KR102561226B1 - Bridge Linear Drainage System - Google Patents

Abstract

The present invention relates to a bridge water drainage system for draining water introduced into a bridge to the outside of the bridge, and is installed under a protective wall along the length of the bridge, but rainwater or asphalt (A) flowing along the upper surface of the asphalt (A) of the bridge A longitudinal drainage induction pipe 300 through which the infiltrated water flows into; Doedoe fixed to the bridge from the outside of the bridge, vertical drainage pipe 100 for receiving rainwater or infiltration induced by the longitudinal drainage induction pipe 300 and discharging it to the outside of the bridge; And a connection drain portion for connecting the longitudinal drainage induction pipe 300 and the longitudinal drainage pipe 100 to transfer rainwater or infiltration water flowing into the longitudinal drainage induction pipe 300 to the longitudinal drainage pipe 100, The longitudinal drainage induction pipe 300 provides a path through which the inflowed rainwater or seepage water flows, and a lower partition wall 322 is formed at a position corresponding to the asphalt (A), and the upper end of the lower partition wall 322 is open. It is characterized in that it comprises a formed conduit body (320).

Description

Bridge linear drainage system {Bridge Linear Drainage System}

The present invention relates to a water storage system for bridges, and more particularly, can easily discharge infiltrated water that penetrates into the asphalt formed on a slab of a bridge to extend the life of the asphalt and at the same time reduce noise caused by falling rainwater. It is about a bridge senior water system.

Drainage facilities for draining rainwater and the like are installed on the bridge. Rainwater falling on the asphalt of the bridge is collected by flowing toward the longitudinal drainage pipe on the asphalt, but a significant amount of the rainwater permeates into the asphalt (hereinafter, rainwater that penetrates into the asphalt is referred to as “penetration water”). After the rain stops, the asphalt surface of the bridge dries quickly, whereas the infiltrated water that penetrates into the asphalt accumulates in a specific area or takes a long time to dry, which can reduce the lifespan of the asphalt. Therefore, a technique for installing a separate perforated pipe has been proposed to remove the infiltrate in a short time, but this incurs additional construction costs and often prevents the function of discharging the infiltrate from being properly performed due to foreign substances getting stuck over time. .

Furthermore, the rainwater collected and flowed through the vertical drain induction pipe falls on the vertical drain pipe through the horizontal drain pipe, and at this time, a large noise is generated in the vertical drain pipe due to the drop. In densely populated areas, there are many cases where water supply or commercial facilities are built under bridges, so this noise is also a cause of civil complaints.

In addition, in the construction process of the bridge, especially in the construction of the side protective wall, the conventional bridge water supply system is constructed so that the transverse drainage pipe protrudes from the side of the formwork for forming the side protective wall from the beginning, so it is difficult to install the side protective wall using a machine.

Registered Patent Publication No. 10-1681875 (Announcement date: 2016.12.02.) Registered Patent Publication No. 10-1813621 (Announcement date: 2017.12.29.) Registered Patent Publication No. 10-1088163 (Announcement date: 2011.12.02.)

The present invention is to solve the above-mentioned problems of the prior art, and the object of the present invention is to provide a bridge water supply system that allows the penetration water that has penetrated into the asphalt to be directly collected into the longitudinal drainage pipe without installing a separate perforated pipe. to be

In addition, another object is to provide a bridge water drainage system capable of minimizing noise caused by rainwater even when a large drop occurs due to the height difference between the horizontal drain pipe and the vertical drain pipe due to the structure of the bridge.

Furthermore, in the conventional bridge construction process, another object is to solve the problem that it was difficult to place the protective wall using a machine because the transverse induction drain pipe protrudes out of the formwork for forming the side protective wall.

