CN214461020U - Rainwater and sewage shunting type gutter inlet structure - Google Patents

Abstract

The utility model belongs to the technical field of the technique of municipal administration environmental protection and specifically relates to a distribution type inlet for stom water structure of rain and sewage is related to, including setting up pipeline, blow off pipe and the drain shaft in the road side, pipeline and blow off pipe communicate with the drain shaft respectively, pipeline and blow off pipe interval set up, offer the opening that is used for the intercommunication pipeline on the blow off pipe, be provided with on the opening and be used for controlling the rainwater and emit into the drainage subassembly in the blow off pipe, drainage subassembly sets up in the pipeline, be provided with the control assembly who is used for controlling drainage subassembly switch in the blow off pipe, be provided with the closure plate that is used for control pipeline intercommunication drain shaft in the blow off pipe, be provided with the breakwater that is used for pipeline control intercommunication drain shaft in the pipeline. This application has the effect of being convenient for with sewage and rainwater separation.

Description

Rainwater and sewage shunting type gutter inlet structure

Technical Field

The application relates to the technical field of municipal administration environmental protection, especially, relate to a distribution of rain and sewage type inlet for stom water structure.

Background

The rainwater and sewage flow distribution is a drainage system, rainwater and sewage are separated, rainwater roads, roofs and the ground are flushed at the early stage of raining, the concentration of pollutants contained in the rainwater is high, subsequent treatment is needed, the sewage is discharged to a sewage treatment plant for treatment, and the phenomenon that the sewage directly enters a river channel to cause pollution is reduced.

The device about collection of distribution of rain and sewage among the correlation technique includes rain and sewage sump pit, distribution of rain and sewage station, bilge well and rainwater well, and the rainwater on road surface is adulterated sewage and is discharged into the rain and sewage sump pit jointly, then discharges into distribution of rain and sewage station through the collection of rain and sewage sump pit, separates the sewage in the rainwater and discharges into the bilge well, discharges into the sewage treatment station again at last.

In view of the above-described related art, the inventors considered that the process of separating the sewage by separating the sewage from the rainwater is complicated by discharging the rain sewage into the rain sewage collecting well together.

SUMMERY OF THE UTILITY MODEL

In order to facilitate separating sewage and rainwater, this application provides a dirty branch of class inlet for stom water structure of rain.

The application provides a pair of rain and sewage branch flow type inlet for stom water structure adopts following technical scheme:

the utility model provides a rain sewage shunting inlet for stom water structure, is including setting up pipeline, blow off pipe and the drainage shaft in the road side, pipeline and blow off pipe communicate with the drainage shaft respectively, pipeline and blow off pipe interval set up, set up the opening that is used for the intercommunication pipeline on the blow off pipe, be provided with on the opening and be used for controlling the rainwater and emit into the drainage component in the blow off pipe, drainage component sets up in the pipeline, be provided with the control assembly who is used for controlling the drainage component switch in the blow off pipe, be provided with the closure plate that is used for control pipeline intercommunication drainage shaft in the blow off pipe, be provided with the breakwater that is used for pipeline control intercommunication drainage shaft in the pipeline.

Through adopting above-mentioned technical scheme, the initial stage rainwater enters into in the pipeline, enters into in the sewage pipes through drainage component, after filling up sewage in the sewage pipes, drainage component is closed to control assembly, and the water in the pipeline is discharged into in the drainage well through the breakwater this moment, and after rainwater in the pipeline discharged, open the blow off pipe through the closing plate, discharge sewage into in the drainage well from the sewage pipes again to discharge sewage and rainwater respectively, so that handle sewage.

Optionally, the drainage component comprises a water pipe and a flow guide sleeve, the water pipe is arranged on the through opening, the flow guide sleeve is of a hollow structure, one end of the flow guide sleeve is provided with an opening, the flow guide sleeve is arranged on the water pipe through the opening sleeve, the inner wall of the flow guide sleeve is arranged at an interval with the water pipe, the opening end of the flow guide sleeve is arranged at an interval with the pipeline, the flow guide sleeve is provided with a supporting block, and the flow guide sleeve is connected with the pipeline through the supporting block.

