KR200459910Y1 - Apparatus for preventing water leakage of bridge - Google Patents

Abstract

The present invention prevents rainwater and soil from flowing between the slab of the bridge and the slab to the lower part of the slab.The upper end of the main drainage plate and the auxiliary drainage plate which can be used semi-permanently is buried in the landfill frame installed on both sides of the slab of the bridge. It is supported by, and it is possible to install the drainage plate even if there is a step difference because the buried frame of the buried frame buried on both sides of the slab and the slab is different. It is easy to install without, it is possible to reduce the work time and cost according to the installation work of the drainage plate, and its structure is simple and relates to a leak prevention device of the bridge to improve the productivity.

Description

Bridge leak prevention device {APPARATUS FOR PREVENTING WATER LEAKAGE OF BRIDGE}

The present invention relates to a device for preventing leakage of a bridge, and more particularly, to prevent rainwater and soil from flowing between the slab and the slab of the bridge, and to prevent the leakage of water to the lower part of the slab. The upper part is stably supported by a buried frame installed on both sides of the slab of the bridge, and it is possible to install a drain plate even if a step occurs because the buried positions of the slab and the buried frame buried on both sides of the slab are different, and the drain plate is the main drain plate and the auxiliary drain plate. It is easy to install regardless of the step height of the buried frame embedded in the slab separated from the slab, and it can reduce the working time and cost according to the installation work of the drainage plate, and its structure is simple to prevent leakage of the bridge to improve productivity. It is about.

In general, a bridge is formed of a steel frame structure on the upper part of the pillar after erecting a plurality of pillars, concrete is poured into the steel frame skeleton to form a bridge deck, and the upper surface of the bridge deck is usually coated with asphalt and normal roads It is formed under the same conditions.

The bridge deck has a length change such as an increase or decrease in the length of the deck due to the temperature change that occurs according to the season, the bridge deck is composed of a plurality of slabs to compensate for the expansion phenomenon of the bridge deck And the slab are elastically connected between. Here, the expansion joint is installed between the slab and the slab of the bridge forming the bridge top plate, the lower portion of the expansion joint is not leaked to the lower portion of the slab through the space between the bridge slab and the slab, the outside of the bridge A leak prevention device is installed to drain the water.

In the leak prevention device as described above, the buried frames are embedded in opposite sides of the two bridge slabs while being symmetric with each other. At this time, the pair of buried frame is made of a form in which an insertion space is formed inside one side is opened.

And between the slab and the slab in the insertion space of the buried frame buried on both sides the height of the upper end of both sides is the same play on the horizontal line "U" shaped drainage both ends are inserted into the rainwater and foreign matter flowing between the slab and the slab Drain to the outside of the bridge without entering the teeth or beams.

However, the conventional drainage plate as described above is integrally formed with a portion inserted into the drainage plate body and the inner insertion space of the buried frame, so it is difficult to be installed in the buried frame through the upper and lower portions between the slab and the slab, and takes a long time to install. There has been a problem that causes workability to fall.

And the conventional leak prevention device is formed when the height of the buried frame buried on both sides of the slab and the slab is not the same, that is, when the buried position of the buried frame is different from each other, the upper ends of the two sides are formed with the same height horizontally The drain plate had a problem that can not be installed.

In addition, when the buried frame is installed at different height positions as described above, there is a problem that the entire drainage plate must be manufactured so that the top of both sides of the drain plate is positioned at the same height as the buried frame so as to be inserted into the insertion space of the buried frame. As described above, drain plates having different positions of the upper ends of the two sides are very difficult to be installed in the buried frame.

In order to solve the above problems, the present invention prevents rainwater and earth and sand flowing into the lower part of the slab from the slab and the slab of the bridge, and the upper end of the main drainage plate and the auxiliary drainage plate which can be used semi-permanently, both sides of the slab of the bridge. An object of the present invention is to provide a leak preventing device for a bridge that is stably supported by a buried frame installed in a buried body.

The present invention has another object to provide a bridge leakage preventing device that can install a drain plate even if the step is different from the buried position of the buried frame buried on both sides of the slab and the slab.

