CN209234264U - A kind of water conservancy irrigation device based on heliotechnics - Google Patents
A kind of water conservancy irrigation device based on heliotechnics Download PDFInfo
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- CN209234264U CN209234264U CN201822015646.3U CN201822015646U CN209234264U CN 209234264 U CN209234264 U CN 209234264U CN 201822015646 U CN201822015646 U CN 201822015646U CN 209234264 U CN209234264 U CN 209234264U
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Abstract
The utility model belongs to water conservancy irrigation technical field, discloses a kind of water conservancy irrigation device based on heliotechnics, including blending tank, phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank;Blending tank is connect by being equipped with the pipeline of water source motor-driven valve with water source;Blending tank by be sequentially installed with potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump pipeline connect with potash fertilizer tank;Blending tank by be sequentially installed with the first conductivity sensor, nitrogenous fertilizer solenoid valve, nitrogenous fertilizer metering pump pipeline connect with nitrogenous fertilizer tank;Blending tank by be sequentially installed with the second conductivity sensor, phosphate fertilizer solenoid valve, phosphate fertilizer metering pump pipeline connect with phosphate fertilizer tank;Blending tank is equipped with irrigation water conveyance conduit;Including PLC control system and sun-generated electric power;PLC control system is connect with sun-generated electric power, water source motor-driven valve, potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump, the first conductivity sensor, nitrogenous fertilizer solenoid valve, nitrogenous fertilizer metering pump, the second conductivity sensor, phosphate fertilizer solenoid valve and phosphate fertilizer metering pump respectively.
Description
Technical field
The utility model belongs to water conservancy irrigation technical field, and in particular to a kind of water conservancy irrigation dress based on heliotechnics
It sets.
Background technique
Development irrigation draining adjusts regional regimen, improves Farmland Water situation, prevents and treats drought, flood, salt, alkali disaster, to promote
The Comprehensive Science technology of high and stable crop yield.Irrigation and water conservancy is commonly referred to as irrigated and is drained in foreign countries.Irrigation and water conservancy is related to water
The subjects such as mechanics, civil engineering, agronomy, agrology and the hydrology, meteorology, hydrogeology and agricultural economy.Its task is logical
It crosses project slash to retain agricultural water resources, regulate and control, distribute and use, and improves the soil in conjunction with agrotechnical measure
Fertilizing expands land use, to achieve the purpose that agricultural year stable yields.
However, existing irrigation rig can not for area soil regime targetedly be irrigated, and merely adopt
Preferable fertilization effect cannot be played again with chemical fertilizer, therefore, need what one kind can be irrigated for field soil regime specific aim
Water conservancy irrigation device.
Utility model content
In order to solve the above problems existing in the present technology, the utility model aim is to provide a kind of based on solar energy skill
The water conservancy irrigation device of art.
The technology employed by the present utility model is
A kind of water conservancy irrigation device based on heliotechnics, including irrigation rig and irrigation control system;The irrigation
Device includes blending tank, phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank;The blending tank is by being equipped with the pipeline and water of water source motor-driven valve
Source connection;The blending tank is by being sequentially installed with the pipeline and potash fertilizer of potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump
Tank connection;The blending tank is by being sequentially installed with the pipeline and nitrogen of the first conductivity sensor, nitrogenous fertilizer solenoid valve, nitrogenous fertilizer metering pump
Fertile tank connection;The blending tank by be sequentially installed with the second conductivity sensor, phosphate fertilizer solenoid valve, phosphate fertilizer metering pump pipeline with
The connection of phosphate fertilizer tank;The lower part of the blending tank is equipped with irrigation water conveyance conduit;
The irrigation control system includes PLC control system and sun-generated electric power;The PLC control system respectively with the sun
It can power supply, water source motor-driven valve, potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump, the first conductivity sensor, nitrogenous fertilizer electromagnetism
Valve, nitrogenous fertilizer metering pump, the second conductivity sensor, phosphate fertilizer solenoid valve are connected with phosphate fertilizer metering pump.
Further, the irrigation rig further includes circulation mixing arrangement;The circulation mixing arrangement includes circulating pump, follows
Ring pumps solenoid valve and third conductivity sensor;The lower part of the blending tank is by being sequentially installed with third conductivity sensor, circulation
The top of the pipeline and blending tank that pump solenoid valve and circulating pump connects;The PLC control system is electric with circulating pump, circulating pump respectively
Magnet valve is connected with third conductivity sensor.
