KR101715701B1 - Drainage system for bridge - Google Patents

Abstract

The present invention relates to a draining system of a bridge, comprising: an upper draining road installed in one side of an upper plate of the bridge, formed long in one direction, and having a lower surface penetrated by an upper draining hole; a cover connected to the upper draining road, closing an upper surface of the upper draining road, having one surface penetrated by a plurality of water collecting holes; a draining pipe arranged as penetrating the upper plate of the bridge, having one end connected to the draining hole of the draining road, thus guiding rainwater collected on the upper draining road to be discharged; a lower draining road connected to a side of the bridge, receiving the rainwater discharged through and falling down from the draining pipe; and a supporting portion connected to the side of the bridge, and fixating the lower draining road to the side of the bridge. As such, the present invention is able to easily discharge rainwater collected on an upper plate of a bridge to the ground, and help to easily clean a draining pipe to which the discharged rainwater falls down.

Description

{DRAINAGE SYSTEM FOR BRIDGE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drainage system for bridges, and more particularly, to a drainage system for bridges capable of smoothly discharging an excellent drainage accumulated in bridges.

In general, structures such as bridges are provided with a drainage system for draining the storms of the bridges to the ground below the bridges.

In the drainage system of the conventional art, a drain pipe is installed at a lower portion of the bridge top plate along the longitudinal direction of the bridge top plate. In this case, a drain hole is formed in the bridge upper plate so as to be spaced apart in the longitudinal direction, and the rainwater accumulated on the bridge top plate falls through the drain hole into the drain pipe provided at the lower portion. The storm gathered in the drain pipe is moved along the longitudinal direction of the drain pipe and drained to the ground.

However, in the conventional drainage system, there is a problem that the drain pipe must be separated and cleaned in order to remove foreign matter falling along with the storm.

Patent Publication No. 2016-0004190 (2016.01.12)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to easily discharge a high-quality rainwater to an upper plate of a bridge, and to easily clean a drain pipe for discharging discharged rainwater.

The bridge drainage system according to an embodiment of the present invention may include an upper drainage duct which is installed at one side of the upper plate of the bridge and which is elongated in one direction and has an upper drainage hole formed therein, A cover having a plurality of collecting holes formed on one side thereof, a drain pipe which can be embedded in an upper plate of the bridge, one end connected to the upper drain hole and the other side exposed to the outside of the bridge, And a support connected to the side of the bridge and fixing the lower drainage passage to the bridge.

The lower drainage passage may be supported by a plurality of supports and connected to a side of the bridge.

Wherein the support portion includes a first portion that is in contact with a side surface of the bridge and contacts a side surface of the lower drainage path, a second portion that contacts the other side surface of the lower drainage path, a lower portion that is in contact with a lower surface of the lower drainage passage, A third portion connecting the first portion and the second portion, and at least one flange formed on the first portion and fixable to the bridge, the length of the first portion being greater than the length of the second portion Can be longer.

The upper surface of the upper drainage channel and the lid embedded in the upper plate may be lower than the upper surface of the upper plate with respect to the lower surface of the upper plate and connected to the upper surface of the upper drainage channel and the upper surface of the upper plate by an inclined surface.

According to another aspect of the present invention, a bridge drainage system is installed in a bridge including an upper plate including a bridge surface on a bridge pier and a pavement surface formed on the bridge surface, and a barrier wall vertically installed on an edge of the bridge, Wherein at least one upper drain hole is formed in the inner bottom and an upper drain hole into which the packing surface and at least a part of the packing surface can be buried in the bridge surface, A cover, a drain pipe which can be embedded in the bridge surface, one side of which is connected to at least one of the upper drain holes and the other side of which is exposed to the side of the bridge, an upper surface is opened, And one side can be fixed to the outside of the bridge, and the lower drainage passage is fixed Wherein the drain pipe does not penetrate the barrier wall and is inclined at a predetermined angle with respect to the upper surface of the packaging surface.

A removal body disposed to be movable along a longitudinal direction of the drain pipe and capable of scraping the inside of the drain pipe, a rod connected to the removal body, at least a part of which is exposed to the outside of the drain pipe and a drain pipe, And an inspection window for confirming the inside of the drain pipe.

And a sealing member disposed at a portion of the rod through which the drain pipe passes.

The drain pipe may be inclined at an angle (D) of -3 ° to -9 ° with respect to the upper surface of the packaging surface.