Through adopting above-mentioned technical scheme, when the water level in the pipeline risees to the height of water pipe upper end, the water in the pipeline enters into between water pipe and the honeycomb duct through the opening of honeycomb duct, then discharges through the water pipe, thereby produces siphon effect and discharges the water in the pipeline into in the sewage pipes.

Optionally, the control assembly comprises a control plate, a connecting rod and a floating plate, the floating plate is arranged in the sewage pipe, and the control plate is arranged on one side, close to the through opening, of the sewage pipe in a sliding manner; one end of the connecting rod is hinged to the control panel, the other end of the connecting rod is hinged to the floating plate, and the connecting rod is arranged in an inclined mode in the vertical direction.

Through adopting above-mentioned technical scheme, along with the increase of the water level in the sewage pipes, the hosepipe moves the direction removal that floats the board towards the opening, floats the board and removes and drive the connecting rod and rotate, promotes the control panel removal when the connecting rod pivoted, and when sewage was deposited in the sewage pipes fully, the control panel removed to seal the opening, and then with the water pipe closure.

Optionally, the breakwater includes fixed plate and rotor plate, the fixed plate sets up in the pipeline, the rotor plate rotates the setting in one side that the fixed plate is close to the blow off pipe, be provided with the rotation piece in the axis of rotation of rotor plate, rotor plate and fixed plate are connected respectively to the both ends of rotating the piece.

Through adopting above-mentioned technical scheme, the water level in the pipeline continues to rise after rising to the upper end of water pipe after the water pipe is closed, under hydraulic effect, drives the rotor plate and rotates to water drainage in the pipeline is gone into in the drainage well.

Optionally, the closing plate is arranged in the sewage draining pipe in a rotating mode, the road is provided with an adjusting opening, the rotating shaft of the closing plate extends into the adjusting opening, a handle is arranged in the adjusting opening, and the handle is connected with the rotating shaft of the closing plate in a connecting mode.

Through adopting above-mentioned technical scheme, the back in the drain pit is arranged into to the water in the pipeline, until water discharges to the rotor plate and rotates to the closed condition, twist grip drives the axis of rotation of closed plate, and then opens the blow off pipe to discharge remaining water in blow off pipe and the pipeline into the drain pit, so that handle sewage.

Optionally, a turbine and a scroll bar are arranged in the adjusting port, the scroll bar is fixedly connected with the handle, the turbine is fixedly connected with the rotating shaft of the closing plate, and the turbine is engaged with the scroll bar.

Through adopting above-mentioned technical scheme, the handle rotates and drives the scroll bar and rotate, and the scroll bar rotates and drives the turbine and rotate, and the turbine rotates and drives the closure plate and rotate, and turbine and scroll bar cooperation have auto-lock nature, and then promote the stability of closure plate.

Optionally, a stabilizer bar is arranged in the sewage discharge pipe, and the floating plate is arranged on the stabilizer bar in a sliding mode in the vertical direction.

Through adopting above-mentioned technical scheme, set up the stabilizer bar and restrict the position of floating the board, reduce the phenomenon that the board squinted appears floating the board when removing, promote the stability of floating the board.

Optionally, the supporting blocks are provided in plurality, and the supporting blocks are uniformly arranged on the flow guide sleeve at intervals.

Through adopting above-mentioned technical scheme, set up a plurality of supporting shoes and support the water conservancy diversion cover, and then promote the stability of complex between water conservancy diversion cover and the pipeline.

Drawings

Fig. 1 is a schematic structural view of a rainwater and sewage split-flow type gutter inlet structure according to an embodiment of the present application.

Fig. 2 is a partially cut-away view of a rain and sewage split type gully structure according to an embodiment of the present application.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Fig. 4 is a schematic structural view of a control assembly in a rainwater and sewage separation type gutter inlet structure according to an embodiment of the present application.

Fig. 5 is a schematic structural view of a drain assembly in a rainwater and sewage separation type gutter inlet structure according to an embodiment of the present application.

