CN115380801B - Irrigation system is collected to greenbelt rainwater - Google Patents

Abstract

The utility model relates to an energy-concerving and environment-protective field especially relates to an irrigation system is collected to greenbelt rainwater, and its technical scheme is, including setting up the collection device in the greenbelt below, setting up filter equipment on collection device and setting up on collection device and be used for watering the watering device of greenbelt vegetation, collection device includes along the greenbelt outband enclose the baffle of establishing, set up the collecting box in the greenbelt below and set up the collecting pipe in the collecting box, watering device includes the connecting pipe and the nozzle of setting on the connecting pipe with the collecting pipe intercommunication. The water-saving irrigation system has the advantages of saving water resources, shortening the water body transmission path and being convenient for collecting ponding irrigation vegetation.

Description

Irrigation system is collected to greenbelt rainwater

Technical Field

The application relates to the field of energy conservation and environmental protection, in particular to a green belt rainwater collecting and irrigating system.

Background

Along with the continuous improvement of living standard of people, the requirements of people on living environment are higher and higher, and people build green belts near living areas or office areas, so that the green belts can improve the attractiveness of surrounding environment and also play roles of sound insulation, dust fall, air purification, harmful gas absorption and the like. In order to maintain the green belt, people can water the green belt at regular time and spray nutrient solution. In the season that the rainwater is more, unnecessary ponding can be discharged through municipal pipeline. In order to save water resources and improve the utilization rate of the resources. People can irrigate vegetation using accumulated rain water.

The current rainwater collection mode is generally that lay the pipeline on the greenbelt, pipeline water inlet is in the pit of greenbelt, and ponding can flow towards the pit, and in the pipeline was unified to collect the header tank with ponding, carry out unified filtration with the water again, convey greenbelt department with filtered water through the water pump pressurization, spout the water through the nozzle and irrigate the vegetation at last. However, the pipeline transmission path is long, and the water body is conveyed to be irrigated under a large pressure, so that a plurality of groups of pressurizing pumps are required to be arranged on the pipeline, and the energy consumption required by vegetation irrigation is excessive.

Disclosure of Invention

In order to save water resources, shorten water transmission path, be convenient for collect ponding irrigation vegetation, this application provides a greenbelt rainwater collection irrigation system.

The application provides a greenbelt rainwater collection irrigation system adopts following technical scheme:

the utility model provides an irrigation system is collected to greenbelt rainwater, includes the collection device who sets up in the greenbelt below, sets up filter equipment on collection device and sets up on collection device and be used for watering the watering device of greenbelt vegetation, collection device includes along the greenbelt out-of-band baffle of establishing, sets up the collecting box in the greenbelt below and sets up the collecting pipe in the collecting box, watering device includes the connecting pipe with the collecting pipe intercommunication and sets up the nozzle on the connecting pipe.

By adopting the technical scheme, the collecting device is used for collecting the accumulated water on the green belt, so that the water resource utilization rate is improved, and the filtering device is used for filtering the accumulated water, so that the collecting device is convenient to collect the filtered accumulated water; when vegetation needs to be watered, the watering device uses the water body filtered in the collecting device to irrigate the vegetation, the baffle is used for reducing water and soil loss in the green belt, the possibility that the accumulated water drives soil to pollute the surrounding environment is reduced, the collecting box is used for storing the accumulated water, the collecting pipe is connected with the connecting pipe, and the accumulated water in the collecting box is conveniently sprayed by the nozzle; the collecting device can effectively shorten the rainwater conveying path, reduce energy consumption and facilitate the watering device to water vegetation.

Preferably, the outer side wall of the collecting box is tightly attached to one side, close to the collecting box, of the baffle plate, a positioning block is obliquely arranged on the outer side wall of the collecting box along the length direction of the collecting box, and a positioning groove matched with the positioning block is formed in the baffle plate.

Through adopting above-mentioned technical scheme, the lateral wall and the baffle of collecting box are hugged closely, are convenient for improve the stability of collecting box, improve the efficiency of collecting box collection ponding, and locating piece and constant head tank effectively improve the stability between collecting box and the baffle, and locating piece and constant head tank can intercept, gather together ponding simultaneously, and the ponding of being convenient for flows in the collecting box.

