CN220813429U - Siphon rain bucket applied to viaduct - Google Patents

Abstract

The utility model provides a siphon rain water bucket applied to a viaduct, which comprises a water collecting bucket body, a drainage bucket and a drainage pipe, wherein the bottom of the drainage bucket is vertically connected with a drainage pipe, the drainage pipe can be inserted into the drainage pipe, an elastic sealing ring is fixedly sleeved at the bottom of the drainage pipe, a bearing ring is fixedly sleeved at the top of the drainage pipe, and an elastic piece capable of being propped against the end face of the drainage pipe is arranged at the bottom of the bearing ring. Through setting up the elastic component between accepting ring and drain pipe, when the water catch bowl body received the vehicle to roll, the elastic component can take place elastic deformation to realize buffering shock attenuation, simultaneously, the power that the water discharge bowl received can not be used in the inlet port of drain pipe hardly, and then reduces the port of drain pipe and take place the risk of deformation, in order to improve the sealed effect between drain pipe and the water discharge bowl.

Description

Siphon rain bucket applied to viaduct

Technical Field

The utility model relates to the field of drainage devices, in particular to a siphon rain bucket applied to a viaduct.

Background

At present, a rain bucket can be used for draining water on a viaduct, and a common rain bucket is a siphon type rain bucket, so that the siphon type rain bucket has a super-strong anti-vortex function and can well prevent air from being brought into the whole system through water flow at an inlet of the rain bucket, and therefore rainwater on the surface of the viaduct can be drained rapidly.

The rain water bucket in the related art generally includes a water bucket body, a drainage bucket fixed to the bottom of the water bucket body, and a drainage pipe for being buried in a viaduct and for being inserted into the drainage pipe. Rainwater enters the drainage hopper through the water collecting hopper body and is discharged through the drainage pipe, so that the rainwater on the surface of the overhead bridge is rapidly discharged.

However, when there is the vehicle to drive on the overpass to when the vehicle pressed the water catch bowl body, the drainage hopper can be pressed down the motion, and at this moment, effort direct action is in the inlet port department of drain pipe, makes the inlet port deformation of drain pipe easily to influence the sealed effect between drainage hopper and the drain pipe, make debris such as silt get into in the drain pipe easily, cause the risk of rainwater fill jam, remain to be improved.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model aims to provide the siphon rain bucket applied to the viaduct, which can reduce the risk of deformation of the water inlet of the drain pipe.

The technical aim of the utility model is realized by the following technical scheme:

The utility model provides a be applied to siphon rain water bucket of overpass, includes water catch bowl body, drainage bucket and drain pipe, the vertical honeycomb duct that is connected with in bottom of drainage bucket, the honeycomb duct can insert in the drain pipe, just the fixed cover in bottom of honeycomb duct is equipped with elastic sealing washer, the fixed cover in top of honeycomb duct is equipped with accepts the ring, the bottom surface of accepting the ring is provided with can support the elastic component on the terminal surface of drain pipe.

Through above-mentioned technical scheme, through setting up the elastic component between accepting ring and drain pipe, when the water catch bowl body received the vehicle to roll, elastic deformation can take place for the elastic component to realize buffering shock attenuation. Meanwhile, the design is that the guide pipe is inserted into the drain pipe, the force received by the drain bucket does not act on the water inlet port of the drain pipe, and then the risk that the port of the drain pipe is deformed is reduced, so that the sealing effect between the drain pipe and the drain bucket is improved, the risk that sundries enter the drain pipe is reduced, and the risk of blockage of the rainwater bucket is reduced. Moreover, through setting up the sealing washer, can also improve the sealed effect between honeycomb duct and the drain pipe, further reduce the risk that debris got into the drain pipe.

Further, the elastic piece comprises a spring plate which is arranged in a C shape, and the top end of the spring plate is fixed on the bottom surface of the bearing ring, and the bottom end of the spring plate is used for propping against the end surface of the drain pipe.

Through above-mentioned technical scheme, through setting up the spring board of C shape for the spring board can quick deformation, with the realization is unloaded the power fast to pressure, and then improves buffering shock attenuation effect.

Further, the spring plate is annular, and the spring plate is arranged along the circumferential direction of the receiving ring.

