performance of the adhesive for fixing the elastic sealing material is deteriorated.

In the gap between the slab and the slab of the bridge, the slabs adjacent to each other are firmly joined, and an expansion joint device is installed together to absorb the load of the tracked vehicle and the shock generated during operation.

Among various types of expansion joints, completely waterproof, a bubble-type compound made by pressurizing nitrogen to low-density, fully sealed ethylene vinyl acetate polyethylene copolymer (CLOSED-CELL CROSSLINKED, ETHYLENE VINYL ACETATE, LOW DENSITY POLYETHYLENE COPOLYMER. NITROGEN). Expansion joints using EVAZOTE, a closed type elastic foam, are widely used. Evazot absorbs structural behaviors (extrusion, tension, shear, bending, vibration, distortion, etc.) It has the advantage of being semi-permanent.

The construction method of railway bridges using such an evaporator is called the EVAZOTE JOINT SYSTEM, and since members made of such elastic materials are usually called “elastic sealing materials”, hereinafter, they will be referred to as “elastic sealing materials”. do.

When the construction method of the evazot joint method is briefly described with reference to FIG. 7 , the opposite sides of the slabs 500 of the bridge top plate adjacent to each other, strictly speaking, the slabs 500 that come into contact with the elastic bar member 600 . ) after cleaning the side surfaces by grinding, an adhesive is applied to opposite sides of the elastic sealing material 600 and the slabs 500 . Then, the elastic bar member 600 is inserted into the space between the adjacent slabs 500 so that the side surface of the elastic bar member 600 and the side surface of the slabs 500 are attached to each other. Finally, the rubber pad 400 for cushioning and the cover plate 300 are installed in the upper part of the space between the slabs 500 to protect the elastic sealing material 600 . It can be fixed to the concrete with the anchor 10 in order to firmly fix the rubber pad 400 and the cover plate 300 for buffering.

In the conventional evazot joint construction method having the above-described configuration, since the elastic sealing member 600 is directly attached to the side of the slab 500 made of concrete with an adhesive, the adhesive performance due to the expansion and contraction action of the bridge over time Leakage occurred due to the lowering, which acted as a factor to corrode the lower pedestal of the bridge.

In addition, there was a problem in that a large amount of cost was incurred in grinding the side of the slab 500 to be directly bonded to the elastic sealing material 600 with a grinder during the construction process and wiping the grinded surface cleanly. Furthermore, as shown in FIG. 8 , the side of the elastic bar member 600 must be separately processed to form a plurality of grooves 610 to provide a space in which the adhesive is accommodated. The process of processing the grooves 610 As a result, the construction efficiency decreased.

In addition, in order to prevent the anchor bolts for fixing the cover plate from protruding and getting caught on the wheels of the vehicle when the gravel is applied, there is a problem in that the counter boring is machined on the steel cover plate.

Registered Patent Publication No. 10-2008773 (Announcement date: 2019.08.09.) Registered Patent Publication No. 10-0403390 (Announcement date: 2003.10.30.) US Registered Patent Publication No. 4,067,660 (Announcement date: 1978.01.10.)

The present invention has been devised to solve the above-mentioned problem, and there is no leakage even if the adhesive performance is lowered, and the construction can proceed without grinding the opposite sides of the slab in order to install the elastic bar material, so the construction cost is reduced can be significantly reduced. Furthermore, the purpose is to enable construction by simple drilling without the need for milling machine processing for counterboring of the steel cover plate.

Furthermore, it is another object to solve the problem of having to go through a process of forming a plurality of grooves on the side of the elastic bar member in order to form a space that can accommodate the adhesive on the side of the elastic bar member.

The present invention relates to an expansion joint device for a bridge using an elastic bar member connecting between a pair of adjacent slabs (C1, C2), as long as they are respectively installed on opposite surfaces of the pair of slabs (C1, C2) a pair of fixed frames 20; an elastic bar member 40 installed between the pair of fixing frames 20, the side surfaces and bottom surfaces of which are supported by the pair of fixing frames 20; and a pair of press bars 30 respectively installed on the upper surfaces of the pair of fixing frames 20 , some of which press the upper surfaces of the elastic bar member 40 .

Here, the pair of fixing frames 20 are respectively attached to and fixed to the upper surfaces C1' and C2' of the pair of slabs and a horizontal fixing part 20a and the pair of slabs facing each other It may include a vertical fixing part 20b installed on the side surfaces C1'' and C2''.

And the horizontal fixing part 20a of the pair of fixing frames 20 and the upper surfaces C1' and C2' of the slab are attached to each other by an adhesive, and the horizontal fixing part 20a and the upper surface C1 of the slab ', C2') may be installed with a water-repellent material 10 to block the incoming water leakage.

