KR102027469B1 - Drain pipeline system useful in a bridge - Google Patents

Abstract

The present invention relates to a drain pipeline system useful in a bridge to drain rainwater of the bridge by being installed in the bridge, which comprises: an upper plate water collection unit embedded in an upper plate of the bridge; a protection water collection unit vertically connected to the upper plate water collection unit and embedded in a protection wall of the bridge; a pipeline drain unit connected to the upper plate water collection unit and embedded in the upper plate; and a discharge pipe connected to the protection water collection unit and configured to penetrate through the protection wall. The upper plate water collection unit and the protection water collection unit are integrated for the inside thereof to communicate with each other, and are arranged along a longitudinal direction of the bridge. Moreover, the pipeline drain unit may connect adjacent upper plate water collection units.

Description

Drain pipeline system useful in a bridge

The present invention relates to a bridge line drainage system.

Bridges are structures that span rivers, valleys, and so on. These bridges are formed of a top plate on which a vehicle such as a vehicle can travel, a barrier formed at the edge of the top plate to prevent a fall, and a bridge supporting the top plate. The top plate is equipped with a drainage system for draining dirt and rainwater.

The drainage system includes a catchment portion disposed at an edge of the upper plate and penetrating the upper plate in the vertical direction, and a drain pipe disposed under the upper plate and connected to the collecting portion penetrating the upper plate. Here, the collecting parts are arranged along the length direction of the upper plate, and the drain pipe connects the arranged collecting parts. The rainwater from the top plate is introduced into the water collecting part and drained to the river through the drain pipe.

However, in order to install the collecting part on the upper plate, a hole through which the collecting part penetrates must be formed in the upper plate, and the reinforcing bar disposed inside the upper plate is damaged during the hole forming process. Damage to the rebar caused the collapse of the top plate due to vibrations and loads generated by the transportation of the vehicle.

In addition, as rainwater, litter, trash, and sand, which flowed along with rainwater, accumulated in the water collecting portion and the drain pipe, the water collecting portion and the drain pipe had to be periodically cleaned. At this time, the inconvenience of having to separate the drain pipe occurred.

Accordingly, a line drainage system in which line drainage portions are continuously installed along the top plate edge has been proposed. The line drainage system includes a line drainage part which is continuously installed along the upper plate and is formed in a tubular shape, and is disposed outside the upper plate to discharge the sewage introduced through the line drainage to the river, the ground, and the like.

The line drain is embedded in the top plate or the barrier wall. In addition, a discharge pipe connecting the line drainage part and the discharge passage is buried inside the barrier. Although the line drain is disposed along the top plate, it is easy to clean, but the line drain is separated from the top plate or the protective wall by the vibration applied to the top plate while the vehicle is traveling on the top plate. As a result, maintenance costs increased and reliability was lowered.

In addition, since the discharge pipe is connected to the line drainage with a smaller cross-sectional area than the line drainage, rainwater that has suddenly flowed from the top plate into the line drainage did not flow smoothly into the discharge line. As the rainwater flowing into the line drainage overflowed, the rainwater accumulated on the top plate.

Registered Patent No. 10-1088163 (2011.11.23.) Registered Patent No. 10-0889995 (2009.03.16.)

The present invention provides a bridge line drainage system with a high drainage capacity of the bridge.

Bridge line drainage system according to an embodiment of the present invention, which is installed in the bridge to drain the rainwater of the bridge, the upper plate collecting portion that can be embedded in the upper plate of the bridge, the upper plate collecting portion is connected perpendicular to the A protection catchment part that can be embedded in a barrier of the bridge, a line drainage part connected to the upper plate catchment part and embedded in the upper plate, and a discharge pipe that is connected to the protection catchment part and penetrates the barrier wall. .

The upper plate collecting portion and the protective collecting portion are integrally coupled to each other so as to communicate with each other, and are arranged along the longitudinal direction of the bridge, and the line drain portion may connect a neighboring upper collecting portion.

The upper plate collecting unit may be formed in the upper plate collecting space, and a flow passage may be formed in the line draining unit.

The volume of the upper plate collecting space may be greater than the volume of the flow passage based on the same length.

The protective collecting part may be formed in a protective collecting space, and a flow passage may be formed in the line draining part.

The volume of the protective water collecting space may be greater than that of the flow passage based on the same length of the protective water collecting portion and the line draining portion.

The upper plate collecting part may include an upper plate collecting body which may be embedded in the upper plate and has an upper plate collecting space formed therein, and an opening formed on an upper surface of the upper plate collecting body and having a plurality of inflow holes formed therein. .

Connection holes connected to the line drainage portions may be formed at both sides of the upper plate collecting body.

