CN213682880U - Roof greening device for sponge city - Google Patents

Abstract

The utility model relates to a roof greening device for sponge city relates to the technical field in sponge city, and it is including setting up the slide rail on the roof, and the slider that slides and set up in the slide rail sets up the drive assembly who is used for driving the slider to slide in the slide rail, sets up on the slider and is used for spraying the green mechanism that sprays of planting in roof to and set up in the header tank of roof one side, set up the water delivery subassembly that is used for carrying the rainwater in the header tank. This application has can effectual utilization rainwater resource, the effect of the material resources of using manpower sparingly simultaneously.

Description

Roof greening device for sponge city

Technical Field

The application relates to the technical field of sponge cities, in particular to a roof greening device for a sponge city.

Background

The sponge city is a city which can be like a sponge, has good elasticity in adapting to environmental changes, coping with natural disasters and the like, can absorb, store, seep and purify water, utilizes the stored water as required, follows the ecological principle, combines natural approaches and artificial measures, and realizes the storage, permeation and purification of rainwater in the urban area to the maximum extent on the premise of ensuring the safety of urban drainage and waterlogging prevention.

At present, roof greening has attracted more attention because of its great significance in increasing urban green land area, improving the space of the growing environment for human living, improving quality of life, beautifying urban environment and improving ecological effect.

To the correlation technique among the above-mentioned, the inventor thinks that current roof greening needs people to use running water to irrigate the green plant on the roof regularly and quantitatively when planting, has the defect that wastes time and energy, is unfavorable for the water economy resource.

SUMMERY OF THE UTILITY MODEL

In order to be able to effectual utilization rainwater resource, the material resources of using manpower sparingly simultaneously, this application provides a roof greening device for sponge city.

The application provides a roof greening device for sponge city adopts following technical scheme:

the utility model provides a roof greening device for sponge city, is including setting up the slide rail on the roof, slides and sets up the slider in the slide rail, sets up the drive assembly that is used for driving the slider to slide in the slide rail, sets up on the slider and be used for spraying the green mechanism that sprays of planting in roof to and set up in the header tank of roof one side, set up the water delivery subassembly that is used for carrying the rainwater in the header tank.

Through adopting above-mentioned technical scheme, through setting up the slide rail, the slider, drive assembly and spray the mechanism, can use when needs spray green planting on the roof, drive the slider through drive assembly and remove along the extending direction of slide rail, remove with the drive mechanism that sprays, thereby can carry out comparatively comprehensive spraying to green planting on the whole roof, and then the use of effectual reduction manpower and materials, and header tank and the water delivery subassembly that sets up, the header tank can be collected the rainwater when rainy season, and carry through the water delivery subassembly to utilize on spraying the mechanism with the rainwater in the header tank, in order to reach the purpose of water economy resource.

Optionally, the spraying mechanism comprises a flow distribution box arranged at the top of the sliding block, two rotation symmetries are arranged on rotating rods on two sides of the flow distribution box, two drainage nozzles are symmetrically arranged on two side walls of the flow distribution box, grooves are formed in the axis direction of the rotating rods, a plurality of spraying heads are arranged on two sides of the rotating rods at intervals along the extending direction of the rotating rods and communicated with the grooves, and adjusting components are arranged at the top of the flow distribution box and used for adjusting the positions of the two rotating rods.

Through adopting above-mentioned technical scheme, through setting up adjusting part, the reposition of redundant personnel case, the bull stick, drainage mouth, recess and shower head, can spray when the green plant in roof needs, the workman can at first adjust the drainage mouth below to the reposition of redundant personnel case both sides through adjusting part with the position of two bull sticks, then start water delivery subassembly, make the water in the reposition of redundant personnel case flow from drainage mouth and fall to the recess in, water flows and finally spouts from shower head along the recess, in order to reach the green purpose of planting and spraying of roof.

Optionally, the adjusting component comprises a servo motor arranged at the top of the flow dividing box, a supporting plate arranged at the top of the flow dividing box, a worm with one end assembled with an output shaft of the servo motor and the other end rotatably connected with the supporting plate, a supporting piece arranged at the top of the flow dividing box, a worm wheel arranged on the supporting piece and meshed with the worm, two first bevel gears symmetrically arranged at two sides of the supporting piece respectively, and a second bevel gear arranged at one end of the rotating rod close to the flow dividing box and meshed with the first bevel gears.

Through adopting above-mentioned technical scheme, through setting up servo motor, worm wheel, worm, first bevel gear and second bevel gear, can use when needs adjustment bull stick position, drive the worm rotation through starting servo motor, make the worm wheel rotate under the drive of worm to rotate through the first bevel gear of worm wheel both sides and drive second bevel gear and rotate, thereby reach the purpose of nimble two bull stick positions of adjusting.