A vertical adhesive accommodating part 20e including a plurality of grooves capable of accommodating an adhesive is formed in the vertical fixing part 20a of the pair of fixing frames 20, so that the elastic sealing member 40 is the vertical It may be fixed to the fixing part 20a by an adhesive.

Furthermore, at the lowermost end of the vertical fixing part 20a of the pair of fixing frames 20, an elastic bar supporter 20f capable of supporting the bottom of the elastic bar member 40 is formed, respectively. It is characterized in that the water-cutting protrusions (20c) formed by drawing out in the direction of the elastic bar member (40) are formed at the ends of the pair of resilient bar supporters (20f), respectively.

And at one end of the pair of pressing bars 30, a downward protrusion 30b formed to protrude in the direction of the elastic bar member 40 to press the upper surface of the elastic bar member 40 may be formed.

In addition, on the bottom surface of the pair of press bars 30, a separation preventing projection 30a is formed, respectively, and the separation prevention projection 30a is a separation preventing groove formed on the upper surface of the horizontal fixing part 20a of the fixing frame 20 ( 20d), even if the distance between the pair of slabs C1 and C2 varies due to thermal deformation of the bridge, it is possible to prevent the presser 30 from being separated from the fixed frame 20 .

The fixing frame 20, the presser, and the finishing rubber pad 70 formed to cover the upper surface of the elastic sealing member 40, and the cover plate 80 formed on the upper surface of the finishing rubber pad 70. Further, the finishing rubber pad 70 and the cover plate 80 are fixed to at least one of the slabs C1 and C2 by fastening means. Here, it is preferable that both ends of the cover plate 80 form an inclined surface in the longitudinal direction of the bridge, and a plurality of steel plates are laminated and welded to form an integral body.

First, even if the performance of the epoxy adhesive applied between the fixed frame 20 and the elastic bar member 40 is poor, the lower protrusion 30b is pressing the elastic bar member 40 so that the adhesive performance deteriorates over time. can prevent

Second, the elastic sealing material 40 can be installed without grinding the sides (C1', C2') of the slab to be bonded with the elastic sealing material, thereby reducing the installation cost.

Third, it is possible to omit the secondary processing process of manually making the grooves so that the adhesive can be accommodated on the side surface of the elastic sealing member 40, thereby increasing the construction efficiency.

Fourth, since the fixing frame 20 and the presser 30 are separated, the work of inserting the contracted elastic bar material 40 between the pair of fixing frame 20 is convenient and the workability is good. In addition, a downward protrusion 30b is formed at the end of the presser 30 to prevent rainwater from permeating into the elastic sealing material.

Fifth, since the lower surface of the elastic sealing material is pressed and supported by the water cut-off protrusion of the fixed frame and serves as a water cut-off, it is possible to prevent defects from occurring by preventing water leakage even if the adhesive material efficiency decreases over time.

In addition, since the breakaway sill formed on the bottom of the presser bar is inserted into the breakout prevention groove formed on the upper surface of the fixed frame and coupled, even if the distance between the slabs varies according to the expansion and contraction of the bridge, it prevents the presser from separating from the fixed frame do.

1 is a cross-sectional view illustrating a state in which a fixing frame is installed on a slab.
Figure 2 is a perspective view showing the shape of the fixing frame and the presser.
3 is a cross-sectional view showing a state in which the elastic sealing member is installed.
4 is a cross-sectional view showing a state in which the press bar is additionally installed.
5 is a cross-sectional view illustrating a process in which the finishing rubber pad and the cover plate are installed.
6 is a cross-sectional view showing a state in which the expansion joint device for a non-drainage type bridge is finally assembled.
7 and 8 show an expansion joint device for a non-draining type bridge according to the prior art.

Hereinafter, the overall configuration of an expansion joint device for a bridge using an elastic bar member according to the present invention will be described with reference to the drawings. Specific structural or functional descriptions presented in the embodiments of the present invention are only exemplified for the purpose of describing embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms. In addition, it should not be construed as being limited to the embodiments described herein, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

1 to 6 show the order in which the expansion joint device for a non-drainage type bridge according to the present invention is installed in the interval S between a pair of slabs C1 and C2 positioned adjacent to each other. Hereinafter, the specific configuration of the expansion joint device for a non-drainage type bridge according to the present invention will be described according to the installation order of the components.

First, FIG. 1 shows a state in which a pair of fixing frames 20 are installed on opposite surfaces of a pair of slabs C1 and C2 adjacent to each other. Looking at the structure of the fixing frame 20 with reference to FIG. 2 , the horizontal fixing part 20a fixed to the upper surfaces C1', C2' of the slab and the vertical surfaces C1', C2' of the slabs C1, C2 are shown. It includes a vertical fixing part (20b) fixed to, these horizontal fixing part (20a) and the vertical fixing part (20b) are rigidly coupled to each other. The fixed frame 20 is preferably made of a metal material such as aluminum or steel or a synthetic resin material, but any material is possible as long as it can guarantee durability.

