CN214090105U

CN214090105U - Sponge city rainwater recycling device

Info

Publication number: CN214090105U
Application number: CN202022602685.0U
Authority: CN
Inventors: 郭晓娟; 李雅芬; 徐孝礼; 肖祥明
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-08-31
Anticipated expiration: 2030-11-11

Abstract

The utility model relates to a water resource utilization technical field, a sponge city rainwater recycles device, including rainwater drainage subassembly, rainwater filtering component, rainwater ration subassembly and water storage box. The utility model has the advantages that: can accomplish in proper order to the rainwater utilization in-process in the sponge city guide pull, to the filtration treatment of rainwater, deposit, to the discharge treatment of unnecessary rainwater and the utilization step to the rainwater of storing to the rainwater of rainwater, its practicality is stronger, the use of the rainwater reuse in the sponge city of being convenient for.

Description

Sponge city rainwater recycling device

Technical Field

The utility model relates to a water resource utilization technical field, especially a sponge city rainwater recycles device.

Background

The sponge city is a new generation of city rainfall flood management concept, and refers to a city which can be like a sponge and has good elasticity in the aspects of adapting to environmental changes, coping with natural disasters caused by rainwater and the like, and the city can also be called as a water elasticity city.

When the sponge city among the prior art meets the rainwater, the operation is collected with rainwater collection device to the majority, and the collection volume of rainwater collection device among the prior art is quantitative, and the displacement of rainwater is not necessary, overflows when the rainwater exceeds collection device's collection volume and can lead to unnecessary rainwater to be handled and cause a certain amount of damage and produce the phenomenon that soil and water run off to the soil in the collection scope and cause from collection device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a sponge city rainwater recycles device.

The purpose of the utility model is realized through the following technical scheme: the utility model provides a sponge city rainwater reuse device, includes rainwater drainage subassembly, rainwater filter assembly, rainwater ration subassembly and water storage box, the rainwater drainage subassembly is located rainwater filter assembly and rainwater ration subassembly's top to the below of rainwater drainage subassembly is equipped with four fixed poles fixed with rainwater filter assembly and the fixed top of rainwater ration subassembly, the water storage box is located rainwater filter assembly's below to be equipped with four bracing pieces that the symmetry set up respectively between water storage box top and the rainwater filter assembly bottom, water storage box one side and rainwater ration subassembly one side department are equipped with the conveyer pipe, be equipped with the connecting pipe between rainwater filter assembly and the rainwater ration subassembly, still be equipped with the drain pipe on the outer wall of rainwater ration subassembly to drain pipe and sewer union coupling.

The rainwater filtering component comprises a filtering box, a silicon dioxide layer, an activated carbon filtering layer and an asbestos net, the filtering box is arranged below the rainwater drainage component, and the silicon dioxide layer, the activated carbon filtering layer and the asbestos net are sequentially arranged on the inner wall of the filtering box along the length direction of the filtering box.

The top of the filter box is provided with a cover plate, and one end of the cover plate is hinged with one side of the top of the filter box.

The rainwater drainage component comprises a drainage plate, a drainage tube and a flow transmission tube, wherein the drainage plate is positioned above the filter box, the drainage plate is obliquely arranged, the flow transmission tube is positioned beside the drainage plate, one end of the flow transmission tube is connected with one side of the outer wall of the filter box, one end of the drainage tube is connected with the other end of the flow transmission tube, and the other end of the drainage tube is positioned below one side of the drainage plate.

The rainwater quantifying assembly comprises a quantifying barrel, a floating ball, a quantifying pipe and a supporting plate, the quantifying barrel is arranged on the other side of the filter box, the quantifying pipe is arranged in the quantifying barrel and is of a conical structure, the supporting plate is arranged at the bottom of the quantifying pipe, a plurality of drain holes are formed in the bottom of the supporting plate, and the floating ball is arranged in the quantifying pipe.

Be equipped with the rainwater on the opposite side of water storage box and spray the subassembly, the rainwater sprays the subassembly and includes water pump, standpipe and a plurality of spray tube, the water pump is located the opposite side of water storage box, the standpipe sets up the one side at the water pump to the one end of standpipe runs through the water pump and is connected with water storage box opposite side, and is a plurality of the spray tube sets gradually along the length direction of standpipe.

