CN219671576U - Rainwater dirt-removing and flow-dividing system - Google Patents

Abstract

The utility model discloses a rainwater decontamination diversion system, which belongs to the technical field of urban rainwater cleaning and comprises a surface ground surface positioned at the uppermost part and a ground surface positioned below the surface ground surface, wherein a water storage well and a collecting well are formed in the top surface of the ground surface, a water inlet is formed in the upper part of the surface ground surface, a support is fixedly arranged above the ground surface, the support is positioned between the water storage well and the collecting well, a filter pipeline is rotatably arranged on the support, a pressure block is fixedly arranged in the filter pipeline, an adjusting block and a filter block are slidably arranged in the filter pipeline, and the pressure block, the adjusting block and the filter block are sequentially arranged. Through setting up retaining well, collecting well, water inlet, support, filter tube, pressure piece, regulating block and filter block, before the rainwater enters into the retaining well through the water inlet, can filter the solid impurity among the rainwater by filter tube and filter block to can also clear up these impurity automatically, reduce the human cost.

Description

Rainwater dirt-removing and flow-dividing system

Technical Field

The utility model belongs to the technical field of urban rainwater cleaning, and particularly relates to a rainwater cleaning and diverting system.

Background

The rain and sewage split flow is a drainage system, which is a drainage mode of separating rainwater and sewage, conveying the rainwater and the sewage by one pipeline respectively and discharging or carrying out subsequent treatment. Rainwater is directly discharged to a river channel through a rainwater pipe network, and sewage is collected through a sewage pipe network and then is sent to a sewage treatment plant for treatment, so that pollution caused by the fact that the sewage directly enters the river channel is avoided. And the rainwater is collected, utilized and centrally managed to be discharged, so that the impact of water quantity on a sewage treatment plant can be reduced, and the treatment efficiency of the sewage treatment plant is ensured.

To the treatment of decontaminating of rainwater, firstly unify through the drainage with the rainwater collect in the collecting well, then introduce the rainwater and carry out the reposition of redundant personnel processing with the pipeline that sewage is different, in prior art, the rainwater directly flows into the collecting well through the sewer, the rainwater owing to fall in-process and ground, wall body building contact, consequently still can contain some solid impurity in the rainwater, the direct clearance gets up more troublesome, has increased clean difficult to discharge, has the big problem of clearance degree of difficulty.

Therefore, we propose a rainwater decontamination diversion system to solve the above problems.

Disclosure of Invention

The utility model aims to solve the problems that in the prior art, rainwater directly flows into a collecting well through a sewer, and the rainwater is contacted with the ground and a wall body building in the falling process, so that the rainwater also contains some solid impurities, the direct cleaning is troublesome, the difficulty of cleaning and discharging is increased, and the cleaning difficulty is high.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a rainwater dirt removal reposition of redundant personnel system, includes the bottom surface that is located the top surface ground and is located the below, storage well and collecting well have been seted up to bottom surface top surface, and the water inlet has been seted up to top surface ground top, the fixed support that is provided with in bottom surface top, the support is located between storage well and the collecting well, it is provided with the filter tube to rotate on the support, the filter tube internal fixation is provided with the pressure block, the slip is provided with regulating block and filter block in the filter tube, pressure block, regulating block and filter block are arranged in proper order.

Through setting up surface ground, bottom surface, water storage well, collecting well, water inlet, support, filter tube, pressure piece, regulating block and filter block, before the rainwater enters into the water storage well through the water inlet, can filter the solid impurity among the rainwater by filter tube and filter block to under the effect of pressure piece, still can clear up these impurity automatically, reduced the human cost, through automatic impurity of having cleared up in advance, reduced the work load of low reaches process.

Preferably, openings are formed at both ends and above the filtering pipeline, a discharging pipe is fixedly connected to one end of the filtering pipeline, which is close to the collecting well, and an inclination angle formed by the filtering pipeline and the discharging pipe is an obtuse angle.