Further, the irrigation water conveyance conduit is equipped with irrigation water motor-driven valve;The irrigation water conveyance conduit passes through
Irrigation water motor-driven valve is connected with the pipeline that both ends are connect with third conductivity sensor and circulating pump solenoid valve respectively;The irrigation water
Motor-driven valve is connect with PLC control system.
Further, the irrigation rig further includes proportioner;The proportioner includes that potassium resource storage tank, nitrogen source are deposited
Storage tank and phosphorus source storage tank;The potassium resource storage tank is by being sequentially installed with the pipeline and potassium of potassium resource metering pump and potassium resource solenoid valve
Fertile tank connection;The nitrogen source storage tank is connected by the pipeline and nitrogenous fertilizer tank for being sequentially installed with nitrogen source metering pump and nitrogen source solenoid valve
It connects;Phosphorus source storage tank is connect by being sequentially installed with the pipeline of phosphorus source metering pump and phosphorus source solenoid valve with phosphate fertilizer tank;It is described
PLC control system respectively with potassium resource metering pump, potassium resource solenoid valve, nitrogen source metering pump, nitrogen source solenoid valve, phosphorus source metering pump and phosphorus source
Solenoid valve connection.
Further, there are Klorvess Liquid or potassium nitrate solution in the potassium resource storage tank;Have in nitrogen source storage tank
Ammonium nitrate solution;There are ammonium phosphate or potassium phosphate solution in phosphorus source storage tank.
Further, there is potassium nitrate solution in the potassium resource storage tank.
The utility model has the following beneficial effects: a kind of water conservancy irrigation device based on heliotechnics of the utility model is logical
PLC control system is crossed to realize the management of blending tank, phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank.PLC control system controls potash fertilizer metering
Pump, nitrogenous fertilizer metering pump and phosphate fertilizer metering pump control the dosage into potash fertilizer, nitrogenous fertilizer and phosphate fertilizer in blending tank, realize blending tank
In make the fertilizer of heterogeneity and concentration and meet the use of irrigated farmland;To which the utility model has with strong points, control
Make convenient feature.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model.
Fig. 2 is the schematic illustration of the irrigation control system of the utility model.
In figure: 1- potash fertilizer metering pump;2- nitrogenous fertilizer metering pump;The water source 3- motor-driven valve;4- phosphate fertilizer metering pump;5- potash fertilizer electromagnetism
Valve;6- nitrogenous fertilizer solenoid valve;7- phosphate fertilizer solenoid valve;8- potassium ion sensor;The first conductivity sensor of 9-;The second conductance of 10- sensing
Device;11- blending tank;12- circulating pump;13- circulating pump solenoid valve;14- irrigation water motor-driven valve;15- third conductivity sensor;16-
Phosphate fertilizer tank;17- nitrogenous fertilizer tank;18- potash fertilizer tank;19- potassium resource solenoid valve;20- nitrogen source solenoid valve;21- phosphorus source solenoid valve;22- potassium resource
Metering pump;23- nitrogen source metering pump;24- phosphorus source metering pump;25- potassium resource storage tank;26- nitrogen source storage tank;27- phosphorus source storage tank.
Specific embodiment
With reference to the accompanying drawing and specific embodiment is further elaborated the utility model.
Embodiment 1
As shown in Figs. 1-2, a kind of water conservancy irrigation device based on heliotechnics, including irrigation rig and irrigation control
System;The irrigation rig includes blending tank, phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank;The blending tank is by being equipped with water source electricity
The pipeline of dynamic valve is connect with water source;The blending tank is measured by being sequentially installed with potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer
The pipeline of pump is connect with potash fertilizer tank;The blending tank is by being sequentially installed with the first conductivity sensor, nitrogenous fertilizer solenoid valve, nitrogenous fertilizer meter
The pipeline of amount pump is connect with nitrogenous fertilizer tank;The blending tank is by being sequentially installed with the second conductivity sensor, phosphate fertilizer solenoid valve, phosphate fertilizer
The pipeline of metering pump is connect with phosphate fertilizer tank;The lower part of the blending tank is equipped with irrigation water conveyance conduit;
The irrigation control system includes PLC control system and sun-generated electric power;The PLC control system respectively with the sun
It can power supply, water source motor-driven valve, potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump, the first conductivity sensor, nitrogenous fertilizer electromagnetism
Valve, nitrogenous fertilizer metering pump, the second conductivity sensor, phosphate fertilizer solenoid valve are connected with phosphate fertilizer metering pump.