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The present invention relates to a bridge water drainage system for draining water introduced into a bridge to the outside of the bridge, and is installed under a protective wall along the length of the bridge, but rainwater or asphalt (A) flowing along the upper surface of the asphalt (A) of the bridge A longitudinal drainage induction pipe 300 through which infiltrated water is introduced; Doedoe fixed to the bridge from the outside of the bridge, vertical drainage pipe 100 for receiving rainwater or infiltration induced by the longitudinal drainage induction pipe 300 and discharging it to the outside of the bridge; And a connection drain portion for connecting the longitudinal drainage induction pipe 300 and the longitudinal drainage pipe 100 to transfer rainwater or infiltration water flowing into the longitudinal drainage induction pipe 300 to the longitudinal drainage pipe 100, The longitudinal drainage induction pipe 300 provides a path through which the inflowed rainwater or seepage water flows, and a lower partition wall 322 is formed at a position corresponding to the asphalt (A), and the upper end of the lower partition wall 322 is open. Including the formed conduit body 320, the lower partition wall 322 is formed with a penetration water induction hole 321 through which the penetration water penetrating into the asphalt (A) flows into the conduit body 320, The lower bulkhead 322 is provided with a foreign matter prevention net 330 for preventing foreign substances in the asphalt (A) from flowing into the pipe body 320 through the seepage water induction hole 321, and the pipe body 320 The open portion of the blocking plate 310 is detachably coupled, and the blocking plate 310 prevents foreign substances on the asphalt (A) from flowing into the pipe body 320, but allows only rainwater to pass through the rainwater induction hole 311 ) is formed, the blocking plate 310 includes an upper blocking plate engaging portion 312 and a lower blocking plate engaging portion 313, and the conduit body 320 includes the upper body engaging portion 323 and the lower body Including the hooking part 324, the upper blocking plate hooking part 312 and the lower blocking plate hooking part 313 each include a "L"-shaped structure with an end bent downward, and the upper blocking plate hooking part 313 The end of the plate hooking part 312 is caught on the upper body hooking part 323, and the end of the lower blocking plate hooking part 313 is hooked on the lower body hooking part 324, so that the blocking plate 310 is detached. Possibly attached to the pipe body 320, at the end of the connection drain connected to the longitudinal drain pipe 100, for reducing noise caused by rainwater or infiltration water falling from the connection drain to the longitudinal drain pipe 100 The noise reduction unit 290 is fixedly installed, and the noise reduction unit 290 is formed in a horn-shaped structure with an apex facing the connection drainage unit, so that water falling from the connection drainage unit hits the horn-shaped structure and scatters It is characterized by falling while falling.
Here, "connecting drainage unit" is a conceptual term encompassing all configurations capable of delivering water from the longitudinal drainage induction pipe 300 to the longitudinal drainage pipe 100, and is installed on the side protective wall (S). ) and the collection unit 500 installed around the central separation barrier (C).
The connection drainage unit may include a transverse drain pipe 230 for guiding rainwater or infiltration water introduced into the longitudinal drainage induction pipe 300 to the outside of the side protective wall S of the bridge and sending it to the longitudinal drainage pipe 100. , The transverse drainage pipe 230 is a transverse drainage induction pipe 231 extending from the longitudinal drainage induction pipe 300 to the outer wall of the side protection wall (S) of the bridge; And one end is connected to the end of the drain induction pipe 231, but the other end includes a drain connector 233 leading to the vertical drain pipe 100.

In addition, the horizontal drainage induction pipe 330 includes an expansion pipe 232 so that the horizontal drainage connector 233 can be inserted, and the expansion pipe bracket 234 formed on the outer circumferential surface of the expansion pipe 232 is expanded It can be fixed to the outer wall of the side protection wall (S) by the pipe fastening means (235).

The connection drain unit includes a seepage water induction pipe 410 for guiding rainwater or seepage water introduced into the longitudinal drainage induction pipe 300 to the lower part of the slab D of the bridge and sending it to the longitudinal drainage pipe 100, One end of the infiltrate induction pipe 410 is connected to the longitudinal drainage induction pipe 300 fixedly installed at the lower part of the central separation protection wall (C), and the other end is connected to the longitudinal drainage pipe 100.

Finally, the connection drainage unit includes a water collection unit 500 for guiding rainwater flowing over the asphalt (A) to the vertical drain pipe 100, and the water collection unit 500 is It is formed as a conduit passing through (D) in the vertical direction, and the upper end is connected to the upper surface of the asphalt (A), and the rainwater or infiltration water flowing into the longitudinal drainage induction pipe 100 passes through the water collector 500. It is characterized in that it flows through to the longitudinal drain pipe (100).

