CN114191863A

CN114191863A - Circulation pump drainage device

Info

Publication number: CN114191863A
Application number: CN202111407897.6A
Authority: CN
Inventors: 李凯旋; 韩军英; 刘子强
Original assignee: Hebei Huafeng Energy Technology Development Co Ltd
Current assignee: Hebei Huafeng Energy Technology Development Co Ltd
Priority date: 2021-11-25
Filing date: 2021-11-25
Publication date: 2022-03-18
Anticipated expiration: 2041-11-25
Also published as: CN114191863B

Abstract

The circulating pumping and draining system comprises a return pipe, a water pool and a pumping and draining pipe, wherein the pumping and draining pipe can pump water from the water pool to be conveyed to a flushing area, and the return pipe can return water in the flushing area to the water pool; the water tank comprises a backflow area, a particle collecting area and a water collecting area, wherein a filtering mechanism is arranged above the backflow area and can filter water discharged from the backflow pipe so as to enable the water to flow back into the backflow area, and particles filtered out from the water flow into the particle collecting area; the return flow area is communicated with the water collecting area and is used for supplying water to the water collecting area. When the water-saving type water-saving washing machine works, water in the washing area can be recovered by the recovery pipe, particles in the water are filtered by the filtering mechanism, and then the water is supplied to the water collecting area by the backflow area, so that the purpose of recycling water is achieved, and meanwhile, the particles filtered by the filtering mechanism can be collected by the particle collecting area, so that the use requirements of enterprises are met.

Description

Circulation pump drainage device

Technical Field

The invention belongs to the technical field related to circulating water for washing vehicles, and particularly relates to a circulating pumping device.

Background

Enterprises wash the tires of the vehicles with water to prevent the environmental pollution caused by the separation of foreign particles such as soil carried by the tires of the vehicles.

At present, current water that is used for scouring away the tire is disposable, and this can cause the very big waste of water resource in the environment of the water shortage in the north, and because of the water that washes off carries impurity particles such as a large amount of earth, the pollution of environment still can be aroused in direct emission moreover, has not satisfied the user demand of enterprise.

Disclosure of Invention

In view of the above, it is necessary to provide a circulation pumping device to solve the technical problems in the prior art.

A circulating pumping device comprises a return pipe, a water pool and a pumping pipe, wherein the pumping pipe can pump water from the water pool to be conveyed to a flushing area, and the return pipe can return water in the flushing area to the water pool;

the water tank comprises a backflow area, a particle collecting area and a water collecting area, a filtering mechanism is arranged above the backflow area, and the filtering mechanism can filter water discharged from the backflow pipe so as to enable the water to flow back into the backflow area and enable particles filtered out from the water to flow into the particle collecting area; the backflow area is communicated with the water collecting area and used for supplying water to the water collecting area.

In one embodiment, the filtering mechanism comprises a partition plate and an inclined screen, wherein the upward end of the inclined screen is connected with the partition plate, an overflow plate is fixedly connected to the position where the inclined screen is connected with the partition plate, and the overflow plate and the partition plate are matched to form a transition area for containing water discharged from the return pipe.

In one embodiment, the overflow plate is fixed vertically to the separation plate.

In one embodiment, the discharge opening of the diagonal screen is in communication with the particle collection zone to enable particles to fall along the plane of the diagonal screen into the particle collection zone.

In one embodiment, the backflow area is communicated with the water collecting area through a connecting channel, and the connecting channel is arranged at the bottom of the water pool; wherein the channel caliber of the connecting channel is smaller than the depth of the reflux area.

In one embodiment, a baffle is arranged on an opening of the connecting channel, which faces to one end of the water collecting area, and the diameter of a cavity formed by matching the baffle with the bottom of the water pool is gradually reduced from the direction far away from the reflux area.

In one of them embodiment, the rigid coupling has the swash plate in the catchment area, the swash plate set up in the top position of baffle, just the swash plate is from keeping away from the direction perk that makes progress of baffle, the mouth of pipe of intaking of calandria sets up in the top position of swash plate, just the swash plate court the projection of calandria direction can cover the calandria.

In one embodiment, a vertical plate is vertically fixedly connected to one downward end of the inclined plate, and the projection of the baffle plate towards the vertical plate can cover the vertical plate.

