CN115467390B - Rainwater collection system for green belt - Google Patents

Abstract

The utility model relates to an energy-concerving and environment-protective field especially relates to a rainwater collecting system for greenbelt, and its technical scheme is, including setting up the collecting pipe in the greenbelt and setting up the protector that is used for protecting the water inlet of collecting pipe on the greenbelt, protector is including setting up rail guard on the greenbelt, setting up the guard assembly on the rail guard and setting up on the rail guard and being located the stirring subassembly of guard assembly top, the collecting pipe is located the enclosure scope of rail guard. The application has the advantages of being convenient for collect ponding in the greenbelt, reducing the possibility of vegetation blocking the collecting pipe and protecting the vegetation.

Description

Rainwater collection system for green belt

Technical Field

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

Background

The rainwater collecting system mainly refers to the whole rainwater collecting process, and the rainwater collected by the rainwater collecting system can be used for irrigating crops, supplementing groundwater resources, greening irrigation water and the like. Along with the continuous development of urban construction, green belts are often built at both sides of roads or around houses for the purposes of attractive cities and isolating the influence of roads on surrounding residents. The green belt has the effects of dividing areas, sound insulation and dust reduction. However, in seasons with more rainwater, municipal pipelines are busy, a large amount of accumulated water still remains after heavy rain and is accumulated in the green belt, so that the phenomenon of root floating or root rotting of vegetation is caused.

Therefore, a collecting pipe communicated with a rainwater collecting pipeline in the rainwater collecting system is arranged in the green belt and used for collecting accumulated water in the green belt. However, when vegetation is soaked in the ponding water for a long time to float the root, the ponding water can drive the vegetation to flow towards the water inlet of the collecting pipe when flowing towards the water inlet of the collecting pipe, the water inlet of the collecting pipe is easily blocked by the vegetation, and then the water drops under the influence of rain, so that the ponding water in the green belt can not be discharged.

Disclosure of Invention

In order to be convenient for collect ponding in the greenbelt, reduce ponding and soak vegetation for a long time and lead to the rotten root of vegetation or float the possibility of root, this application provides a rainwater collecting system for greenbelt.

The application provides a rainwater collecting system for greenbelt adopts following technical scheme:

the utility model provides a rainwater collecting system for greenbelt, includes the collecting pipe that sets up in the greenbelt and the protector who sets up the water inlet that is used for protecting the collecting pipe on the greenbelt, protector is including setting up the rail guard on the greenbelt, setting up the guard assembly on the rail guard and setting up on the rail guard and being located the subassembly that stirs of guard top, the collecting pipe is located the enclosure scope of rail guard.

Through adopting above-mentioned technical scheme, protector is used for sheltering from the debris around the collecting pipe, reduces debris along ponding remove the water inlet of collecting pipe and the possibility of shutoff collecting pipe water inlet, and the rail guard is used for demarcating the protection scope of collecting pipe, reduces people simultaneously and tramples the possibility of collecting pipe, and the protection component is used for reducing debris and blocks up the possibility of collecting pipe water inlet, and stirring the subassembly stirs debris, and debris outflow clearance of being convenient for lets ponding remove towards the collecting pipe.

Preferably, the water inlet of the collecting pipe is provided with a guide pipe, the guide pipe comprises a water inlet part arranged at the water inlet of the collecting pipe and a positioning part arranged along the outer periphery of the water inlet part, the guard rail is arranged on the positioning part, and a plurality of positioning blocks are arranged on the bottom surface of the positioning part.

Through adopting above-mentioned technical scheme, the honeycomb duct is used for guiding ponding entering collecting pipe, and the portion of intaking is used for guiding the water and gets into the collecting pipe, and the location portion improves the stability of portion of intaking on the greenbelt, and the location portion keeps steadily on the greenbelt, and the location piece improves the stability of location portion on the greenbelt, and the rail guard is installed and is convenient for improve the stability of rail guard on the greenbelt on the location portion.

Preferably, one end of the top surface of the positioning part, which is close to the water inlet part, is arranged in a downward inclined way towards the water inlet part; the inner diameter of the water inlet part is gradually increased away from the collecting pipe; the area of the section of the positioning block is gradually reduced downwards.

