CN214530903U - Ecological rainwater collecting system - Google Patents

Abstract

The utility model relates to an ecological technical field of environmental protection discloses an ecological rainwater collecting system, and it includes ecological ditch, collecting pipe, manifold, garbage pipe and storage water tank, the one end of collecting pipe sets up with the bottom intercommunication of ecological ditch, the other end and the manifold intercommunication of collecting pipe set up, manifold bottom one end sets up with the storage water tank intercommunication, the garbage pipe sets up with the manifold intercommunication, be provided with the filter in the manifold, the filter slope sets up towards the garbage pipe. This application sets up the filter through the slope in the header pipe, and the rainwater gets into the header pipe after, the filter filters rubbish and silt, makes then in rubbish and the silt that is blockked down by the filter gets into the rubbish pipe along the filter, and then reduces rubbish and the influence of silt to rainwater collection system collection effect, finally reaches the collection efficiency that improves rainwater collection system to the rainwater.

Description

Ecological rainwater collecting system

Technical Field

The application relates to the technical field of environmental protection and ecology, in particular to an ecological rainwater collecting system.

Background

With the rapid development of society, people's awareness of environmental protection and resource recycling is gradually enhanced. China is a country with serious shortage of water resources, and the per-capita water resources only account for one fourth of the per-capita in the world. However, how to effectively utilize rainwater and relieve the shortage of water resources is becoming an increasingly important matter.

In the correlation technique, chinese utility model patent as bulletin number CN206438558U discloses an ecological rainwater collection system, including the ecological ditch of collecting the rainwater, ecological ditch is including earth's surface vegetable layer, husky filter bed, plastics that arrange from top to bottom in proper order prevent closure plate and drainage blanket, be equipped with many blind pipes that are used for the drainage in the drainage blanket, the upper end of blind pipe communicates in plastics through many communicating pipes and prevents the closure plate, be equipped with on the plastics and insert communicating pipe and supply water inflow's through-hole on the closure plate, the department of intaking of through-hole is equipped with the filter assembly who is used for separating the fender grit. Still including being used for collecting the overflow well of following the rainwater that flows out of blind pipe delivery port, the bottom of overflow well is equipped with the infiltration structure. The blind pipe of the rainwater collection system has the effect of being not easy to block.

To the correlation technique among the above-mentioned, the inventor thinks that when using this rainwater collection system, during the rainwater takes silt and rubbish to get into the overflow well, make silt and rubbish block up the infiltration structure easily then to influence the collection efficiency of rainwater collection system to the rainwater, and then there is the relatively poor defect of collection effect of rainwater collection system to the rainwater.

SUMMERY OF THE UTILITY MODEL

In order to alleviate the relatively poor problem of rainwater collection effect of rainwater collection system, this application provides an ecological rainwater collection system.

The application provides an ecological rainwater collection system adopts following technical scheme:

the utility model provides an ecological rainwater collecting system, includes ecological ditch, collecting pipe, manifold, garbage pipe and storage water tank, the one end of collecting pipe sets up with the bottom intercommunication of ecological ditch, the other end and the manifold intercommunication setting of collecting pipe, manifold bottom one end sets up with the storage water tank intercommunication, garbage pipe and manifold intercommunication set up, be provided with the filter in the manifold, the filter slope sets up towards the garbage pipe.

Through adopting above-mentioned technical scheme, when rainwater collecting system collects the rainwater, the rainwater gets into ecological ditch in, rainwater in the ecological ditch gets into in the header pipe through the collecting pipe, rainwater that gets into in the header pipe flows into the water storage tank along the inner wall of header pipe, then make the rainwater obtain further collection in the water storage tank, when the rainwater gets into the water storage tank along the header pipe, the filter filters rubbish and the silt in the rainwater, thereby make rubbish and silt that the filter blockked down get into the garbage pipe along the filter, rubbish and silt further collect in the garbage pipe, and then reduce rubbish and silt and collect the influence of rainwater effect to rainwater collecting system, finally reach the collection efficiency that improves rainwater collecting system to the rainwater.