According to the embodiment of the present invention, the drain pipe through which the storm moves has an inclination at a certain angle, so that it is possible to smoothly discharge stagnant water to the bridge top plate. Further, the lid is detachably fitted to the upper drain pipe, and the upper part of the lower drain pipe is opened, thereby facilitating the cleaning of the upper drain pipe and the lower drain pipe.

According to the embodiment of the present invention, the drain pipe can be easily cleaned by the cleaning unit, and the inside of the drain pipe can be confirmed through the inspection window. By removing the foreign material from the drain pipe, the rainwater can be smoothly drained to the lower drainage channel without being affected by the foreign matter.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view of a drainage system of a bridge in accordance with an embodiment of the present invention.
Fig. 2 is an enlarged view of a portion A in Fig. 1; Fig.
3 is a perspective view showing the upper drainage passage shown in Fig.
4 is a perspective view showing the lid shown in Fig.
FIG. 5 is a perspective view showing the lower drainage passage shown in FIG. 1. FIG.
6 is a perspective view of the support shown in Fig.
7 is a schematic diagram showing a drainage system of a bridge according to another embodiment of the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

A drainage system of a bridge according to an embodiment of the present invention will now be described with reference to FIGS. 1 to 6. FIG.

Fig. 1 is a schematic view showing a drainage system of a bridge according to an embodiment of the present invention, Fig. 2 is an enlarged view of a portion A in Fig. 1, Fig. 3 is a perspective view showing an upper drainage passage shown in Fig. 1 is a perspective view showing a lid shown in Fig. 1; Fig. FIG. 5 is a perspective view showing the lower drainage passage shown in FIG. 1, and FIG. 6 is a perspective view showing the support part shown in FIG.

A drainage system of a bridge according to an embodiment of the present invention includes an upper plate 120 including a bridge surface 121 placed on a pier 110 and a packing surface 122 formed on a bridge surface 121, And is installed in a bridge 100 including a barrier wall 130 installed vertically to the edge so that the rainwater of the upper plate 120 can be smoothly drained to the outside of the bridge 100.

The drainage system of the bridge includes an upper drainage passage 10, a lid 20, a drainage pipe 31, a lower drainage passage 40 and a support portion 50.

The upper drainage path 10 may be installed on the upper plate 120 and may be disposed in plural along the longitudinal direction of the bridge 100.

The upper drainage passage 10 may be spaced apart from the barrier wall 130 and buried in the edge of the top plate. However, the upper drain canal 10 may be in contact with the barrier 130.

The upper drainage channel 10 is embedded in the bridge surface 121 at least partially with the packaging surface 122. The upper surface height H1 of the upper drainage path 10 is lower than the upper surface height H2 of the packaging surface 122 with respect to the lower surface of the bridge surface 121. [ The upper surface of the upper drainage channel 10 and the upper surface of the packaging surface 122 are connected by an inclined surface 123. The upper surface of the packaging surface 122 can be introduced into the upper drainage passage 10 by taking the inclined surface 123 and collected first. However, the inclined surface 123 may be omitted and the upper surface of the upper drainage path 10 and the upper surface of the packaging surface 122 may be located on the same line (see FIG. 2).

The upper drainage passage 10 has a predetermined length and its upper surface is open. At least one upper drainage hole (11) is formed in the inner bottom of the upper drainage channel (10). The number of the upper drain holes (11) may vary depending on the length of the upper drain hole (10).

The bottom of the upper drainage path 10 may be formed to be parallel to the ground surface, but may be formed to be inclined toward the upper drainage hole 11 for smooth drainage of rainwater. That is, when the storm flows into the upper drainage passage 10, it can smoothly flow into the upper drainage hole 11 along the inclined bottom in the upper drainage passage 10. So that the upper drain line 10 may not be flooded.

Although the upper drain hole 11 is shown as a circle in FIG. 3, the upper drain hole 11 may have a rectangular cross section or an elliptical cross section. That is, the cross section of the upper drain hole 11 is not limited to a specific shape insofar as the storm collected in the upper drain canal 10 can flow smoothly to the outside.

The lid 20 is installed in the upper drainage passage 10 to prevent foreign matter such as garbage or fallen leaves contained in the rainwater from flowing into the upper drainage passage 10.

The lid 20 is connected to the upper drainage passage 10 and closes the open upper surface of the upper drainage passage 10 and can be introduced into the upper drainage passage 10 through the lid 20 of the upper plate. The cover 20 corresponds to the longitudinal direction of the upper drainage passage 10 and is elongated in one direction.