Optionally, the driving assembly comprises a driving motor arranged in the slide rail and a screw rod, one end of the screw rod is assembled with the output shaft of the slide rail, and the other end of the screw rod penetrates through the slide block and is in threaded connection with the slide block.

Through adopting above-mentioned technical scheme, through setting up driving motor and lead screw, can start driving motor when using the mechanism that sprays to spray green planting in roof, make driving motor's output shaft rotatory and drive the lead screw and rotate to rotate through the lead screw and drive the slider and slide along the extending direction of slide rail, thereby effectual increase sprays the mechanism and green scope of spraying of planting in roof.

Optionally, a water storage tank is arranged on one side of the roof close to the water collecting tank; an overflow pipe communicated with the water storage tank is arranged on the side wall of one side of the water collecting tank.

Through adopting above-mentioned technical scheme, through setting up tank, overflow mouth and overflow pipe, can be when the water level in the header tank is too high, make water can follow overflow mouth department and flow out to in the tank through the guide effect of overflow pipe, thereby can reduce the waste of water resource to a certain extent.

Optionally, a water pressure sensor is arranged in the water collecting tank; the inside wall of tank is provided with the second immersible pump with water pressure sensor electric connection.

Through adopting above-mentioned technical scheme, through setting up water pressure sensor and second immersible pump, can respond to the water pressure change condition in the header tank through water pressure sensor to control the second immersible pump and come the water pumping in the reservoir to supply in the header tank.

Optionally, the two sides of the roof are obliquely and downwards provided with water chutes, and the extending directions of the water chutes are consistent with the extending directions of the sliding rails; and the lowest part of the water guide groove is provided with a guide pipe communicated with the water storage tank.

Through adopting above-mentioned technical scheme, through setting up guiding gutter and honeycomb duct, can carry out the drainage with roof water from the top and flow back again and store in the water storage pond to reach the purpose of water economy resource.

Optionally, a plurality of balls which are abutted against the sliding block are arranged on the inner side wall of the sliding rail.

Through adopting above-mentioned technical scheme, through setting up many balls, can effectual reduction slide rail and the sliding friction between the slider to improve the removal efficiency of slider to a certain extent, the effectual life who prolongs slider and slide rail simultaneously.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sliding rails, the sliding blocks, the driving assemblies and the spraying mechanism are arranged, green plants on the whole roof can be comprehensively sprayed, the use of manpower and material resources is effectively reduced, and the purpose of saving water resources can be achieved by the arranged water collecting tank and the water delivery assembly;

2. through setting up tank, overflow mouth and overflow pipe, can be when the water level in the header tank is too high, make water can follow overflow mouth department and flow to in the tank through the guide effect of overflow pipe, in addition, the guiding gutter and the honeycomb duct that set up can carry out the drainage with water that the roof is upstream down and flow back again and store in the tank, in order to reach the purpose of water economy resource.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

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

fig. 3 is a schematic structural diagram of a spraying mechanism according to an embodiment of the present application.

Description of reference numerals: 1. a roof; 10. a slide rail; 100. a drive motor; 1000. a screw rod; 11. a slider; 12. a water collection tank; 121. a water delivery pipe; 122. an overflow pipe; 2. a shunt box; 20. a rotating rod; 200. a groove; 201. a shower head; 202. a second bevel gear; 21. a drainage nozzle; 22. a support plate; 220. a worm; 221. a first bevel gear; 23. a fixed block; 231. a rotating shaft; 3. a servo motor; 30. a worm gear; 4. a water storage tank; 5. a water chute; 50. a flow guide pipe; 6. mounting blocks; 60. and (7) connecting the shafts.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a roof greening device for sponge city. Referring to fig. 1 and 2, the roof 1 greening device comprises a sliding rail 10, wherein the sliding rail 10 is installed on a cross beam at the highest position on the roof 1, and the extending direction of the sliding rail 10 is consistent with the extending direction of the cross beam. The slide rail 10 is connected with a slide block 11 in a sliding way, and a plurality of balls which are abutted against the slide block 11 are arranged on the inner side wall of the slide rail 10.

Referring to fig. 2, in order to effectively save manpower and material resources used when spraying green plants on the roof 1, a spraying mechanism is disposed on the sliding block 11, wherein in this embodiment, the spraying mechanism includes a flow dividing box 2, a flow guiding nozzle 21, a rotating rod 20, a spraying head 201 and an adjusting assembly.

