CN105724187A - Solar garden irrigation device - Google Patents

Abstract

The invention discloses a solar garden irrigation device. The solar garden irrigation device comprises a foundation, a support, a solar panel, a water pump inverter, a water tank, a cover plate, a rainproof breathable cap, a temperature sensor, a clamping hoop, a multi-stage deep-well pump, a water outflow hose, a water spray pipe set and a thermocouple. During work, the solar panel works to input electric energy generated through solar energy into the water pump inverter to be used for driving the multi-stage deep-well pump, high-pressure water is pumped into the water spraying pipe set through the water outlet hose and is sprayed out through a sprayer to be used for irrigation after being diverted through branch pipes, the temperature sensor is used for detecting the temperature of water in the water tank, if the temperature is lower than a set temperature, the thermocouple works to be used for heating, and the rainproof breathable cap is used for balancing air pressure in the water tank. The device is simple in structure, solar energy is effectively utilized to perform garden irrigation, the water pressure of the multi-stage deep well pump is high, high water pressure can still be obtained at low power, the irrigation effect is good, and meanwhile, energy consumption is extremely low, and the environment is greatly protected.

Description

A kind of solar energy treegarden irrigation device

Technical field

The present invention relates to a kind of irrigation rig, particularly relate to a kind of solar energy treegarden irrigation device.

Background technology

Fast development along with China's economy; quickly increasing of population and improving constantly of industrialization degree; the demand of the energy is also increased severely day by day; energy resources are not enough and the contradiction of the deterioration of the ecological environment; such as the shortage of China electric power continuous, coal supply is nervous, oil price rises violently, environmental intensification etc. situation; force us must walk to save the energy, tap a new source of energy, the road of protection environment.Under these circumstances, strengthen the exploitation in nature with novel energies such as the solar energy of regeneration capacity, wind energy, water energy, biomass energies, be the effective way saving the energy, alleviation energy supply and demand contradiction, guarantee energy industry sustainable development.

Existing treegarden irrigation device is generally adopted the big lift water pump of driven by motor and irrigates, and for obtaining the water of bigger pressure for irrigating more at a distance, generally requires consumption mass energy, and use cost is high.In view of drawbacks described above, it is necessary in fact to design a kind of solar energy treegarden irrigation device.

Summary of the invention

The technical problem to be solved is in that: provides a kind of solar energy treegarden irrigation device, solves the problem that existing treegarden irrigation device energy resource consumption is big.

nullFor solving above-mentioned technical problem，The technical scheme is that a kind of solar energy treegarden irrigation device，Including basis、Support、Solar panel、Water pump inverter、Water tank、Cover plate、Rainproof Ventilated cap、Temperature sensor、Clip、Multilevel deep well pump、Delivery hose、Sparge pipe group、Thermocouple，Described support is positioned at upper end, basis，Described support is connected with basis screw thread，Described solar panel is positioned at pedestal upper end，Described solar panel is connected with support screw thread，Described water pump inverter is positioned at support side，Described water pump inverter is connected with support screw thread，Described water tank is positioned at upper end, basis，Described water tank is connected with basis screw thread，Described cover plate is positioned at water tank upper end，Described cover plate is connected with water tank buckle，Described rainproof Ventilated cap is positioned at cover plate top center place，Described rainproof Ventilated cap is connected with cover plate screw thread，Described temperature sensor is positioned at cover plate top，Described temperature sensor is connected with cover plate screw thread，Described clip is positioned at tank inner wall，Described clip is connected with water tank，Described multilevel deep well pump is positioned at place of tank inner wall bottom centre and is positioned at clip inwall，Described multilevel deep well pump is connected with water tank gap and is connected with clip screw thread，Described delivery hose is positioned at multilevel deep well pump top and runs through water tank，Described delivery hose is connected with multilevel deep well pump screw thread and is connected with water tank screw thread，Described sparge pipe group is positioned at delivery hose lower end and is positioned at upper end, basis，Described sparge pipe group is connected with delivery hose screw thread and is connected with basis buckle,Described thermocouple is positioned at water tank lower end，Described thermocouple is connected with water tank screw thread.