Preferably, the top surface of collecting box has seted up a plurality of through-holes one, collecting device still includes a plurality of supporting components of setting in the collecting box, supporting component includes the supporting box, sets up a plurality of backup pads one in the supporting box, sets up in the supporting box and with backup pad one cross the backup pad two that set up and set up a plurality of guides in the supporting box, the guide is located backup pad one and backup pad two enclose and establish the space that forms.

Through adopting above-mentioned technical scheme, through-hole one is used for ponding to flow towards the collection incasement, and supporting component is used for the infiltration of water, carries out further filtration to the water simultaneously, and a plurality of supporting components support the collection case, improve the stability of collection case, reduce the influence that greenbelt earth, vegetation etc. produced to the collection case; the stability of supporting box is improved to backup pad one and backup pad two, and the guide is used for guiding ponding to flow, and the impurity in the ponding of being convenient for simultaneously adheres to on the guide, and the guide improves the supporting effect of supporting box simultaneously.

Preferably, the upper and lower both ends of the intersection of backup pad one and backup pad two are equipped with the briquetting, the briquetting is close to one side of supporting box and is equipped with a plurality of lugs, set up the recess with lug looks adaptation on the supporting box, set up a plurality of through-holes two on the case wall of supporting box, the through-hole two of one side of supporting box and collection box contact communicates with the through-hole one, a plurality of through-holes three have been seted up on backup pad one and the backup pad two.

Through adopting above-mentioned technical scheme, the vegetation of greenbelt and the gravity of earth can exert pressure to the supporting box, and the briquetting effectively alleviates the pressure of supporting plate one and the crossing point of backup pad to the supporting box, reduces the possibility that the supporting box warp, and lug and recess improve the stability of briquetting on the supporting box, and through-hole two are used for ponding entering, and through-hole one and through-hole two intercommunication are convenient for ponding get into in the supporting box, and the supporting box intercepts the precipitate in the ponding, and the through-hole three-purpose is in ponding flow.

Preferably, the guide piece comprises a partition plate arranged in the supporting box, and a first guide pipe and a second guide pipe which are symmetrically arranged in the supporting box by taking the partition plate as a symmetrical axis, wherein the partition plate is positioned at the center of the supporting box in the height direction.

Through adopting above-mentioned technical scheme, the division board is used for improving the stability of guide pipe one and guide pipe two, and guide pipe one and guide pipe two are used for guiding ponding, and ponding when removing simultaneously, the sediment in the ponding can adhere to on guide pipe one and guide pipe two.

Preferably, the inner diameter of the first guide pipe is gradually reduced near the second guide pipe, the inner diameter of the second guide pipe is gradually reduced near the first guide pipe, and a plurality of through holes IV are formed in both the first guide pipe and the second guide pipe.

Through adopting above-mentioned technical scheme, the internal diameter of guide tube one is close to guide tube two and reduces gradually, and the guide water of being convenient for flows along guide tube two, and the impurity of being convenient for adheres to on guide tube two, is convenient for reduce the impurity in the ponding, and the watering device of being convenient for waters, and through-hole four is convenient for ponding flows.

Preferably, the filter device comprises a plurality of filter screens paved on the top surface of the collection box and a mounting frame for positioning the filter screens, wherein a first limiting plate and a second limiting plate are arranged on the mounting frame along the inner wall in a surrounding mode, the first limiting plate is located above the plurality of filter screens, and the second limiting plate is located below the plurality of filter screens.

Through adopting above-mentioned technical scheme, a plurality of filter screens are used for filtering ponding, reduce silt along with ponding entering the possibility in the collecting box, and the installing frame improves the stability of filter screen on the collecting box, and the filter screen of being convenient for filters, limiting plate one and limiting plate two improve the stability that filter screen and installing frame are connected.