By adopting the technical scheme, one end of the top surface of the positioning part, which is close to the water inlet part, is downwards inclined towards the water inlet part, so that the water body is conveniently guided to move downwards, and the gentle surface of the positioning part is leveled with the ground of the green belt, so that the water body can flow conveniently; the inner diameter of the water inlet part is gradually increased away from the collecting pipe, so that water body can enter the collecting pipe conveniently, the area of the section of the positioning block is gradually reduced downwards, the positioning block can be conveniently inserted on the green belt, and the stability of the positioning part on the green belt is improved.

Preferably, the protection component comprises an interception plate obliquely arranged on the guard rail and a plurality of interception blocks arranged along the length direction of the interception plate, wherein the interception plate is positioned outside the enclosure range of the guard rail, a rotating shaft is arranged on the guard rail, and the interception plate is rotationally connected with the guard rail through the rotating shaft; the interception block is obliquely arranged on the top surface of the interception plate.

Through adopting above-mentioned technical scheme, the interception board that the slope set up is used for keeping apart ponding flow gap, and the interception piece is used for intercepting and stir the debris that the subassembly was stirred on the interception board, and ponding orientation collecting pipe of being convenient for flows, and the pivot is convenient for intercept board and rail guard to rotate and is connected, and the ground is hugged closely to interception board one end of being convenient for, and interception piece slope sets up the top surface at interception board, is convenient for intercept the piece and intercept and fix a position debris.

Preferably, the top surface of interception board has seted up a plurality of holes that permeate water, the one end that the interception board contacted the greenbelt is equipped with a plurality of spacer blocks along length direction, the bottom surface of spacer block is equipped with the supporting shoe.

Through adopting above-mentioned technical scheme, the hole of permeating water is convenient for intercept the rainwater whereabouts on the board, is formed with the clearance between two adjacent spacer blocks, and the ponding of being convenient for flows to the collecting pipe, and the supporting shoe is used for supporting the spacer block, leaves the clearance between spacer block and the ground of being convenient for.

Preferably, the toggle assembly comprises a pushing cylinder arranged on the protective guard and positioned in the protective guard protection range, a positioning seat arranged at the piston end of the pushing cylinder and a toggle plate arranged on the positioning seat, and a rotating motor for driving the toggle plate to rotate is arranged on the positioning seat.

Through adopting above-mentioned technical scheme, promote the cylinder and start the back, promote the cylinder and promote the positioning seat and carry out reciprocating motion towards the rail guard outside, stir the board and remove along with the removal of positioning seat, rotate the motor and be used for driving stir the board and rotate, stir the board and rotate downwards and drive the debris of piling up at the interception board water inlet and remove towards the interception board top, the ponding flow direction collecting pipe of being convenient for.

Preferably, the toggle plate extends towards the outside of the protection range of the guard rail, one end of the toggle plate, which is far away from the positioning seat, is provided with a fixed plate, the bottom surface of the fixed plate is provided with a plurality of toggle blocks along the length direction, and the cross-sectional area of the toggle blocks is gradually reduced downwards.

Through adopting above-mentioned technical scheme, stir the board towards rail guard protection scope outside extension, be convenient for stir the debris of piling up on the interception board, be convenient for ponding flow, the fixed plate improves the stability of stirring the board, be convenient for stir the board and stir the debris, stir the cross-sectional area of piece and reduce gradually, be convenient for stir the piece grafting and get into in the vegetation, be convenient for follow-up promotion cylinder drive stir the piece and remove, be convenient for stir the piece drag the vegetation to the interception board on, the hole of permeating water on the interception board is convenient for the water whereabouts.

Preferably, the water inlet of collecting pipe is equipped with the interception net, the collecting pipe is equipped with the installation piece that is used for fixing a position the interception net along the inner wall, the mounting groove has been seted up along the circumferencial direction to the top surface of installation piece, be equipped with a plurality of stoppers in the mounting groove, be equipped with on the installation piece and press the briquetting, the spacing hole that corresponds with the stopper has been seted up on the briquetting, the interception net is equipped with the reinforcing net along the side, the one end that the reinforcing net is close to the collecting pipe is located between briquetting and the installation piece.

By adopting the technical scheme, the interception net is used for shielding sundries entering the collecting pipe, the installation block improves the stability of the interception net in the collecting pipe, the limiting block is used for penetrating through meshes of the interception net, improves the stability of the installation block on the interception net, and is fixed according to the cooperation of the pressing block and the installation block, so that the stability of the interception net in intercepting sundries is improved; the limiting holes and the limiting blocks also improve the connection stability between the pressing blocks and the mounting blocks, the strength of the connecting part of the interception net is improved by the reinforcing net, and the service life of the interception net is prolonged.

