CN220977697U

CN220977697U - Bridge drainage pipe network

Info

Publication number: CN220977697U
Application number: CN202323064318.XU
Authority: CN
Inventors: 黄友勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-11-14
Filing date: 2023-11-14
Publication date: 2024-05-17
Anticipated expiration: 2033-11-14

Abstract

The utility model discloses a bridge drainage pipe network, which relates to the technical field of bridge drainage and comprises a pipe body, wherein a water permeable hole is formed in the top of the pipe body, a steel wire mesh is attached to the surface of the pipe body, a first fastening ring is attached to one side of the steel wire mesh, a first fastening screw is connected to the inner thread of the first fastening ring, a second fastening ring is attached to the other side of the first fastening ring, and the water permeable hole is arranged, so that water on the ground can conveniently permeate into the inner part of the pipe body to be discharged through the water permeable hole, accumulation of water on the surface of a bridge can be effectively avoided, broken stone can be effectively isolated by the aid of the steel wire mesh, blocking of the water permeable hole caused by falling of the broken stone into the water permeable hole is avoided, and when the steel wire mesh needs to be replaced, only the first fastening ring and the second fastening ring need to be detached from the surface of the pipe body.

Description

Bridge drainage pipe network

Technical Field

The utility model relates to the technical field of bridge drainage, in particular to a bridge drainage pipe network.

Background

Municipal works refer to municipal works, generally refer to road, bridge, water supply, water drainage, gas and urban lighting lamp infrastructure construction in urban construction, are essential material foundations for urban survival and development, are basic conditions for improving the living standard of people and opening outside, at present, along with development and construction of various places, the erection of the bridge is also scheduled, the erection of the bridge is involved in many aspects, but a drainage pipe network of the bridge cannot be ignored, the drainage pipe network construction of the bridge cannot well cause serious bridge floor ponding, and the vehicle runs on the bridge to skid and other dangerous phenomena.

When many bridge drainage pipe networks in the prior art are used, the water accumulated on the ground is inconvenient to be led into the bridge drainage pipe networks and discharged, the water is easy to accumulate on the road surface, and when the water flow is overlarge, the discharged water is easy to flow reversely.

Accordingly, in view of the above, a bridge drainage pipe network is proposed to solve the problems of the prior art.

Disclosure of utility model

The utility model aims to provide a bridge drainage pipe network so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a bridge drainage pipe net, includes the body, the hole of permeating water has been seted up at the top of body, the surface laminating of body has the wire net, the surface of body is located one side laminating of wire net and has first fastening circle, the inside threaded connection of first fastening circle has first fastening screw, the surface of body is located one side of wire net and is located the opposite side laminating of first fastening circle and has the second fastening circle, the inside threaded connection of second fastening circle has the second fastening screw, the inner wall laminating of second fastening circle has the connecting pipe with the body contact, the inner wall fixedly connected with linking board of connecting pipe, the side fixedly connected with spring post of linking board, the afterbody fixedly connected with sealing ball valve of spring post, one side of sealing ball valve is located the inner wall fixedly connected with linking circle of connecting pipe.

The inside fixedly connected with of body links up the axle, the inside swivelling joint who links up the axle has the rotation axis, the fixed surface of rotation axis is connected with the rotary rod, the fixed surface of rotary rod is connected with the brush, the equal fixedly connected with shunt tubes in both sides of body, the inner wall fixedly connected with strengthening rib of body, the afterbody fixedly connected with blade of rotation axis.

Furthermore, the steel wire mesh completely covers the top of the water permeable hole, and the water permeable hole and the pipe body are in intercommunication design.

Further, the spring column and the connecting plate are arranged in a mutually perpendicular mode, and the sealing ball valve forms a telescopic structure through the spring column.

Further, the connecting ring is located on the motion track of the sealing ball valve, and the connecting ring forms a sealing structure through the sealing ball valve.

Further, the brushes are distributed annularly along the circle center of the rotating shaft, and the brushes are arranged on the surface of the rotating rod at equal intervals transversely.

Further, the reinforcing ribs are made of steel bars, and the reinforcing ribs are distributed in annular equidistant mode inside the pipe body.

Further, the blades and the rotating shaft are arranged in a mutually perpendicular mode, and the blades drive the rotating shaft to form a rotating structure.

Compared with the prior art, the utility model has the beneficial effects that:

Through setting up the hole that permeates water, the hole that permeates water can be convenient for ground permeates water and discharges into the inside of body through permeating water the hole, can effectively avoid water to pile up at the bridge surface, through setting up the wire net, the wire net can be effectively keep apart carrying out the rubble, avoid the rubble to fall into the hole that permeates water inside, lead to permeating water the hole to take place to block up, when needs change the wire net, only need with first retainer plate and second retainer plate detach from the surface of body can, through setting up the connecting pipe, when water takes place to flow against the current, countercurrent water can exert thrust to the spring column when flowing, make the spring column extend forward, and drive the ball seal valve and to the motion of adapter ring, when ball seal valve and adapter ring contact completely, can be with the shutoff of adapter ring, avoid the water of countercurrent to continue to flow back.

