KR101814536B1 - Drain-pipe system for bridge - Google Patents

Abstract

The present invention relates to a drain pipe structure of a bridge, installed in a lower part of a bridge to reduce installation costs of the drain pipe. According to the present invention, the structure comprises: a plurality of vertical pipes vertically installed along a drain gutter of a bridge; a horizontal pipe joining water supplied through each vertical pipe to discharge the joined water to the outside; and a connection pipe to connect the vertical and horizontal pipes. The connection pipe includes: a central body connected to the vertical pipe; and a horizontal connection pipe placed on both ends of the central body to be connected to the horizontal pipe. An upper part of the central body upwardly protrudes more than an upper surface of the horizontal connection pipe to form a rotating connection space inside, a pipe insertion opening into which a bottom of the vertical pipe to be able to be inserted is formed on an upper surface of the rotating connection space, a pair of outwardly protruding rotating pins are formed in the bottom of the vertical pipe, and a pin hole where the rotary pin is inserted is formed on both side surfaces of the central body in a part where the rotating connection space is formed within the side surface of the central body.

Description

{DRAIN-PIPE SYSTEM FOR BRIDGE}

The present invention relates to a structure of a drain pipe installed at a lower portion of a bridge, and more particularly, to a structure of a horizontal pipe and a joint pipe of a drain pipe for drainage of water flowing on a road surface of a bridge due to rain or snow, And their connection structures.

Generally, a drain pipe is installed in the lower part of the slab of the bridge to drain the water on the road surface caused by rain or snow.

As a drainage pipe of the bridge, it prevents the flooding of the bridge road surface to ensure the safety of traffic, and prevents the non-point pollutants accumulated on the bridge roads from flowing directly into the lower river, thereby preventing contamination of water resources.

The drain pipe of the bridge includes a plurality of vertical pipes provided on the side of the bridge girder and vertically installed in drainage troughs provided at drainage holes provided at regular intervals on the edges of the bridge slabs, And a horizontal pipe for joining the incoming water to the non-point pollutant treatment facility.

At this time, the drainage trough, the vertical pipe, and the horizontal pipe may be directly welded, but the pipe can be separated from any part of the pipe by mediating the joint pipe, It is general to facilitate ease.

1 is an example in which the inside of a pipe can be cleaned by fastening a drainage trough and a vertical pipe with a long bolt and separating the drainage trough and the vertical pipe from each other in the future.

However, in the conventional technique according to Fig. 1, because the long bolt is installed through the pipe above the connecting portion, bulky waste such as vinyl covers the long bolt, narrowing the hole in the pipe, .

Fig. 2 shows an example in which a vertical pipe and a horizontal pipe are connected to each other at a middle portion of a bridge by using a connecting pipe.

In the conventional art shown in FIG. 2, the connection flange is provided at each branch end of the connection pipe, and the connection flange is provided at each end of the vertical pipe and the horizontal pipe in contact with each other. Bolt-tighten these connecting flanges with the connecting flanges facing each other so that the horizontal tube can be joined to the horizontal tube.

However, since the horizontal pipe has a predetermined inclination angle for efficient drainage, the angle of inclination varies depending on the length of the horizontal pipe proportional to the length of the span, and the angle of joining between the horizontal pipe and the vertical pipe is varied.

Therefore, in the prior art of FIG. 2, the angles between the branch pipes of the connecting pipe are also made individually according to the length or the installation angle of the installed horizontal pipe. This increases the unit price of the connecting pipe, As well.

In addition, the connection flanges of the connecting pipe, the vertical pipe and the horizontal pipe are protruded to the outside, which hinders the appearance of the bridge.

KR 20-0188373 Y1 KR 20-0346437 Y1

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a joining structure that can be applied universally regardless of a change in angle at which a horizontal tube and a vertical tube are connected, The purpose of the

In addition, the present invention provides a structure of a drain pipe which prevents the fastening member on the joint portion from protruding to the inside and the outside of the pipe so as to protect the external appearance of the bridge and to prevent clogging of the pipe by a large volume of waste. have.

It is another object of the present invention to provide a structure of a drain pipe which is excellent in durability without being easily damaged because the expansion and contraction of the bridge can efficiently cope with the expansion and contraction occurring on the lower part.