The utility model has the advantages of it is following:

1. in flowing into the drainage tube with the rainwater along the bevel angle direction of drainage plate through the drainage plate, in going into the defeated flow tube with the rainwater direction through the drainage tube afterwards, later in discharging into the filter cartridge with the rainwater through the defeated flow tube, the rethread filter cartridge will be from the rainwater of defeated flow tube drainage introduce inside the filter cartridge, rethread silica layer, activated carbon filter layer and asbestos gauge filter in proper order, later through the connecting pipe with the rainwater after filtering direction to the ration bucket in, the direction collection and the filtration treatment of rainwater have been realized.

2. The rainwater after will filtering flows to conveyer pipe department from the intraductal flow direction of ration through the wash port in the backup pad afterwards, by the rainwater direction to the water storage box after the conveyer pipe will filter, after the rainwater storage of water storage box and ration socle portion is accomplished, drive the floater come-up by the rainwater, plug up the top of ration pipe by the floater, make the connecting pipe direction go into the rainwater in the ration bucket and pile up in the ration bucket, will pile up the rainwater by the drain pipe and discharge, realized the ration storage of rainwater and the processing of unnecessary rainwater.

3. When needs sprinkled the greenbelt afterwards, flow into in the water storage tank with the rainwater from the water storage box through opening the water pump, in leading-in a plurality of spray lines of rainwater in with the water storage tank through the water pump again, sprayed the greenbelt by a plurality of spray lines, realized the utilization to the rainwater resource and handled the ration that the rainwater was stored.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of a rainwater quantifying assembly according to the present invention;

FIG. 3 is a schematic perspective view of the rainwater drainage assembly of the present invention;

fig. 4 is a schematic perspective view of the rainwater filtering assembly of the present invention;

fig. 5 is the utility model discloses well rainwater sprays the spatial structure sketch map of subassembly.

In the figure: 1-rainwater drainage component, 2-rainwater filtering component, 3-rainwater quantifying component, 4-water storage box, 5-rainwater spraying component, 41-conveying pipe, 21-connecting pipe, 31-draining pipe, 22-filtering box, 23-silicon dioxide layer, 24-activated carbon filtering layer, 25-asbestos gauze, 221-cover plate, 11-drainage plate, 12-drainage pipe, 13-flow conveying pipe, 32-quantifying barrel, 33-floating ball, 34-quantifying pipe, 35-supporting plate, 51-water pump, 52-water storage pipe and 53-spraying pipe.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1 to 5, a sponge city rainwater recycling device comprises a rainwater drainage component 1, a rainwater filtering component 2, a rainwater quantifying component 3 and a water storage box 4, wherein the rainwater drainage component 1 is positioned above the rainwater filtering component 2 and the rainwater quantifying component 3, four fixing rods fixed with the fixed top parts of the rainwater filtering component 2 and the rainwater quantifying component 3 are arranged below the rainwater drainage component 1, the water storage box 4 is positioned below the rainwater filtering component 2, four symmetrically arranged supporting rods are respectively arranged between the top part of the water storage box 4 and the bottom part of the rainwater filtering component 2, a conveying pipe 41 is arranged at one side of the water storage box 4 and one side of the rainwater quantifying component 3, rainwater in the rainwater quantifying component 3 is guided into the water storage box 4 through the conveying pipe 41, a connecting pipe 21 is arranged between the rainwater filtering component 2 and the rainwater quantifying component 3, the water filtered in the rainwater filtering component 2 flows into the rainwater quantifying component 3 through the connecting pipe 21, the outer wall of the rainwater quantifying component 3 is further provided with a drain pipe 31, the drain pipe 31 is connected with a sewer pipe, and redundant rainwater is drained into the sewer pipe through the drain pipe 31 to be treated.

Rainwater filter component 2 includes filter cartridge 22, silica layer 23, active carbon filter layer 24 and asbestos gauge 25, filter cartridge 22 sets up the below at rainwater drainage component 1, silica layer 23, active carbon filter layer 24 and asbestos gauge 25 set gradually the inner wall at filter cartridge 22 along filter cartridge 22's length direction, will introduce filter cartridge 22 inside from the rainwater of rainwater drainage component 1 drainage through filter cartridge 22, rethread silica layer 23, active carbon filter layer 24 and asbestos gauge 25 filter in proper order, realize realizing filterable effect to the rainwater in the filter cartridge 22.