Through setting up the shunt tubes, the shunt tubes can effectively alleviate the drainage pressure of body, when discharge is too big, and some water can follow the shunt tubes and discharge, through setting up the blade, when water flows, can drive blade and rotation axis through rivers and begin to rotate, the rotary rod is rotatory along with it, when the rotary rod is rotatory, can drive the brush motion, because the inner wall contact of brush and body, when its motion, can clear up automatically through rotatory inner wall to the body, the mobility of reinforcing body inside object effectively avoids the body to take place to block up.

Drawings

FIG. 1 is a schematic perspective view of a bridge drainage network;

FIG. 2 is a schematic diagram of the internal structure of a bridge drainage network;

FIG. 3 is a schematic view of a brush structure of a bridge drainage network;

fig. 4 is a schematic diagram of a steel wire mesh structure of a bridge drainage network.

In the figure: 1. a tube body; 2. a water permeable hole; 3. a steel wire mesh; 4. a first fastening ring; 5. a first fastening screw; 6. a second fastening ring; 7. a second fastening screw; 8. a splice plate; 9. a spring post; 10. sealing the ball valve; 11. a connecting ring; 12. a connecting shaft; 13. a rotation shaft; 14. a rotating rod; 15. a brush; 16. a blade; 17. a shunt; 18. a connecting pipe; 19. reinforcing ribs.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one: as shown in fig. 1-2, a bridge drainage pipe network, including body 1, permeable hole 2 has been seted up at the top of body 1, the laminating of the surface of body 1 has wire net 3, the surface of body 1 is located the one side laminating of wire net 3 and has first fastening circle 4, the inside threaded connection of first fastening circle 4 has first fastening screw 5, the surface of body 1 is located one side of wire net 3 and is located the opposite side laminating of first fastening circle 4 and has second fastening circle 6, the inside threaded connection of second fastening circle 6 has second fastening screw 7, the inner wall laminating of second fastening circle 6 has the connecting pipe 18 that contacts with body 1, the inner wall fixedly connected with linking board 8 of connecting pipe 18, the side fixedly connected with spring post 9 of linking board 8, the afterbody fixedly connected with sealing ball valve 10 of spring post 9, one side of sealing ball valve 10 is located the inner wall fixedly connected with linking circle 11 of connecting pipe 18.

Further, the steel wire gauze 3 covers the top of the water permeable hole 2 completely, and the water permeable hole 2 and the pipe body 1 are in intercommunication design, and through setting up the steel wire gauze 3, the steel wire gauze 3 can effectively isolate the gravels, avoids the gravels to fall into the inside of the water permeable hole 2, and the water permeable hole 2 is blocked.

Further, the spring column 9 and the connecting plate 8 are arranged in a mutually perpendicular mode, the sealing ball valve 10 forms a telescopic structure through the spring column 9, when water flows reversely, the countercurrent water can exert thrust on the spring column 9 when flowing, so that the spring column 9 extends forwards and drives the sealing ball valve 10 to move towards the connecting ring 11.

Further, the engagement ring 11 is located on the motion track of the sealing ball valve 10, the engagement ring 11 forms a sealing structure through the sealing ball valve 10, and when the sealing ball valve 10 is in complete contact with the engagement ring 11, the engagement ring 11 can be blocked, so that countercurrent water is prevented from flowing back continuously.

Embodiment two: as shown in fig. 3-4, the inside of the tube body 1 is fixedly connected with a connecting shaft 12, the inside of the connecting shaft 12 is rotatably connected with a rotating shaft 13, the surface of the rotating shaft 13 is fixedly connected with a rotating rod 14, the surface of the rotating rod 14 is fixedly connected with a hairbrush 15, both sides of the tube body 1 are fixedly connected with shunt tubes 17, the inner wall of the tube body 1 is fixedly connected with reinforcing ribs 19, and the tail of the rotating shaft 13 is fixedly connected with blades 16.

Further, the brush 15 is annular along the centre of a circle of rotation axis 13 and distributes, and brush 15 is horizontal equidistance setting on the surface of rotary rod 14, because brush 15 and the inner wall contact of body 1, when its motion, can clear up automatically through rotatory inner wall to body 1, strengthen the mobility of the inside object of body 1, effectively avoid body 1 to take place to block up.

