CN211871655U - Rainwater recycling system based on clean energy - Google Patents

Abstract

The utility model relates to a rainwater recycling system based on clean energy, which comprises a box body, wherein a water storage cavity is arranged in the box body, the upper part of the water storage cavity is provided with a water inlet for rainwater to enter, and the lower part of the water storage cavity is provided with a first water outlet for rainwater to be discharged; a sedimentation tank is arranged in the box body; the sedimentation tank is communicated with the water storage cavity through a first water pumping pipe, the first water pumping pipe is inserted into the lower end of the interior of the water storage cavity, and a first water pumping pump is mounted on the first water pumping pipe; an adsorption cavity is arranged on the right side of the sedimentation tank, an adsorption device is arranged in the adsorption cavity, and a second water outlet is formed in the upper part of the adsorption cavity; a partition plate is arranged between the sedimentation tank and the adsorption cavity, the lower end of the partition plate and the bottom wall of the box body are arranged at intervals to form a channel for communicating the sedimentation tank and the adsorption cavity, and a telescopic plate is arranged below the partition plate; a filter plate is fixed on one side of the partition plate, which is positioned in the sedimentation tank, and the filter plate is arranged at the left end of the channel; the application range of the rainwater recycling is increased.

Description

Rainwater recycling system based on clean energy

Technical Field

The utility model belongs to the technical field of the rainwater resource is recycled, especially, relate to rainwater recycle system based on clean energy.

Background

Fresh water resources are water resources generally called as water resources, and refer to fresh water resources on land, and are composed of water in rivers and lakes, accumulated snow in mountains, glaciers, underground water and the like. The river is converged into cloud rainfall along with the increase of the altitude, which is one of basic sources of fresh water, the stream is converged into a pentium river, the carving is wonderful in nature, the river along the bank provides a plurality of wild animal habitats, and the river is inoculated with abundant species, and the place with the fresh water has lives no matter at a mountain or at the bottom of a lake.

Nowadays, water is not an inexhaustible natural resource. There have been a growing number of fresh water resources, a large portion of which have been unavailable. Such as glacier water distributed in north and south poles and mountain areas, ice layers and deep underground water under permafrost in alpine areas, and the like. The fresh water resource convenient for human to use is only about 21000 cubic kilometers. These resources are unevenly distributed in space and time, and in addition to the unreasonable utilization of human beings, many regions in the world face a serious water resource crisis.

The rainwater is used as one of fresh water resources, the water quality is generally good, organic matters in the water are less, the rainwater can be recycled through simple treatment, the rainwater resources are scientifically and reasonably utilized, the urban water resource shortage condition can be effectively improved, flood disasters are reduced, and the larger water resource use cost can be saved. But at the in-process of collecting back purification treatment to the rainwater, prior art impurity treatment when carrying out the rainwater and deposiing gets up very inconveniently, leads to the purifying effect of rainwater unsatisfactory. Therefore, the simply treated rainwater can be only used for irrigation of urban green plants, road spraying and the like, and water with certain requirements on water quality such as flushing toilets is used, so that the reutilization range of the rainwater is severely limited.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a rainwater recycle system based on clean energy to solve among the prior art because the rainwater purification treatment effect is not good the rainwater recycling range limited problem that leads to.

In order to achieve the above object, the utility model discloses rainwater recycle system based on clean energy adopts's technical scheme is:

rainwater recycle system based on clean energy, characterized by includes:

a box body;

a water storage cavity: the rainwater collecting device is arranged in the box body, a water inlet for allowing collected rainwater to enter is formed in the upper portion of the water storage cavity, and a first water outlet for discharging the rainwater is formed in the lower portion of the water storage cavity;

a sedimentation tank: the sedimentation tank is arranged in the box body and positioned on the right side of the water storage cavity, the sedimentation tank is communicated with the water storage cavity through a first water pumping pipe, the first water pumping pipe is inserted into the lower end of the interior of the water storage box, a first water pumping pump is mounted on the first water pumping pipe, and the first water pumping pump is positioned on the upper portion of the water storage cavity;