Preferably, the constant head tank that is used for fixing a position installation piece and presses the piece has been seted up to the inner wall of collecting pipe, a plurality of through-holes have been seted up along collecting pipe length direction to installation piece and press the piece, be equipped with a plurality of guide bars that are located the through-hole in the constant head tank, the cover is equipped with the elastic component that is located the installation piece below on the guide bar.

Through adopting above-mentioned technical scheme, the constant head tank is used for locating installation piece and pressing the piece, and the guide bar improves installation piece and presses the stability of piece on the collecting pipe, and the elastic component is used for buffering debris to get into in the collecting pipe, and the pulling force that the interception net received.

Preferably, a collecting box positioned at the water outlet end of the collecting pipe is arranged in the green belt, a plurality of filter screens are arranged in the collecting box, a supporting piece is arranged between two adjacent filter screens, a water collecting pipe is arranged at the water outlet end of the collecting box, and a water storage tank is arranged at the water outlet end of the water collecting pipe; the support piece comprises a first support plate and a second support plate, wherein the first support plate is arranged in a honeycomb shape, the second support plate is arranged on the upper side and the lower side of the first support plate, and a plurality of water seepage holes are formed in the second support plate.

Through adopting above-mentioned technical scheme, the collecting box is used for collecting ponding, and the filter screen filters ponding in the collecting box, and support piece improves the stability between the filter screen, and the collector pipe conveys the ponding that filters the completion to the water storage tank in, and a plurality of backup pads that are cellular and arrange improve the supporting effect of backup pad two pairs of filter screens, infiltration hole is convenient for permeate under the ponding, and the in-process filter screen that permeate under the ponding filters the water, is convenient for the rainwater to utilize.

In summary, the protection device is used for intercepting sundries which are driven by accumulated water to the water inlet of the collecting pipe, so that the possibility that the sundries block the water inlet of the collecting pipe is reduced; the stirring component is used for stirring sundries when the protective component intercepts the sundries too much, so that accumulated water can flow again.

Drawings

FIG. 1 is a schematic view of a rainwater collection system for a green belt according to the present application;

FIG. 2 is an enlarged view of A in FIG. 1;

FIG. 3 is an enlarged view of B in FIG. 1;

fig. 4 is a schematic view of the structure of a collecting tank in the rainwater collecting system for greenbelts according to the present application.

Reference numerals illustrate: 1. a collection pipe; 2. a protective device; 21. a guard rail; 22. a protective assembly; 221. an interception plate; 222. intercepting the block; 23. the assembly is stirred; 231. a pushing cylinder; 232. a positioning seat; 233. a toggle plate; 3. a flow guiding pipe; 31. a water inlet part; 32. a positioning part; 321. a positioning block; 4. a rotating shaft; 5. a water permeable hole; 6. a spacer block; 7. a support block; 8. a rotating motor; 9. a fixing plate; 10. a poking block; 11. an interception net; 12. a mounting block; 13. a mounting groove; 14. a limiting block; 15. pressing the blocks; 16. a limiting hole; 17. a reinforcing mesh; 18. a positioning groove; 19. a through hole; 20. a guide rod; 24. an elastic member; 25. a collection box; 26. a filter screen; 27. a support; 271. a first supporting plate; 272. a second supporting plate; 28. a water collecting pipe; 29. a water storage tank; 30. and water seepage holes.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a rainwater collection system for a green belt. Referring to fig. 1, the collecting device comprises a collecting box 25 installed in a green belt, a collecting pipe 1 installed at the top of the collecting box 25 and used for collecting ponding on the green belt, and a protecting device 2 installed on the green belt and located at a water inlet of the collecting pipe 1, wherein the protecting device 2 is used for intercepting sundries such as vegetation driven by the ponding, so that the blocking possibility of the collecting pipe 1 is effectively reduced.

Referring to fig. 1 and 2, the guard 2 includes a guard rail 21 mounted on a green belt and enclosed at a water inlet of the collecting pipe 1, a guard assembly 22 mounted on the guard rail 21, and a toggle assembly 23 mounted above the guard assembly 22. In the embodiment of the application, the guard rail 21 is enclosed in a square shape, and the collecting pipe 1 is positioned at the center of the enclosing range of the guard rail 21. The green belt is fixedly provided with the guide pipe 3 positioned at the water inlet of the collecting pipe 1, the guide pipe 3 comprises a water inlet part 31 fixed at the water inlet of the guide pipe 3 and a positioning part 32 arranged along the outer periphery of the water inlet part 31, the bottom surface of the positioning part 32 is fixedly provided with a plurality of positioning blocks 321, the cross-section area of each positioning block 321 is gradually reduced downwards, the positioning blocks 321 are conveniently inserted into the ground, and the stability of the positioning part 32 on the green belt is improved.