The lid 20 can be fitted into the upper drain passage 10. The lid 20 can be fitted into the inside of the upper drainage passage 10 or the lid 20 can be fitted into the outside of the upper drainage passage 10. The coupling between the lid 20 and the upper drainage passage 10 is not limited to the fitting engagement.

When the bridge drainage system according to an embodiment of the present invention is installed on the bridge, the height of the top surface of the lid 20 is located on the same line as the upper drainage passage 10.

On the other hand, on the upper surface of the lid 20, a plurality of collecting holes 21 are formed. The collecting hole 21 is elongated in one direction. This prevents the foreign matter on the upper plate from flowing into the upper drainage channel (10). Specifically, when the storm on the upper plate flows into the upper drain line 10, the foreign matter on the upper plate can move with the storm. However, since the collecting hole 21 is formed long in one direction in the lid 20, the storm can be introduced into the upper drainage path 10 through the collecting hole 21, The water is not allowed to flow into the upper drainage channel 10 but remains on the upper surface of the lid 20.

The drain pipe 31 drains the storm that has flowed into the upper drain hole 11 to the outside of the bridge 100. The drain pipe 31 is embedded in the bridge surface 121 so that one side is connected to the upper drain hole 11 and the other side is exposed to the outside of the top plate 120. The other end of the drain pipe (31) is bent toward the lower drainage path (40) disposed at the lower part.

 The water pipe 31 does not pass through the barrier wall 130. The drain pipe 31 may be welded to the upper drainage channel 10 or may be connected by bolts or the like.

The water pipe 31 is inclined at an angle (D) of -3 to -9 degrees with respect to the upper surface of the packaging surface 122. Since the drain pipe 31 is inclined, the stormwater flowing into the drain pipe 31 can be smoothly drained to the outside of the bridge 100 through the drain pipe 31. If the inclination angle of the water discharge pipe 31 is less than -3 degrees, the rainwater may not flow smoothly along the water discharge pipe 31, and soil, sand, etc. may be accumulated in the water discharge pipe 31. If the inclination angle of the drain pipe 31 exceeds -9 °, there is a problem that the thickness of the bridge surface 121 increases, and the use of materials for forming the bridge surface 121 may be increased.

The shape of the drain pipe 31 may be changed corresponding to the shape of the bridge on which the drainage system of the bridge is installed according to an embodiment of the present invention.

The lower drainage path (40) is a place for draining the rainwater drained through the upper drainage path (10) to the river and the ground.

The lower drainage path (40) corresponds to the upper drainage path (10) and is elongated in one direction. The upper surface of the lower drainage path 40 is opened along the longitudinal direction. The lower drainage path (40) is located on the outer surface of the bridge (100) and is disposed on the lower side of the other side of the drainage pipe (31). The rainwater of the drain pipe 31 can be seen by the lower drainage passage 40. A lower drainage hole 41 is formed in a lower surface of the lower drainage path 40 to drain the inflowed rainwater to the ground.

The lower drainage path 40 is formed so that its lower surface is inclined toward the lower drainage hole 41 for smooth drainage. At this time, the inclination angle may be inclined so as to form a certain angle as shown in FIG. 5 and the cross section of the lower drainage path 40 is polygonal, or may be inclined so as to be semicircular or oval toward the lower drainage hole 41 It can be built. That is, the shape of the inclined lower drainage passage 40 is not limited to a specific shape as long as it can smoothly move toward the lower drainage hole 41.

The support portion 50 is a support member fixed to the side surface of the bridge and fixing the lower drainage path 40 to the side surface of the bridge. The number of the supporting portions 50 can be adjusted according to the size of the bridge on which the drainage system of the bridge according to the embodiment of the present invention is installed. When the bridges are small, one support part 50 can be installed to support the lower drainage path 40. However, when the bridge is large, a plurality of support parts 50 may be installed to support the lower drainage path 40. [

The support portion 50 includes a first portion 52, a second portion 53, a third portion 54, and a flange 51.

The first portion 52 and the second portion 53 are spaced apart and the third portion 54 connects the lower portion of the second portion 53 with the first portion 52. [ The first portion 52 is in contact with one side of the lower drainage passage 40 and the second portion 53 is in contact with the other side of the lower drainage passage 40 while the third portion 54 is in contact with the lower side of the lower drainage passage 40 .

The flange 51 may be welded to the first portion 52, or may be connected by bolting or the like. The flange 51 is a member for fixing the support portion 50 to the bridge, and the support portion 50 can be fixed to the bridge with an anchor bolt using an assisting plate. However, the flange 51 may be omitted. In this case, the anchor bolt can be fixed to the bridge through the first portion 52. With the fixing of the flange 51, the support portion 50 can be fixed to the side surface of the bridge 100 to support the lower drainage passage 40.