Reference numerals: 1. a road; 11. a drainage well; 12. a water inlet; 13. a filter plate; 14. an adjustment port; 15. a handle; 16. a sealing plate; 2. a pipeline; 3. a blow-off pipe; 31. a port; 4. a drainage assembly; 41. a water pipe; 42. a flow guide sleeve; 421. a support block; 5. a water baffle; 51. a fixing plate; 52. a rotating plate; 521. a rotating member; 6. a control component; 61. a control panel; 62. a connecting rod; 63. a floating plate; 7. a stabilizer bar; 8. a closing plate; 9. a turbine; 91. a scroll bar.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The application discloses dirty reposition of redundant personnel type inlet for stom water structure of rain. Referring to fig. 1 and 2, distribution of rain and sewage type inlet for stom water structure is including setting up pipeline 2 and blow off pipe 3 in 1 both sides of road, and pipeline 2 and blow off pipe 3 interval set up in vertical direction, still are provided with drainage shaft 11 in the side of road 1, and pipeline 2 and blow off pipe 3 communicate with drainage shaft 11 respectively, and pipeline 2 is used for discharging the rainwater, and blow off pipe 3 is used for discharging sewage.

Referring to fig. 2 and 4, a water inlet 12 is formed in the road 1, the water inlet 12 is communicated with the pipeline 2, a filter plate 13 is arranged on the water inlet 12, and the filter plate 13 is used for filtering impurities in rainwater. Seted up opening 31 on blow off pipe 3, blow off pipe 3 is provided with drainage component 4 through opening 31 and pipeline 2 intercommunication on opening 31, is provided with breakwater 5 in pipeline 2, and breakwater 5 sets up in the one side that pipeline 2 is close to drainage shaft 11, and through drainage component 4 control with the water drainage in the pipeline 2 in 3, and then discharge alone the more initial stage rainwater of containing the pollutant.

Referring to fig. 4 and 5, the drainage assembly 4 includes a water pipe 41 and a flow guide sleeve 42, the water pipe 41 is disposed on one side of the port 31 close to the pipeline 2, the flow guide sleeve 42 is a hollow structure and has an opening at one end, the flow guide sleeve 42 is disposed outside the water pipe 41 through the opening sleeve, the inner wall of the flow guide sleeve 42 is spaced from the water pipe 41, a plurality of supporting blocks 421 are disposed on the flow guide sleeve 42, the supporting blocks 421 are uniformly spaced on the flow guide sleeve 42, the flow guide sleeve 42 is fixed in the pipeline 2 through the supporting blocks 421, and the spacing between the opening end of the flow guide sleeve 42 and the inner wall of the pipeline 2 is set. The rainwater enters into pipeline 2 through water inlet 12 in, block the rainwater through breakwater 5, the water level in pipeline 2 increases gradually, the rainwater enters into between water conservancy diversion cover 42 and water pipe 41 simultaneously, when the water level rises to the terminal surface of high outlet pipe 41, water enters into in blow off pipe 3 through water pipe 41, it enters into between honeycomb duct and the water pipe 41 to drive the water in pipeline 2 simultaneously between water conservancy diversion cover 42 and the 2 inner walls of pipeline, then enter into in blow off pipe 3 through water pipe 41, produce the siphon effect promptly, thereby collect in blow off pipe 3 the rainwater of initial stage.