The top of filter cartridge 22 is equipped with apron 221, the one end of apron 221 and filter cartridge 22 top one side are articulated to be set up, open apron 221 through operating personnel and can make the more convenient silica layer 23, active carbon filter layer 24 and the asbestos gauge 25 of operating personnel in filter cartridge 22 change the processing.

The rainwater drainage component 1 comprises a drainage plate 11, a drainage tube 12 and a flow transmission tube 13, wherein the drainage plate 11 is positioned above a filter box 22, the drainage plate 11 is obliquely arranged, the flow transmission tube 13 is positioned beside the drainage plate 11, one end of the flow transmission tube 13 is connected with one side of the outer wall of the filter box 22, one end of the drainage tube 12 is connected with the other end of the flow transmission tube 13, the other end of the drainage tube 12 is positioned below one side of the drainage plate 11, rainwater flows into the drainage tube 12 along the oblique angle direction of the drainage plate 11 through the drainage plate 11, then the rainwater is guided into the flow transmission tube 13 through the drainage tube 12, and then the rainwater is discharged into the filter box 22 through the flow transmission tube 13, so that the rainwater is guided and collected.

The rainwater quantifying assembly 3 comprises a quantifying barrel 32, a floating ball 33, a quantifying pipe 34 and a supporting plate 35, the quantifying barrel 32 is arranged at the other side of the filter box 22, the quantifying pipe 34 is arranged in the quantifying barrel 32, the quantifying pipe 34 is in a conical structure, the supporting plate 35 is arranged at the bottom of the quantifying pipe 34, a plurality of drainage holes are formed in the bottom of the supporting plate 35, the floating ball 33 is arranged in the quantifying pipe 34, filtered rainwater is guided into the quantifying barrel 32 through the connecting pipe 21, then the filtered rainwater flows to the conveying pipe 41 from the quantifying pipe 34 through the drainage holes in the supporting plate 35, the filtered rainwater is guided into the water storage box 4 through the conveying pipe 41, after the rainwater at the bottoms of the water storage box 4 and the quantifying pipe 34 is stored, the floating ball 33 is driven by the rainwater to float upwards, the top of the quantifying pipe 34 is blocked by the floating ball 33, so that the rainwater guided into the quantifying barrel 32 by the connecting pipe 21 is accumulated in the quantifying barrel 32, the accumulated rainwater is discharged by the drain pipe 31, so that the quantitative determination of the rainwater and the treatment step of the redundant rainwater are realized.

Be equipped with rainwater spray assembly 5 on the opposite side of water storage box 4, rainwater spray assembly 5 includes water pump 51, standpipe 52 and a plurality of spray tube 53, water pump 51 is located the opposite side of water storage box 4, standpipe 52 sets up the one side at water pump 51 to the one end of standpipe 52 runs through water pump 51 and is connected with water storage box 4 opposite side, and is a plurality of spray tube 53 sets gradually along the length direction of standpipe 52, when needs are to the greenbelt watering, in flowing into standpipe 52 with the rainwater from water storage box 4 through opening water pump 51, in the leading-in a plurality of spray tube 53 of rainwater in with standpipe 52 through water pump 51 again, spray the greenbelt by a plurality of spray tube 53, realized the utilization of rainwater resource.