Through setting up opening and row material pipe, realized controlling the position removal of filter block, under dry condition, the impurity in the filter block can automatic discharge filter block.

Preferably, the discharging pipe is fixedly provided with a balancing weight, and the balancing weight is a stainless steel block.

Through setting up the balancing weight, realized increasing the weight of arranging the one end that the material pipe is located.

Preferably, the pressure block is internally fixedly provided with absorbent cotton.

Through setting up cotton that absorbs water, under the sleet weather, cotton that absorbs water is in the moist state, and the quality of pressure piece place one end increases, drives the filter tube and inclines to the one end that pressure piece place.

Preferably, the filter block is positioned below the water inlet, and the filter block and the filter pipeline are provided with sieve holes.

Through setting up the sieve mesh, realized sieving in advance to the rainwater, can clear up the impurity of rainwater, reduced the process of follow-up clean flow.

Preferably, a sliding groove is formed in the filtering pipeline, a sliding block is fixedly arranged on the adjusting block, and the sliding block is arranged in the sliding groove in a sliding manner.

Through setting up spout and slider, realized the position of control regulating block.

Preferably, a connecting belt is fixedly arranged between the adjusting block and the filter block.

Through setting up the connecting band, realized connecting regulating block and filter block, when regulating block or filter block's position changed, can change the filter block or the position of regulating block who is connected with it, drive its motion together.

Preferably, the support is located the filter tube middle section with the filter tube junction, when the pressure piece is in the wet state, the weight that the filter tube is located pressure piece one side is greater than the weight that is located balancing weight one side, the filter tube inclines towards pressure piece one side, when the pressure piece is in the dry state, the weight that the filter tube is located pressure piece one side is less than the weight that is located balancing weight one side, the filter tube inclines towards balancing weight one side.

By arranging the balancing weight, the pressure block, the bracket and the filter pipeline, the inclination state of the filter pipeline is controlled.

In summary, according to the utility model, the surface floor, the ground surface, the water storage well, the collecting well, the water inlet, the support, the filtering pipeline, the pressure block, the regulating block and the filtering block are arranged, before rainwater enters the water storage well through the water inlet, solid impurities in the rainwater can be filtered by the filtering pipeline and the filtering block, and under the action of the pressure block, when the rainwater is in a dry state, the absorbent cotton in the pressure block loses moisture, the inclined state of the filtering pipeline is changed, and impurities on the filtering block are discharged into the collecting well through the discharge pipe, so that the impurities are automatically cleaned, the labor cost is reduced, and the workload of downstream procedures is reduced by automatically cleaning the impurities in advance.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of the present utility model;

FIG. 3 is a schematic diagram of the structure of the regulating block and the filter block in the utility model;

fig. 4 is a schematic diagram of a filter pipeline structure in the utility model.

In the figure: 1. a surface layer ground surface; 2. a floor surface; 3. a water storage well; 4. a collection well; 5. a water inlet; 6. a bracket; 7. a filter tube; 8. a pressure block; 9. an adjusting block; 10. a filter block; 11. a discharge pipe; 12. balancing weight; 13. and (5) connecting the belts.

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.

According to the rainwater decontamination diversion system, the problems that in the prior art, rainwater directly flows into a collecting well through a sewer, and the rainwater is in contact with the ground and a wall body building in the falling process, so that the rainwater can also contain some solid impurities, the direct cleaning is troublesome, the cleaning and discharging difficulty is increased, and the cleaning difficulty is high are solved.

In order to better understand the above technical solutions, the following details will describe the above technical solutions with reference to the drawings and specific embodiments of the description.

