CN217160688U - Energy-saving municipal green belt isolating device - Google Patents

Abstract

The utility model belongs to the technical field of the technique of municipal afforestation and specifically relates to an energy-saving municipal afforestation area isolating device, including the guardrail, the bottom of guardrail is provided with the cistern, be provided with the water pump in the cistern, be provided with the sprinkler head on the guardrail, be provided with the communicating pipe that is used for communicateing water pump and sprinkler head on the guardrail, the top of guardrail is provided with the horizontal pole, it is provided with the solar panel that is used for the water-feeding pump power supply to rotate on the horizontal pole, be provided with the battery on the guardrail, solar panel is connected with the battery electricity, the water pump is connected with the battery electricity, be provided with the regulating part that is used for adjusting the solar panel angle on the horizontal pole. This application has the effect of being convenient for irrigate the greenbelt.

Description

Energy-saving municipal green belt isolating device

Technical Field

The application relates to the technical field of municipal afforestation, in particular to an energy-saving municipal greenbelt isolation device.

Background

Green belt, refers to a strip-shaped zone providing greening. The urban road greening belt occupies an irreplaceable important position in a city, has the functions of separating traffic, eliminating visual fatigue of drivers and guaranteeing traffic safety, and can change the space scale of a road to ensure that the road space has a good aspect ratio by planting arbor greening belts. In addition, the dust-absorbing material can also play a role in purifying the environment, absorbing harmful gases, releasing oxygen and purifying and beautifying the environment, and can absorb dust, weaken noise and release oxygen.

In the related art, because the green belts are distributed on the road, the water storage capacity of the green belts is poor, and isolation guardrails are usually arranged at the edges of the green belts to separate the road from the green belts, so that the green plants are prevented from extending out of the green belts, and the damage of vehicles or pedestrians to the green plants is reduced; irrigation of greenbelts therefore often requires the arrangement of sprinklers to water the greenbelts from outside the guardrail.

In view of the above-mentioned related art, the inventor considers that the isolation barrier is inconvenient for irrigating the green belt.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the irrigation to the greenbelt, this application provides energy-saving municipal greenbelt isolating device.

The application provides an energy-saving municipal afforestation area isolating device adopts following technical scheme:

energy-saving municipal afforestation area isolating device, including the guardrail, the bottom of guardrail is provided with the cistern, be provided with the water pump in the cistern, be provided with the sprinkler head on the guardrail, be provided with the communicating pipe that is used for intercommunication water pump and sprinkler head on the guardrail, the top of guardrail is provided with the horizontal pole, it is provided with the solar panel that is used for the water-feeding pump power supply to rotate on the horizontal pole, be provided with the battery on the guardrail, solar panel is connected with the battery electricity, the water pump is connected with the battery electricity, be provided with the regulating part that is used for adjusting the solar panel angle on the horizontal pole.

By adopting the technical scheme, the angle of the solar panel is adjusted through the adjusting piece, so that the solar panel can better receive solar energy; the solar panel converts solar energy into electric energy to be stored in the storage battery, the storage battery supplies energy to the water pump, the water pump sprays water in the water storage tank out of the sprinkler head through the communicating pipe so as to realize irrigation on the green belt, and the guardrail is not a barrier in the irrigation process any more so as to facilitate the irrigation on the green belt; and manpower and material resources cost when the green belt is irrigated manually or by a sprinkler is reduced, an external power supply is not needed, and energy is saved.

Optionally, the regulating part is including setting up the pivot on the horizontal pole, the rotation axis of pivot is along the length direction of horizontal pole, solar panel fixes in the pivot, a pot head of pivot is equipped with the worm wheel, it is provided with the worm to rotate on the guardrail, worm wheel and worm meshing, be provided with on the guardrail and be used for ordering about worm pivoted motor, the motor is connected with the battery electricity.