The working process of the utility model is as follows: rainwater flows into the drainage tube 12 along the inclination angle direction of the drainage plate 11 through the drainage plate 11, then the rainwater is guided into the flow transmission tube 13 through the drainage tube 12, then the rainwater is discharged into the filter box 22 through the flow transmission tube 13, then the rainwater drained from the flow transmission tube 13 is guided into the filter box 22 through the filter box 22, then the rainwater is sequentially filtered through the silicon dioxide layer 23, the activated carbon filter layer 24 and the asbestos cloth 25, then the filtered rainwater is guided into the quantitative barrel 32 through the connecting tube 21, then the filtered rainwater flows into the conveying tube 41 from the quantitative tube 34 through the drain hole on the support plate 35, the filtered rainwater is guided into the water storage box 4 through the conveying tube 41, after the rainwater at the bottoms of the water storage box 4 and the quantitative barrel 34 is stored, the floating ball 33 is driven by the rainwater to float 33, the top of the quantitative barrel 34 is blocked by the floating ball 33, so that the rainwater guided into the quantitative barrel 32 through the connecting tube 21 is accumulated in the quantitative barrel 32, will be accumulational rainwater drainage by drain pipe 31, later when needs are to the greenbelt watering, through opening in water pump 51 flows into standpipe 52 with the rainwater from water storage box 4, in the leading-in a plurality of spray lines 53 of rainwater in with standpipe 52 through water pump 51 again, spray the greenbelt by a plurality of spray lines 53, realized the utilization to the rainwater resource and the quantitative processing that the rainwater was stored.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a sponge city rainwater reuse device which characterized in that: comprises a rainwater drainage component (1), a rainwater filtering component (2), a rainwater quantifying component (3) and a water storage box (4), wherein the rainwater drainage component (1) is positioned above the rainwater filtering component (2) and the rainwater quantifying component (3), four fixing rods which are fixed with the fixed tops of the rainwater filtering component (2) and the rainwater quantifying component (3) are arranged below the rainwater drainage component (1), the water storage box (4) is positioned below the rainwater filtering component (2), four support rods which are symmetrically arranged are arranged between the top of the water storage box (4) and the bottom of the rainwater filtering component (2) respectively, a conveying pipe (41) is arranged at one side of the water storage box (4) and one side of the rainwater quantifying component (3), a connecting pipe (21) is arranged between the rainwater filtering component (2) and the rainwater quantifying component (3), and a drain pipe (31) is also arranged on the outer wall of the rainwater quantifying component (3), and a drain pipe (31) is connected to the sewer pipe.

2. The sponge city rainwater reuse device according to claim 1, characterized in that: rainwater filter component (2) include filter cartridge (22), silica layer (23), activated carbon filter layer (24) and asbestos gauge (25), filter cartridge (22) set up the below at rainwater drainage component (1), silica layer (23), activated carbon filter layer (24) and asbestos gauge (25) set gradually the inner wall at filter cartridge (22) along the length direction of filter cartridge (22).

3. The sponge city rainwater reuse device according to claim 2, characterized in that: the top of the filter box (22) is provided with a cover plate (221), and one end of the cover plate (221) is hinged to one side of the top of the filter box (22).

4. The sponge city rainwater reuse device according to claim 2, characterized in that: rainwater drainage subassembly (1) includes drainage plate (11), drainage tube (12) and defeated flow tube (13), drainage plate (11) are located the top of filter cartridge (22) to drainage plate (11) slope sets up, defeated flow tube (13) are located the side of drainage plate (11) to the one end of defeated flow tube (13) is connected with outer wall one side of filter cartridge (22), drainage tube (12) one end is connected with the other end of defeated flow tube (13) to the other end of drainage tube (12) is located the below of drainage plate (11) one side.

5. The sponge city rainwater reuse device according to claim 4, characterized in that: the rainwater quantifying assembly (3) comprises a quantifying barrel (32), a floating ball (33), a quantifying pipe (34) and a supporting plate (35), the quantifying barrel (32) is arranged on the other side of the filter box (22), the quantifying pipe (34) is arranged in the quantifying barrel (32), the quantifying pipe (34) is of a conical structure, the supporting plate (35) is arranged at the bottom of the quantifying pipe (34), a plurality of drainage holes are formed in the bottom of the supporting plate (35), and the floating ball (33) is arranged in the quantifying pipe (34).

6. The sponge city rainwater reuse device according to claim 1, characterized in that: be equipped with rainwater on the opposite side of water storage box (4) and spray subassembly (5), rainwater sprays subassembly (5) and includes water pump (51), standpipe (52) and a plurality of spray tube (53), water pump (51) are located the opposite side of water storage box (4), standpipe (52) set up the one side at water pump (51) to the one end of standpipe (52) runs through water pump (51) and is connected with water storage box (4) opposite side, and is a plurality of spray tube (53) set gradually along the length direction of standpipe (52).