According to a preferred embodiment of the present invention for solving the above-mentioned problems, a plurality of vertical pipes vertically installed in a drainage trench of a bridge and water introduced through the respective vertical pipes are merged and discharged to the outside And a connecting pipe connecting the vertical pipe and the horizontal pipe,

The connection pipe includes a central body connected to the vertical pipe, and a horizontal pipe connected to the horizontal pipe at both ends of the central body,

The upper portion of the central body is provided with a connection rotation space inside so as to protrude upward from the upper surface of the horizontal connection pipe, a pipe insertion opening through which the lower end of the vertical pipe can be inserted is provided on the upper surface of the connection rotation space,

A pair of rotation pins protruding outward is provided at the lower end of the vertical tube, and pin holes for receiving the rotation pins are provided on both sides of the central body at a portion where the connection rotation space is formed in the side surface of the central body Wherein the bridge is provided with a drainage pipe structure.

At this time, the lower part of the central body may protrude downward from the lower surface of the horizontal connection pipe, so that a shock absorbing space may be further formed therein. The vertical pipe may be formed in a convex curve shape inward of the bridge.

According to another embodiment of the present invention, the connection between the horizontal connection pipe and the horizontal pipe includes a small-head bolt having a head and a spiral portion of a standard passing through the fastening holes provided in the horizontal connection pipe and the horizontal pipe, And a nut fastened to the head bolt and fixed to the inner surface of the fastening hole while being fastened to the head so as to be folded into two halves and to be fastened to the helical part of the small head bolt protruding to the outer surface of the fastening hole The structure is provided with a drain pipe of the bridge.

According to another embodiment of the present invention, the horizontal pipe further includes a stretch connecting portion, wherein the stretch connecting portion is provided with a relief pipe at an end portion of the horizontal pipe located on the lower side of the water flow, Wherein the bolt fastening holes provided in at least one of the two horizontal pipes overlapping each other are elongated holes formed in the longitudinal direction, The structure is provided with a drainage pipe of the bridge.

The structure of the drain pipe according to the present invention makes it possible to mass-produce the connection pipe by using the connection pipe which can be applied to various inclination angles of the horizontal pipe connected to the vertical pipe, thereby enabling industrialization of the parts.

In addition, since the structure of the drain pipe according to the present invention is made of no welding with respect to the whole area of the drain pipe, no thermal deformation occurs in the member and no additional anti-rust coating is required. As the workability is improved, it is possible to shorten the air and reduce the construction cost.

In addition, since the structure of the drain pipe of the present invention has an assembling structure, it is easy to perform maintenance such as cleaning and the special bolts having the above-described assembling structure can prevent the fastening bolts from being installed through the entire pipe, Thereby preventing the problem of reducing the tube inner diameter caused by the tube.

In addition, since the structure of the drain pipe of the present invention can efficiently cope with the expansion and contraction behavior of the bridge due to environmental changes such as temperature, it is prevented from being deformed to increase the durability and the number of installation units of the water pipe structure is reduced I will.

1 is a cross-sectional view showing a coupling structure between a drainage trough and a vertical tube according to a conventional technique.
2 is a cross-sectional view of an example in which a vertical pipe and a horizontal pipe are connected to each other using a round connecting pipe as another related art.
FIG. 3 is a perspective view showing a state where a drain pipe structure according to an embodiment of the present invention is installed on a bridge. FIG.
FIG. 4 is a perspective view showing a state where a horizontal pipe is connected to a vertical pipe through a connecting pipe in the above-described water pipe.
FIG. 5 is an exploded perspective view of the connection portion of FIG. 4. FIG.
6 is a perspective view showing each member for the special bolt fastening structure of the present invention.
7 is a perspective view showing a fastening tool for the operation of the special bolt fastening structure.
8 is a cross-sectional view illustrating a process of connecting the horizontal connection pipe and the horizontal pipe of the connection pipe with the special bolt connection structure using the fastening tool.
FIG. 9 is a perspective view and a cross-sectional view illustrating a telescopic joint according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in order to obscure or obscure the technical idea of the present invention due to the detailed description of the known structure in describing the present invention, the description of the structure of the above known structure will be omitted.

FIG. 3 is a perspective view illustrating a structure of a drain pipe according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view of a horizontal pipe 300, a vertical pipe 200, FIG. 5 is an exploded perspective view of the connection portion of FIG. 4. Referring to FIG.