Through above-mentioned technical scheme, through setting up annular spring board, after the port butt of bottom and drain pipe of spring board, the spring board can also realize accepting sealing between ring and the drain pipe, reduces the risk that debris got into the drain pipe to reduce the risk that the rainwater fill was blockked up.

Further, the number of the spring plates is plural, and the spring plates are plural in coaxial line.

Through above-mentioned technical scheme, through setting up a plurality of spring plates, improve and accept the reset effect of ring, can also improve structural strength, simultaneously, a plurality of spring plates can also improve and accept the sealed effect between ring and the drain pipe.

Further, the bottom end of the spring plate is fixedly connected with an elastic sealing ring along the circumferential direction of the spring plate, and the sealing ring is used for propping against the end face of the drain pipe.

Through above-mentioned technical scheme, improve the sealed effect between spring board and the drain pipe, and then improve the sealing stability between accepting ring and the drain pipe to reduce the risk that debris got into the drain pipe, thereby reduce the risk that the rainwater fill was blockked up.

Further, the bottom surface of the sealing ring is provided with an annular sealing groove along the circumferential direction of the sealing ring.

Through above-mentioned technical scheme, further improve the sealing stability between spring board and the drain pipe to improve the sealed effect between rainwater fill and the drain pipe.

Further, a plurality of sealing rings are arranged, and the plurality of sealing rings are uniformly arranged along the axial line direction of the flow guide pipe.

Through above-mentioned technical scheme, improve the sealed effect between honeycomb duct and the drain pipe to reduce the risk that debris such as silt got into the drain pipe, reduce the risk of jam.

Further, a diversion inclined plane is arranged at the bottom port of the diversion pipe, and the bottom port of the diversion pipe is arranged in an open mode.

Through above-mentioned technical scheme, through setting up the water conservancy diversion inclined plane for the rainwater can get into the drain pipe fast, improves the drainage efficiency of rainwater.

In summary, the utility model has the following beneficial effects:

1. Through setting up the elastic component between accepting ring and drain pipe, when the water catch bowl body received the vehicle to roll, elastic deformation can take place for the elastic component to realize buffering shock attenuation, simultaneously, the power that the water discharge bowl received can not be used in the inlet port of drain pipe hardly, and then reduces the risk that the port of drain pipe takes place to warp, in order to improve the sealed effect between drain pipe and the water discharge bowl.

2. Through setting up annular spring board, after the port butt of bottom and drain pipe of spring board, the spring board can also realize accepting sealing between ring and the drain pipe, reduces the risk that debris got into the drain pipe to reduce the risk that the rainwater fill was blockked up.

3. Through setting up the water conservancy diversion inclined plane for the rainwater can get into the drain pipe fast, improves the drainage efficiency of rainwater.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is an enlarged schematic view of area A of FIG. 1;

fig. 3 is an enlarged schematic view of region B in fig. 1.

Reference numerals: 1. a water collection bucket body; 2. a drainage bucket; 3. a drain pipe; 4. a flow guiding pipe; 5. a seal ring; 6. a receiving ring; 7. an elastic member; 71. a spring plate; 8. a seal ring; 9. sealing grooves; 10. and a diversion inclined plane.

Description of the embodiments

The present utility model will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, a siphon rain water bucket applied to a viaduct comprises a water collecting bucket body 1, a water draining bucket 2 and a water draining pipe 3, wherein the water draining bucket 2 is fixed at the bottom of the water collecting bucket body 1, and the water draining pipe 3 is used for being buried in the viaduct.

Referring to fig. 1 and 2, the bottom of the drainage bucket 2 is vertically and fixedly connected with a drainage pipe 4, the drainage pipe 4 can be inserted into the drainage pipe 3, meanwhile, a plurality of elastic sealing rings 5 are fixedly sleeved at the bottom of the drainage pipe 4, and the plurality of sealing rings 5 are uniformly arranged along the axial lead direction of the drainage pipe 4 so as to improve the sealing effect between the drainage pipe 4 and the drainage pipe 3.

Referring to fig. 1 and 3, a receiving ring 6 is fixedly sleeved on the top of the flow guide pipe 4, and an elastic member 7 capable of abutting against the end face of the drain pipe 3 is arranged on the bottom surface of the receiving ring 6. When the water collecting bucket body 1 is rolled by a vehicle, the elastic piece 7 can elastically deform, so that buffering and shock absorption are realized.