Further, the reinforcing ribs 19 are made of reinforcing steel bars, the reinforcing ribs 19 are distributed in annular equidistant mode inside the pipe body 1, and the compression resistance of the pipe body 1 can be effectively enhanced under the action of the reinforcing ribs 19.

Further, the blades 16 are perpendicular to the rotating shaft 13, the blades 16 drive the rotating shaft 13 to form a rotating structure, when water flows, the blades 16 and the rotating shaft 13 are driven to rotate by water flow, the rotating rod 14 rotates along with the blades, and when the rotating rod 14 rotates, the hairbrush 15 is driven to move.

Working principle: when using this bridge drainage pipe network, at first, through setting up the hole 2 that permeates water, the inside that permeate water hole 2 can be convenient for ground permeates water hole 2 infiltration into body 1 discharges, can effectively avoid water to pile up at the bridge surface, through setting up wire net 3, wire net 3 can effectively keep apart the rubble, avoid rubble to fall into inside the hole 2 that permeates water, lead to permeate water hole 2 to take place to block up, when needs change wire net 3, only need with first retainer plate 4 and second retainer plate 6 dismantle from the surface of body 1 can, through setting up connecting pipe 18, when water takes place to flow backward, the water of backward flow can exert thrust to spring column 9 when flowing, make spring column 9 extend forward, and drive seal ball valve 10 and to link up circle 11 motion, when seal ball valve 10 and link circle 11 contact completely, can link up circle 11 shutoff, avoid the water of backward flow to continue back.

Through setting up shunt tubes 17, shunt tubes 17 can effectively alleviate the drainage pressure of body 1, when discharge is too big, some water can follow shunt tubes 17 discharge, through setting up blade 16, when water flows, can drive blade 16 and rotation axis 13 through rivers and begin to rotate, rotary rod 14 rotates thereupon, when rotary rod 14 rotates, can drive brush 15 motion, because brush 15 and the inner wall contact of body 1, when its motion, can clear up automatically through the rotation to the inner wall of body 1, the mobility of the inside object of reinforcing body 1 effectively avoids body 1 to take place to block up.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a bridge drainage pipe net, includes body (1), its characterized in that, permeable hole (2) have been seted up at the top of body (1), the surface laminating of body (1) has wire net (3), the surface of body (1) is located one side laminating of wire net (3) and has first fastening circle (4), the inside threaded connection of first fastening circle (4) has first fastening screw (5), the surface of body (1) is located one side of wire net (3) and is located the opposite side laminating of first fastening circle (4) and has second fastening circle (6), the inside threaded connection of second fastening circle (6) has second fastening screw (7), the inner wall laminating of second fastening circle (6) has connecting pipe (18) with body (1) contact, the inner wall fixedly connected with linking plate (8) of connecting pipe (18), the side fixedly connected with spring column (9) of linking plate (8), the afterbody fixedly connected with ball valve (10) of spring column (9), the inner wall laminating of one side of second fastening circle (6) has ball valve (11) fixedly connected with ball valve (10).

2. The bridge drainage pipe network according to claim 1, wherein the inside of the pipe body (1) is fixedly connected with a connecting shaft (12), the inside of the connecting shaft (12) is rotationally connected with a rotating shaft (13), a rotating rod (14) is fixedly connected with a surface of the rotating shaft (13), a hairbrush (15) is fixedly connected with the surface of the rotating rod (14), shunt pipes (17) are fixedly connected with two sides of the pipe body (1), reinforcing ribs (19) are fixedly connected with the inner wall of the pipe body (1), and blades (16) are fixedly connected with the tail of the rotating shaft (13).

3. The bridge drainage pipe network according to claim 1, wherein the steel wire mesh (3) completely covers the top of the water permeable hole (2), and the water permeable hole (2) and the pipe body (1) are in an intercommunication design.

4. The bridge drainage pipe network according to claim 1, wherein the spring columns (9) and the connecting plates (8) are arranged vertically to each other, and the sealing ball valve (10) forms a telescopic structure through the spring columns (9).

5. The bridge drainage pipe network according to claim 1, wherein the engagement ring (11) is located on a movement track of the sealing ball valve (10), and the engagement ring (11) forms a sealing structure through the sealing ball valve (10).

6. A bridge drainage pipe network according to claim 2, wherein the brushes (15) are distributed annularly along the center of the rotation shaft (13), and the brushes (15) are arranged transversely equidistantly on the surface of the rotation shaft (14).

7. The bridge drainage pipe network according to claim 2, wherein the reinforcing ribs (19) are made of reinforced steel materials, and the reinforcing ribs (19) are distributed in an annular equidistant manner inside the pipe body (1).

8. A bridge drainage pipe network according to claim 2, wherein the blades (16) are perpendicular to the rotation shaft (13), and the blades (16) drive the rotation shaft (13) to form a rotation structure.