In the present invention, even if a separate perforated pipe is not formed, since the infiltrate permeated into the asphalt is naturally guided to the longitudinal drainage guide pipe 300, construction cost and time can be saved.

Furthermore, by installing the noise reduction unit 290 at the end of the connecting pipe such as the cross drain pipe 230 or the water collector 500, it is possible to reduce It is possible to reduce the noise generated when water hits the vertical drain pipe 100.

In addition, in constructing the transverse drainage pipe 230 and the side protective wall (S), in the formwork process for forming the side protective wall (S), the transverse drainage induction pipe 231 and the transverse drainage connector 233 are separated, , By allowing the horizontal drainage connector 233 to be coupled to the horizontal drainage induction pipe 231 after the side protective wall (S) is completed, it is possible to increase the efficiency of the construction work by enabling mechanical construction.

1 shows a bridge senior water supply system according to the prior art.
2 shows the overall configuration of the bridge water supply system according to the present invention.
Figure 3 shows the side of the side protection wall (S) of the bridge.
Figure 4 shows the configuration of the horizontal drain and the longitudinal drain pipe.
5 shows the configuration of the end of the drain guide pipe.
Figure 6 shows a state in which the longitudinal drain pipe is fixed to the outside of the side protective wall by the longitudinal drain pipe fixture.
7 and 8 show the configuration of the longitudinal drainage guide pipe.
9 is a plan view of a central separation barrier viewed from above.
10 shows a configuration in which a seepage water guide pipe is installed in a central separation barrier.
11 shows a configuration in which a water collection unit is installed in a central separation barrier.

Hereinafter, the configuration of the bridge water supply system 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 merely exemplified for the purpose of explaining embodiments according to the concept of the present invention, and 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 in this specification, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

Figure 2 shows a cross section of a bridge equipped with a bridge water supply system according to the present invention. Asphalt (A) is applied on a slab (D), which is a plate-like structure forming the lower part of the bridge, and a central separation protection wall (C) is formed in the center of the bridge, and side protection walls (S) are formed on both sides of the bridge. .

At the bottom of the central separation protection wall (C) and the side protection wall (S), a longitudinal drainage guide pipe 300 is installed along the length of the bridge, rainwater flowing along the upper surface of the asphalt (A) or dug into the inside of the asphalt (A). Infiltration water is collected in the longitudinal drainage induction pipe 300 and flows along the longitudinal drainage induction pipe 300. A longitudinal drainage pipe 100 is installed on the lower side of the slab D of the bridge along the longitudinal direction of the bridge. It is collected in the vertical drain pipe 100 through and discharged to the outside of the bridge.

3 shows a side view of a bridge. At the lower end of the side protection wall (S), the longitudinal drain pipe 100 extending in the longitudinal direction of the bridge is supported and installed by the longitudinal drain pipe support 110 fixed to the bridge structure at regular intervals. In addition, transverse drains 200 are provided at regular intervals along the longitudinal direction of the vertical drain pipe 100 .

FIG. 4 shows the transverse part 200 provided on the side protection wall (S). On the lower side of the side protection wall (S), a longitudinal drainage guide pipe 300 is provided in the longitudinal direction of the bridge, and rainwater flowing along the upper surface of the asphalt (A) or infiltration water that has penetrated into the asphalt (A) is induced and flows. The rainwater or infiltration water induced in the vertical drain induction pipe 300 passes through the side protection wall (S) and flows along the transverse drain pipe 230 connected to the outside of the bridge, They gather and flow along the longitudinal drain pipe 100. The longitudinal drainage pipe 100 is fixedly installed on the bridge by the longitudinal drainage pipe fixture 110 fixedly installed on the outside of the bridge.