The drain pipe structure of the present invention includes a plurality of vertical pipes 200 installed at regular intervals as shown in FIG. 3, a horizontal pipe 300 connecting the vertical pipes 200, And a connection pipe 400 connecting the connection pipe 200 and the horizontal pipe 300.

The vertical pipe 200 is vertically installed in the drainage trough 100 of the bridge so that the distance between the vertical pipes 200 is at least 20M or less, And is arranged so that efficient drainage can be performed according to the shape of the road surface and the degree of curvature of the bridge.

 The horizontal pipe 300 joins the water introduced through each of the vertical pipes 200 and discharges the water to the outside. The inclination angle of the horizontal pipe 300 is preferably not less than 3%, but not less than 2%. The horizontal pipe 300 should have a capacity of three times the planned amount of rainfall.

The horizontal pipe 300 may be installed in a manner that hangs on the lower surface of the slab S of the bridge by using a ladder, but it is preferable to fix the horizontal pipe 300 on the side of the girder G for efficient maintenance along with structural stability Do.

For this purpose, the vertical pipe 200 may be provided so as to have a convex curve shape inward of the bridge. This curved vertical pipe 200 can be advantageously applied when the drainage trough 100 is installed far away from the girder G, which prevents the appearance of the lower part of the bridge from being disturbed.

4, the connection pipe 400 that connects the vertical pipe 200 and the horizontal pipe 300 includes a central body 410 and a horizontal connection pipe 420 disposed at both ends of the central body 410, ).

The central body 410 is connected and fixed in a hinge structure so that the vertical tube 200 can rotate forward and backward.

The hinge structure between the central body 410 and the vertical tube 200 allows the connection tube 400 to be universally applicable regardless of the various installation angles of the horizontal tube 300, 400), thereby ultimately reducing the installation cost of the drain pipe.

The upper portion of the central body 410 has a shape protruding upward from the upper surface of the horizontal connection pipe 420. Therefore, the connection rotation space 411 is provided inside the connection rotation space 411. The connection rotation space 411 is formed in such a manner that the end portion of the vertical pipe 200 fixed to the central body 410 by the hinge structure interferes with the flow of water to the water pipe So that it can be rotated forward or backward.

Also, a position where the vertical tube 200 and the central body 410 are hinged to each other is located at a portion where the connection rotation space 411 is formed. A pair of rotation pins 201 protruding outward is provided at the lower end of the vertical tube 200. A pin hole 412 into which the rotation pin 201 is inserted is inserted into a connection rotation space (411) are formed on both sides of the central body (410).

The upper surface of the connection rotation space 411 is provided with a tube insertion opening 413 through which the lower end of the vertical tube 200 can be inserted. The outer diameter of the vertical tube 200 should be larger than the outer diameter of the vertical tube 200 so as to be able to rotate forward and backward.

On the other hand, the water discharged from the end of the vertical tube 200 is vertically dropped from the inside of the connection tube 400, and water vertically discharged from the vertical tube 200 is discharged from the center body 410, And also acts as a fatigue load on the bottom surface to lower the durability of the connecting pipe 400. [

Therefore, the lower portion of the central body 410 may protrude downward from the lower surface of the horizontal connection pipe 420, so that the shock absorbing space 414 may be formed therein.

The shock absorbing space 414 is positioned below the horizontal connecting pipe 420 so that water is always contained. The water contained in the shock absorbing space 414 is discharged to the vertical water stream discharged from the vertical pipe 200, So that the generation of noise is suppressed and a fatigue load is not applied to the lower surface.

According to another embodiment of the present invention, the connection between the horizontal connection pipe 420 and the horizontal pipe 300 of the connection pipe 400 is made of a special bolt fastening structure without welding, It is possible to prevent the thermal deformation, improve the workability, and reduce the labor cost, thereby achieving economical efficiency, while preventing the above-described various problems caused by the general bolt fastening described above.

FIG. 6 illustrates each member for the special bolt fastening structure, FIG. 7 illustrates one embodiment of the fastening tool 600 for the operation of the special bolt fastening structure, and FIG. A horizontal connection pipe 420 of the connection pipe 400 and a horizontal pipe 300 are bolted to each other using the connection pipe 600 to connect them.