A water stop material 10 is installed between the horizontal fixing part 20a of the fixing frame 20 and the upper surfaces C1' and C2' of the slab, except for the part where the water stop material 10 is installed, the horizontal fixing part An adhesive 100 is interposed between 20a and the upper surfaces C1' and C2' of the slab so that the horizontal fixing part 20a is fixed to the upper surfaces C1' and C2' of the slab. Referring to FIG. 2 , on the bottom surface of the horizontal fixing part 20a, a water stop material accommodating part 20i in contact with the water stop material 10 and a horizontal adhesive accommodating part 20h to which an adhesive is applied may be formed. Preferably, the horizontal adhesive receiving portion 20h consists of a plurality of grooves formed in the longitudinal direction, and the adhesive is accommodated in the upper grooves to increase adhesion with the upper surfaces C1' and C2' of the slab.

The water stop material 10 has a thickness of 1 to 3 mm, preferably about 2 mm, and since an adhesive is applied to the bottom of the water stop material 10, it is fixed while being adhered to the upper surfaces C1' and C2' of the slab. do. The water-repellent material 10 is a material that is also called a water-expandable water-expandable material in the industry, and the performance of the adhesive interposed between the fixed frame 20 and the upper surface (C1', C2') of the slab is poor, so that when water penetrates, the water-repellent material ( 10) It can prevent water leakage by foaming itself, and water-repellent materials made of swellable material or modified rubber mainly made of polyurethane as a main component are commonly used.

After installing the pair of fixing frames 20 on the pair of slabs C1 and C2 as shown in FIG. 1, respectively, as shown in FIG. 3, the elastic bar member 40 is fixed with the pair of The frame 20, specifically, is installed between the pair of vertical fixing portions (20b). At the lower end of the pair of vertical fixing parts 20b, an elastic bar supporter 20f is formed to support the lower end of the elastic bar member 40 placed in the gap S. And a water cut-off protrusion (20c) is formed at the end of the elastic rod holder (20f) to prevent rainwater or soil from leaking into the gap between the elastic sealing material (40) and the vertical fixing part (20b). plays a role In other words, even if the performance of the adhesive deteriorates over time, the presser mechanically blocks the gap between the elastic sealing material and the fixed frame, thereby completely preventing leakage.

And a vertical adhesive receiving portion (20e) made of a plurality of longitudinal grooves is formed on the mutually opposite surfaces of the pair of vertical fixing portions (20b), and an adhesive such as epoxy in the grooves of the vertical adhesive receiving portion (20e) is accommodated so that the vertical fixing part 20b and the elastic bar member 40 can be firmly coupled. In the conventional case, in order to form a space for accommodating such an adhesive, a groove is separately machined on the side of the elastic sealing member 40, but this process is reduced, so that construction can be simplified.

After the elastic bar member 40 is installed as shown in FIG. 3 , a pair of press bars 30 are installed on each of the pair of fixing frames 20 as shown in FIG. 4 , and for the fixing frame It is fixed to the slabs (C1, C2) using the anchor (60). A lower protrusion 30b is formed on one side of the presser 30, and the upper lower protrusion 30b presses the upper surface of the elastic bar material 40, so that rain or sand is fixed to the frame 20 and the elastic bar material. (40) It serves as a primary leak prevention to prevent penetration into the gap. That is, even if the performance of the adhesive deteriorates over time, it has the effect of completely waterproofing by mechanically pressing the elastic sealing material to block the gap.

Furthermore, the release preventing protrusion 30a is formed on the lower surface of the presser 30, and the detachment preventing protrusion 30a is formed in the upper surface of the horizontal fixing part 20a of the fixing frame 20 in the detachment preventing recess 20d. Since the digging and biting, when the distance between the pair of slabs C1 and C2 is changed due to thermal deformation of the bridge, the presser 30 can be reliably prevented from being separated from the fixed frame 20 .

When the installation of the presser 30 is finished as shown in FIG. 4 , the fixing frame 20 , the elastic bar member 40 , and the presser 30 installed in the oil gap S are closed as shown in FIG. 5 . After covering with the rubber pad 70 and the cover plate 80, the finished rubber pad 70 and the cover plate 80 are attached to the slab (C1) using a strong anchor 90, preferably a strong anchor having a spherical head. ), the bridge expansion joint device is completed in the form shown in FIG. 6 . Here, it is preferable that the cover plate 80 is formed as an inclined surface in the longitudinal direction (longitudinal direction) of the bridge so that both ends are not formed, and a plurality of steel plates are laminated and welded to form an integral body.

Preferably, since the strong anchor 90 is embedded in only one slab among a pair of adjacent slabs, it is possible to accommodate the distance deformation between the slabs C1 and C2 caused by the thermal deformation of the bridge.