a motor is fixed on the upper part of the sedimentation tank, an output shaft of the motor is connected with a stirring shaft through a coupling in a transmission way, stirring blades are arranged at intervals along the axial direction of the stirring shaft, and a storage bottle containing flocculating agent is also fixed on the upper part of the sedimentation tank;

an adsorption cavity: the adsorption chamber is arranged in the box body and positioned on the right side of the sedimentation tank, an adsorption device is arranged in the adsorption chamber to adsorb harmful substances in rainwater, and a second water outlet is formed in the upper part of the adsorption chamber;

a partition plate is arranged between the sedimentation tank and the adsorption cavity, the lower end of the partition plate and the bottom wall of the box body are arranged at intervals to form a channel for communicating the sedimentation tank and the adsorption cavity, and a telescopic plate capable of realizing up-down telescopic movement to realize opening and closing of the channel is arranged below the partition plate; the filter is fixed with in one side that is located the sedimentation tank of baffle, and the filter setting is in order to realize the filtration to the impurity in the sedimentation tank at the left end of passageway.

Has the advantages that: the collected rainwater enters the water storage cavity of the box body through the water inlet, and when the rainwater is used for urban green plant irrigation and road spraying, the rainwater can be directly discharged from the first water outlet of the water storage cavity; when the clean degree requirement to the rainwater is higher, can take out the rainwater to the sedimentation tank from the water storage chamber through first drinking-water pipe, after the sediment of sedimentation tank, filter the impurity in the rainwater, through adding the flocculation agent at the sedimentation tank and can accelerate the precipitation of rainwater impurity through the stirring of (mixing) shaft, then open the passageway that communicates sedimentation tank and absorption chamber, put into the rainwater in the sedimentation tank and adsorb the chamber, go on further the absorption with the harmful substance in the rainwater through adsorbing the chamber, then the rainwater of following the exhaust in adsorbing the chamber is the higher water of clean degree promptly, can satisfy the needs of other urban waters, the limited problem of rainwater reuse scope has been increased.

Furthermore, the lower end face of the partition plate is provided with a groove which extends along the front-back direction and has a downward opening, a telescopic cylinder is fixedly arranged in the groove, a pushing block which extends along the front-back direction is fixedly arranged on a piston rod of the telescopic cylinder, and the pushing block is fixedly connected with the upper end of the telescopic plate.

Has the advantages that: the reciprocating of top ejector pad can be driven through the flexible of the piston rod of telescoping cylinder to drive the upper and lower flexible of expansion plate, conveniently realize the switching of the passageway that communicates sedimentation tank and absorption chamber.

Furthermore, three telescopic cylinders are arranged in the front-rear direction of the groove at intervals, and the three telescopic cylinders act synchronously.

Has the advantages that: three telescopic cylinders are arranged in the front and rear direction of the groove at intervals, and the three telescopic cylinders act synchronously, so that the telescopic plates can be more stable in the moving process when the telescopic plates are opened and closed.

The lower part of first drinking-water pipe is provided with the external screw thread section, threaded connection has filtration on the external screw thread section, filtration is including being provided with internal screw thread connecting cylinder and fixing the filter screen at the connecting cylinder lower extreme.

Has the advantages that: when first drinking-water pipe drew water, can pass through the filter screen with the impurity of rainwater and carry out prefilter, can carry out prefilter to the rainwater on the one hand, on the other hand avoids in the rainwater great impurity to get into first suction pump, causes the influence to the normal work of first suction pump.

Adsorption equipment is the bellied horn-shaped structure that makes progress, include from the top down, from the left adsorption plate that extends left in the right side and from the top down, from the right side adsorption plate that extends right in a left side, the left side wall in absorption chamber is fixed to the lower extreme of left adsorption plate, and the right side wall in absorption chamber is fixed to the lower extreme of right adsorption plate, the upper end of left adsorption plate and the upper end fixed connection of right adsorption plate.