Preferably, the bottom surface of limiting plate one is equipped with a plurality of locating levers one, offer the locating hole one that is used for locating lever one end to fix a position on the limiting plate two, the top surface of limiting plate two is equipped with a plurality of locating levers two, offer the locating hole two that are used for locating lever two ends to fix a position on the limiting plate one.

Through adopting above-mentioned technical scheme, locating lever one and locating lever two improve the stability of filter screen on the installing frame, and locating lever one and locating lever two support limiting plate one and limiting plate two, improve the stability of filter screen and installing frame junction.

Preferably, the collecting pipe is provided with a water pump, the collecting pipe comprises a positioning part communicated with the connecting pipe and an adsorption part arranged below the positioning part, and the inner diameter of the adsorption part is gradually increased away from the positioning part.

Through adopting above-mentioned technical scheme, the water pump is convenient for accelerate the water flow rate, and the nozzle of being convenient for waters to the vegetation, and location portion is used for being connected with the connecting pipe, and adsorption part is used for conveying the ponding that flows through the supporting box to the connecting pipe.

Preferably, a sealing ring is sleeved on one side of the positioning part, which is in contact with the collecting box, a notch for the positioning part to pass through is formed in the supporting box, a sealing plate for sealing the notch is arranged on the supporting box, and a plurality of through holes five are formed in the sealing plate.

Through adopting above-mentioned technical scheme, the sealing washer improves the leakproofness between collecting box and the location portion, and the breach is convenient for collecting pipe conveying water, and the through-hole is five be used for the ponding through the supporting box to reach the water inlet of collecting pipe, and the water pump pressurization conveying ponding of being convenient for, and the closing plate is used for sheltering from the breach, reduces the volume that the impurity removed in the supporting box.

In conclusion, the collecting device directly collects rainwater on the green belt, the accumulated water permeates downwards, the filtering device filters the accumulated water, filtered water enters the collecting box, the collecting box is supported by the supporting boxes, the possibility of deformation of the collecting box is reduced, the use time limit of the collecting box is improved, the supporting boxes intercept sediments in the accumulated water, the possibility of blocking nozzles by sundries is reduced, and the water resource utilization rate is effectively improved.

Drawings

FIG. 1 is a schematic diagram of a system for collecting and irrigating green belt rainwater according to the present application;

FIG. 2 is a schematic view of the structure of a mounting frame in a greenbelt rain water collecting and irrigating system according to the present application;

FIG. 3 is a schematic view of the structure of a support assembly in a greenbelt rain water collecting and irrigating system according to the present application;

FIG. 4 is an enlarged view of A in FIG. 3;

fig. 5 is a schematic structural view of a briquette in a green belt rainwater collection irrigation system according to the present application.

Reference numerals illustrate: 1. a green belt; 2. a collecting device; 21. a baffle; 22. a collection box; 23. a collection pipe; 231. a positioning part; 232. an adsorption unit; 24. a support assembly; 241. a supporting box; 242. a first supporting plate; 243. a second supporting plate; 244. a guide; 2441. a partition plate; 2442. guiding a first pipe; 2443. a second guide pipe; 3. a filtering device; 31. a filter screen; 32. a mounting frame; 321. a first limiting plate; 322. a limiting plate II; 4. a watering device; 41. a connecting pipe; 42. a nozzle; 5. a positioning block; 6. a positioning groove; 7. a first through hole; 8. briquetting; 81. a bump; 9. a groove; 10. a second through hole; 11. a third through hole; 12. a through hole IV; 13. a positioning rod I; 14. positioning holes I; 15. a positioning rod II; 16. positioning holes II; 17. a water pump; 18. a seal ring; 19. a notch; 20. a sealing plate; 25. and a through hole V.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a greenbelt rainwater collection irrigation system. Referring to fig. 1 and 2, including installing in greenbelt 1 below and be used for collecting the collection device 2 of ponding on the greenbelt 1, lay in collection device 2 top and be used for filtering filter equipment 3 of ponding and install on collection device 2 and be used for watering device 4 of vegetation on the greenbelt 1, collection device 2 includes along greenbelt 1 periphery around setting up baffle 21, install in greenbelt 1 below and lie in baffle 21 around setting up within range collecting box 22, install in collecting box 22 and be used for conveying collecting pipe 23 of water and install a plurality of supporting component 24 in collecting box 22, supporting component 24 is used for improving the stability of collecting box 22. The irrigation device 4 comprises a connecting pipe 41 communicated with the collecting pipe 23 and a nozzle 42 fixedly arranged on the connecting pipe 41, wherein the nozzle 42 is used for irrigating vegetation, improving the utilization rate of accumulated water and saving water resources.