Referring to fig. 2 and 4, in order to facilitate the rainwater at the initial stage and the rainwater at the later stage to be separately discharged, a control assembly 6 for controlling the opening and closing of the water pipe 41 is arranged in the sewage draining pipe 3, the control assembly 6 comprises a control plate 61, a connecting rod 62 and a floating plate 63, the floating plate 63 is arranged in the sewage draining pipe 3, the control plate 61 is arranged at the edge of the through opening 31, the control plate 61 is arranged in the sewage draining pipe 3 in a sliding manner on one side close to the water pipe 41, one end of the connecting rod 62 is hinged to the control plate 61, the other end of the connecting rod is hinged to the floating plate 63, and the connecting rod 62 is in an inclined state in the vertical direction in the initial state. Along with the rising of water level in the blow off pipe 3, the floating plate 63 rises, and the thrust is exerted to control panel 61 through connecting rod 62 when driving connecting rod 62 pivoted, drives control panel 61 and removes towards opening 31 department, and when full water in blow off pipe 3, floating plate 63 drives control panel 61 and removes to opening 31 closed, and then stops to pass through water pipe 41 and to the interior drainage of blow off pipe 3. The floating plate 63 may be a hollow plastic floating body to increase the buoyancy of the floating plate 63, so as to rotate the connecting rod 62 and adjust the position of the control plate 61.

Referring to fig. 4, a stabilizer bar 7 is provided in the sewage pipe 3, the floating plate 63 is slidably disposed on the stabilizer bar 7 in a vertical direction, the floating plate 63 is supported by the stabilizer bar 7 when the floating plate 63 moves, the phenomenon of deviation of the floating plate 63 is reduced, and the stability of the floating plate 63 is improved.

Referring to fig. 2 and 3, in order to discharge water through the pipe 2 after the water pipe 41 is closed, the water blocking plate 5 includes a fixed plate 51 and a rotating plate 52, the fixed plate 51 is rotatably disposed on the inner wall of the pipe 2, the rotating plate 52 is rotatably disposed on the fixed plate 51, the rotating plate 52 is disposed near the bottom wall of the pipe 2, a rotating member 521 is disposed on the rotating shaft of the rotating plate 52, the rotating member 521 can be disposed as a torsion spring, one end of the torsion spring is connected to the rotating plate 52, the other end of the torsion spring is connected to the fixed plate 51, the rotating plate 52 is in a vertical state in an initial state, the pipe 2 is sealed, the water level in the pipe 2 continues to be raised after exceeding the upper end of the water pipe 41 as the water pipe 41 is closed, the pressure applied to the rotating plate 52 is increased, and then the rotating plate 52 is driven to rotate, the pipe 2 is opened, and rainwater is discharged into the drain well 11 through the pipe 2.

Referring to fig. 2 and 3, in order to facilitate the sewage discharge in the blow off pipe 3, be provided with the closing plate 8 in the blow off pipe 3, the closing plate 8 sets up at 3 internal rotations of blow off pipe, accessible rotates the switch of closing plate 8 to blow off pipe 3 and controls, adjust mouthful 14 has been seted up on ground, the axis of rotation of closing plate 8 passes through pipeline 2 and extends to in adjusting mouthful 14, be provided with handle 15 in adjusting mouthful 14, handle 15 and closing plate 8's axis of rotation are connected, so that rotate the switch of closing plate 8 to blow off pipe 3 through handle 15 and adjust. Be provided with the closing plate 16 on adjusting mouthful 14, one side of closing plate 16 articulates in adjusting mouthful 14 department, and the opposite side lock is at the edge of adjusting mouthful 14, and it is sealed to adjust mouthful 14 through closing plate 16, and then gets into impurity in the reduction regulation mouthful 14, reduces impurity and appears influencing the phenomenon that handle 15 rotated.

Referring to fig. 2 and 3, in order to improve the stability of the sealing plate 16, a turbine 9 and a scroll 91 are arranged in the adjusting opening 14, the scroll 91 and the handle 15 are welded and fixed, the rotating shaft of the turbine 9 and the rotating shaft of the closing plate 8 are welded and fixed, the rotating axis of the turbine 9 and the rotating shaft of the closing plate 8 are in the same line, the turbine 9 and the scroll 91 are meshed, the rotating handle 15 drives the closing plate 8 to rotate through the scroll 91 and the turbine 9, and the turbine 9 and the scroll 91 are matched to have self-locking performance, so that the stability of the closing plate 8 is improved.