Referring to fig. 1, one end of the top surface of the positioning portion 32, which is close to the water inlet portion 31, is inclined downward toward the water inlet portion 31, and one end of the top surface of the positioning portion 32, which is far away from the water inlet portion 31, is flush with the ground, and the guard rail 21 is installed at a gentle portion of the positioning portion 32, so that stability of the guard rail 21 on the green belt is improved. The inner diameter of the water inlet part 31 is gradually increased away from the collecting pipe 1, and is used for enlarging the water inlet of the collecting pipe 1, so that accumulated water can enter the collecting pipe 1 conveniently.

Referring to fig. 2, the guard assembly 22 includes an interception plate 221 obliquely installed on the guard rail 21 and a plurality of interception blocks 222 fixed on the top surface of the interception plate 221 and installed along the length direction of the interception plate 221, a rotation shaft 4 positioned at two ends of the interception plate 221 is fixedly installed on the guard rail 21, the interception plate 221 is rotatably connected with the guard rail 21 through the rotation shaft 4, and the rotation shaft 4 is convenient for the interception plate 221 to contact the ground. The interception plate 221 is located outside the enclosure of the guard rail 21, and is used for intercepting accumulated water to drive sundries around the collecting pipe 1. A plurality of water permeable holes 5 are formed in the top surface of the interception plate 221, and when sundries are located above the interception plate 221, water can fall to the ground through the water permeable holes 5, so that the water flows into the collection pipe 1. A plurality of isolation blocks 6 are fixedly installed at one end of the interception plate 221, which is contacted with the ground, along the length direction, the bottom surface of each isolation block 6 is fixedly provided with a supporting block 7, the bottom surface of each supporting block 7 is contacted with the ground, gaps are formed between the isolation blocks 6 and the ground, water is convenient to flow, the possibility that sundries block the collecting pipe 1 is reduced, and the water is convenient to flow continuously.

Referring to fig. 2, when a large amount of sundries are accumulated at the protecting component 22 to influence the flow rate of the water body, the toggling component 23 toggles the sundries, so that the accumulated water is convenient to flow continuously, and the time for the vegetation to be soaked in the accumulated water is shortened. The toggle assembly 23 includes a push cylinder 231 mounted on the guard rail 21, a positioning seat 232 fixedly mounted on a piston end of the push cylinder 231, and a toggle plate 233 mounted on the positioning seat 232. The pushing cylinder 231 is located in the protection range of the guard rail 21, the pushing cylinder 231 drives the positioning seat 232 to reciprocate towards the outside of the guard rail 21, and the toggle plate 233 moves along with the movement of the pushing cylinder 231. A rotating motor 8 positioned at the end part of the poking plate 233 is fixedly arranged on the positioning seat 232, the rotating motor 8 drives the poking plate 233 to rotate, so that the poking plate 233 can conveniently rotate downwards, and sundries at the intercepting plate 221 can be poked.

Referring to fig. 2, the toggle plate 233 extends toward the outside of the guard rail 21, one end of the toggle plate 233 away from the positioning seat 232 is fixedly provided with a fixed plate 9, the bottom surface of the fixed plate 9 is provided with a plurality of toggle blocks 10 along the length direction, and the cross-sectional area of the toggle blocks 10 is gradually reduced downwards. The pushing cylinder 231 pushes the poking plate 233 to move towards the outside of the protective guard 21, then the rotating motor 8 is started to drive the poking plate 233 to rotate, the poking plate 233 rotates to drive the poking block 10 to contact sundries, the poking block 10 is conical and convenient to insert into the sundries, and after the poking block 10 is inserted into the sundries, the pushing cylinder 231 drives the poking plate 233 to move towards the inside of the protective guard 21. At this time, the stirring block 10 drives sundries to move to the top surface of the interception plate 221, the interception block 222 positions the sundries, and the sundries at the gap between the interception plate 221 and the ground are removed, so that the accumulated water can flow towards the collecting pipe 1 continuously.