In one embodiment, a predetermined gap is formed between a downward end of the inclined plate and the baffle.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the circulating pumping drainage device has a reasonable structure, so that when the circulating pumping drainage device works, water in a flushing area can be recovered by the recovery pipe, particles in the water are filtered by the filtering mechanism, and then the water is supplied to the water collecting area by the backflow area, so that the purpose of recycling the water is achieved, and meanwhile, the particles filtered by the filtering mechanism can be collected by the particle collecting area, so that the use requirements of enterprises are met.

Drawings

Fig. 1 is a schematic structural diagram of a circulation pumping device according to an embodiment of the present disclosure.

10, a return pipe; 20. a pool; 201. a transition zone; 21. a reflux zone; 22. a particle collection region; 23. a water collection area; 231. a sloping plate; 232. a vertical plate; 24. a filtering mechanism; 241. a partition plate; 242. an inclined screen mesh; 243. an overflow plate; 25. a connecting channel; 251. a baffle plate; 30. a tube drawing and discharging tube; 200. the area is flushed.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1, the claimed circulation pump device includes a return pipe 10, a water tank 20, and a pump pipe 30, wherein the pump pipe 30 can pump water from the water tank 20 to be delivered to a flushing area 200, and the return pipe 10 can return water in the flushing area 200 to the water tank 20.

In this embodiment, the water tank 20 of this embodiment includes a return region 21, a particle collection region 22 and a water collection region 23, the water tank 20 is provided with a filter mechanism 24 above the return region 21, the filter mechanism 24 can filter the water discharged from the return pipe 10, so that the water flows back into the return region 21, and the particles filtered out from the water flow into the particle collection region 22; the return zone 21 communicates with the water collection zone 23 for supplying water to the water collection zone 23. That is, the circulation pump device of the present embodiment is operated to filter particles in water by the filter unit 24 and collect the filtered particles in the particle collecting region 22.

The filtering mechanism 24 of the present embodiment includes a partition plate 241 and an inclined screen 242, wherein an upward end of the inclined screen 242 is connected to the partition plate 241, and an overflow plate 243 is fixedly connected to a position where the inclined screen 242 is connected to the partition plate 241; the overflow plate 243 and the partition plate 241 cooperate to form a transition area 201 for receiving the water discharged from the return pipe 10.

It can be understood that, in the transition mechanism 24 of this embodiment, the transition area 201 is used to receive the water discharged from the return pipe 10, and then the overflowed water is discharged onto the inclined screen 242, and the structural characteristics of the inclined screen 242 are used to filter the particles in the water, so that the water flowing onto the inclined screen 242 can be buffered, and the inclined screen 242 can fully filter the water.

The overflow plate 243 is vertically fixed on the partition plate 241 to increase the capacity of the transition area 201, so as to further slow down the flow rate of the water overflowing from the transition area 201, thereby facilitating the filtering of the inclined screen 242 on the particles in the water.

In this embodiment, the discharge opening of the inclined screen 242 of this embodiment communicates with the particle collection area 22 to enable particles to fall along the plane of the inclined screen 242 into the particle collection area 22.

It can be understood that the particles filtered out by the inclined screen 242 can automatically roll into the particle collecting region 22 under the action of gravity on the inclined screen 242, which on the one hand can automatically recover the particles and on the other hand can prevent the particles from blocking the inclined screen 242, thereby ensuring the long-term effective operation of the inclined screen 242.

In this embodiment, the recirculation zone 21 and the water collection zone 23 of this embodiment are communicated by a connection channel 25, the connection channel 25 is disposed at the bottom of the water tank 20, wherein the channel diameter of the connection channel 25 is smaller than the depth of the recirculation zone 21. When the water in the return flow region 21 flows into the water collection region 23 through the connection channel 25, the channel aperture of the connection channel 25 for water circulation is reduced, so that the flow rate of the water flowing into the water collection region 23 through the connection channel 25 is increased, and the water can flow circularly when entering the water collection region 23.

Further, the connecting channel 25 of the present embodiment is provided with a baffle 251 on the opening of one end facing the water collecting area 23, and the diameter of the cavity formed by the baffle 251 and the bottom of the water pool 20 is gradually reduced from the direction far away from the return area 21, so as to further increase the flow rate of the water flowing to the water collecting area 23.