In addition, the other purpose of the present invention is that the drain plate is separated into the main drain plate and the auxiliary drain plate, easy to install regardless of the height of the buried frame embedded in the slab, and can reduce the work time and cost according to the installation work of the drain plate, The simple structure is to provide a bridge leakage preventing device that can improve the productivity.

Another object of the present invention is to provide a bridge leakage preventing device, in which a drain plate is separated into a main drain plate and a secondary drain plate, and the drain plate is easily inserted and withdrawn from both sides of the upper and lower parts of the slab and the slab and replaced. have.

In order to achieve the above object, the present invention is a buried frame 200 is provided with a buried frame 200 is provided with an insertion space 210 in the center on both sides between the slab (slab: 100) and the slab of the bridge constituting a predetermined gradient In the leakage preventing device of the bridge is provided with a drain plate 300, both ends are coupled to the insertion space 210 of the buried frame 200,

The drainage plate 300 is provided with a first inclined surface 312 extending inclined upwardly outward at one side upper end of the drainage plate body 311 with both sides protruding upwards, and from the upper end of the first inclined surface 312 to the bottom inward. A main drain plate 310 having a first support plate 313 extending from a lower end thereof to an inner lower end of the insertion space 210 of the one buried frame 200 to support one side of the drain plate main body 311;

An insertion plate 321 is inserted into the other drainage plate main body 311 provided with the first inclined surface 312 of the main drainage plate 310, and is inclined upwardly outward on an upper portion of the insertion plate 321. A second support plate 323 provided with a second inclined surface 322 and extending from the upper end of the second inclined surface 322 to the lower inner side so that the lower end is supported on the inner lower end of the insertion space 210 of the one buried frame 200. It characterized in that it comprises a secondary drainage plate 320 is provided.

The leakage preventing device of the present invention configured as described above prevents rainwater and earth and sand from flowing between the slab and the slab of the bridge to be leaked to the lower part of the slab, and the upper end of the main drainage plate and the auxiliary drainage plate which can be used semi-permanently is the bridge slab. There is an effect that is supported stably to the buried frame installed on both sides.

And the present design has the effect that can be installed drain plate of the leak prevention device even if the step is different from the buried position of the buried frame buried on both sides of the slab and the slab.

In addition, another effect of the present invention is that the drain plate of the leakage preventing device is separated into the main drain plate and the auxiliary drain plate, easy to install regardless of the step height of the buried frame embedded in the slab, and the work time and cost according to the installation work of the drain plate It can be reduced, and its structure is simple, which can improve productivity.

In addition, the present invention has an effect that the drain plate of the leakage preventing device is separated into the main drain plate and the auxiliary drain plate to easily insert and withdraw the drain plate on both sides of the upper and lower parts and the bridge between the slab and the slab.

1 is an exemplary view showing a expansion joint drainage device according to the present invention.
Figure 2 is an exemplary view showing a cross section of the expansion joint drainage device according to the present invention.
Figure 3 is an exemplary view showing an exploded state of the expansion joint drainage device according to the present invention.
Figure 4 is an exemplary view showing a state in which the expansion joint drainage device according to the present invention is inserted between the slab and the slab.
5 is an exemplary view showing a state in which the main drainage plate of the expansion joint drainage device according to the present invention is installed in one of the buried frame.
Figure 6 is an exemplary view showing a state in which the auxiliary drainage plate of the expansion joint drainage device according to the present invention is installed in one buried frame.
7 is an exemplary view showing another embodiment of the expansion joint drainage device according to the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The drainage plate 300 of the present invention is composed of a main drainage plate 310 and an auxiliary drainage plate 320, as shown in FIGS. 1 to 3, and the main drainage plate 310 has a drainage plate body 311 having both sides protruded upwards. The first inclined surface 312 extending inclined upwardly outward at one side of the upper end of the first inclined surface 312 is extended to the inner side from the upper end to the lower end of the insertion space 210 of the buried frame 200 The first support plate 313 is supported on the inner lower end of the support plate to support one side of the drain plate main body 311.