The upper plate collecting part may further include a stepped part disposed along the periphery of the opening in the upper plate collecting space and supporting an edge of the cover.

The line drain portion may be inclined in the direction of the upper plate collecting portion, and a bottom of the flow passage of the line drain portion may be positioned above the bottom of the upper plate collecting space.

The bridge line drainage system may be disposed in the upper plate collecting portion, and may further include a display unit which may be erected when rainwater is accumulated in the upper collecting space of the upper collecting portion.

The display unit may include a flag pole disposed to rotate about the tip of the upper plate collecting unit, a measuring member disposed inside the upper plate collecting unit and capable of lifting, a buffer member for supporting the measuring member, and the measuring member; It may include a rope connecting the flagpole.

The flagpole is rotated with respect to the front end by the measuring member is lowered to stand in the upper plate collecting portion can achieve a state perpendicular to the upper surface of the upper plate collecting portion.

A seating groove in which the flagpole is positioned is formed on an upper surface of the upper plate collecting part, and the flagpole may be erected by rotating relative to the tip in a state in which the flagpole is located.

According to an embodiment of the present invention, the rainwater flowing through the flow passage is introduced into the upper plate collecting space is discharged to the discharge pipe. At this time, the rainwater is not discharged from the flow channel to the discharge pipe, but is drained from the top collecting space having a larger volume than the flow path, so when the rainwater is discharged into the discharge pipe, the rainwater flow does not overflow to the top plate through the line drain cover inlet hole. This overflow can prevent problems with the rain on the top plate.

According to an embodiment of the present invention, the upper plate catching portion and the line draining portion are buried in the edge of the upper plate, and the protective catching portion connected to the upper collecting portion is embedded in the barrier wall so that the line drainage system can be stably fixed to the bridge. have. Thus, even if the top collecting portion and the line draining portion are separated from the upper plate, the protective collecting portion is coupled to the protective wall 1b, so that the upper collecting portion and the line draining portion are not lifted. In addition, even if the guard catcher is separated from the barrier 1b, the guard catcher is not lifted from the barrier by the upper plate catcher and the line drainer.

According to an embodiment of the present invention, the bridge manager can recognize that rainwater is not drained from the catchment unit through the flagpole, and check the catchment unit to remove accumulated dirt. As the catchment block is blocked, rainwater cannot be drained quickly, so rainwater does not accumulate on the top plate.

1 is a bridge line drainage system installation state in accordance with an embodiment of the present invention.
2 is a perspective view of the bridge line drainage system of FIG.
3 is a plan view of FIG.
4 is an enlarged view of a portion A of FIG. 3;
5 is a schematic view showing an open state of the grating of FIG.
6 is a side view of FIG. 1;
FIG. 7 is an enlarged view of a portion B of FIG. 6; FIG.
8 is a schematic view showing a bridge line drainage system according to another embodiment of the present invention.
9 is a cross-sectional view taken along the line VII-VII of FIG. 8;
FIG. 10 is an enlarged view of a portion B of FIG. 9; FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Like parts are designated by like reference numerals throughout the specification.

Next, a bridge line drainage system according to an embodiment of the present invention will be described with reference to FIGS. 1 to 7.

1 is a diagram illustrating a bridge line drainage system installation according to an embodiment of the present invention, FIG. 2 is a perspective view illustrating the bridge line drainage system of FIG. 1, FIG. 3 is a plan view of FIG. 2, and FIG. 4 is A of FIG. 3. It is a partial enlarged view, FIG. 5 is a schematic diagram which shows the grating of FIG. 2 opened, FIG. 6 is a side view of FIG. 1, FIG.

1 to 7, the bridge line drainage system 100 according to the present embodiment includes a top plate collecting portion 10, a protective collecting portion 20, a line draining portion 60, and a discharge pipe 30. It is installed in the bridge (1) to increase the drainage capacity of the bridge (1).

The upper plate collecting portion 10 and the protective collecting portion 20 have a predetermined width. The protective catcher 20 is located at one side of the upper plate catcher 10 and is vertically coupled to the upper direction Z. An upper plate collecting space 11a is formed inside the upper plate collecting unit 10, and a protecting collecting space 20b is formed inside the protecting collecting unit 20. The upper plate collecting space 11a and the protective collecting space 20b communicate with each other, and the upper collecting space 11a and the protective collecting space 20b each have a predetermined volume.

The upper plate collecting part 10 includes a upper plate collecting body 11 and a cover 12 and is embedded at the edge of the upper plate 1a to allow sewage of the upper plate 1a to flow therein. The upper surface of the upper plate collecting portion 10 is located below the surface of the upper plate 1a.

The upper plate collecting body 11 has an opening 11b connected to the upper plate collecting space 11a. A seating jaw 111 protruding toward the center of the opening hole 11b is formed around the opening hole 11b. The seating jaw 111 is located in the upper plate collecting space 11a.