The present invention further improves as follows:

Further, described water tank is additionally provided with water inlet pipe, and described water inlet pipe is positioned at water tank upper end, and described water inlet pipe is connected with water tank screw thread.

Further, described cover plate is additionally provided with some handles, and described handle is positioned at cover plate top, and described handle is connected with cover plate screw thread, and described handle is symmetrically arranged in cover plate.

Further, described rainproof Ventilated cap includes well permeability cell, rainhat, and described permeability cell is positioned at cover plate top center place, and described permeability cell is connected with cover plate screw thread, and described rainhat is positioned at permeability cell top, and described rainhat is connected with permeability cell screw thread.

Further, described rainhat is additionally provided with dashpot, and described dashpot is positioned at rainhat inwall top, and described dashpot is not through rainhat main body, and described dashpot diameter is more than permeability cell diameter.

Further, described rainhat is additionally provided with some air-vents, and described air-vent is positioned at rainhat lower end, and described air-vent is distributed in rainhat, and described air-vent communicates with dashpot.

Further, described sparge pipe group also includes supervisor, some arms, spray thrower, described supervisor is positioned at delivery hose lower end and is positioned at upper end, basis, described supervisor is connected with delivery hose screw thread and is connected with basis buckle, described arm is positioned at supervisor's outer wall, described supervisor is connected with supervisor's screw thread, and described spray thrower is positioned at arm outer wall top, and described spray thrower is connected with arm screw thread.

Further, described arm is additionally provided with Pressure gauge, and described Pressure gauge is positioned at arm outer wall top, and described Pressure gauge is connected with arm screw thread.

Compared with prior art, this solar energy treegarden irrigation device, during work, solar panel work is that the electric energy input water pump inverter produced by solar energy is used for driving multilevel deep well pump, and water under high pressure pumps into sparge pipe group by delivery hose, by being used for irrigating through spray thrower ejection after the shunting of arm, temperature sensor is used for detecting coolant-temperature gage in water tank, if lower than design temperature, thermocouple work is used for heating, and rainproof Ventilated cap is used for balanced reservoir inner air pressure.This apparatus structure is simple, effectively utilizes solar energy automatically to carry out treegarden irrigation, and multilevel deep well pump hydraulic pressure is high, still can obtain higher hydraulic pressure in low-power, and irrigation effect is good, and meanwhile, energy resource consumption is low, greatly protects environment.

Accompanying drawing explanation

Fig. 1 illustrates front view of the present invention

Fig. 2 illustrates the rainproof Ventilated cap sectional view of the present invention

Fig. 3 illustrates sparge pipe group structural representation of the present invention