Referring to fig. 1 and 3, an interception net 11 is further installed at the water inlet of the collecting pipe 1, the interception net 11 is used for further intercepting sundries entering the collecting pipe 1, the interception net 11 is net-shaped and can be deformed according to the weight of the sundries or the shape of the sundries, and the possibility that the sundries block the water inlet of the collecting pipe 1 can be effectively reduced. In order to improve the stability of the interception net 11 in the collecting pipe 1, the collecting pipe 1 is provided with a mounting block 12 for positioning the interception net 11 along the inner wall, and the mounting block 12 is provided with a pressing block 15 matched with the mounting block 12. The top surface of the mounting block 12 is provided with a mounting groove 13 along the circumferential direction, a plurality of limiting blocks 14 are fixed in the mounting groove 13, and a limiting hole 16 matched with the limiting blocks 14 is formed in the pressing block 15. The limiting block 14 is inserted into the mesh of the interception net 11, the pressing block 15 and the mounting block 12 clamp and position the interception net 11, and stability of the interception net 11 on the collecting pipe 1 is improved.

Referring to fig. 3, the force applied to the connection position of the interception net 11 and the installation block 12 is large due to the gravity action of the foreign matters and the impact action of the accumulated water, and the interception net 11 is provided with a reinforcing net 17 along the side circumference for improving the strength of the interception net 11. Meanwhile, the collecting pipe 1 is provided with a positioning groove 18 for positioning the mounting block 12 and the pressing block 15 along the inner wall, a plurality of guide rods 20 are arranged in the positioning groove 18, and the mounting block 12 and the pressing block 15 are provided with through holes 19 for the guide rods 20 to pass through. The mounting block 12 and the pressing block 15 can move up and down through the guide rod 20, and an elastic member 24 positioned below the mounting block 12 is further sleeved on the guide rod 20. The elastic piece 24 can be a spring, one end of the spring is fixed on the collecting pipe 1, the other end of the spring is fixed on the bottom surface of the mounting block 12, and the force for buffering sundries to reach the inside of the interception net 11.

Referring to fig. 1 and 4, after the collecting pipe 1 conveys the accumulated water into the collecting box 25, a plurality of filter screens 26 are installed in the collecting box 25, a supporting member 27 is installed between two adjacent filter screens 26, the supporting member 27 comprises a plurality of first supporting plates 271 which are arranged in a honeycomb shape and second supporting plates 272 which are fixed on the upper side and the lower side of the first supporting plates 271, and a plurality of water seepage holes 30 are formed in the second supporting plates 272 and used for water infiltration. The water outlet end of the collecting tank 25 is connected with a water collecting pipe 28, a control valve is arranged on the water collecting pipe 28, and the water outlet end of the water collecting pipe 28 is connected with a water storage tank 29 for storing filtered water. To increase the water flow rate, a water pump may also be mounted to the water collection pipe 28.

The implementation principle of the rainwater collection system for the green belt is as follows: the guard rail 21 can intercept sundries driven by accumulated water, and the interception plate 221 can intercept sundries as well. A space for water to flow is formed between the interception plate 221 and the ground, the support block 7 supports the isolation block 6, the isolation block 6 is used for intercepting sundries, the sundries are convenient to misplace, and the possibility that the sundries block the lower end of the interception plate 221 is reduced.

When the sundries at the interception plate 221 influence the flow rate of the accumulated water too much, the pushing air cylinder 231 is started to push the stirring plate 233 to move towards the sundries, when the stirring plate 233 is positioned above the sundries, the rotating motor 8 is started to rotate the stirring plate 233 downwards, the stirring block 10 is inserted into the sundries, the pushing air cylinder 231 is started to pull the stirring plate 233 back again, the sundries move towards the upper side of the interception plate 221 along with the stirring plate 233, the interception block 222 positions the sundries, at the moment, the space formed between the interception plate 221 and the ground and used for accumulating water to flow is recovered, and the accumulated water can continue to flow into the collection pipe 1. The utility model provides an effective possibility that reduces collecting pipe 1 and block up reduces the time that vegetation soaked in ponding.