Referring to fig. 1-3, a rainwater decontamination diversion system comprises a surface layer ground 1 positioned at the uppermost part and a ground surface 2 positioned below, wherein a water storage well 3 and a collecting well 4 are formed in the top surface of the ground surface 2, a water inlet 5 is formed in the upper part of the surface layer ground 1, a support 6 is fixedly arranged above the ground surface 2, the support 6 is positioned between the water storage well 3 and the collecting well 4, a filter pipeline 7 is rotatably arranged on the support 6, when rainwater falls down, the surface of the surface layer ground 1 flows to the water inlet 5, falls into the filter pipeline 7 from the lower part of the water inlet 5, the impurities with larger particles are screened out from the lower part of the filter pipeline 7 under the action of the filter pipeline 7 and the internal parts of the filter pipeline, and the filtered rainwater flows out from the lower part of the filter pipeline 7 and flows into the water storage well 3 for the next procedure.

Referring to fig. 2-4, the filter pipe 7 is internally and fixedly provided with a pressure block 8, the filter pipe 7 is internally and slidably provided with a regulating block 9 and a filter block 10, the pressure block 8, the regulating block 9 and the filter block 10 are sequentially arranged, wherein the filter block 10 is provided with a bevel edge on one side far away from the regulating block 9, so that impurities can be conveniently sent out, the device has larger mass when encountering overcast and rainy weather, the pressure block 8 is positioned under the water inlet 5 under the action of the pressure block 8, the filter block 10 is positioned under the water inlet 5, water flowing down from the water inlet 5 flows out, when in a dry state, the mass of the pressure block 8 is smaller, the filter block 10 moves to the other side to discharge the impurities, and the filter block 10 returns to the lower part of the water inlet 5 again to work under the overcast and rainy weather next time.

Openings are formed in the two ends and the upper side of the filtering pipeline 7, a discharge pipe 11 is fixedly connected to one end, close to the collecting well 4, of the filtering pipeline 7, an inclination angle formed by the filtering pipeline 7 and the discharge pipe 11 is an obtuse angle, when the filtering block 10 moves to the discharge pipe 11, the bottom surface of the filtering block 10 is contacted with the bottom surface of the discharge pipe 11, the filtering block 10 can be in an inclined state with the opening downward, and impurities in the filtering block 10 are discharged into the collecting well 4.

Referring to fig. 2-4, a weight 12 is fixedly disposed on the discharge pipe 11, the weight 12 is a stainless steel block, and the weight 12 is used for weighting one end of the discharge pipe 11, so that the discharge pipe 11 is inclined toward the end in a dry state.

Referring to fig. 2 to 4, the pressure block 8 is fixedly provided with absorbent cotton therein, and by providing the absorbent cotton, moisture can be absorbed in a wet state, thereby increasing the position of one end of the pressure block 8.

Referring to fig. 2 to 4, the filter block 10 is located below the water inlet 5, and the filter block 10 and the filter pipe 7 are provided with mesh openings, so that after the water flows down, the water reaches the inside of the filter block 10 from the water inlet 5, under the action of the filter block 10, the water directly flows out of the filter block 10, flows out of the mesh openings on the filter pipe 7, finally flows into the water storage well 3, and impurities in the water flow are reserved in the filter block 10 and wait to be discharged to the collecting well 4.

Referring to fig. 2-4, a chute is formed in the filter pipe 7, a sliding block is fixedly arranged on the adjusting block 9, the sliding block is slidably arranged in the chute, the adjusting block 9 only slides in the filter pipe 7 under the limit of the sliding block and does not slide out of the filter pipe 7, and the filter block 10 is not provided with the sliding block and can slide out into the discharge pipe 11.

Referring to fig. 2-4, a connecting belt 13 is fixedly arranged between the adjusting block 9 and the filter block 10, and by arranging the connecting belt 13, the adjusting block 9 and the filter block 10 can be mutually pulled, when the filter block 10 slides to the discharge pipe 11, the adjusting block 9 can be pulled to move together, and the adjusting block 9 can be blocked by the filter pipeline 7, so that the filter block 10 is prevented from sliding out.