Basis 1 support 2

Solar panel 3 water pump inverter 4

Water tank 5 cover plate 6

Rainproof Ventilated cap 7 temperature sensor 8

Clip 9 multilevel deep well pump 10

Delivery hose 11 sparge pipe group 12

Thermocouple 13 water inlet pipe 501

Shake hands 601 permeability cells 701

Rainhat 702 dashpot 703

Air-vent 704 is responsible for 1201

Some arm 1202 spray throwers 1203

Pressure gauge 1204

Detailed description of the invention

nullSuch as Fig. 1、Fig. 2、Shown in Fig. 3，A kind of solar energy treegarden irrigation device，Including basis 1、Support 2、Solar panel 3、Water pump inverter 4、Water tank 5、Cover plate 6、Rainproof Ventilated cap 7、Temperature sensor 8、Clip 9、Multilevel deep well pump 10、Delivery hose 11、Sparge pipe group 12、Thermocouple 13，Described support 2 is positioned at basic 1 upper end，Described support 2 is connected with basic 1 screw thread，Described solar panel 3 is positioned at support 2 upper end，Described solar panel 3 is connected with support 2 screw thread，Described water pump inverter 4 is positioned at support 2 side，Described water pump inverter 4 is connected with support 2 screw thread，Described water tank 5 is positioned at basic 1 upper end，Described water tank 5 is connected with basic 1 screw thread，Described cover plate 6 is positioned at water tank 5 upper end，Described cover plate 6 is connected with water tank 5 buckle，Described rainproof Ventilated cap 7 is positioned at cover plate 6 top center place，Described rainproof Ventilated cap 7 is connected with cover plate 6 screw thread，Described temperature sensor 8 is positioned at cover plate 6 top，Described temperature sensor 8 is connected with cover plate 6 screw thread，Described clip 9 is positioned at water tank 5 inwall，Described clip 9 is connected with water tank 5，Described multilevel deep well pump 10 is positioned at water tank 5 place of inwall bottom centre and is positioned at clip 9 inwall，Described multilevel deep well pump 10 is connected with water tank 5 gap and is connected with clip 9 screw thread，Described delivery hose 11 is positioned at multilevel deep well pump 10 top and runs through water tank 5，Described delivery hose 11 is connected with multilevel deep well pump 10 screw thread and is connected with water tank 5 screw thread，Described sparge pipe group 12 is positioned at delivery hose 11 lower end and is positioned at basic 1 upper end，Described sparge pipe group 12 is connected with delivery hose 11 screw thread and is connected with basic 1 buckle,Described thermocouple 13 is positioned at water tank 5 lower end，Described thermocouple 13 is connected with water tank 5 screw thread，Described water tank 5 is additionally provided with water inlet pipe 501，Described water inlet pipe 501 is positioned at water tank 5 upper end，Described water inlet pipe 501 is connected with water tank 5 screw thread，Described cover plate 6 is additionally provided with some handles 601，Described handle 601 is positioned at cover plate 6 top，Described handle 601 is connected with cover plate 6 screw thread，Described handle 601 is symmetrically arranged in cover plate 6，Described rainproof Ventilated cap 7 includes well permeability cell 701、Rainhat 702，Described permeability cell 701 is positioned at cover plate 6 top center place，Described permeability cell 701 is connected with cover plate 6 screw thread，Described rainhat 702 is positioned at permeability cell 701 top，Described rainhat 702 is connected with permeability cell 701 screw thread，Described rainhat 702 is additionally provided with dashpot 703，Described dashpot 703 is positioned at rainhat 702 inwall top，Described dashpot 703 is not through rainhat 702 main body，Described dashpot 703 diameter is more than permeability cell 701 diameter，Described rainhat 702 is additionally provided with some air-vents 704，Described air-vent 704 is positioned at rainhat 702 lower end，Described air-vent 704 is distributed in rainhat 702，Described air-vent 704 communicates with dashpot 703，Described sparge pipe group 12 also includes supervisor 1201、Some arms 1202、Spray thrower 1203，Described supervisor 1201 is positioned at delivery hose 11 lower end and is positioned at basic 1 upper end，Described supervisor 1201 is connected with delivery hose 11 screw thread and is connected with basic 1 buckle，Described arm 1202 is positioned at supervisor's 1201 outer walls，Described supervisor 1201 is connected with being responsible for 1201 screw threads，Described spray thrower 1203 is positioned at arm 1202 outer wall top，Described spray thrower 1203 is connected with arm 1202 screw thread，Described arm 1202 is additionally provided with Pressure gauge 1204，Described Pressure gauge 1204 is positioned at arm 1202 outer wall top，Described Pressure gauge 1204 is connected with arm 1202 screw thread，This solar energy treegarden irrigation device，During work，Solar panel 3 work is that the electric energy input water pump inverter 4 produced by solar energy is used for driving multilevel deep well pump 10，Water under high pressure pumps into sparge pipe group 11 by delivery hose 11，By being used for irrigating through spray thrower 1203 ejection after the shunting of arm 1202，Temperature sensor 8 is used for detecting coolant-temperature gage in water tank，If lower than design temperature，Thermocouple 13 work is used for heating，Rainproof Ventilated cap 7 is for balanced reservoir 5 inner air pressure.This apparatus structure is simple, effectively utilizes solar energy automatically to carry out treegarden irrigation, and multilevel deep well pump 10 hydraulic pressure is high, still can obtain higher hydraulic pressure in low-power, and irrigation effect is good, and meanwhile, energy resource consumption is low, greatly protects environment.