Optionally, the collecting pipe and the collecting pipe are communicated through a reducer union, and the diameter of one end, close to the garbage pipe, of the reducer union is smaller than the diameter of one end, close to the collecting pipe, of the reducer union.

Through adopting above-mentioned technical scheme, the rainwater gets into the manifold in back, and the rainwater flows down along the inner wall of manifold, and the diameter that the reducing pipe is close to manifold one end is greater than the diameter that the reducing pipe is close to garbage pipe one end, can reduce the condition emergence that the rainwater got into in the garbage pipe, and the condition that the rubbish in the reduction garbage pipe was more scurried to the manifold because of the rainwater in the garbage pipe takes place.

Optionally, one end of the filter plate close to the reducer union extends into the reducer union and is fixedly connected with the reducer union.

Through adopting above-mentioned technical scheme, the filter blocks rubbish and silt back down, because the filter extends to in the reducing adapter, rubbish and silt can directly get into the reducing adapter along the filter, reduce rubbish and silt and pile up the water permeability that influences the filter on the filter, and then reach the effect that increases the filter water permeability.

Optionally, a blocking portion is arranged in the reducer union and used for blocking rainwater.

Through adopting above-mentioned technical scheme, when the filter blockked rubbish and silt, partial rainwater can flow along the filter, and the stop part blocks the rainwater, reduces the condition emergence that the rainwater got into in the rubbish pipe then, and the further condition that causes rubbish and silt to scurry in the rainwater entering rubbish pipe takes place.

Optionally, a cleaning assembly is arranged in the reducer union and used for cleaning garbage and sludge in the reducer union.

Through adopting above-mentioned technical scheme, the filter blocks back to rubbish and silt, and rubbish and silt move along the filter, make rubbish and silt pile up in reducing joint then, along with the long-pending more of rubbish and silt, rubbish and silt cross the stop part and get into the rubbish pipe, clean the subassembly simultaneously and clean rubbish and silt, and then make rubbish and silt get into in the rubbish pipe.

Optionally, clean the subassembly and include cleaning roller and a plurality of blade that cleans, it is a plurality of clean the blade all with clean roller fixed connection, clean the setting of roller perpendicular to collecting pipe mesowater direction, the equal reducing joint in both ends of cleaning roller rotates to be connected.

Through adopting above-mentioned technical scheme, when the rainwater flowed along the inner wall of header pipe, the rainwater fell on cleaning the blade, made the rainwater drive cleaning the blade then, clean the blade and drive and clean the roller and rotate, when cleaning the blade and rotate, clean the blade and drive the rubbish and the silt of reducer union department, and then make rubbish and silt get into the clearance pipe, finally reach reduction rubbish and the accumulational effect of silt in the reducer union.

Optionally, every clean the equal fixedly connected with brush of one end that the roller was kept away from to the blade, the brush is on a parallel with and cleans the blade setting, the brush is contradicted with reducer union and stop part.

Through adopting above-mentioned technical scheme, when cleaning rubbish and the silt of blade in to the reducing joint, the brush is followed along with cleaning the blade motion, makes the brush clean rubbish and the silt in to the reducing joint then to make and clean rubbish and silt in the blade will reducing joint clean up.

Optionally, a collecting assembly is arranged in the garbage pipe, and the collecting assembly is used for collecting the sludge and the garbage.

Through adopting above-mentioned technical scheme, rubbish and silt get into the rubbish pipe in the back and are further collected by the collection subassembly, after the rubbish in the rubbish pipe and the certain degree of silt accumulation, clear up the collection subassembly, and then reduce the stock of rubbish and silt in the rubbish pipe.

Optionally, the collecting assembly comprises a collecting barrel and a tensile rope, and one end of the tensile rope is fixedly connected with the collecting barrel.