The auxiliary drainage plate 320 is provided with an insertion plate 321 inserted into the other drainage plate body 311 provided with the first slope 312 of the main drainage plate 310, and an upper portion of the insertion plate 321. The second inclined surface 322 extends outwardly upward and is provided at an inner lower end portion of the insertion space 210 of the one side buried frame 200 by extending from the upper end of the second inclined surface 322 to the lower inner side. A second support plate 323 is provided.

As shown in FIG. 4, the drainage plate 300 has both sides in the insertion space 210 of the buried frame 200, which is buried between the slab 100 and the slab 100 of the bridge having a constant upper end. The stages are combined.

At this time, the buried frame 200 is not installed on the slab 100 at the same position on the horizontal line, the step is generated according to the bridge, the buried position is installed differently.

As shown in FIG. 5 in the upper portion between the slab 100 and the slab 100 in which the buried frame 200 is buried differently due to the step as described above, the main drainage plate 310 of the drainage plate 300 first. ) Is transferred downward to one side upper end of the drain plate body 311, the first inclined surface extending inclined upward upward and the first support plate 313 extending inward downward from the upper end of the first inclined surface 312 one side It is inserted into the insertion space 210 inside the buried frame 200.

At this time, the main drainage plate 310 of the drainage plate 300 transfers the drainage plate body 311 downward between the slab 100 and the slab 100 such that the first support plate 313 is positioned in the same way as the one buried frame 200. The first support plate 313 of the main drainage plate 310 transferred downward to be located in the same manner as the buried frame 200 has an insertion space 210 inside the buried frame 200 by elasticity of the drainage plate body 311. The lower end is supported by the lower end of the insertion space 210 inside the buried frame 200 and the drainage plate body 311 is supported by the buried frame 200 and is further lowered between the slab 100 and the slab 100. It is not transported and remains fixed.

In addition, the main drain plate 310 of the drain plate 300 is preferably installed in the buried frame 200 located on the lower portion of the buried frame 200 of the slab 100 is different from each other due to the step.

And after installing the main drainage plate 3100 of the drainage plate 300 on one side of the buried frame 200 as shown in Figure 6 in the upper portion between the slab 100 and the slab 100 as shown in FIG. In the same manner as the main drainage plate 310, the second support plate 323 protruding inwardly downward from the second inclined surface 322 extending inclined upwardly outward to the upper end of the insertion plate 321 is the same position as the buried frame 200. Transfer to the lower part to be.

In this case, the insertion plate 321 of the auxiliary drainage plate 320 is transferred downward between the slab 100 and the slab 100 so as to be inserted into the drainage plate body 311 of the main drainage plate 310, and the second support plate 323. ) Is inserted into the insertion space 210 of the buried frame 200 so that the lower end is supported at the lower end of the inner insertion space 210 of the buried frame 200 and is no longer transported downward between the slab 100 and the slab 100. It remains fixed.

The main drainage plate 310 and the auxiliary drainage plate 310 of the drainage plate 300 inserted into the insertion space 210 of the buried frame 200 and supported by the lower end of the first support plate 313 and the second support plate 323 at the inner lower end thereof. The drainage plate 320 has a first inclined surface 312 provided at one side of the drainage plate body 311 and a second inclined surface 322 provided at the upper end of the insertion plate 321. ) It is located in the middle of the entrance.

The first and second inclined surfaces of the main drainage plate and the auxiliary purchase plate as described above prevent sewage or soil from flowing between the slab 100 and the slab 100 into the inner insertion space 220 of the buried frame 200. At the same time it is induced to flow into the drain plate body 311 of the main drain plate 310.