The present invention is not limited to above-mentioned specific embodiment, and those of ordinary skill in the art, from above-mentioned design, without performing creative labour, made all conversion, all falls within protection scope of the present invention.

Claims (8)

1. null1. a solar energy treegarden irrigation device，Including basis，Characterized by further comprising support、Solar panel、Water pump inverter、Water tank、Cover plate、Rainproof Ventilated cap、Temperature sensor、Clip、Multilevel deep well pump、Delivery hose、Sparge pipe group、Thermocouple，Described support is positioned at upper end, basis，Described support is connected with basis screw thread，Described solar panel is positioned at pedestal upper end，Described solar panel is connected with support screw thread，Described water pump inverter is positioned at support side，Described water pump inverter is connected with support screw thread，Described water tank is positioned at upper end, basis，Described water tank is connected with basis screw thread，Described cover plate is positioned at water tank upper end，Described cover plate is connected with water tank buckle，Described rainproof Ventilated cap is positioned at cover plate top center place，Described rainproof Ventilated cap is connected with cover plate screw thread，Described temperature sensor is positioned at cover plate top，Described temperature sensor is connected with cover plate screw thread，Described clip is positioned at tank inner wall，Described clip is connected with water tank，Described multilevel deep well pump is positioned at place of tank inner wall bottom centre and is positioned at clip inwall，Described multilevel deep well pump is connected with water tank gap and is connected with clip screw thread，Described delivery hose is positioned at multilevel deep well pump top and runs through water tank，Described delivery hose is connected with multilevel deep well pump screw thread and is connected with water tank screw thread，Described sparge pipe group is positioned at delivery hose lower end and is positioned at upper end, basis，Described sparge pipe group is connected with delivery hose screw thread and is connected with basis buckle,Described thermocouple is positioned at water tank lower end，Described thermocouple is connected with water tank screw thread.
2. 2. solar energy treegarden irrigation device as claimed in claim 1, it is characterised in that described water tank is additionally provided with water inlet pipe, and described water inlet pipe is positioned at water tank upper end, and described water inlet pipe is connected with water tank screw thread.
3. 3. solar energy treegarden irrigation device as claimed in claim 2, it is characterised in that described cover plate is additionally provided with some handles, and described handle is positioned at cover plate top, and described handle is connected with cover plate screw thread, and described handle is symmetrically arranged in cover plate.
4. 4. solar energy treegarden irrigation device as claimed in claim 3, it is characterized in that described rainproof Ventilated cap includes well permeability cell, rainhat, described permeability cell is positioned at cover plate top center place, described permeability cell is connected with cover plate screw thread, described rainhat is positioned at permeability cell top, and described rainhat is connected with permeability cell screw thread.
5. 5. solar energy treegarden irrigation device as claimed in claim 4, it is characterized in that described rainhat is additionally provided with dashpot, described dashpot is positioned at rainhat inwall top, and described dashpot is not through rainhat main body, and described dashpot diameter is more than permeability cell diameter.
6. 6. solar energy treegarden irrigation device as claimed in claim 5, it is characterised in that described rainhat is additionally provided with some air-vents, and described air-vent is positioned at rainhat lower end, and described air-vent is distributed in rainhat, and described air-vent communicates with dashpot.
7. 7. solar energy treegarden irrigation device as claimed in claim 6, it is characterized in that described sparge pipe group also includes supervisor, some arms, spray thrower, described supervisor is positioned at delivery hose lower end and is positioned at upper end, basis, described supervisor is connected with delivery hose screw thread and is connected with basis buckle, described arm is positioned at supervisor's outer wall, described supervisor is connected with supervisor's screw thread, and described spray thrower is positioned at arm outer wall top, and described spray thrower is connected with arm screw thread.
8. 8. solar energy treegarden irrigation device as claimed in claim 7, it is characterised in that described arm is additionally provided with Pressure gauge, and described Pressure gauge is positioned at arm outer wall top, and described Pressure gauge is connected with arm screw thread.