Through adopting above-mentioned technical scheme, the motor drives the screw rod and rotates, and the worm drives the worm wheel and rotates, and the worm wheel drives the pivot dwang, and the pivot drives solar panel and rotates to in adjusting solar panel's angle, make solar panel keep at suitable angle, so that solar panel is to the receipt of solar energy.

Optionally, be provided with a rain collecting groove on the guardrail, rain collecting groove is located solar panel's below, the width of the open end of rain collecting groove is greater than solar panel's width, rain collecting groove's bottom is provided with the downspout, downspout and cistern intercommunication.

Through adopting above-mentioned technical scheme, rain collecting groove collects the rainwater to deposit the cistern in through the downspout, so that the collection and the utilization of rainwater, improve the resource utilization rate.

Optionally, a water inlet pipe is communicated with the reservoir, the water inlet pipe is communicated with an external water source, a liquid level sensor is arranged in the reservoir, a solenoid valve for opening and closing the water inlet pipe is arranged on the water inlet pipe, a controller is arranged on the guardrail, the controller is respectively in water and electricity connection with the liquid level sensor and the solenoid valve, the liquid level sensor sends information containing liquid level height to the controller, the controller receives the information containing liquid level height and compares the information with a preset interval, and when the liquid level height is lower than the preset interval, the controller controls the solenoid valve to open the water inlet pipe; when the liquid level is higher than the preset interval, the controller controls the electromagnetic valve to close the water inlet pipe.

By adopting the technical scheme, the liquid level sensor sends the information containing the liquid level height to the controller, the controller receives the information containing the liquid level height and compares the information with the preset interval, and when the liquid level height is lower than the preset interval, the controller controls the electromagnetic valve to open the water inlet pipe; when the liquid level is higher than the preset interval, the controller controls the electromagnetic valve to close the water inlet pipe; so as to keep the water level height in the water storage tank and reduce the possibility of water shortage in the water storage tank.

Optionally, a soil humidity sensor is arranged in the green belt, the soil humidity sensor is electrically connected with the controller, the water pump is electrically connected with the controller, the soil humidity sensor sends information containing soil humidity to the controller, the controller receives the information containing soil humidity and compares the information with a preset interval, and when the soil humidity is lower than the preset interval, the controller controls the water pump to start to irrigate the green belt; and when the soil humidity is higher than the preset interval, the controller controls the water pump to stop.

By adopting the technical scheme, the soil humidity sensor sends information containing soil humidity to the controller, the controller receives the information containing the soil humidity and compares the information with the preset interval, and when the soil humidity is lower than the preset interval, the controller controls the water pump to start to irrigate the green belt; when the soil humidity is higher than a preset interval, the controller controls the water pump to stop; through the setting of soil moisture controller, irrigate the greenbelt automatically to reduce the waste to the water resource through the judgement to soil moisture, improve the utilization ratio of water resource, more be favorable to the growth of greenbelt plant.

Optionally, the both ends of pivot are provided with the connecting plate, be provided with the mounting panel on the connecting plate, solar panel installs on the mounting panel.

Through adopting above-mentioned technical scheme, solar panel installs on the mounting panel, drives the connecting plate through the pivot and rotates, and the connecting plate drives the mounting panel and rotates to drive solar panel's rotation.

Optionally, be provided with the washing shower nozzle on the mounting panel, the washing shower nozzle sprays water towards solar panel, be provided with the scavenge pipe on the washing shower nozzle, the scavenge pipe communicates with communicating pipe.

Through adopting above-mentioned technical scheme, when irrigating the greenbelt, wash solar panel with the washing shower nozzle of communicating pipe intercommunication, reduce the adhesion of road surface dust on solar panel, weaken solar panel to the absorption of solar energy.

Optionally, the open end of collection rain gutter is provided with the wire net that prevents the leaf from getting into collection rain gutter, the bottom of collection rain gutter is provided with the filter layer that is used for filtering the rainwater.

Through adopting above-mentioned technical scheme, the wire net has blockked during great debris such as leaf drop the rain collection groove, and the rethread filter layer filters the rainwater, and the dust that reduces the rainwater enters into the cistern.