Preferably, the transverse drain pipe 230 includes a transverse drain guide pipe 231 and a transverse drain connector 233 as shown in FIG. 4 . The transverse drainage induction pipe 231 is a pipe that extends from the longitudinal drainage induction pipe 300 to the bridge concrete structure, and the end thereof includes an expansion pipe 232 having a larger diameter, and is bent outside the expansion pipe 232. The pipe bracket 234 is fixed to the outer wall of the protective wall C of the bridge by a pipe expansion fastening means 235 such as an anchor. The side protection wall (C) is a reinforced concrete structure, and there are reinforced structures (B) formed therein at regular intervals in the longitudinal direction. The transverse drainage guide pipe 231 may be formed at regular intervals along the longitudinal direction of the side protective wall (C), preferably avoiding the position where the reinforcing steel structure (B) is formed so that it can be connected to the longitudinal drainage guide pipe 300 can be adjusted

In addition, the horizontal drainage connector 233 has a smaller diameter than the expansion pipe 232 and is formed in a size that can be inserted into the expansion pipe 232, and the water flowing through the horizontal drainage induction pipe 231 ) plays a role in transmitting Preferably, the noise reduction unit 290 may be installed at the longitudinal end of the transverse drain connector 233, due to the height difference between the longitudinal end of the transverse drain connector 233 and the vertical drain pipe 100 This is to reduce noise generated when water falling from the connection pipe 233 collides with the vertical drain pipe 100. The noise reduction unit 290 is a horn-shaped structure (a concept including both cones and pyramids), and since the water falling from the drain connector 233 hits the horn-shaped structure and falls while being scattered in all directions, In addition to reducing noise compared to the prior art in which a large amount of water falls intensively in the place, it is possible to increase the lifespan of the vertical drain pipe 100 structure.

Looking at the construction process, in the process of manufacturing the side protective wall (S) of the bridge, the longitudinal drainage guide pipe 300 is fixed to the steel structure (B) of the side protective wall (S) (step 1), and a plurality of transverse drainage guide pipes ( 231) is fastened to the longitudinal drainage guide pipe 300 at predetermined intervals (second process). At this time, the horizontal drainage induction pipe 231 is installed in a state separated from the horizontal drainage connector 233, and the interval between the horizontal drainage induction pipes 231 is gradually increased so as not to cause interference with the reinforcing bar structure (B). can be adjusted After the horizontal drainage guide pipe 231 is installed, a formwork forming the outer shape of the side protective wall (S) is formed around the reinforcing bar structure (B), and mortar is poured (third process). Thereafter, the pipe expansion bracket 234 formed at the end of the drain guide pipe 231 is fixed to the outer surface of the side protection wall S formed by mortar using the pipe expansion fastening means 235 (fourth process). Thereafter, the vertical drainage pipe 100 is fixed by the longitudinal drainage pipe fixture 110 around the side protective wall (S) (step 5), and the horizontal drainage connector 233 is installed at the end of the horizontal drainage induction pipe 231. It is installed by being inserted into the pipe part 232 (step 6). If necessary, a noise reduction unit 290 may be installed at the end of the drain connector 233 (7th process).

Figure 6 shows a configuration in which the vertical drainage pipe 100 is supported on the bridge where the horizontal drainage portion 200 is not formed. The vertical drain pipe fixture 110 is fixedly installed at the lower end of the side protection wall S, and the vertical drain pipe fixture 110 supports the vertical drain pipe 100 again, so that the vertical drain pipe 100 can be fixedly installed on the bridge.

7 and 8 show the longitudinal drainage guide pipe 300. The longitudinal drainage induction pipe 300 is installed in the longitudinal direction of the bridge at the lower end of the side protection wall (S) or the central separation protection wall (C) and is an element for inducing rainwater flowing along the upper surface of the asphalt (A). The longitudinal drainage induction pipe 300 according to the present invention includes a conduit body 320 providing a path for induced rainwater to flow, and a penetration water induction hole 321 is formed in the lower partition wall 322 in contact with the asphalt (A). is formed The penetration water 321 penetrating into the asphalt through the penetration water guide hole 321 may be guided into the pipe body 320 . Preferably, a foreign matter prevention net 330 in the form of a mesh is installed in front of the lower bulkhead 322 so that foreign matter present in the asphalt (A) passes through the infiltration water induction hole 321 and flows into the pipe body 320 can prevent In another method, even if the foreign matter prevention net 330 is not separately provided, it is possible to prevent foreign matter from being introduced into the pipe body 320 by adjusting the size of the permeate guide hole 321 itself to be small.