Connection holes 11c for connecting the upper plate collecting space 11a to the outside are formed at both left and right sides of the upper plate collecting body 11.

The lid 12 is located in the opening hole 11b, and the lower edge thereof is supported by the seating jaw 111. One side of the cover 12 is hingedly connected to the upper surface of the upper surface of the collecting body (11). The cover 12 is formed with a plurality of cover inflow holes 12a. Rainwater of the upper plate (1a) may be introduced into the upper plate collecting space (11a) through the cover inlet hole (12a). When dirt is accumulated in the upper collecting space 11a, the cover 12 may be opened to remove dirt. On the other hand, the cover 12 may be a mesh for preventing the inflow of dirt and the like into the upper plate collecting space (11a) through the cover inlet hole (12a).

The protective collecting part 20 may be embedded in the protective wall 1b. The front surface of the protective water collecting portion 20 may coincide with the surface of the protective wall 1b. A protective inflow hole 20a connected to the protective collection space 20b is formed on the front surface of the protective collection portion 20. Rainwater of the upper plate (1a) may be introduced into the protective water collecting space (20b) through the protective inlet hole (20a). In the protective water collecting unit 20, a mesh may be disposed to prevent the inflow of dirt into the protective water collecting space 20b through the protective inflow hole 20a.

The discharge pipe 30 connected to the protective collection space 20b is formed on the rear surface of the protective collection portion 20. The discharge pipe 30 may be connected to the discharge passage 50 disposed on the side of the upper plate 1a through the connection pipe 40.

Rainwater introduced into the upper plate collecting space 11a and the protective collecting space 20b may be drained to the discharge passage 50 through the discharge pipe 30.

The upper plate collecting portion 10 and the protective collecting portion 20 may be disposed at intervals along the bridge length direction X, and the line drain portion 60 connects the adjacent upper plate collecting portion 10 to each other.

The line drainage part 60 includes a line drainage body 61 and a line drainage cover 62 and may be embedded at the edge of the upper plate 1a.

The line drain body 61 and the line drain cover 62 have a predetermined length. This length varies depending on the spacing of the adjacent upper plate catchers 10.

The upper surface of the line drain body 61 is open and the flow passage 61a is formed in the longitudinal direction X. Both ends of the line drain body 61 are located in the connecting hole 11c and are supported by the upper plate collecting portion 10. The flow passage 61a is connected to the upper plate collecting space 11a. The line drainage body 61 is inclined toward the upper plate collecting portion 10 with respect to the center thereof. Here, the bottom of the flow passage 61a is located higher than the bottom of the upper collecting space 11a.

The line drain cover 62 is located in the flow passage 61a, and the line drain cover inlet hole 62a is formed. The line drain cover inflow hole 62a is formed in plurality at intervals along the longitudinal direction X of the line drain cover 62. The rainwater of the upper plate 1a is introduced into the flow passage 61a through the line drain cover inlet hole 62a and flows from the flow passage 61a to the upper plate collecting space 11a. The rainwater of the flow passage (61a) can be discharged by joining the rainwater and the upper plate collecting space (11a) introduced through the cover inlet hole (12a).

On the other hand, when the volume of the upper plate collecting space 11a and the flow passage 61a is compared with the upper plate collecting portion 10 and the line drainage portion 60 based on the same length, the volume of the upper plate collecting space 11a flows. It is larger than the volume of the flow path 61a. In addition, when comparing the volumes of the protective collection space 20b and the flow passage 61a with the protective collection portion 20 and the line drainage portion 60 based on the same length, the volume of the protective collection space 20b flows. It is larger than the volume of the flow path 61a.

Thus, the rainwater flowing through the flow passage 61a flows into the upper plate collecting space 11a and is discharged into the discharge pipe 30. At this time, because the rainwater is not discharged from the flow passage (61a) to the discharge pipe (30) and drained from the upper plate collecting space (11a) having a larger volume than the flow passage (61a) when the rainwater is discharged to the discharge pipe 30, the flow passage (61a) The rainwater does not overflow to the top plate 1a through the line drain cover inlet hole 62a.

The upper plate collecting portion 10 and the line draining portion 60 are embedded at the edge of the upper plate 1a, and the protective collecting portion 20 connected to the upper collecting portion 10 is embedded in the protective wall 1b. The line drainage system 100 may be stably fixed to the bridge. Thus, even if the upper plate catcher 10 and the line drainer 60 are separated from the upper plate 1a, the protective catcher 20 is coupled to the protective wall 1b so that the upper plate catcher 10 and the line drainer 60 are Does not float. In addition, even if the protective water collecting portion 20 is separated from the protective wall 1b, the protective water collecting portion 20 is not lifted from the protective wall 1b by the upper plate collecting portion 10 and the line drainage portion 60.