Has the advantages that: set adsorption equipment to the convex horn-shaped structure that makes progress, can increase the area of contact of adsorption plate and rainwater, moreover to the upwards surge of rainwater produce less resistance.

Furthermore, the left adsorption plate and the adsorption plate comprise a fixing net and active carbon put into the fixing net.

Has the advantages that: the active carbon can be stably fixed in the fixing net.

A slag discharge pipe is arranged below the water storage cavity, and a slag discharge pipe is also arranged below the sedimentation tank.

Has the advantages that: the discharge of impurity in the rainwater is convenient.

And a support frame is fixed below the box body.

Has the advantages that: the box body is supported by the supporting frame to be away from the ground, so that the placing stability of the box body is ensured.

The box body is rectangular.

Has the advantages that: the separation of the water storage cavity, the sedimentation tank and the adsorption cavity is conveniently realized.

Drawings

Fig. 1 is a schematic structural diagram of the rainwater recycling system based on clean energy of the present invention.

Reference numerals: 1-a box body; 2-a water storage cavity; 3-a sedimentation tank; 4-an adsorption cavity; 5-a water inlet; 6-a first water outlet; 7-a first pumping pipe; 8-a first water pump; 9-a motor; 10-a stirring shaft; 11-stirring blades; 12-a storage bottle; 13-a separator; 14-a telescopic cylinder; 15-a piston rod; 16-pushing the pushing block; 17-a retractable plate; 18-a filter plate; 19-left adsorption plate; 20-right adsorption plate; 21-fixing the net; 22-activated carbon; 23-a second water outlet; 24-a slag discharge pipe; 25-support frame.

Detailed Description

The following describes in detail a specific embodiment of the clean energy based rainwater recycling system according to the present invention with reference to the accompanying drawings and the following detailed description:

the utility model discloses a rainwater recycle system based on clean energy's structure is shown in figure 1, including box 1, box 1 is the rectangle, and the below of box 1 is fixed on support frame 25. A water storage cavity 2, a sedimentation tank 3 and an adsorption cavity 4 are sequentially arranged in the box body 1 from left to right. Wherein sedimentation tank 3 is used for deposiing the impurity of rainwater, adsorbs the harmful substance that chamber 4 is used for adsorbing the rainwater and adsorbs, and the rainwater reaches the clean effect of preferred after sedimentation tank 3 and the sediment, filtration, the absorption in absorption chamber 4. Be provided with water inlet 5 in the water storage chamber 2 of box 1, the lower part in water storage chamber 2 is provided with first delivery port 6, and under the condition that the clean degree requirement to the rainwater is not high, can be discharged from first delivery port 6 by well rainwater, satisfy the water demand, save water resource use cost. Be provided with second delivery port 23 on the upper portion of adsorbing chamber 4, under the higher condition of clean degree requirement to the rainwater, can reach the clean requirement of preferred with the rainwater through the sediment of sedimentation tank 3 with adsorb chamber 4, can regard as the higher water use of clean degree requirement to the rainwater, increased the application range of the rainwater of collecting.

Concretely, sedimentation tank 3 is located the right side in water storage chamber 2, and through first drinking-water pipe 7 intercommunication between sedimentation tank 3 and the water storage chamber 2, first drinking-water pipe 7 inserts 2 inside lower extremes in water storage chamber, installs first suction pump 8 on the first drinking-water pipe 7, and first suction pump 8 is located the upper portion in water storage chamber 2. The lower part of first drinking-water pipe 7 is provided with the external screw thread section, threaded connection has filtration on the external screw thread section, filtration is including being provided with the internal screw thread connecting cylinder and fixing the filter screen at the connecting cylinder lower extreme, when the rainwater in water storage chamber 2 was pumped by first suction pump 8, the filter screen can carry out prefilter to the rainwater that gets into in the first drinking-water pipe 7, thereby filter great impurity in the rainwater, on the one hand prefilter has been carried out to the rainwater, on the other hand has still avoided great impurity influence first suction pump 8's normal work in the rainwater.