Since the upper end of the conduit body 320 is open, running water flowing along the upper surface of the asphalt (A) can naturally flow in. In order to prevent foreign substances on the upper surface of the asphalt (A) from being introduced into the pipe body 320, a blocking plate 310 having a rainwater induction hole 311 may be detachably installed. An upper blocking plate engaging portion 312 and a lower blocking plate engaging portion 313, which are bent structures, are formed on the upper and lower portions of the blocking plate 310, respectively, and the upper body engaging portion 323 formed on the conduit body 320, respectively. ) and the lower body hanging part 324, the blocking plate 310 can be mounted on the top opening of the conduit body 320.

9 is a plan view of the central separation protection wall (C) viewed from above. A longitudinal drainage guide pipe 300 is installed along the central separation protection wall C, and a water collecting unit 500 is connected to the longitudinal drainage guide pipe 300 at regular intervals. And between the adjacent longitudinal drainage induction pipes 300, the seepage water induction pipe 410 is connected to the longitudinal drainage induction pipe 300.

10 shows a state in which the longitudinal drainage guide pipe 300 is installed in the central separation protective wall (C). The longitudinal drain pipe 100 is fixed to the lower end of the slab (D) by the longitudinal drain pipe fixture 110. One end of the infiltrate induction pipe 300 is connected to the longitudinal drainage induction pipe 300 and continues to the longitudinal drainage pipe 100. Therefore, the infiltration water induced into the longitudinal drainage induction pipe 300 flows into the longitudinal drainage pipe 100 through the infiltration water induction pipe 300.

11 shows a state in which the water collection unit 500 is installed in the central separation protection wall (C). The water collector 500 is a pipe-shaped structure extending vertically, and the upper end is connected to the upper surface of the asphalt (A), and the lower end is connected to the vertical drain pipe 100, so that rainwater flowing along the asphalt (A) is directly connected to the vertical drain pipe. It flows into (100). Preferably, a water collector foreign matter prevention net 510 may be provided at an upper end of the water collector 500 to prevent foreign substances on the asphalt (A) from entering. In addition, the water collector 500 and the longitudinal drainage induction pipe 300 are connected by the infiltration water induction pipe 410, so that the infiltration water induced in the longitudinal drainage induction pipe 300 is transmitted through the infiltration water induction pipe 410 and the house. It flows into the vertical drain pipe 100 through the water part 500. Since a relatively large amount of water flows into the vertical drain pipe 100 through the water collector 500 in case of rain, a noise reduction unit 290 may be installed at a lower end of the water collector 500 to reduce noise. Since the noise reduction unit 290 has been described above, additional description will be omitted.

100: longitudinal drain pipe 110: longitudinal drain pipe fixture
200: horizontal drain 230: horizontal drain
231: transverse drainage guide pipe 232: expansion pipe
233: transverse drainage connector 234: expansion pipe bracket
235: expansion part fastening means
290: noise reduction unit
300: longitudinal drainage induction pipe 310: blocking plate
311: excellent guide hole 312: upper blocking plate hooking part
313: lower blocking plate locking part
320: pipe body
322: lower bulkhead 323: upper body hook
324: lower body hooking part 321: penetration water guide hole
330: foreign matter prevention net
410: infiltrate guide pipe 500: water collector
510: catchment foreign matter prevention net
S: side barriers C: central separation barriers
A: Asphalt D: Slab
B: rebar structure

Claims (11)