Referring to fig. 1 and 2, the baffle 21 may be poured with concrete, and the top surface of the baffle 21 is higher than the green belt 1 in level, so as to intercept the accumulated water on the green belt 1, and reduce the possibility that the accumulated water is wrapped around vegetation or soil on the green belt 1 to pollute the surrounding road. The top surface of the collecting box 22 is provided with a plurality of through holes 7, and the accumulated water enters the collecting box 22 after being filtered by the filtering device 3. The outer side wall of the collecting box 22 is tightly attached to the baffle plate 21, the outer side wall of the collecting box 22 is obliquely provided with a positioning block 5 along the length direction of the collecting box 22, and the baffle plate 21 is provided with a positioning groove 6 matched with the positioning block 5.

Referring to fig. 1 and 2, the filtering apparatus 3 includes a plurality of filtering screens 31 laid on the top surface of the collecting box 22 and a mounting frame 32 for mounting the filtering screens 31 on the top surface of the collecting box 22, and the outer side wall of the mounting frame 32 is closely attached to the baffle 21. The mounting frame 32 is equipped with limiting plate one 321 and limiting plate two 322 that are located limiting plate one 321 below along the inner wall, and limiting plate one 321 is located a plurality of filter screens 31 top, and limiting plate two 322 are located a plurality of filter screens 31 below, and limiting plate one 321 and limiting plate two 322 are fixed a position a plurality of filter screens 31. A plurality of first locating rods 13 are fixed on the bottom surface of the first limiting plate 321, a first locating hole 14 for locating the end part of the first locating rod 13 is formed in the second limiting plate 322, a plurality of second locating rods 15 are fixed on the top surface of the second limiting plate 322, a second locating hole 16 for locating the end part of the second locating rod 15 is formed in the first limiting plate 321, the first locating rods 13 and the second locating rods 15 penetrate through a plurality of filter screens 31 to locate the filter screens 31, and stability of the joint of the filter screens 31 and the mounting frame 32 is improved.

Referring to fig. 1 and 3, the accumulated water is filtered by the filter screen 31 and then infiltrates into the collecting tank 22, and the supporting component 24 in the collecting tank 22 supports the collecting tank 22, and at the same time, the impurity content in the accumulated water is further reduced. The support assembly 24 includes a support case 241, a plurality of support plates one 242 fixedly installed in the support case 241, a support plate two 243 fixedly installed in the support case 241 and crossing the support plate one 242, and a plurality of guide members 244 in the support case 241, in this embodiment, the support plates one 242 and two 243 are vertically crossing each other, and the side walls of the support plates one 242 and two 243 are fixed against the inner wall of the support case 241. A plurality of second through holes 10 are formed in the wall of the supporting box 241 and are used for carrying out flow permeation on accumulated water, the second through holes 10 on one side, in contact with the collecting box 22, of the supporting box 241 are communicated with the first through holes 7, and water is convenient to permeate into the supporting box 241. The first support plate 242 and the second support plate 243 are provided with a plurality of through holes III 11, and are also used for water infiltration and flow.

Referring to fig. 4 and 5, pressing blocks 8 are fixed at the upper and lower ends of the cross point between the first support plate 242 and the second support plate 243, a plurality of protruding blocks 81 are fixed at one side of the pressing blocks 8 close to the support box 241, and grooves 9 matched with the protruding blocks 81 are formed in the support box 241. The guide piece 244 is positioned in a space formed by encircling the first support plate 242 and the second support plate 243, so that the guide piece is convenient for guiding the water body to intercept sundries in the accumulated water in the infiltration process. The guide 244 includes a partition plate 2441 installed in the support box 241, a first guide pipe 2442 and a second guide pipe 2443 symmetrically disposed in the support box 241 with the partition plate 2441 as a symmetry axis, and the partition plate 2441 is located at a center position in a height direction of the support box 241.