On the other hand, the length of the first portion 52 is longer than the length of the second portion 53 with respect to the third portion 54. And the upper surface of the second portion 53 is located on the same line as the upper surface of the lower drainage passage 40. The length of the first portion 52 contacting the bridge 100 is longer than that of the second portion 53 so that the support portion 50 can be installed more stably on the bridge.

The support portion 50 is formed in a shape corresponding to the cross-sectional shape of the lower drainage passage 40. 5, when the lower drainage passage 40 is formed to have a predetermined inclination, the support portion 50 is also formed to have a predetermined inclination corresponding to the shape of the lower drainage passage 40, as shown in FIG. 6 .

As the number of the support portions 50 connected to the bridge increases, the support portion 50 supporting the lower drainage passage 40 increases and the lower drainage passage 40 can be securely supported.

Hereinafter, a drainage process of a drainage system of a bridge according to an embodiment of the present invention will be described.

The pavement surface is inclined in the direction of the edge with respect to the center part for smooth drainage of the excellent. In the drainage system of a bridge according to an embodiment of the present invention, the stormwater collected by the bridge deck by rain or the like can flow in the direction of the drainage system of the bridge along the inclination of the pavement surface.

The flowing stormwater can flow into the upper drainage channel 10 through the collecting hole 21 of the lid 20. The storm can flow toward the upper drain hole 11 along the bottom inclination of the upper drain hole 10 and can flow into the drain pipe 31 through the upper drain hole 11. [ The stormwater can flow into the lower drainage path (40) through the drain pipe (31).

The stormwater introduced into the lower drainage path (40) drains to the ground through the lower drainage hole (41) of the lower drainage path (40).

At this time, the foreign matter on the upper plate moves together with the movement of the abdomen and moves to the upper side of the lid 20. However, due to the shape of the collecting hole 21, foreign substances larger in size than the collecting hole 21, . The foreign substances smaller in size than the collecting hole (21) can be moved as the storm and drained to the lower drainage channel.

At this time, since the upper surface of the lower drainage path 40 is open, it is possible to easily clean the foreign matter when the foreign matter is accumulated in the lower drainage path 40. The foreign matter accumulated on the upper side of the lid 20 is accumulated on the outside of the lid 20 and can be easily cleaned and moved to the upper drainage passage 10 through the collector hole 21. However, The foreign matter which can not be moved through the upper drain canal 10 can be easily removed by separating the cover 20 from the upper drain canal 10 and cleaning the upper drain canal 10.

The drainage system of the bridge according to an embodiment of the present invention is characterized in that the upper drainage channel 10 is installed on the bridge upper plate and the lower drainage channel 40 is provided on the side of the bridge upper plate, So as to have an inclination of a certain angle within the bridge surface 121, thereby facilitating the discharge of the storm.

The lid 20 is detachably fitted to the upper drainage passage 10 and the upper portion of the lower drainage passage 40 is opened to facilitate the cleaning of the upper drainage passage 10 and the lower drainage passage 40 have.

The barrier wall 130 and the upper plate 120 must be formed at the same time when the drainage passage 40 passes through the barrier wall 130 or the barrier wall 130 and the upper plate 120 overlap each other. However, in this embodiment, since the drainage path 40 is buried only in the upper plate 120 without buried in the barrier 130, the upper plate 120 and the barrier 130 can be separately formed. Thus, the workability of the bridge 100 can be improved.

Next, a bridge drainage system according to another embodiment of the present invention will be described with reference to FIG.

7, the bridge drainage system according to the present embodiment includes an upper drainage passage 10, a lid 20, a drainage pipe 31, a lower drainage passage 40, a support portion 50, and a cleaning unit.

The upper drainage channel 10, the lid 20, the drainage pipe 31, the lower drainage channel 40 and the support unit 50 according to the present embodiment are connected to the upper drainage channel, the lid, the drainage pipe, The drainage channel, and the supporting portion, so that a duplicate explanation will be omitted.

The cleaning unit includes a removal body 61, a rod 62, a sealing member 63, and an inspection window 64, and can remove foreign substances blocking the inside of the drain pipe 30.

The removal body 61 is movably disposed inside the drain pipe 31. The removal body 61 is formed so as to correspond to the drain pipe 31 and the outer periphery thereof is in contact with the inner circumference of the drain pipe 30. The removal body 61 may be formed in the form of a plate or a mesh. The removal body 61 can scrape away sand, soil, leaves, garbage, etc. attached to the inner periphery of the water pipe 31 while moving along the water pipe 31.