It relates to a bridge water supply system for draining water introduced into the bridge to the outside of the bridge,
A vertical drainage guide pipe 300 installed at the bottom of the protective wall along the length of the bridge and into which rainwater flowing along the upper surface of the asphalt (A) of the bridge or infiltrated water penetrating into the asphalt (A) flows;
Doedoe fixed to the bridge from the outside of the bridge, vertical drainage pipe 100 for receiving rainwater or infiltration induced by the longitudinal drainage induction pipe 300 and discharging it to the outside of the bridge; and
Including a connection drainage portion that connects the longitudinal drainage induction pipe 300 and the longitudinal drainage pipe 100 to transfer rainwater or infiltration water flowing into the longitudinal drainage induction pipe 300 to the longitudinal drainage pipe 100,
The longitudinal drainage induction pipe 300 provides a path through which the inflowed rainwater or seepage water flows, and a lower partition wall 322 is formed at a position corresponding to the asphalt (A), and the upper end of the lower partition wall 322 is open. Including the formed conduit body 320,
A penetration water guide hole 321 is formed in the lower bulkhead 322 so that the penetration water penetrating into the asphalt (A) flows into the pipe body 320,
The lower bulkhead 322 is provided with a foreign matter prevention net 330 for preventing foreign substances in the asphalt (A) from flowing into the pipe body 320 through the penetration water induction hole 321,
The open portion of the conduit body 320 is detachably coupled to the blocking plate 310, and the blocking plate 310 prevents foreign substances on the asphalt (A) from entering the conduit body 320, but only rainwater. An excellent guide hole 311 passing through is formed,
The blocking plate 310 includes an upper blocking plate engaging portion 312 and a lower blocking plate engaging portion 313, and the conduit body 320 includes an upper body engaging portion 323 and a lower body engaging portion 324 Including,
Each of the upper blocking plate engaging portion 312 and the lower blocking plate engaging portion 313 includes a "L"-shaped structure with ends bent downward,
The end of the upper blocking plate hooking part 312 is hooked on the upper body hooking part 323, and the lower end of the lower blocking plate hooking part 313 is hooked on the lower body hooking part 324, so that the blocking plate 310 ) is detachably attached to the pipe body 320,
At the end of the connection drain connected to the vertical drain pipe 100, a noise reduction unit 290 is fixedly installed to reduce noise caused by rainwater or infiltration water falling from the connection drain to the vertical drain pipe 100. The noise reduction unit 290 is formed as a horn-shaped structure whose apex faces the connection drainage unit, so that water falling from the connection drainage unit collides with the horn-shaped structure and falls,
The connection drainage unit includes a transverse drainage pipe 230 for guiding rainwater or infiltration water introduced into the longitudinal drainage induction pipe 300 to the outside of the side protective wall (S) of the bridge and sending it to the longitudinal drainage pipe 100, The transverse drainage pipe 230 is a transverse drainage induction pipe 231 extending from the longitudinal drainage induction pipe 300 to the outer wall of the side protective wall (S) of the bridge; And one end is connected to the end of the drain induction pipe 231, but the other end includes a drain connector 233 extending to the vertical drain pipe 100,
The horizontal drainage induction pipe 330 includes an expansion pipe 232 so that the drainage connection pipe 233 can be inserted, and the expansion pipe bracket 234 formed on the outer circumferential surface of the expansion pipe 232 is the expansion part Bridge water supply system, characterized in that fixed to the outer wall of the side protection wall (S) by the fastening means (235).
delete delete delete delete delete delete delete delete The method according to claim 1, wherein the connection drainage unit guides the rainwater or seepage water introduced into the longitudinal drainage guide pipe 300 to the lower part of the slab D of the bridge and sends it to the longitudinal drainage pipe 100. Including,
One end of the seepage water induction pipe 410 is connected to the longitudinal drainage induction pipe 300 fixedly installed at the bottom of the central separation protection wall (C), and the other end is connected to the longitudinal drainage pipe 100, characterized in that the bridge senior number system.
The method according to claim 1, wherein the connection drainage unit includes a water collection unit 500 for guiding rainwater flowing over the asphalt (A) to the vertical drainage pipe 100,
The water collector 500 is formed as a conduit passing through the asphalt (A) and the slab (D) in a vertical direction, and the upper end is connected to the upper surface of the asphalt (A),
Rainwater or infiltration water introduced into the longitudinal drainage induction pipe (100) flows through the water collection unit (500) to the longitudinal drainage pipe (100).