Referring to fig. 4 and 5, one end of the guide pipe 2442 is fixed to the partition plate 2441, and the other end of the guide pipe 2442 is fixed to the support box 241. One end of the second guide pipe 2443 is fixed to the partition plate 2441, and the other end of the second guide pipe 2443 is fixed to the support box 241. The inner pipe diameter of the first guide pipe 2442 is gradually reduced near the second guide pipe 2443, and the inner pipe diameter of the second guide pipe 2443 is gradually reduced near the first guide pipe 2442. A plurality of through holes IV 12 are formed in the first guide pipe 2442 and the second guide pipe 2443, and the through holes IV 12 are used for water accumulation to flow. After the accumulated water is filtered by the filter screens 31, the accumulated water enters the collecting box 22 through the first through hole 7, then reaches the supporting box 241 through the second through hole 10, a plurality of supporting boxes 241 are arranged in the collecting box 22, the supporting boxes 241 support the collecting box 22, and meanwhile sediment in the accumulated water is intercepted.

Referring to fig. 2, rainwater is collected in a collecting tank 22, a water pump 17 is fixedly installed on a collecting pipe 23, and the water pump 17 accelerates the efficiency of the collecting pipe 23 for conveying water. When vegetation needs to be watered, the water pump 17 is started, the water body is conveyed to the connecting pipe 41 through the collecting pipe 23, and then the water body is sprayed on the vegetation through the nozzle 42. The collecting pipe 23 includes a positioning portion 231 connected with the connecting pipe 41 and an adsorption portion 232 fixed under the positioning portion 231, and an inner diameter of the adsorption portion 232 is gradually increased away from the positioning portion 231 so as to facilitate increasing a water inlet of the collecting pipe 23. The sealing ring 18 is sleeved on one side of the positioning part 231, which is contacted with the collecting box 22, so that the stability and the tightness of the connection of the positioning part 231 are improved. In order to facilitate the water body to be conveyed by the collecting pipe 23, a notch 19 for the positioning part 231 to pass through is formed in the position, close to the collecting pipe 23, of the supporting box 241, the collecting pipe 23 is convenient for water inflow, a sealing plate 20 for blocking the notch 19 is fixedly mounted on the supporting box 241, a plurality of through holes five 25 are formed in the sealing plate 20, water is convenient for flow, and the collecting pipe 23 is convenient for conveying water.

The implementation principle of the greenbelt rainwater collection irrigation system is as follows: in seasons with more rainwater, the baffle 21 intercepts the rainwater on the green belt 1, and after the rainwater is collected, the accumulated water seeps into the lower part of the green belt 1. After being filtered by the filter screens 31, the accumulated water flows into the collecting tank 22, and the supporting tank 241 intercepts and collects the sediment in the accumulated water. When vegetation needs to be watered, the water pump 17 is started, the collecting pipe 23 conveys the water body to the connecting pipe 41, the connecting pipe 41 conveys the water body to the nozzle 42, and the nozzle 42 sprays the water body to the vegetation. The application effectively shortens ponding transfer path, reduces transmission cost, is convenient for collect ponding, improves water resource utilization ratio.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (7)