The implementation principle of the application is as follows: the rainwater enters into pipeline 2 through water inlet 12, along with the increase of water level, in water pipe 41 and water conservancy diversion cover 42 enter into blow off pipe 3, after water in blow off pipe 3 is filled up, control panel 61 removes and closes water pipe 41, the water level increases in the pipeline 2, rotor plate 52 is opened, in discharging the water drainage well 11 with the water drainage in the pipeline 2, at last rotate closure plate 8 through handle 15, discharge the water in the blow off pipe 3, thereby discharge rainwater and sewage respectively, so as to handle.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a rain sewage branch flow type inlet for stom water structure, is including setting up pipeline (2), blow off pipe (3) and drainage shaft (11) in road (1) side, pipeline (2) and blow off pipe (3) respectively with drainage shaft (11) intercommunication, its characterized in that: pipeline (2) and blow off pipe (3) interval set up, offer opening (31) that are used for communicating pipe (2) on blow off pipe (3), be provided with on opening (31) and be used for controlling rainwater and discharge into drainage component (4) in blow off pipe (3), drainage component (4) set up in pipeline (2), be provided with in blow off pipe (3) and be used for controlling control assembly (6) of drainage component (4) switch, be provided with in blow off pipe (3) and be used for controlling closed closure plate (8) of blow off pipe (3), be provided with in pipeline (2) and be used for controlling closed breakwater (5) of pipeline (2).

2. The gutter inlet structure according to claim 1, wherein: drainage subassembly (4) include water pipe (41) and water conservancy diversion cover (42), water pipe (41) set up on opening (31), the opening has been seted up for hollow structure and one end to water conservancy diversion cover (42), water conservancy diversion cover (42) are established on water pipe (41) through the opening cover, water conservancy diversion cover (42) inner wall and water pipe (41) interval set up, water conservancy diversion cover (42) opening tip and pipeline (2) interval set up, be provided with supporting shoe (421) on water conservancy diversion cover (42), water conservancy diversion cover (42) are connected through supporting shoe (421) and pipeline (2).

3. The gutter inlet structure according to claim 2, wherein: the control assembly (6) comprises a control plate (61), a connecting rod (62) and a floating plate (63), the floating plate (63) is arranged in the sewage discharge pipe (3), and the control plate (61) is arranged on one side, close to the through hole (31), of the sewage discharge pipe (3) in a sliding mode; one end of the connecting rod (62) is hinged to the control plate (61), the other end of the connecting rod is hinged to the floating plate (63), and the connecting rod (62) is obliquely arranged in the vertical direction.

4. The gutter inlet structure according to claim 3, wherein: the water baffle (5) comprises a fixed plate (51) and a rotating plate (52), the fixed plate (51) is arranged in the pipeline (2), the rotating plate (52) is arranged on one side of the fixed plate (51) close to the sewage discharge pipe (3) in a rotating mode, a rotating piece (521) is arranged on the rotating shaft of the rotating plate (52), and the two ends of the rotating piece (521) are connected with the rotating plate (52) and the fixed plate (51) respectively.

5. The gutter inlet structure according to claim 4, wherein: the utility model discloses a road pollution discharge device, including road (1), closed plate (8) are at blow off pipe (3) internal rotation setting, regulation mouth (14) have been seted up on road (1), the axis of rotation of closed plate (8) extends to in regulation mouth (14), be provided with handle (15) in regulation mouth (14), the axis of rotation of handle (15) and closed plate (8) is connected.

6. The gutter inlet structure according to claim 5, wherein: be provided with turbine (9) and scroll bar (91) in regulation mouth (14), scroll bar (91) and handle (15) fixed connection, the axis of rotation fixed connection of turbine (9) and closing plate (8), turbine (9) and scroll bar (91) meshing.

7. The gutter inlet structure according to claim 3, wherein: a stabilizing rod (7) is arranged in the sewage discharging pipe (3), and the floating plate (63) is arranged on the stabilizing rod (7) in a sliding mode in the vertical direction.

8. The gutter inlet structure according to claim 2, wherein: the supporting blocks (421) are arranged in a plurality, and the supporting blocks (421) are uniformly arranged on the flow guide sleeve (42) at intervals.

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