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 (8)

1. A rainwater collection system for a green belt, characterized in that: the device comprises a collecting pipe (1) arranged in a green belt and a protecting device (2) arranged on the green belt and used for protecting a water inlet of the collecting pipe (1), wherein the protecting device (2) comprises a guard rail (21) arranged on the green belt, a protecting component (22) arranged on the guard rail (21) and a stirring component (23) arranged on the guard rail (21) and positioned above the protecting component (22), and the collecting pipe (1) is positioned in a enclosing range of the guard rail (21); the protective assembly (22) comprises an interception plate (221) obliquely arranged on the protective fence (21) and a plurality of interception blocks (222) arranged along the length direction of the interception plate (221), the interception plate (221) is positioned outside the enclosure range of the protective fence (21), a rotating shaft (4) is arranged on the protective fence (21), and the interception plate (221) is rotationally connected with the protective fence (21) through the rotating shaft (4); the interception block (222) is obliquely arranged on the top surface of the interception plate (221); the toggle assembly (23) comprises a pushing cylinder (231) arranged on the protective guard (21) and located in the protective range of the protective guard (21), a positioning seat (232) arranged at the piston end of the pushing cylinder (231) and a toggle plate (233) arranged on the positioning seat (232), and a rotating motor (8) for driving the toggle plate (233) to rotate is arranged on the positioning seat (232).

2. A rainwater harvesting system for green belts as defined by claim 1, wherein: the water inlet of collecting pipe (1) is equipped with honeycomb duct (3), honeycomb duct (3) are including setting up inlet portion (31) at the water inlet of collecting pipe (1) and along locating part (32) of setting up around inlet portion (31), rail guard (21) set up on locating part (32), the bottom surface of locating part (32) is equipped with a plurality of locating pieces (321).

3. A rainwater harvesting system for green belts as defined by claim 2, wherein: one end of the top surface of the positioning part (32) close to the water inlet part (31) is obliquely arranged downwards towards the water inlet part (31); the inner diameter of the water inlet part (31) is gradually increased away from the collecting pipe (1); the area of the section of the positioning block (321) is gradually reduced downwards.

4. A rainwater harvesting system for green belts as defined by claim 1, wherein: a plurality of water permeable holes (5) are formed in the top surface of the interception plate (221), a plurality of isolation blocks (6) are arranged at one end, contacting with the green belt, of the interception plate (221) along the length direction, and supporting blocks (7) are arranged on the bottom surface of each isolation block (6).

5. A rainwater harvesting system for green belts as defined by claim 1, wherein: the toggle plate (233) extends towards the outside of the protection range of the guard rail (21), one end, away from the positioning seat (232), of the toggle plate (233) is provided with a fixed plate (9), the bottom surface of the fixed plate (9) is provided with a plurality of toggle blocks (10) along the length direction, and the cross-sectional area of each toggle block (10) is gradually reduced downwards.

6. A rainwater harvesting system for green belts as defined by claim 1, wherein: the water inlet of collecting pipe (1) is equipped with interception net (11), collecting pipe (1) is equipped with along the inner wall and is used for fixing a position installation piece (12) of interception net (11), mounting groove (13) have been seted up along the circumferencial direction to the top surface of installation piece (12), be equipped with a plurality of stopper (14) in mounting groove (13), be equipped with on installation piece (12) and press briquetting (15), set up spacing hole (16) that correspond with stopper (14) on pressing briquetting (15), interception net (11) are equipped with reinforcing net (17) along the side, the one end that reinforcing net (17) are close to collecting pipe (1) is located between pressing briquetting (15) and installation piece (12).

7. A rainwater harvesting system for green belts as defined by claim 1, wherein: the inner wall of collecting pipe (1) has seted up constant head tank (18) that are used for location installation piece (12) and press piece (15), a plurality of through-holes (19) have been seted up along collecting pipe (1) length direction to installation piece (12) and press piece (15), be equipped with a plurality of guide bars (20) that are located in through-hole (19) in constant head tank (18), the cover is equipped with elastic component (24) that are located installation piece (12) below on guide bar (20).

8. A stormwater collection system as claimed in claim 7, wherein: the green belt is internally provided with a collecting box (25) positioned at the water outlet end of the collecting pipe (1), the collecting box (25) is internally provided with a plurality of filter screens (26), a supporting piece (27) is arranged between two adjacent filter screens (26), the water outlet end of the collecting box (25) is provided with a water collecting pipe (28), and the water outlet end of the water collecting pipe (28) is provided with a water storage tank (29); the support piece (27) comprises a plurality of first support plates (271) which are arranged in a honeycomb shape and second support plates (272) which are arranged on the upper side and the lower side of the plurality of first support plates (271), and a plurality of water seepage holes (30) are formed in the second support plates (272).