The upper part of the sedimentation tank 3 is fixed with a motor 9, an output shaft of the motor 9 is connected with a stirring shaft 10 extending along the up-down direction through a coupling in a transmission way, and the stirring shaft 10 is provided with stirring blades 11 along the axial direction at intervals. The upper portion of sedimentation tank 3 still is fixed with storage bottle 12, and storage bottle 12 sets up the next door at motor 9, and the splendid attire has the flocculant in the storage bottle 12, takes out the rainwater to sedimentation tank 3 back from the storage chamber when first suction pump 8, adds the flocculant in toward sedimentation tank 3's the rainwater, and motor 9 work drives (mixing) shaft 10 rotation, makes flocculant and rainwater intensive mixing, mixes the back and stews the rainwater in sedimentation tank 3, makes things convenient for the impurity gathering in the rainwater to deposit.

The adsorption cavity 4 is arranged on the right side of the sedimentation tank 3, a partition plate 13 is arranged between the sedimentation tank 3 and the adsorption cavity 4, the lower end of the partition plate 13 and the bottom wall of the box body 1 are arranged at intervals to form a channel for communicating the sedimentation tank 3 with the adsorption cavity 4, a groove with a downward opening is formed in the lower end face of the partition plate 13 in the front-back direction, a telescopic cylinder 14 is fixedly arranged in the groove, in the embodiment, the telescopic cylinder 14 is a hydraulic telescopic cylinder 14, a pushing block 16 extending in the front-back direction is fixedly arranged at the lower end of a piston rod 15 of the telescopic cylinder 14, and a telescopic plate 17 is fixed at the lower end of the pushing block 16. In this embodiment, three telescopic cylinders 14 are arranged at intervals in the front-rear direction of the groove, and the three telescopic cylinders 14 act synchronously. When a channel between the sedimentation tank 3 and the adsorption cavity 4 needs to be blocked, a piston rod 15 of the telescopic cylinder 14 extends out, the piston rod 15 drives a pushing block 16 to move downwards to push the telescopic plate 17 downwards, so that the lower end of the telescopic plate 17 is in top pressure contact with the bottom wall of the box body 1, and the channel is blocked; when the channel between the sedimentation tank 3 and the adsorption cavity 4 needs to be opened, the piston rod 15 of the telescopic cylinder 14 retracts, the piston rod 15 drives the pushing block 16 to move upwards so as to lift the telescopic plate 17 upwards, the lower end of the telescopic plate 17 and the bottom wall of the box body 1 are arranged at intervals, and the channel is opened.

A filter plate 18 is fixed to one side of the partition plate 13 located at the sedimentation tank 3, and the filter plate 18 is disposed at the left end of the passage to achieve filtration of impurities in the sedimentation tank 3. That is, after the rainwater in the sedimentation tank 3 is settled, the telescopic cylinder 14 works, the telescopic plate 17 positioned in the channel moves upwards, and the channel is opened, so that the rainwater in the sedimentation tank 3 is filtered by the filter plate 18 and then flows through the channel to reach the adsorption chamber 4.

The adsorption cavity 4 is provided with two adsorption devices which are arranged at intervals up and down, and the second water outlet 23 is arranged above the adsorption device above. The adsorption device is an upward convex horn-shaped structure, and comprises a left adsorption plate 19 extending from top to bottom and from left to right and a right adsorption plate 20 extending from top to bottom and from left to right, wherein the lower end of the left adsorption plate 19 is fixed on the left side wall of the adsorption cavity 4, the lower end of the left adsorption plate 19 is fixed on the partition plate 13, and the lower end of the right adsorption plate 20 is fixed on the right side wall of the adsorption cavity 4. The upper end of the left adsorption plate 19 is fixedly connected with the upper end of the right adsorption plate 20. The left adsorption plate 19 and the right adsorption plate 20 each include a fixing net 21 and activated carbon 22 put in the fixing net 21, and in this embodiment, the activated carbon 22 is plate-shaped activated carbon.