As shown in Figs. 1-2, a kind of water conservancy irrigation device based on heliotechnics, including potash fertilizer metering pump 1, nitrogenous fertilizer meter
Amount pump 2, water source motor-driven valve 3, phosphate fertilizer metering pump 4, potash fertilizer solenoid valve 5, nitrogenous fertilizer solenoid valve 6, phosphate fertilizer solenoid valve 7, potassium ion sensing
Device 8, the second conductivity sensor 10, blending tank, circulating pump 12, circulating pump solenoid valve 13, irrigates water power at first conductivity sensor 9
Dynamic valve 14, third conductivity sensor 15, phosphate fertilizer tank 16, nitrogenous fertilizer tank 17, potash fertilizer tank 18, potassium resource solenoid valve 19, nitrogen source solenoid valve 20,
Phosphorus source solenoid valve 21, potassium resource metering pump 22, nitrogen source metering pump 23, phosphorus source metering pump 24, potassium resource storage tank 25, nitrogen source storage tank 26
With phosphorus source storage tank 27.
In use, realizing the management of blending tank, phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank by PLC control system.PLC control
System processed controls potash fertilizer metering pump, nitrogenous fertilizer metering pump and phosphate fertilizer metering pump to control into potash fertilizer, nitrogenous fertilizer and the phosphorus in blending tank
The dosage of fertilizer realizes that the fertilizer that heterogeneity and concentration are made in blending tank meets the use of irrigated farmland;For the ease of control
System and the convenience of maintenance are respectively provided with potash fertilizer solenoid valve 5, nitrogenous fertilizer solenoid valve 6 and phosphate fertilizer solenoid valve 7 again;Consequently facilitating to potassium
The accurate control of the dosage of fertilizer, nitrogenous fertilizer and phosphate fertilizer;And since the concentration of the solution in phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank how much can
There are certain deviations also to set to more accurately control the amount of the phosphate fertilizer tank being added in blending tank, nitrogenous fertilizer tank and potash fertilizer tank
Potassium ion sensor 8, the first conductivity sensor 9 and the second conductivity sensor 10 are set;Pass through the feedback of three kinds of sensors, PLC
Control system is realized by control potash fertilizer solenoid valve 5, nitrogenous fertilizer solenoid valve 6 and phosphate fertilizer solenoid valve 7 to phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer
The accurate control of the amount for the medicament being added in tank, to make the medicament prepared in blending tank more meet actual requirement, in blending tank
Solution as irrigation water to field to be irrigated conveying irrigated.For energy saving and environmentally friendly needs, the utility model
Energy demand prediction sun-generated electric power provide electric energy for each electrical equipment.
Embodiment 2
As shown in Figs. 1-2, a kind of water conservancy irrigation device based on heliotechnics, including irrigation rig and irrigation control
System;The irrigation rig includes blending tank, phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank;The blending tank is by being equipped with water source electricity
The pipeline of dynamic valve is connect with water source;The blending tank is measured by being sequentially installed with potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer
The pipeline of pump is connect with potash fertilizer tank;The blending tank is by being sequentially installed with the first conductivity sensor, nitrogenous fertilizer solenoid valve, nitrogenous fertilizer meter
The pipeline of amount pump is connect with nitrogenous fertilizer tank;The blending tank is by being sequentially installed with the second conductivity sensor, phosphate fertilizer solenoid valve, phosphate fertilizer
The pipeline of metering pump is connect with phosphate fertilizer tank;The lower part of the blending tank is equipped with irrigation water conveyance conduit;
The irrigation control system includes PLC control system and sun-generated electric power;The PLC control system respectively with the sun
It can power supply, water source motor-driven valve, potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump, the first conductivity sensor, nitrogenous fertilizer electromagnetism
Valve, nitrogenous fertilizer metering pump, the second conductivity sensor, phosphate fertilizer solenoid valve are connected with phosphate fertilizer metering pump.