And since the lower protrusion 33b presses the upper surface of the elastic bar member 40, leakage is primarily prevented, and the vertical fixing part 20b of the fixing frame 20 and the elastic bar member 40 are interposed between the The adhesive prevents water leakage secondaryly, and the water cut-off protrusion 20c presses the lower surface of the elastic sealing member 40 to prevent leakage tertiarily. Thus, by providing the water leakage prevention means over multiple steps, it is possible to reliably prevent water leakage.

As described above, the present invention has been described with reference to an expansion joint device for a bridge using an elastic bar material, which is a preferred embodiment of the present invention, but the present invention may be varied within the scope not departing from the spirit and scope of the present invention described in the claims below. It will be apparent to those skilled in the art that it can be implemented with changes or modifications.

20: fixing frame 20a: horizontal fixing part
20b: vertical fixing part 20c: water cut-off protrusion
20d: separation prevention groove 20f: elastic bar material support
20e: vertical adhesive receiving portion 20h: horizontal adhesive receiving portion
20g: anchor fastening hole 20i: water stop material receiving part
30: press bar 30a: breakaway bump
30b: lower projection 40: elastic bar material
70: finishing rubber pad 80: cover plate
60: anchor for fixed frame 90: strong anchor
10: water stop material 100: adhesive

Claims (8)

It relates to an expansion joint device for a bridge using an elastic bar member connecting between a pair of adjacent slabs (C1, C2),
a pair of fixing frames 20 respectively installed on opposite surfaces of the pair of slabs (C1, C2);
an elastic bar member 40 installed between the pair of fixing frames 20, the side surfaces and bottom surfaces of which are supported by the pair of fixing frames 20; and
A pair of pressing bars 30 are installed on the upper surfaces of the pair of fixing frames 20, and some of which press the upper surface of the elastic bar member 40,
The pair of fixing frames 20 includes a horizontal fixing part 20a that is respectively attached and fixed to the upper surfaces C1' and C2' of the pair of slabs and the opposite side surfaces C1 of the pair of slabs. Includes a vertical fixing part (20b) installed on '', C2''),
A vertical adhesive accommodating part 20e including a plurality of grooves capable of accommodating an adhesive is formed in the vertical fixing part 20a of the pair of fixing frames 20, so that the elastic sealing member 40 is the vertical It is fixed by an adhesive to the fixing part (20a),
At the lowermost end of the vertical fixing portion 20a of the pair of fixing frames 20, an elastic bar supporter 20f capable of supporting the bottom of the elastic bar member 40 is formed, respectively, and the pair of elastic bars At the end of the sealing material pedestal (20f), water-cutting projections (20c) formed by drawing out in the direction of the elastic sealing material (40) are respectively formed,
At one end of the pair of press bars 30, a downward protrusion 30b is formed to protrude in the direction of the elastic bar member 40 to press the upper surface of the elastic bar member 40,
The horizontal fixing part 20a of the pair of fixing frames 20 and the upper surfaces C1' and C2' of the slab are attached to each other by an adhesive, so that the lower surface of the horizontal fixing part 20a has an adhesive An expansion joint device for a bridge using an elastic bar material, characterized in that a horizontal adhesive receiving portion (20h) to which is applied is formed.
The method according to claim 1, Between the horizontal fixing part (20a) and the upper surface (C1', C2') of the slab, the horizontal fixing part (20a) and the upper surface (C1', C2') of the slab to prevent water leakage An expansion joint device for a bridge using an elastic bar material, characterized in that a water stop material (10) for blocking is installed.
delete delete delete The method according to claim 1 or claim 2, The pair of pressure bars (30) doedoe, each of which is formed with a separation protrusion (30a), the departure preventing protrusion (30a) is a horizontal fixing portion (20a) of the fixing frame (20) It is inserted into the separation prevention recess 20d formed on the upper surface, and even if the distance between the pair of slabs C1 and C2 is changed due to thermal deformation of the bridge, the presser 30 is installed in the fixed frame 20. An expansion joint device for a bridge using an elastic bar material, characterized in that it prevents the separation.
The method according to claim 6, The fixing frame (20), the pressure bar, and the finishing rubber pad (70) formed to cover the upper surface of the elastic bar member (40) and the cover formed on the upper surface of the finishing rubber pad (70) It further includes a plate 80, wherein the finishing rubber pad 70 and the cover plate 80 are fixed to at least one of the slabs C1 and C2 by means of a fastening means. Expansion joint device for bridge using sealing material.
The expansion joint device for a bridge using an elastic sealing material according to claim 7, wherein both ends of the cover plate (80) form an inclined surface in the longitudinal direction of the bridge, and a plurality of steel plates are laminated and welded to form an integral body.

Images