Through adopting above-mentioned technical scheme, back in rubbish and the silt in the reducing joint got into the garbage bin, directly got into the collecting vessel, make rubbish and silt obtain further collection in the collecting vessel then, when rubbish and silt in the collecting vessel are more, pulling force rope for pulling force rope is driving the collecting vessel and is moving out the garbage bin, and then reaches the effect that makes things convenient for the staff to clear up rubbish and silt in to the collecting vessel.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the filter plate is obliquely arranged in the collecting pipe, so that garbage and sludge are filtered by the filter plate after rainwater enters the collecting pipe, and then the garbage and the sludge blocked by the filter plate enter the garbage pipe along the filter plate, so that the influence of the garbage and the sludge on the collecting effect of the rainwater collecting system is reduced, and the rainwater collecting efficiency of the rainwater collecting system is improved finally;

2. by arranging the reducer joints, when rainwater flows along the header pipe, part of the rainwater enters the reducer joints, and as the diameter of one end, close to the header pipe, of the reducer joints is larger than that of one end, close to the garbage pipe, of the reducer joints, the rainwater in the reducer joints can reenter the header pipe along the reducer joints, so that the rainwater is prevented from entering the garbage pipe;

3. through extending to the reducing joint with the filter, rubbish and silt are blockked the back by the filter, and rubbish and silt move along the filter, make rubbish and silt get into the reducing joint then, reduce rubbish and silt and pile up on the filter, increase the water permeability of filter.

Drawings

FIG. 1 is a schematic structural diagram of a rainwater collection system according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a sweeping assembly in a rainwater collection system according to an embodiment of the present application.

Description of reference numerals: 100. an ecological ditch; 110. a filter layer; 200. a collection pipe; 300. a manifold; 310. a reducer union; 311. a blocking portion; 320. a filter plate; 400. a waste pipe; 410. an end cap; 420. a spring; 500. a water storage tank; 600. a sweeping assembly; 610. cleaning the roller; 620. cleaning the blades; 621. a brush; 700. a collection assembly; 710. a collection barrel; 711. a connecting rod; 720. a tension rope.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses ecological rainwater collecting system.

Referring to fig. 1, an ecological rainwater collecting system comprises an ecological ditch 100, a collecting pipe 200, a collecting pipe 300, a garbage pipe 400 and a water storage tank 500, wherein the ecological ditch 100 collects rainwater on the ground, the rainwater collected by the ecological ditch 100 is further collected in the collecting pipe 300 through the collecting pipe 200 and enters the water storage tank 500, and garbage and sludge entering the collecting pipe 300 along with the rainwater are collected in the garbage pipe 400.

Referring to fig. 1, the ecological trench 100 is provided on the ground, and a plurality of strips are arranged in the ecological trench 100. The ecological ditch 100 is provided with a filter layer 110, and the filter layer 110 is formed by piling coarse sand. The collecting pipe 200 is arranged below the ground, a plurality of collecting pipes 200 are arranged, one collecting pipe 200 is arranged corresponding to one ecological ditch 100, one end of the collecting pipe 200 is communicated with the ecological ditch 100, and the other end of the collecting pipe 200 is fixedly connected with the peripheral side face of the collecting pipe 300 and is communicated with the interior of the collecting pipe 300. The collecting pipe 300 is arranged below the ground, the collecting pipe 300 is vertically arranged, the top end of the collecting pipe 300 is closed, and the bottom end of the collecting pipe 300 is communicated with the water storage tank 500. The storage tank 500 is disposed below the ground, and the storage tank 500 is disposed at the bottom of the collecting pipe 300. One end of the waste pipe 400 is located below the ground and the other end of the waste pipe 400 is located above the ground. An end cover 410 is arranged on an end cover 410 of the garbage pipe 400 above the ground, the end cover 410 is covered on the garbage pipe 400, and the end of the garbage pipe 400 below the ground is closed. The middle section of the garbage pipe 400 is communicated with the collecting pipe 300 through the reducer union 310, and the diameter of one end, close to the collecting pipe 300, of the reducer union 310 is larger than that of one end, close to the garbage pipe 400, of the reducer union 310.