In order to facilitate the impurity discharging box body 1 in the water storage cavity 2, a slag discharging pipe 24 is arranged below the water storage cavity 2, and in order to facilitate the impurity discharging box body 1 in the sedimentation tank 3, the slag discharging pipe 24 is also arranged below the sedimentation tank 3.

The box body 1 is provided with a control panel, and the control panel is respectively in control connection with the first water suction pump 8, the motor 9 and the hydraulic telescopic cylinder. When the first water pump 8 works, the motor 9 is in a standby state, and the piston rod 15 of the hydraulic telescopic cylinder extends out; after the first water pump 8 finishes pumping the rainwater, the motor 9 works, and at the moment, the piston rod 15 of the hydraulic telescopic cylinder is still in an extending state; when the first water pump 8 finishes pumping the rainwater, after the motor 9 works for a period of time, the piston rod 15 on the hydraulic telescopic cylinder retracts after 10 minutes of standing time, at the moment, a channel between the sedimentation tank 3 and the adsorption cavity 4 is in an open state, and the rainwater can flow into the adsorption cavity 4 from the sedimentation tank 3 to adsorb harmful substances.

In the embodiment, a groove which extends along the front-back direction and has a downward opening is formed in the lower end face of the partition plate, a telescopic cylinder is fixedly arranged in the groove, a pushing block which extends along the front-back direction is fixedly arranged on a piston rod of the telescopic cylinder, and the pushing block is fixedly connected with the upper end of the telescopic plate; in other embodiments, one side of the partition plate, which is located on the sedimentation tank, is provided with sliding grooves spaced from each other in the front-back direction, the opening of the sliding groove located on the front side faces the back, the opening of the sliding groove located on the back side faces the front, a sliding plate is inserted between the front sliding groove and the back sliding groove in a sliding manner and can move in the up-down direction, the sliding plate is arranged in parallel with the partition plate, and one side of the sliding plate, which faces the partition.

In the embodiment, three telescopic cylinders are arranged at intervals in the front-rear direction of the groove, and the three telescopic cylinders act synchronously; in other embodiments, the telescopic cylinders are arranged in the front-rear direction of the groove at intervals of two or four, and the telescopic cylinders keep the synchronism of the movement at the moment.

In the above embodiment, the lower part of the first pumping pipe is provided with an external thread section, the external thread section is in threaded connection with a filtering structure, and the filtering structure comprises a connecting cylinder provided with internal threads and a filtering net fixed at the lower end of the connecting cylinder; in other embodiments, no filtering structure may be disposed at the lower portion of the first pumping pipe.

In the above embodiment, adsorption equipment is the bellied horn-shaped structure that makes progress, including from the top down, from the left adsorption plate that extends left in the right side and from the top down, from the right adsorption plate that extends right in the left side, the lower extreme of left adsorption plate is fixed at the left side wall in absorption chamber, and the lower extreme of right adsorption plate is fixed at the right side wall in absorption chamber, the upper end of left adsorption plate and the upper end fixed connection of right adsorption plate. In other embodiments, the suction device may also have an upwardly convex arch shape.

In the above embodiment, a slag discharge pipe is arranged below the water storage cavity, and a slag discharge pipe is also arranged below the sedimentation tank; in other embodiments, the lower part of the water storage cavity can be also not provided with a slag discharge pipe, and the lower part of the sedimentation tank can also be not provided with a slag discharge pipe.

In the above embodiment, the support frame is fixed below the box body; in other embodiments, the support frame below the box body can be not arranged.