This design utilizes honeycomb duct 4 to insert in drain pipe 3, and the force that drain bucket 2 received can hardly be used in drain pipe 3's inlet port, and then reduces drain pipe 3's port and take place the risk of warping to improve the sealed effect between drain pipe 3 and the drain bucket 2, thereby reduce debris and get into drain pipe 3's risk, reduce the risk that the rainwater fill was blockked up.

Referring to fig. 1 and 3, the elastic member 7 includes a plurality of spring plates 71, the spring plates 71 are annular and disposed along the circumferential direction of the receiving ring 6, and the plurality of spring plates 71 are coaxial. Meanwhile, the section of the spring plate 71 is arranged in a C shape, and the top end of the spring plate 71 is fixed on the bottom surface of the bearing ring 6 and the bottom end is used for abutting against the end surface of the drain pipe 3.

Through setting up annular spring plate 71, after the bottom of spring plate 71 and the port butt of drain pipe 3, spring plate 71 can also realize accepting sealing between ring 6 and the drain pipe 3, reduces the risk that debris got into drain pipe 3 to reduce the risk that the rainwater fill was blockked up.

Referring to fig. 1 and 3, the bottom end of the spring plate 71 is fixedly connected with an elastic sealing ring 8 along the circumferential direction thereof, the sealing ring 8 is used for propping against the end face of the drain pipe 3, and the bottom surface of the sealing ring 8 is provided with an annular sealing groove 9 along the circumferential direction thereof, so as to improve the sealing effect between the spring plate 71 and the drain pipe 3, and further improve the sealing stability between the receiving ring 6 and the drain pipe 3.

Referring to fig. 1 and 3, a diversion slope 10 is provided at the bottom port of the diversion pipe 4, and the bottom port of the diversion pipe 4 is provided in an open shape, so that rainwater can quickly enter the drainage pipe 3, and the drainage efficiency of the rainwater is improved.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Claims (8)

1. Be applied to siphon rain water bucket of overpass, including catch bowl body (1), drainage bucket (2) and drain pipe (3), its characterized in that: the bottom of drainage bucket (2) is vertical to be connected with honeycomb duct (4), honeycomb duct (4) can insert in drain pipe (3), just the fixed cover in bottom of honeycomb duct (4) is equipped with elastic sealing washer (5), the fixed cover in top of honeycomb duct (4) is equipped with accepts ring (6), the bottom surface of accepting ring (6) is provided with can support elastic component (7) on the terminal surface of drain pipe (3).

2. The siphon rain scoop applied to a overpass according to claim 1, wherein: the elastic piece (7) comprises a spring plate (71) which is arranged in a C shape, and the top end of the spring plate (71) is fixed on the bottom surface of the bearing ring (6) and the bottom end of the spring plate is used for propping against the end surface of the drain pipe (3).

3. The siphon rain scoop applied to a overpass according to claim 2, wherein: the spring plate (71) is annular, and the spring plate (71) is arranged along the circumferential direction of the receiving ring (6).

4. A siphon rain scoop for overpasses according to claim 3, characterized in that: the number of the spring plates (71) is plural, and the spring plates (71) are coaxial.

5. The siphon rain scoop for viaduct according to claim 4, wherein: the bottom end of the spring plate (71) is fixedly connected with an elastic sealing ring (8) along the circumferential direction of the spring plate, and the sealing ring (8) is used for propping against the end face of the drain pipe (3).

6. The siphon rain scoop applied to a overpass according to claim 5, wherein: the bottom surface of sealing ring (8) has offered annular seal groove (9) along its circumferencial direction.

7. The siphon rain scoop applied to a overpass according to claim 1, wherein: the sealing rings (5) are arranged in a plurality, and the sealing rings (5) are uniformly arranged along the axial line direction of the guide pipe (4).

8. The siphon rain scoop applied to a overpass according to claim 1, wherein: the bottom port of the flow guide pipe (4) is provided with a flow guide inclined plane (10), and the bottom port of the flow guide pipe (4) is arranged in an open mode.