Referring to fig. 1, a filter plate 320 is fixedly connected to the collecting pipe 300, the filter plate 320 extends into the reducer union 310, the filter plate 320 is disposed to be inclined, and a height of an end of the filter plate 320, which is far from the waste pipe 400, with respect to a horizontal plane is greater than a height of an end of the filter plate 320, which is close to the waste pipe 400, with respect to the horizontal plane. After the garbage and sludge enter the collecting main 300 along with the rainwater, the filter plate 320 blocks the garbage and sludge, and then the garbage and sludge enter the reducer union 310 along the filter plate 320. The reducer union 310 is fixedly connected with a blocking portion 311, and the blocking portion 311 is a strip-shaped protrusion. When rainwater enters the reducer union 310, the protrusions block the rainwater, and then the rainwater entering the garbage pipe 400 is reduced.

Referring to fig. 1 and 2, a cleaning assembly 600 is disposed in the reducer union 310, the cleaning assembly 600 includes a cleaning roller 610 and a plurality of cleaning blades 620, and the plurality of cleaning blades 620 are fixedly connected to the circumferential side surface of the cleaning roller 610 at regular intervals. One end of each cleaning blade 620, which is far away from the cleaning roller 610, is fixedly connected with a brush 621, and the brush 621 is arranged in parallel with the corresponding cleaning blade 620. The cleaning roller 610 is arranged perpendicular to the direction of the water flow in the collecting pipe 300, and both ends of the cleaning roller 610 are rotatably connected with the inner wall of the reducer union 310. When the cleaning blade 620 rotates, bristles of the brush 621 collide with the blocking portion 311 and the inner wall of the reducer union 310.

Referring to fig. 1 and 2, when rainwater flows along the inner wall of manifold 300, the rainwater falls on cleaning blade 620, then rainwater is driven to cleaning blade 620, cleaning blade 620 drives cleaning roller 610 to rotate, cleaning blade 620 drives brush 621 to rotate, brush 621 drives rubbish and silt in reducer union 310, and then rubbish and silt in reducer union 310 get into garbage pipe 400. The garbage and sludge stopped by the filter plate 320 move along the filter plate 320 so that the garbage and sludge are in contact with the sweeping blade 620, and at the same time, the garbage and sludge drive the sweeping blade 620, the sweeping blade 620 rotates, and the sweeping blade 620 drives the garbage and sludge in the reducer union 310 into the garbage pipe 400.

Referring to fig. 1 and 2, a collection assembly 700 is disposed in the garbage can 400, and the collection assembly 700 includes a collection tub 710 and a tensile cord 720. The top of the collecting tub 710 is fixedly connected with a connecting rod 711. One end of the tension rope 720 is fixedly connected with the connecting rod 711, and one end of the tension rope 720 far away from the connecting rod 711 penetrates out of the end cover 410. The collecting barrel 710 is slidably connected to the garbage tube 400, and the sliding direction is the length direction of the garbage tube 400. A spring 420 is arranged in the garbage tube 400, one end of the spring 420 is abutted against the end face of the closed end of the garbage tube 400, and the other end of the spring 420 is abutted against the bottom of the collecting barrel 710.

As more and more waste and sludge is in the collection bucket 710, the weight of the collection bucket 710 increases, which in turn causes the collection bucket 710 to compress the spring 420. When spring 420 is compressed, pull rope 720 end cover 410 slides relatively, and the staff can judge the collection volume of rubbish and silt in collecting vessel 710 through observing the remaining length of pull rope 720 on the ground, and then reach the effect that makes things convenient for the staff to clear up collecting vessel 710.