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

the angle of the solar panel is adjusted through the adjusting piece, so that the solar panel can better receive solar energy; the solar panel converts solar energy into electric energy to be stored in the storage battery, the storage battery supplies energy to the water pump, the water pump sprays water in the water storage tank out of the sprinkler head through the communicating pipe so as to realize irrigation on the green belt, and the guardrail is not a barrier in the irrigation process any more so as to facilitate the irrigation on the green belt; and manpower and material resources cost when the green belt is irrigated manually or by a sprinkler is reduced, an external power supply is not needed, and energy is saved.

Drawings

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

Fig. 2 is a cross-sectional view of an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. a guardrail; 2. a reservoir; 3. a water pump; 4. a sprinkler head; 5. a communicating pipe; 6. a cross bar; 7. a solar panel; 8. a storage battery; 9. a rotating shaft; 10. a worm gear; 11. a worm; 12. a motor; 13. a rain collecting groove; 14. a rain pipe; 15. a water inlet pipe; 16. a liquid level sensor; 17. an electromagnetic valve; 18. a controller; 19. a soil humidity sensor; 20. a connecting plate; 21. mounting a plate; 22. cleaning the spray head; 23. cleaning the tube; 24. steel wire mesh; 25. a filter layer; 26. and (4) an overflow pipe.

Detailed Description

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

The embodiment of the application discloses energy-saving municipal green belt isolating device. Referring to fig. 1 and 2, the energy-saving municipal green belt isolation device comprises a guardrail 1, a bottom fixedly connected with reservoir 2 of the guardrail 1, a water pump 3 fixedly connected with the bottom wall of the reservoir 2, sprinkler heads 4 fixed on a cross beam of the guardrail 1, a plurality of sprinkler heads 4 arranged, the sprinkler heads 4 communicated with each other, the sprinkler heads 4 and the reservoir 2 located on one side close to green belt plants, a communicating pipe 5 for communicating the water pump 3 with the sprinkler heads 4 fixed on the guardrail 1, a cross rod 6 welded and fixed on the top of the guardrail 1, a solar panel 7 for supplying power to the water pump 3 connected on the cross rod 6 in a rotating mode, a rotating axis of the solar panel 7 along the length direction of the cross rod 6, a storage battery 8 fixedly connected on the guardrail 1, the solar panel 7 electrically connected with the storage battery 8, the water pump 3 electrically connected with the storage battery 8, and a regulating part for regulating the angle of the solar panel 7 arranged on the cross rod 6.

Referring to fig. 1, the regulating part includes that rotation connection is at pivot 9 on horizontal pole 6, and the length direction of horizontal pole 6 is followed to the axis of rotation of pivot 9, and the equal welded fastening in both ends of pivot 9 has connecting plate 20, and connecting plate 20 is triangle-shaped setting, and the one end welded fastening that horizontal pole 6 was kept away from to connecting plate 20 has mounting panel 21, and solar panel 7 installs on mounting panel 21. The fixed cover of tip that the horizontal pole 6 extended to on the guardrail 1 is run through to the one end of pivot 9 is equipped with worm wheel 10, rotate on the guardrail 1 and be connected with worm 11, worm wheel 10 and the meshing of worm 11, fixedly connected with is used for ordering about worm 11 pivoted motor 12 on the guardrail 1, and the output shaft of motor 12 is fixed on worm 11, and motor 12 is connected with battery 8 electricity, and motor 12 is servo motor 12. The controller 18 is fixed on the guardrail 1, the controller 18 is electrically connected with the motor 12, the controller 18 is electrically connected with the storage battery 8, the controller 18 controls the motor 12 to rotate, the motor 12 is controlled to rotate reversely at night, and the solar panel 7 is reset to the real position.