Referring to fig. 2 to 4, the connection between the bracket 6 and the filter pipe 7 is located in the middle section of the filter pipe 7, when the pressure block 8 is in a wet state, the weight of the filter pipe 7 on one side of the pressure block 8 is greater than the weight of the filter pipe 12 on one side, the pressure block 8 is inclined towards the pressure block 8 on one side, when the pressure block 8 is in a dry state, the weight of the filter pipe 7 on one side of the pressure block 8 is less than the weight of the filter pipe 12 on one side, the filter pipe 7 is inclined towards the weight of the filter block 12 on one side, the weights of the pressure block 8 in the wet state and the dry state are different, so that the filter pipe 7 has different inclination angles, and the adjusting block 9 and the filter block 10 move along with the change of the inclination angle of the filter pipe 7, thereby realizing automatic discharging.

Working principle:

under the effect of filter tube 7 and its internals, screen out with the great impurity of granule first place, this device is when meetting overcast and rainy weather, pressure piece 8 water absorption quality is great, filter piece 10 is located under water inlet 5 this moment, the rivers that flow down in the water inlet 5 flow out, when being in under the dry state, the quality of pressure piece 8 this moment is less, filter piece 10 moves the opposite side and discharges impurity, wait for overcast and rainy weather of next time, filter piece 10 returns to the below of water inlet 5 again and works again and flow out from filter tube 7 below by the rainwater after filtering, the processing of next process is carried out in the water storage well 3 to the flow.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a rainwater dirt removal shunt system, includes surface floor (1) that is located the top and floor (2) that are located the below, its characterized in that, water storage well (3) and collecting well (4) have been seted up to floor (2) top, water inlet (5) have been seted up to surface floor (1) top, the fixed support (6) that are provided with in floor (2) top, support (6) are located between water storage well (3) and collecting well (4), it is provided with filter pipeline (7) to rotate on support (6), filter pipeline (7) internal fixation is provided with pressure block (8), the interior sliding of filter pipeline (7) is provided with regulating block (9) and filter block (10), pressure block (8), regulating block (9) and filter block (10) are arranged in proper order.

2. The rainwater decontamination diversion system as claimed in claim 1, wherein openings are formed at both ends and above the filtering pipeline (7), one end of the filtering pipeline (7) close to the collecting well (4) is fixedly connected with the discharging pipe (11), and an inclination angle formed by the filtering pipeline (7) and the discharging pipe (11) is an obtuse angle.

3. A rainwater decontamination diversion system as claimed in claim 2, wherein the discharge pipe (11) is fixedly provided with a counterweight (12), and the counterweight (12) is a stainless steel block.

4. A rainwater decontamination diversion system as claimed in claim 1, wherein the pressure block (8) is internally and fixedly provided with absorbent cotton.

5. A rainwater decontamination diversion system as claimed in claim 1, wherein the filter block (10) is located below the water inlet (5), and the filter block (10) and the filter pipe (7) are provided with mesh openings.

6. The rainwater decontamination diversion system according to claim 1, wherein a chute is formed in the filtering pipeline (7), a sliding block is fixedly arranged on the adjusting block (9), and the sliding block is slidably arranged in the chute.

7. A rainwater decontamination diversion system as claimed in claim 1, wherein a connecting band (13) is fixedly arranged between the regulating block (9) and the filter block (10).

8. The rainwater decontamination diversion system as claimed in claim 4, wherein the joint of the bracket (6) and the filter pipeline (7) is located in the middle section of the filter pipeline (7), when the pressure block (8) is in a wet state, the weight of the filter pipeline (7) on one side of the pressure block (8) is larger than the weight of the filter pipeline on one side of the balancing weight (12), the filter pipeline (7) inclines towards one side of the pressure block (8), and when the pressure block (8) is in a dry state, the weight of the filter pipeline (7) on one side of the pressure block (8) is smaller than the weight of the filter pipeline (7) on one side of the balancing weight (12), and the filter pipeline (7) inclines towards one side of the balancing weight (12).