The implementation principle of the ecological rainwater collection system in the embodiment of the application is as follows: when the rainwater collecting system works, rainwater is collected in the ecological ditch 100, and the collected rainwater enters the collecting pipe 300 through the collecting pipe 200. Rainwater flows along the header pipe 300, and rubbish and silt that follow rainwater entering header pipe 300 are blocked by filter 320, and rubbish and silt move along filter 320, make rubbish and silt to get into reducer union 310 then, and rubbish and silt drive sweeping blade 620 simultaneously, and sweeping blade 620 rotates, and sweeping blade 620 drives rubbish and silt in reducer union 310 to in the garbage pipe 400 simultaneously. When the rainwater flows along the collecting pipe 300, the rainwater falls on the sweeping blades 620, and the sweeping blades 620 are driven, further increasing the driving force when the sweeping blades 620 rotate.

The rainwater filtered by the filter plate 320 enters the water storage tank 500, and then the rainwater is further collected in the water storage tank 500. The garbage and sludge entering the garbage tube 400 directly drops into the collection can 710, and as the garbage and sludge in the collection can 710 get more and more, the collection can 710 moves away from the end cap 410, and the collection can 710 compresses the spring 420. The collection barrel 710 drives the tension rope 720 to move, and the tension rope 720 slides relative to the end cap 410. When the length of the tensile cord 720 above the ground is short, it means that more garbage and sludge is collected in the collection tub 710. Then take off end cover 410, pulling tensile rope 720, tensile rope 720 takes collecting vessel 710 out of rubbish pipe 400, and then makes things convenient for the staff to pour out rubbish and silt in collecting vessel 710.

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 (9)

1. The utility model provides an ecological rainwater collecting system which characterized in that: including ecological ditch (100), collecting pipe (200), header pipe (300), garbage pipe (400) and storage water tank (500), the one end of collecting pipe (200) and the bottom intercommunication setting of ecological ditch (100), the other end and header pipe (300) intercommunication setting of collecting pipe (200), header pipe (300) bottom one end and storage water tank (500) intercommunication setting, garbage pipe (400) and header pipe (300) intercommunication setting, be provided with filter (320) in header pipe (300), filter (320) slope is towards garbage pipe (400) setting.

2. An ecological stormwater collection system as claimed in claim 1, wherein: the collecting pipe (300) and the collecting pipe (200) are communicated through the reducing joint (310), and the diameter of one end, close to the garbage pipe (400), of the reducing joint (310) is smaller than that of one end, close to the collecting pipe (200), of the reducing joint (310).

3. An ecological stormwater collection system as claimed in claim 2, wherein: one end of the filter plate (320) close to the reducer union (310) extends into the reducer union (310) and is fixedly connected with the reducer union (310).

4. An ecological stormwater collection system as claimed in claim 3, wherein: a blocking portion (311) is arranged in the reducing joint (310), and the blocking portion (311) is used for blocking rainwater.

5. The ecological rainwater collection system according to claim 4, wherein: be provided with in reducing joint (310) and clean subassembly (600), clean subassembly (600) is used for cleaning rubbish and silt in reducing joint (310).

6. An ecological stormwater collection system as claimed in claim 5, wherein: cleaning subassembly (600) is including cleaning roller (610) and a plurality of cleaning blade (620), and is a plurality of cleaning blade (620) all with cleaning roller (610) fixed connection, water flow direction sets up in cleaning roller (610) the perpendicular to collecting pipe (200), the equal reducing joint (310) in both ends of cleaning roller (610) rotate and connect.

7. An ecological rainwater collection system according to claim 6 and further characterised in that: every clean blade (620) and keep away from equal fixedly connected with brush (621) of one end of cleaning roller (610), brush (621) are on a parallel with clean blade (620) setting, brush (621) contradict with reducing joint (310) and stop part (311).

8. An ecological stormwater collection system as claimed in claim 1, wherein: a collecting assembly (700) is arranged in the garbage pipe (400), and the collecting assembly (700) is used for collecting silt and garbage.

9. An ecological stormwater collection system as claimed in claim 8, wherein: the collecting assembly (700) comprises a collecting barrel (710) and a tension rope (720), wherein one end of the tension rope (720) is fixedly connected with the collecting barrel (710).

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