1. An irrigation system is collected to greenbelt rainwater, its characterized in that: the device comprises a collecting device (2) arranged below a green belt (1), a filtering device (3) arranged on the collecting device (2) and a watering device (4) arranged on the collecting device (2) and used for watering vegetation on the green belt (1), wherein the collecting device (2) comprises a baffle (21) which is arranged along the periphery of the green belt (1), a collecting box (22) arranged below the green belt (1) and a collecting pipe (23) arranged in the collecting box (22), and the watering device (4) comprises a connecting pipe (41) communicated with the collecting pipe (23) and a nozzle (42) arranged on the connecting pipe (41); the collecting device comprises a collecting box (22), and is characterized in that a plurality of first through holes (7) are formed in the top surface of the collecting box (22), the collecting device (2) further comprises a plurality of supporting components (24) arranged in the collecting box (22), the supporting components (24) comprise a supporting box (241), a plurality of first supporting plates (242) arranged in the supporting box (241), second supporting plates (243) arranged in the supporting box (241) and crossed with the first supporting plates (242) and a plurality of guide pieces (244) arranged in the supporting box (241), and the guide pieces (244) are located in a space formed by the first supporting plates (242) and the second supporting plates (243) in a surrounding mode. The guide piece (244) comprises a division plate (2441) arranged in the support box (241), a first guide pipe (2442) and a second guide pipe (2443) which are symmetrically arranged in the support box (241) by taking the division plate (2441) as a symmetry axis, and the division plate (2441) is positioned at the center of the support box (241) in the height direction; the inner diameter of the first guide pipe (2442) is gradually reduced near the second guide pipe (2443), the inner diameter of the second guide pipe (2443) is gradually reduced near the first guide pipe (2442), and a plurality of through holes (12) are formed in the first guide pipe (2442) and the second guide pipe (2443).

2. A green belt rainwater harvesting irrigation system as claimed in claim 1, wherein: the outer side wall of the collecting box (22) is tightly attached to one side, close to the collecting box (22), of the baffle plate (21), a positioning block (5) is obliquely arranged on the outer side wall of the collecting box (22) along the length direction of the collecting box (22), and a positioning groove (6) matched with the positioning block (5) is formed in the baffle plate (21).

3. A green belt rainwater harvesting irrigation system as claimed in claim 1, wherein: the utility model discloses a collection box, including supporting plate one (242) and supporting plate two (243), the upper and lower both ends of crossing point of supporting plate one (242) and supporting plate two (243) are equipped with briquetting (8), one side that briquetting (8) are close to supporting box (241) is equipped with a plurality of lugs (81), set up recess (9) with lug (81) looks adaptation on supporting box (241), a plurality of through-hole two (10) have been seted up on the wall of supporting box (241), through-hole two (10) and through-hole one (7) intercommunication of one side that supporting box (241) and collection box (22) contacted, a plurality of through-hole three (11) have been seted up on supporting plate one (242) and the supporting plate two (243).

4. A green belt rainwater harvesting irrigation system as claimed in claim 1, wherein: the filter device (3) comprises a plurality of filter screens (31) paved on the top surface of the collecting box (22) and a mounting frame (32) used for positioning the filter screens (31), wherein a first limiting plate (321) and a second limiting plate (322) are arranged on the mounting frame (32) along the periphery of the inner wall, the first limiting plate (321) is located above the plurality of filter screens (31), and the second limiting plate (322) is located below the plurality of filter screens (31).

5. A green belt rainwater harvesting irrigation system as claimed in claim 4, wherein: the bottom surface of limiting plate one (321) is equipped with a plurality of locating lever one (13), set up locating hole one (14) that are used for locating lever one (13) tip location on limiting plate two (322), the top surface of limiting plate two (322) is equipped with a plurality of locating lever two (15), set up locating hole two (16) that are used for locating lever two (15) tip location on limiting plate one (321).

6. A green belt rainwater harvesting irrigation system as claimed in claim 1, wherein: be equipped with water pump (17) on collecting pipe (23), collecting pipe (23) include with connecting pipe (41) intercommunication location portion (231) and set up adsorption part (232) in location portion (231) below, the internal diameter of adsorption part (232) keeps away from location portion (231) and increases gradually.

7. A green belt rainwater harvesting irrigation system as claimed in claim 6, wherein: one side of location portion (231) and collection box (22) contact overlaps and is equipped with sealing washer (18), is close to support box (241) of location portion (231) is offered and is used for breach (19) that location portion (231) passed, be equipped with on support box (241) and be used for shutoff closing plate (20) of breach (19), a plurality of through-holes five (25) have been offered on closing plate (20).