As described above, the main drainage plate 310 and the auxiliary drainage plate 320 of the drainage plate 300 respectively installed on both side buried frames 200 of the slab 100 are introduced into the sewage 100 or the slab 100 between sewage or earth and sand. A part of the main drainage plate 310 of the drainage plate 300 is introduced into the drainage plate body 311, and sewage or earth and sand flowing along both sides between the slab 100 and the slab 100 is the main drainage plate of the drainage plate 300 ( 310 is introduced into the drainage plate body 311 along the first and second inclined surfaces 312 and 322 respectively provided on the insertion plate 321 of the drainage plate main body 311 and the auxiliary drainage plate 320.

The sewage or earth and sand introduced into the main drainage plate 310 of the drainage plate 300 and the drainage plate body 311 as described above is moved along the drainage plate main body 310 and discharged to the outside of the slab 100, that is, the outside of the bridge. .

In addition, the leak prevention apparatus of the present invention is not shown in Figure 7, so that the step is not generated, even in the buried frame 200 installed in the same position to be symmetrical on both sides between the slab 100 and the slab 100 of the drain plate 300 The main drainage plate 310 and the auxiliary drainage plate 320 can be easily installed and carried out.

Meanwhile, the main drainage plate 310 and the auxiliary drainage plate 320 of the drainage plate 300 may be installed in a buried frame by transferring from the upper portion between the slab 100 and the slab 100 to the lower portion as described above. Though not, the buried frame 200 embedded in both sides of the slab 100 by transferring the main drainage plate 310 and the auxiliary drainage plate 320 of the drainage plate 300 from the bottom between the slab 100 and the slab 100 to the top. The first and second support plates 313 and 323 may be inserted into the first and second support plates 313 and 323.

In addition, the main drainage plate 310 and the auxiliary drainage plate 320 of the drainage plate 300 have first and second support plates 313 and 323 on both sides of the outer side of the slab 100 in the insertion space 210 of the buried frame 200. It can also be transported and installed in a sliding manner.

 On the other hand, the drainage plate 300 as described above is bent in a U-shape by carrying out a metal material such as a stainless steel plate or a copper plate having a certain thickness to maintain its shape while having a certain strength.

And by manufacturing the drainage plate 300 with a metal material of a constant thickness as described above, after the installation in the buried frame 200 between the slab 100 and the slab 100, the load acts due to rain or sand flowing into the interior deformation and Damage and deterioration can be prevented in advance.

In addition, since the drain plate 300 is installed on the bridge does not require frequent replacement or maintenance work, while maintaining and maintaining the entire leak prevention device relatively easy, it is possible to reduce the cost of maintenance.

What has been described above is just one embodiment for implementing a leak-proof device of the replaceable bridge according to the present invention, the present invention is not limited to the above-described embodiment, as claimed in the utility model registration claims below As such, any person having ordinary knowledge in the field to which the present invention pertains may be variously modified and changed without departing from the gist of the present invention.

100: slab
200: buried frame 210: insertion space
300: drain plate
310: main drain plate 311: drain plate main body
312: first inclined plane 313: first support plate
320: auxiliary drain plate 321: insert plate
322: second inclined plane 323: second support plate

Claims (1)

A buried frame 200 having an insertion space 210 in the center is embedded in both sides between the slab 100 and the slab 100 of a bridge constituting a predetermined gradient, the insertion space of the buried frame 200 In the bridge leakage preventing device is provided with a drain plate 300 is coupled to both ends (210),
The drainage plate 300 is provided with a first inclined surface 312 extending inclined upwardly outward at one side upper end of the drainage plate body 311 with both sides protruding upwards, and from the upper end of the first inclined surface 312 to the bottom inward. A main drain plate 310 having a first support plate 313 extending from a lower end thereof to an inner lower end of the insertion space 210 of the one buried frame 200 to support one side of the drain plate main body 311;
An insertion plate 321 is inserted into the other drainage plate main body 311 provided with the first inclined surface 312 of the main drainage plate 310, and is inclined upwardly outward on an upper portion of the insertion plate 321. A second support plate 323 provided with a second inclined surface 322 and extending from the upper end of the second inclined surface 322 to the lower inner side so that the lower end is supported on the inner lower end of the insertion space 210 of the one buried frame 200. ) Is provided with a secondary drainage plate 320, the leak prevention device of the bridge.

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