In this embodiment, an inclined plate 231 is fixedly connected to the water collecting area 23 of this embodiment, the inclined plate 231 is disposed above the baffle 251, the inclined plate 231 tilts upward from a direction away from the baffle 251, a water inlet of the pumping and discharging pipe 30 is disposed above the inclined plate 231, and a projection of the inclined plate 231 toward the pumping and discharging pipe 30 can cover the pumping and discharging pipe 30, so that water sprayed out from the baffle 251 can flow back to the upper surface of the inclined plate 231, and thus water pumped from the water collecting area 23 by the pumping and discharging pipe 30 during operation is water discharged from the baffle 251 into the water collecting area 23, and thus part of slurry contained in the water discharged into the water collecting area 23 can be settled on the inclined plate 231. The slurry is more specifically a slurry in which the particle size of the impurity particles contained in the water is smaller than the filter holes of the inclined screen 242, and the power effect of the circulation pump drainage device on the impurities in the water is further improved.

A vertical plate 232 is vertically fixed to a downward end of the swash plate 231 of the present embodiment, and a projection of the baffle 251 toward the vertical plate 232 can cover the vertical plate 232, so that slurry on the swash plate 231 can be settled in an area formed by the vertical plate 232 and the swash plate 231 in a matching manner.

Further, a preset gap is formed between the downward end of the sloping plate 231 and the baffle 251 of the embodiment, so that water in the water collecting area 23 can circulate in the area where the sloping plate 231 is located, the water flow in the water collecting area 23 is smooth, and in addition, slurry in water can also have the effect of pushing the area where the vertical plate 232 is located, and then the slurry can be further conveniently deposited on the sloping plate 231.

In conclusion, the circulating pumping device provided by the invention has the advantages that through reasonable structure arrangement, when the circulating pumping device works, water in the flushing area can be recovered by the recovery pipe, particles in the water are filtered by the filtering mechanism, and then the water is supplied to the water collecting area by the backflow area, so that the purpose of recycling the water is achieved, meanwhile, the particles filtered by the filtering mechanism can be collected by the particle collecting area, and further the use requirements of enterprises are met.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express a few embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A circulating pumping device comprises a return pipe, a water pool and a pumping pipe, wherein the pumping pipe can pump water from the water pool to be conveyed to a flushing area, and the return pipe can return water in the flushing area to the water pool;

the method is characterized in that: the water tank comprises a backflow area, a particle collecting area and a water collecting area, a filtering mechanism is arranged above the backflow area, and the filtering mechanism can filter water discharged from the backflow pipe so as to enable the water to flow back into the backflow area and enable particles filtered out from the water to flow into the particle collecting area; the backflow area is communicated with the water collecting area and used for supplying water to the water collecting area.

2. The apparatus of claim 1, wherein the filter mechanism comprises a partition plate and a slanted screen, an upward end of the slanted screen is connected to the partition plate, and an overflow plate is fixed to a position where the slanted screen is connected to the partition plate, wherein the overflow plate and the partition plate cooperate to form a transition area for receiving the water discharged from the return pipe.

3. The hydronic apparatus according to claim 2, wherein the overflow plate is vertically fixed to the partition plate.

4. The hydronic extraction apparatus according to claim 2, wherein the discharge opening of the diagonal screen is in communication with the particle collection zone to enable particles to fall along the plane of the diagonal screen into the particle collection zone.

5. The hydronic apparatus as set forth in claim 1, wherein the recirculation zone is in communication with the collection zone by a connecting channel disposed at a bottom of the basin; wherein the channel caliber of the connecting channel is smaller than the depth of the reflux area.

6. The apparatus according to claim 5, wherein the connecting channel is provided with a baffle plate at an opening at an end facing the water collecting region, and the baffle plate and the bottom of the water pool are matched to form a cavity with a diameter gradually decreasing from a direction away from the water returning region.

7. The circulating pumping device of claim 6, wherein an inclined plate is fixedly connected to the water collecting region, the inclined plate is disposed above the baffle and tilted upward from a direction away from the baffle, a water inlet pipe of the pumping pipe is disposed above the inclined plate, and a projection of the inclined plate to the direction of the pumping pipe can cover the pumping pipe.

8. The apparatus according to claim 7, wherein a vertical plate is vertically fixed to a downward end of the inclined plate, and the vertical plate is covered by the baffle plate when projected in the direction of the vertical plate.

9. The hydronic extraction apparatus according to claim 8, wherein a predetermined gap is formed between a downward end of the swash plate and the baffle.