In the above embodiment, the box body is rectangular; in other embodiments, the box body can be in other shapes.

Claims (9)

1. Rainwater recycle system based on clean energy, characterized by includes:

a box body;

a water storage cavity: the rainwater collecting device is arranged in the box body, a water inlet for allowing collected rainwater to enter is formed in the upper portion of the water storage cavity, and a first water outlet for discharging the rainwater is formed in the lower portion of the water storage cavity;

a sedimentation tank: the sedimentation tank is arranged in the box body and positioned on the right side of the water storage cavity, the sedimentation tank is communicated with the water storage cavity through a first water pumping pipe, the first water pumping pipe is inserted into the lower end of the interior of the water storage cavity, a first water pumping pump is mounted on the first water pumping pipe, and the first water pumping pump is positioned on the upper portion of the water storage cavity;

a motor is fixed on the upper part of the sedimentation tank, an output shaft of the motor is connected with a stirring shaft through a coupling in a transmission way, stirring blades are arranged at intervals along the axial direction of the stirring shaft, and a storage bottle containing flocculating agent is also fixed on the upper part of the sedimentation tank;

an adsorption cavity: the adsorption chamber is arranged in the box body and positioned on the right side of the sedimentation tank, an adsorption device is arranged in the adsorption chamber to adsorb harmful substances in rainwater, and a second water outlet is formed in the upper part of the adsorption chamber;

a partition plate is arranged between the sedimentation tank and the adsorption cavity, the lower end of the partition plate and the bottom wall of the box body are arranged at intervals to form a channel for communicating the sedimentation tank and the adsorption cavity, and a telescopic plate capable of realizing up-down telescopic movement to realize opening and closing of the channel is arranged below the partition plate; the filter is fixed with in one side that is located the sedimentation tank of baffle, and the filter setting is in order to realize the filtration to the impurity in the sedimentation tank at the left end of passageway.

2. The clean energy based rainwater recycling system according to claim 1, wherein the lower end surface of the partition board is provided with a groove extending in the front-rear direction and having a downward opening, a telescopic cylinder is fixedly arranged in the groove, a pushing block extending in the front-rear direction is fixedly arranged on a piston rod of the telescopic cylinder, and the pushing block is fixedly connected with the upper end of the telescopic plate.

3. The clean energy based rainwater recycling system according to claim 2, wherein three telescopic cylinders are arranged at intervals in the front-rear direction of the groove, and the three telescopic cylinders act synchronously.

4. A clean energy based rainwater recycling system according to any of claims 1 to 3 and characterized in that the lower part of said first pumping pipe is provided with an external thread section, said external thread section is screwed with a filtering structure, said filtering structure comprises a connecting cylinder provided with internal thread and a filtering net fixed at the lower end of the connecting cylinder.

5. A clean energy based rainwater recycling system according to any of claims 1 to 3, wherein said adsorption device is in an upwardly convex angular structure, and comprises a left adsorption plate extending from top to bottom and from right to left and a right adsorption plate extending from top to bottom and from left to right, the lower end of the left adsorption plate is fixed on the left side wall of the adsorption cavity, the lower end of the right adsorption plate is fixed on the right side wall of the adsorption cavity, and the upper end of the left adsorption plate is fixedly connected with the upper end of the right adsorption plate.

6. The clean energy based rainwater recycling system according to claim 5, wherein said left and right adsorption plates each comprise a fixing net and activated carbon put in the fixing net.

7. A clean energy based rainwater recycling system according to any of claims 1 to 3 and characterized in that a slag discharge pipe is arranged below the water storage chamber and a slag discharge pipe is also arranged below the sedimentation tank.

8. A clean energy based rainwater recycling system according to any of claims 1 to 3 and characterized in that a support frame is fixed below the tank.

9. A clean energy based stormwater recycling system according to any one of claims 1 to 3, characterised in that the tank is rectangular.

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