Referring to fig. 2 and 3, the flow dividing box 2 is integrally installed on the top of the sliding block 11, two drainage nozzles 21 are provided, and the two drainage nozzles 21 are symmetrically installed on the edges of the two sides of the top of the flow dividing box 2. Meanwhile, two fixing blocks 23 are symmetrically installed on the side walls of the two sides of the flow dividing box 2 corresponding to the flow dividing nozzle, a rotating shaft 231 is rotatably connected to the upper ends of the two fixing blocks 23, and the rotating rod 20 is connected with the rotating shaft 231.

In addition, a plurality of grooves 200 are formed along the extending direction of the rotating rod 20, and a plurality of spray headers 201 are arranged at intervals along the extending direction of the rotating rod 20, and the plurality of spray headers 201 are symmetrically arranged at two outer groove walls of the grooves 200. Further, an adjusting assembly is provided at the top of the flow dividing box 2, wherein, in the present embodiment, the adjusting assembly includes a servo motor 3, a worm wheel 30, a support plate 22, a worm 220, a first bevel gear 221, and a second bevel gear 202.

Referring to fig. 2 and 3, the support plate 22 is integrally and vertically installed on the top of the flow dividing box 2, the servo motor 3 is fixed on one side of the support plate 22, one end of the worm 220 is installed on the output shaft of the servo motor 3, and the other end is rotatably connected with the support plate 22. In addition, a support is provided at the top of the flow dividing box 2, and in this embodiment, the support includes a mounting block 6 and a connecting shaft 60. The mounting blocks 6 are provided with two and symmetrically fixed at the top of the flow dividing box 2, and the connecting shaft 60 is rotatably connected between the two mounting blocks 6. Meanwhile, the worm wheel 30 is coaxially fixed at the middle of the connecting shaft 60, and the worm wheel 30 is engaged with the worm 220.

In addition, two ends of the connecting shaft 60 respectively penetrate through the two mounting blocks 6, two first bevel gears 221 are coaxially mounted at the two ends of the connecting shaft 60, meanwhile, two second bevel gears 202 are provided, and the two second bevel gears 202 are respectively coaxially mounted on the rotating shafts 231 at the two sides of the flow dividing box 2.

When the positions of the two rotating rods 20 on the two sides of the flow dividing box 2 need to be adjusted, a worker firstly starts the servo motor 3, the output shaft of the servo motor 3 rotates to drive the worm 220 to rotate, then the worm 220 drives the worm wheel 30 to rotate, so that the first bevel gear 221 is driven by the worm wheel 30 to rotate, the rotating rods 20 are driven by the second bevel gear 202 to rotate, and the purpose of flexibly adjusting the positions of the rotating rods 20 is achieved.

Referring to fig. 1, in order to supplement water in the diversion box 2 in time, a water collection tank 12 is installed at one side of the roof 1, a first submersible pump is installed in the water collection tank 12, a water delivery pipe 121 is installed on a side wall of the diversion box 2 close to the water collection tank 12, and the diversion box 2 is communicated with the water collection tank 12 through the water delivery pipe 121. When the green plants on the roof 1 need to be sprayed, a worker can start the first submersible pump to enable the water in the water collecting tank 12 to flow into the diversion tank 2 along the water conveying pipe 121, so that the water in the diversion tank 2 is supplemented.

When the water level in the diversion box 2 rises to a certain height, water flows out of the drainage nozzle 21 and falls into the grooves 200 at two sides, and is finally sprayed out of the spray headers 201 at two sides of the grooves 200, so that the aim of quickly spraying green plants on the roof 1 is fulfilled.

Referring to fig. 1, a storage tank 4 is provided on the ground at one side of a roof 1, wherein an overflow pipe 122 is installed at one side of a water collection tank 12, and the storage tank 4 and the water collection tank 12 communicate with each other through the overflow pipe 122. So as to reduce the occurrence of overflow of water in the water collecting tank 12 and effectively reduce the waste of water resources.

In addition, install the second immersible pump at 4 inside walls in tank, simultaneously, install pressure sensor on the inside wall of header tank 12, and pressure sensor and second immersible pump electric connection. When the water pressure sensor senses that the water pressure value in the water collecting tank 12 is low, the electric signal is transmitted to the second submersible pump, the second submersible pump is started after receiving the electric signal, and the water in the water storage tank 4 is pumped into the water collecting tank 12 above the water collecting tank, so that the purpose of timely supplementing water in the water collecting tank 12 is achieved.