A packing (not shown) may be provided on the outer periphery of the removal body 61. The packing prevents the removal body 61 from coming into direct contact with the drain pipe 30 and prevents the noise due to the contact between the removal body 61 and the drain pipe 30 from occurring.

The rod 62 has a predetermined length and one side is connected to the removal body 61. The other side of the rod 62 is exposed to the outside of the drain pipe 30 so that the operator can grasp it.

The sealing member 63 is disposed at a portion where the rod 62 penetrates the water pipe 30 to prevent the water from leaking out between the rod 62 and the water pipe 30. However, the sealing member 63 may be omitted.

The inspection window 64 is formed on the other side of the drain pipe 30 and is made of a transparent material so that the inside of the drain pipe 30 can be confirmed.

When the operator checks the inside of the drain pipe 30 through the inspection window 64 from the outside of the bridge and then pulls the rod 62, the removal body 61 moves while scraping the inside circumference of the drain pipe 30. The scraped foreign matter can be drained to the lower drainage path (40) through the other side of the drainage pipe (30).

Foreign matter of the drain pipe (30) is removed by the cleaning unit, and the drain can be smoothly drained to the lower drainage path (40) without being affected by the foreign matter.

Many of the features shown in the embodiments shown in Figs. 1 to 6 can be applied to this embodiment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

100: Bridge 110: Pier
120: upper plate 121: bridge face
122: packing surface 123: inclined surface
130: Firewall 10: Upper drainage
11: upper drain hole 20: lid
21: Collecting hall 30: Water pipe
40: lower drainage passage 41: lower drainage hole
50: support portion 51: flange
52: first part 53: second part
54: third part 61: removal body
62: rod 63: sealing member
64: Check window

Claims (7)

The bridge is installed on a bridge including an upper plate including a bridge surface on the bridge pier and a pavement surface formed on the bridge surface and a barrier wall vertically installed on the edge of the upper plate so that the upper surface of the bridge can be smoothly drained to the outside of the bridge ,
An upper drainage passage spaced apart from the barrier wall so as to be embedded between the packing surface and the bridge surface and formed to be long in one direction and having an upper drain hole formed therein,
A cover which is connected to the upper drainage passage to close the upper surface of the upper drainage passage and has a plurality of collection holes formed on one surface thereof,
A drain pipe disposed below the upper drain pipe and embedded in one side of the upper plate, one end connected to the upper drain hole and the other side exposed to one side of the bridge,
A lower drain disposed at one side of the upper plate and disposed below the other side of the drain pipe,
A support portion connected to one side surface of the upper plate to fix the lower drainage path to the upper plate,
A removal body formed in a plate shape so as to correspond to the drain pipe and having an outer circumference in contact with the inner circumference of the drain pipe and scraping the inner circumference of the drain pipe while moving along the drain pipe;
A rod having a predetermined length and having one side connected to the removal body and the other side exposed to the outside of the other side of the drain pipe so as to be gripped by an operator,
An inspection window installed in the drain pipe and capable of checking the inside of the drain pipe;
And a sealing member disposed at a portion of the rod passing through the water pipe to prevent leakage of rainwater between the rod and the water pipe,
/ RTI >
Wherein the drain pipe is embedded in the bridge surface and does not penetrate the barrier wall, and the upper surface of the packing surface is inclined at a predetermined angle
Bridge drainage system. The method of claim 1,
Wherein the lower drainage channel is supported by a plurality of supports to connect to a side of the bridge. The method of claim 1,
The support
A first portion which is in contact with a side surface of the bridge and which is in contact with one side surface of the lower drainage passage,
A second portion contacting the other side surface of the lower drainage passage,
A third portion contacting the lower surface of the lower drainage channel and connecting the first portion and the second portion,
At least one flange formed on the first portion and capable of being fixed to the bridge,
/ RTI >
Wherein the length of the first portion is longer than the length of the second portion
Bridge drainage system. The method of claim 1,
The top drainage channel buried in the upper plate and the upper surface of the lid are embedded lower than the upper surface height of the upper plate with respect to the lower surface of the upper plate and connected to the upper surface of the upper drainage channel and the upper surface of the upper plate by an inclined surface. delete delete The method of claim 1,
Wherein the drain pipe is inclined at an angle (D) of -3 DEG to -9 DEG with respect to the upper surface of the packaging surface.

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