Referring to fig. 1 and 2, a water inlet pipe 15 is communicated with a water storage tank 2, the water inlet pipe 15 is communicated with an external water source, a liquid level sensor 16 is fixed on the bottom wall in the water storage tank 2, an electromagnetic valve 17 for opening and closing the water inlet pipe 15 is connected to the water inlet pipe 15, a controller 18 is respectively in water-electricity connection with the liquid level sensor 16 and the electromagnetic valve 17, the liquid level sensor 16 sends information containing liquid level height to the controller 18, the controller 18 receives the information containing liquid level height and compares the information with a preset interval, and when the liquid level height is lower than the preset interval, the controller 18 controls the electromagnetic valve 17 to open the water inlet pipe 15, so that the external water source flows into the water storage tank 2; when the liquid level is higher than the preset interval, the controller 18 controls the electromagnetic valve 17 to close the water inlet pipe 15. The top of the reservoir 2 is connected to an overflow pipe 26 to facilitate overflow of the reservoir 2 when excess rain water is present.

Referring to fig. 1 and 2, a soil humidity sensor 19 is buried in soil of a green belt, the soil humidity sensor 19 is arranged on the side of the reservoir 2, the soil humidity sensor 19 is electrically connected with a controller 18, the water pump 3 is electrically connected with the controller 18, the soil humidity sensor 19 sends information containing soil humidity to the controller 18, the controller 18 receives the information containing soil humidity and compares the information with a preset interval, and when the soil humidity is lower than the preset interval, the controller 18 controls the water pump 3 to be started to irrigate the green belt; when the soil humidity is higher than the preset interval, the controller 18 controls the water pump 3 to stop.

Referring to fig. 1 and 3, a rain collecting groove 13 is welded and fixed on the guardrail 1, the rain collecting groove 13 is located below the solar panel 7, the width of the opening end of the rain collecting groove 13 is larger than that of the solar panel 7, the cross section of the rain collecting groove 13 is arranged in a triangular shape, the bottom of the rain collecting groove 13 is communicated with a rain pipe 14, and the rain pipe 14 is communicated with the water reservoir 2. The open end of rain collecting groove 13 is welded and fixed with a steel wire mesh 24 for preventing leaves from entering rain collecting groove 13, the bottom of rain collecting groove 13 is fixed with a filter layer 25 for filtering rainwater, and filter layer 25 is located at the joint of rainwater pipe 14 and rain collecting groove 13.

Referring to fig. 1, a plurality of cleaning nozzles 22 are fixedly connected to the mounting plate 21, the cleaning nozzles 22 spray water toward the solar panel 7, a cleaning pipe 23 is connected to the guardrail 1, and one end of the cleaning pipe 23 is communicated with the cleaning nozzles 22. The other end is communicated with a communicating pipe 5. The cleaning pipe 23 is a hose to facilitate the rotation of the solar panel 7. When the sprinkler 4 irrigates the green belt, water flows out from the communicating pipe 5 through the cleaning pipe 23 and flows out from the cleaning nozzle 22 to clean the solar panel 7, and the cleaned water flows down from the mounting plate 21 and enters the rain collecting groove 13 to recycle the cleaning water.

The implementation principle of the energy-saving municipal green belt isolation device in the embodiment of the application is as follows: the solar panel 7 converts solar energy into electric energy to be stored in the storage battery 8; the motor 12 drives the worm 11 to rotate, the worm 11 drives the worm wheel 10 to rotate, and the worm wheel 10 drives the solar panel 7 to rotate so as to realize the adjustment of the position of the solar panel 7 and enable the solar panel 7 to better receive solar energy; when the soil humidity is lower than the preset interval, the controller 18 controls the water pump 3 to be started, the water pump 3 sprays the water in the reservoir 2 out of the sprinkler head 4 through the communicating pipe 5 so as to realize irrigation of the green belt, and when the soil humidity is higher than the preset interval, the controller 18 controls the water pump 3 to be stopped. Both can use the rainwater of collecting to irrigate, can introduce external water source again and irrigate to it is high to need not personnel's management operation degree of automation.