Referring to fig. 1, in order to further reduce the waste of water resources, two water chutes 5 are symmetrically installed on both sides of the roof 1 in the length direction, the bottoms of the two water chutes 5 are both inclined downward, a guide pipe 50 is installed at the lowest bottom of the bottoms of the two water chutes 5, and the water chutes 5 and the water storage tank 4 are communicated through the guide pipe 50.

During spraying, water can flow to the guiding gutter 5 along the slope of roof 1 downwards, then flow to the lowest of guiding gutter 5 along guiding gutter 5 again to finally flow to storage tank 4 through honeycomb duct 50 and store in, simultaneously, guiding gutter 5 can also be when raining with rainwater drainage to storage tank 4 in, in order to reach the purpose that further improves water resource utilization.

In addition, referring to fig. 1, in order to further increase the spraying area of the spraying mechanism on the green plants on the roof 1, a driving assembly is disposed in the sliding rail 10, wherein in the present embodiment, the driving assembly includes a driving motor 100 and a screw rod 1000. The driving motor 100 is installed at one side in the slide rail 10, and simultaneously, one end of the screw rod 1000 is connected with an output shaft of the driving motor 100, and the other end penetrates through the sliding block 11 and is in threaded connection with the sliding block 11.

During spraying, the worker can start the driving motor 100, so that the output shaft of the driving motor 100 rotates to drive the screw rod 1000 to rotate, the sliding block 11 slides along the extending direction of the sliding rail 10 under the driving of the screw rod 1000, the spraying range of the spraying mechanism on the roof 1 can be further improved, and the use of manpower and material resources is effectively reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a roof greening device for sponge city which characterized in that: including setting up slide rail (10) on roof (1), slide and set up slider (11) in slide rail (10), set up and be used for driving drive slider (11) drive assembly that slides in slide rail (10), set up on slider (11) and be used for spraying the green mechanism that sprays of planting in roof (1) to and set up header tank (12) in roof (1) one side, set up the first immersible pump that is used for the pump sending rainwater in header tank (12).

2. A roof greening device for sponge cities as claimed in claim 1, wherein: the spraying mechanism comprises a flow distribution box (2) arranged at the top of a sliding block (11), two rotation symmetries are arranged on rotating rods (20) on two sides of the flow distribution box (2), two symmetry diversion nozzles (21) are arranged on two side walls of the flow distribution box (2), a groove (200) is formed in the axis direction of the rotating rods (20), a plurality of spraying heads (201) which are arranged on two sides of the rotating rods (20) at intervals along the extending direction of the rotating rods (20) and are communicated with the groove (200) are arranged, and an adjusting component which is arranged at the top of the flow distribution box (2) and is used for adjusting the positions of the two rotating rods (20) is arranged.

3. A roof greening device for sponge cities as claimed in claim 2, wherein: the adjusting part comprises a servo motor (3) arranged at the top of the shunt box (2), a support plate (22) arranged at the top of the shunt box (2), a worm (220) with one end assembled with an output shaft of the servo motor (3) and the other end rotatably connected with the support plate (22), a support piece arranged at the top of the shunt box (2), a worm wheel (30) arranged on the support piece and meshed with the worm (220), two first bevel gears (221) symmetrically arranged at two sides of the support piece respectively, and a second bevel gear (202) arranged at one end of the rotating rod (20) close to the shunt box (2) and meshed with the first bevel gears (221).

4. A roof greening device for sponge cities as claimed in claim 3, wherein: the driving assembly comprises a driving motor (100) arranged in the sliding rail (10) and a screw rod (1000) with one end assembled with an output shaft of the sliding rail (10) and the other end penetrating through the sliding block (11) and in threaded connection with the sliding block (11).

5. A roof greening device for sponge cities as claimed in claim 4, wherein: a water storage tank (4) is arranged on one side of the roof (1) close to the water collecting tank (12); an overflow pipe (122) communicated with the water storage tank (4) is arranged on the side wall of one side of the water collecting tank (12).

6. A roof greening device for sponge cities as claimed in claim 5, wherein: a water pressure sensor is arranged in the water collecting tank (12); and a second submersible pump electrically connected with the water pressure sensor is arranged on the inner side wall of the water storage tank (4).

7. A roof greening device for sponge cities as claimed in claim 1, wherein: the two sides of the roof (1) are obliquely and downwards provided with water chutes (5) with the extending direction consistent with the extending direction of the slide rails (10); and a flow guide pipe (50) communicated with the water storage tank (4) is arranged at the lowest position of the bottom of the water guide groove (5).

8. A roof greening device for sponge cities as claimed in claim 1, wherein: a plurality of balls which are abutted against the sliding block (11) are arranged on the inner side wall of the sliding rail (10).