The connection between the horizontal connection pipe 420 and the horizontal pipe 300 having the special bolt fastening structure described above is performed by passing through the horizontal connection pipe 420 and the fastening hole 301 provided in the horizontal pipe 300, A small head bolt 510 having a standard head portion 511 and a spiral portion 512 and a folded washer 520 folded into two halves but spreading by itself to have a normal washer shape, And a nut 530 fastened to the spiral portion 512. The folding washer 520 is inserted into the small head bolt 510 and is fixed to the inner surface of the fastening hole 301 while being engaged with the head portion 511 in the unfolded state.

The special bolt fastening structure is formed by the fastening tool 600 shown in FIG. 7, and the fastening tool 600 has a bolt hole (not shown) formed on the insert rod 600A having the handle 600B as shown in FIG. The holding portion 610 and the washer holding portion 620 are sequentially positioned.

The bolt grip portion 610 temporarily attaches the small head bolt 510 so that the pull bolt 510 can be temporarily attached to the fastening hole 301 by only the fastening tool 600 without grasping the small head bolt 510. [ . Therefore, the bolt grip portion 610 should be structured such that the bolt grip portion 610 can be separated from the fastening hole 301 immediately after the small head bolt 510 is completely drawn out. A spiral groove 513 is formed at the end of the spiral portion 512 of the bolt holding portion 510 and a spiral bar 611 fastened to the spiral groove 513 is provided at the tip of the bolt holding portion 610 . You can also think of using other magnets.

The bolt grip portion 610 is provided at its rear end with an inclined washer guide surface 612 so that the folded washer 520 that has been deployed after passing through the fastening hole 301 as described later can be accurately fixed to the fastening hole 301 ).

The washer grip portion 620 located at the rear of the bolt grip portion 610 allows the folding washer 520 to be inserted into the fastening hole 301 in a state where the folding washer 520 is folded in two halves following the small head bolt 510, It is preferable that the cross section has a wedge-shaped cross section corresponding to the folding angle of the folding washer 520.

The protruding pressing piece 630 is provided at a rear end of the washer grip 620 to push the folding washer 520 into the fastening hole 301.

Referring to FIG. 8, a process for constructing the connection between the horizontal connection pipe 420 and the horizontal pipe 300 using the above-described fastening tool 600 with a special bolt connection structure will be described.

(I) First, the horizontal connection pipe 420 and the horizontal pipe 300 are fitted so as to overlap with each other, and then the coupling holes 301 provided in the horizontal connection pipe 420 and the horizontal pipe 300 are matched with each other (FIG.

Ii) Next, the folding washer 520 is fitted into the washer grip portion 620 of the fastening tool 600, the small head bolt 510 is fastened to the bolt grip portion 610, and then the folding washer 520 The folding washer 520 is inserted into the fastening hole 301 together with the small head bolt 510 (Fig. 8 (b)).

Iii) When the folding washer 520 is partially inserted into the fastening hole 301, the hand holding the folding washer 520 is released and the folding washer 520 is pushed by the projecting pushing piece 630 located at the rear end of the washer gripping portion 620, So that the folded washer 520 completely passes through the fastening hole 301 and then spreads by itself to have the shape of a conventional washer (Fig. 8 (c)).

Iv) Using the bolt gripper 610 provided with the washer guide surface 612, the fastening tool 600 is fully retracted in a state in which the folded washer 520 is correctly positioned on the fastener 301, The nut 530 is fastened to the spiral portion 512 of the small head bolt 510 protruding from the outer surface of the fastening hole 301 after the head portion 511 of the fastener 510 is brought into close contact with the folding washer 520 (Fig. 8 (d)). At this time, a watertight washer may further be interposed between the outer surface of the horizontal connection pipe 420 or the horizontal pipe 300 and the nut 530.

V) When the fastening of the nut 530 is completed, the fastening tool 600 is separated from the small head bolt 510 (Fig. 8 (e)).

As described above, the special bolt fastening structure of the present invention can be achieved only by working from the outside of the horizontal connection pipe 420 or the horizontal pipe 300, thereby solving the problem of penetrating the pipe body with the long bolt in the prior art, So that the advantages of the present invention can be maintained.

In another embodiment of the present invention, a stretch connection 700 is further provided in the horizontal diaphragm.