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. Energy-saving municipal afforestation area isolating device, its characterized in that: including guardrail (1), the bottom of guardrail (1) is provided with cistern (2), be provided with water pump (3) in cistern (2), be provided with sprinkler head (4) on guardrail (1), be provided with communicating pipe (5) that are used for intercommunication water pump (3) and sprinkler head (4) on guardrail (1), the top of guardrail (1) is provided with horizontal pole (6), it is provided with solar panel (7) that are used for water-feeding pump (3) power supply to rotate on horizontal pole (6), be provided with battery (8) on guardrail (1), solar panel (7) are connected with battery (8) electricity, water pump (3) are connected with battery (8) electricity, be provided with the regulating part that is used for adjusting solar panel (7) angle on horizontal pole (6).

2. The energy-saving municipal green belt isolation device according to claim 1, wherein: the regulating part is including setting up pivot (9) on horizontal pole (6), the length direction of horizontal pole (6) is followed to the axis of rotation of pivot (9), solar panel (7) are fixed on pivot (9), the pot head of pivot (9) is equipped with worm wheel (10), it is provided with worm (11) to rotate on guardrail (1), worm wheel (10) and worm (11) meshing, be provided with on guardrail (1) and be used for ordering about worm (11) pivoted motor (12), motor (12) are connected with battery (8) electricity.

3. The energy-saving municipal green belt isolation device according to claim 1, wherein: be provided with rain collection groove (13) on guardrail (1), rain collection groove (13) are located solar panel (7)'s below, the width of the open end of rain collection groove (13) is greater than solar panel (7)'s width, the bottom of rain collection groove (13) is provided with downspout (14), downspout (14) and cistern (2) intercommunication.

4. The energy-saving municipal green belt isolation device according to claim 1, wherein: the water inlet pipe (15) is communicated with the water storage tank (2), the water inlet pipe (15) is communicated with an external water source, a liquid level sensor (16) is arranged in the water storage tank (2), an electromagnetic valve (17) used for opening and closing the water inlet pipe (15) is arranged on the water inlet pipe (15), a controller (18) is arranged on the guardrail (1), the controller (18) is respectively in water-electricity connection with the liquid level sensor (16) and the electromagnetic valve (17), the liquid level sensor (16) sends information containing liquid level height to the controller (18), the controller (18) receives the information containing liquid level height and compares the information with a preset interval, and when the liquid level height is lower than the preset interval, the controller (18) controls the electromagnetic valve (17) to open the water inlet pipe (15); when the liquid level is higher than the preset interval, the controller (18) controls the electromagnetic valve (17) to close the water inlet pipe (15).

5. The energy-saving municipal green belt isolation device according to claim 4, wherein: a soil humidity sensor (19) is arranged in the green belt, the soil humidity sensor (19) is electrically connected with a controller (18), the water pump (3) is electrically connected with the controller (18), the soil humidity sensor (19) sends information containing soil humidity to the controller (18), the controller (18) receives the information containing the soil humidity and compares the information with a preset interval, and when the soil humidity is lower than the preset interval, the controller (18) controls the water pump (3) to be started to irrigate the green belt; and when the soil humidity is higher than the preset interval, the controller (18) controls the water pump (3) to stop.

6. The energy-saving municipal green belt isolation device according to claim 2, wherein: the both ends of pivot (9) are provided with connecting plate (20), be provided with mounting panel (21) on connecting plate (20), solar panel (7) are installed on mounting panel (21).

7. The energy-saving municipal green belt isolation device according to claim 6, wherein: be provided with on mounting panel (21) and wash shower nozzle (22), wash shower nozzle (22) and spray water towards solar panel (7), be provided with scavenge pipe (23) on washing shower nozzle (22), scavenge pipe (23) and communicating pipe (5) intercommunication.

8. The energy-saving municipal green belt isolation device according to claim 3, wherein: the open end of collection rain groove (13) is provided with wire net (24) that prevents the leaf from getting into collection rain groove (13), the bottom of collection rain groove (13) is provided with filter layer (25) that are used for filtering the rainwater.

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