Next, a bridge line drainage system 1 according to another embodiment of the present invention will be described with reference to FIGS. 8 to 10.

8 is a schematic view showing a bridge line drainage system according to another embodiment of the present invention, FIG. 9 is a cross-sectional view taken along the line VII-VII of FIG. 8, and FIG. 10 is an enlarged view of portion B of FIG. 9.

8 to 10, the bridge line drainage system 2 according to the present embodiment further includes a display unit 70 while still including the components of the embodiment described with reference to FIGS. 1 to 7.

The display unit 70 includes a flagpole 71, a measuring member 72, a buffer member 73, and a rope 76. The dirt is built up in the upper collecting space 11a so that the rainwater is not drained, and the rainwater is drained. Notify the administrator that it is not.

A seating groove 11d is formed at a predetermined depth in the upper right portion of the upper surface collecting body 11. The mounting groove 11d is formed along the width direction Y of the upper plate collecting body 11.

The flagpole 71 has a predetermined length and is disposed in the seating groove 11d. The front part of the upper collecting body 11 and the tip portion of the flagpole 71 adjacent to each other are connected to the upper collecting body 11 by a hinge. The flagpole 71 can move relative to the hinge. On the other hand, the surface of the flagpole 71 may be attached with a reflective sheet or a fluorescent material.

The measuring member 72 has a predetermined width and is disposed in the upper plate collecting space 11a. Dirt introduced into the upper plate collecting space 11a may be positioned on the measuring member 72.

The buffer member 73 is disposed at the bottom of the upper plate collecting space 11a to support the measuring member 72. The buffer member 73 supports the measurement member 72 away from the bottom of the upper plate collecting space 11a. When dirt is accumulated in the measuring member 72 and the weight increases, the buffer member 73 may be compressed, and the measuring member 72 may move in the bottom direction of the upper collecting space 11a. That is, the measuring member 72 can be lowered by the weight of the dirt.

The rope 76 has a predetermined length, one side is connected to the measuring member 72 and the other side is connected to the tip portion of the flagpole 71 through the upper surface of the upper collecting body 11. When the measuring member 72 is lowered, the rope 76 may pull the flagpole 71, and the flagpole 71 may be raised by moving relative to the hinge.

The bridge manager can recognize that rainwater is not drained from the corresponding catchment through the flagpole 71 that is erected, and check the catchment to remove the accumulated dirt. As the catchment block is blocked, rainwater cannot be drained quickly, so rainwater does not accumulate on the top plate.

Many of the features described in the embodiment illustrated in FIGS. 1 to 7 may be applied to the present embodiment.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1: bridge 1a: tops
1b: Firewall
100: bridge line drainage system
10: top water collecting unit 11: top water collecting body
11a: Top collecting space 11b: Opening hole
11c: connecting hole 11d: seating groove
111: mounting jaw 12: cover
12a: cover inlet hole 20: protective collecting part
20a: protective catchment space 20b: protective inlet hole
30: discharge pipe 40: connector
50: discharge path 60: line drain
61: line drainage body 61a: flow path
62: line drain cover 62a: line drain cover inlet hole
70: display part 71: flagpole
72: measuring member 73: buffer member
74: rope

Claims (9)

delete delete delete delete delete delete In being installed in bridge and draining storm of bridge,
The top plate collecting part may be embedded in the top plate of the bridge and the rainwater of the top plate may be introduced into
A protection catcher located at one side of the upper catchment part and connected vertically to the upper catchment part and buried in a protection wall of the bridge, and a protective catchment space into which sewage of the upper plate is introduced;
A line drain connected to the upper plate collecting part and communicating with the upper plate collecting part and embedded in the upper plate;
A discharge pipe connected to the protection catchment unit and in communication with the protection catchment space and penetrating the protection wall;
The display unit is disposed in the upper collecting portion, and may be erected if rainwater is accumulated in the upper collecting space of the upper collecting portion and the rainwater is not drained.
Including;
The display unit,
Flagpole arranged to rotate based on the tip of the upper collecting portion,
A measuring member disposed in the upper plate collecting part and capable of lifting and lowering,
A buffer member for supporting the measurement member;
Rope connecting the measuring member and the flagpole
Including;
The flagpole is rotated with respect to one side as the measuring member is lowered to stand in the upper plate collecting part to form a state perpendicular to the upper surface of the upper plate collecting part.
Bridge line drainage system. delete In claim 7,
The upper surface of the upper plate collecting portion is formed with a seating groove in which the flagpole is located, the flagpole is a bridge line drainage system that is rotated and erected with respect to one side in a state located in the seating groove.

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