The elastic connecting part 700 not only can cope with a bridge slab S which is elongated and contracted by a temperature load in a drain pipe, but also absorbs elastic expansion and contraction of the drain pipe itself to prevent deformation, .

FIG. 9 is a view showing the elastic expansion joint 700 according to the present invention, wherein (a) is a perspective view and (b) is a cross-sectional view taken along line A-A.

The elongating and connecting portion 700 may be formed by partially laminating the ends of the two horizontal pipes 300A and 300B with bolts 712 by inserting a portion of the bolt fastening holes 711 for fastening the bolts 712 Or all of them are formed as long holes, and the two horizontal pipes 300A and 300B are slid with respect to the bolt 712, thereby functioning.

More specifically, the horizontal pipe 300A located on the lower side of the water flow is provided with the pipe 310, and the end of the horizontal pipe 300B located on the upper side of the water flow is inserted into the pipe 310 The bolt fastening holes 711 formed in at least one of the two horizontal pipes 300A and 300B are formed as elongated holes formed in the lengthwise direction. It is preferable that the bolt fastening holes 711 are not provided below the center of the horizontal pipes 300A and 300B to prevent leakage of water.

Reference numeral 701 in the drawing denotes numerical milling.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious that it will be possible to carry out various modifications thereof. It is therefore intended that such modifications are within the scope of the invention as set forth in the claims.

100; A drainage trough 200; Male pipe
201; Rotation pins 300, 300A, and 300B; Horizontal tube
301; Fastening holes 310; Shake-up
400; Connecting pipe 410; Central body
411; A connection rotation space 412; Fin
413; Tube insertion opening 414; Shock absorbing space
420; Horizontal connector 510; Small head bolt
511; Tofu 512; Spiral part
513; Spiral groove 520; Folding washer
530; Nut 600; Fastening tool
600A; Insert rod 600B; handle
610; Bolt grip 611; Sun Bae
612; Washer guide surface 620; Washer grip
630; A protruding pressing piece 700; Stretch joint
701; Number milling 711; Bolt
712; Bolt G; Girder
S; Slab

Claims (5)

A plurality of vertical pipes 200 vertically installed in the drainage trough 100 of the bridge, a horizontal pipe 300 joining the water flowing through each of the vertical pipes 200 and discharging the combined water to the outside, And a connection pipe 400 connecting the vertical pipe 200 and the horizontal pipe 300,
The connection pipe 400 includes a central body 410 connected to the vertical pipe 200 and a horizontal connection pipe 420 connected to the horizontal pipe 300 at both ends of the central body 410 ,
The connection between the horizontal connection pipe 420 and the horizontal pipe 300 is achieved by connecting the head 511 of the standard through the connection hole 301 provided in the horizontal connection pipe 420 and the horizontal pipe 300, A small head bolt 510 which is inserted into the small head bolt 510 and is fixed to the inner surface of the coupling hole 301 while being caught by the head portion 511, And a nut 530 fastened to the spiral part 512 of the small head bolt 510 protruding from the outer surface of the fastening hole 301,
An upper portion of the central body 410 is provided with a connection rotation space 411 in the upper portion of the horizontal connection pipe 420 so as to protrude upward from the upper surface of the horizontal connection pipe 420. In the upper surface of the connection rotation space 411, A tube insertion opening 413 into which the lower end can be inserted,
A pair of rotation pins 201 protruding outward is provided at the lower end of the vertical tube 200 and a central body 410 at a portion where the connection rotation space 411 is formed, And a pin hole (412) through which the rotation pin (201) is inserted are provided on both sides of the pipe. The method according to claim 1,
Wherein a lower portion of the central body (410) is protruded downward from a lower surface of the horizontal connection pipe (420), so that a shock absorbing space (414) is formed therein. delete The method according to claim 1,
The horizontal pipe (300) is further provided with a stretch joint (700)
The expansion joint portion 700 is provided with a relief pipe 310 at the end of the horizontal pipe 300A located on the lower side of the water flow so that the end of the horizontal pipe 300B located on the upper side of the water flow is connected to the expansion pipe The bolt fastening holes 711 provided in at least one of the two horizontal pipes 300A and 300B which are overlapped are inserted into the elongated long elongated bowls 711, It is characterized by the fact that the structure of the drainage pipe of the bridge. The method according to claim 1,
Wherein the vertical pipe (200) is formed in a convex curved shape inward of the bridge.

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