As shown in Figs. 1-2, a kind of water conservancy irrigation device based on heliotechnics, including potash fertilizer metering pump 1, nitrogenous fertilizer meter
Amount pump 2, water source motor-driven valve 3, phosphate fertilizer metering pump 4, potash fertilizer solenoid valve 5, nitrogenous fertilizer solenoid valve 6, phosphate fertilizer solenoid valve 7, potassium ion sensing
Device 8, the second conductivity sensor 10, blending tank, circulating pump 12, circulating pump solenoid valve 13, irrigates water power at first conductivity sensor 9
Dynamic valve 14, third conductivity sensor 15, phosphate fertilizer tank 16, nitrogenous fertilizer tank 17, potash fertilizer tank 18, potassium resource solenoid valve 19, nitrogen source solenoid valve 20,
Phosphorus source solenoid valve 21, potassium resource metering pump 22, nitrogen source metering pump 23, phosphorus source metering pump 24, potassium resource storage tank 25, nitrogen source storage tank 26
With phosphorus source storage tank 27.
Further, the irrigation rig further includes circulation mixing arrangement;The circulation mixing arrangement includes circulating pump, follows
Ring pumps solenoid valve and third conductivity sensor;The lower part of the blending tank is by being sequentially installed with third conductivity sensor, circulation
The top of the pipeline and blending tank that pump solenoid valve and circulating pump connects;The PLC control system is electric with circulating pump, circulating pump respectively
Magnet valve is connected with third conductivity sensor.
Further, the irrigation water conveyance conduit is equipped with irrigation water motor-driven valve;The irrigation water conveyance conduit passes through
Irrigation water motor-driven valve is connected with the pipeline that both ends are connect with third conductivity sensor and circulating pump solenoid valve respectively;The irrigation water
Motor-driven valve is connect with PLC control system.
In order to which the uniform speed for mixing the solution in blending tank is quicker, circulation is also provided on the blending tank
Mixing arrangement;Circulation mixing is carried out to the solution in blending tank by circulating pump solenoid valve and circulating pump, when third conductance senses
When the data that device 15 detects tend to be steady and fluctuate little in 10min, illustrate that the solution in blending tank at this time is uniformly mixed, this
When PLC control system control loop pump solenoid valve close, open simultaneously irrigation water motor-driven valve to field to be irrigated conveying filled
It irrigates.
Further, the irrigation rig further includes proportioner;The proportioner includes that potassium resource storage tank, nitrogen source are deposited
Storage tank and phosphorus source storage tank;The potassium resource storage tank is by being sequentially installed with the pipeline and potassium of potassium resource metering pump and potassium resource solenoid valve
Fertile tank connection;The nitrogen source storage tank is connected by the pipeline and nitrogenous fertilizer tank for being sequentially installed with nitrogen source metering pump and nitrogen source solenoid valve
It connects;Phosphorus source storage tank is connect by being sequentially installed with the pipeline of phosphorus source metering pump and phosphorus source solenoid valve with phosphate fertilizer tank;It is described
PLC control system respectively with potassium resource metering pump, potassium resource solenoid valve, nitrogen source metering pump, nitrogen source solenoid valve, phosphorus source metering pump and phosphorus source
Solenoid valve connection.
For the ease of automatic feed, the irrigation rig of the utility model further includes proportioner;Proportioner includes potassium resource
Storage tank, nitrogen source storage tank and phosphorus source storage tank;It is corresponding molten to being supplemented in potash fertilizer tank 18, nitrogenous fertilizer tank 17 and phosphate fertilizer tank 16 respectively
Liquid meets the needs of automatic running;It ensure that further through potassium resource metering pump 22, nitrogen source metering pump 23 and phosphorus source metering pump 24 each
The accuracy of feed liquor in storage tank;Increase simultaneously further through setting potassium resource solenoid valve 19, nitrogen source solenoid valve 20 and phosphorus source solenoid valve 21
Control when strong ingredient.
Further, there are Klorvess Liquid or potassium nitrate solution in the potassium resource storage tank;Have in nitrogen source storage tank
Ammonium nitrate solution;There are ammonium phosphate or potassium phosphate solution in phosphorus source storage tank.
Further, there is potassium nitrate solution in the potassium resource storage tank.
The utility model is not limited to above-mentioned optional embodiment, anyone can obtain under the enlightenment of the utility model
Other various forms of products, however, making any variation in its shape or structure, all the utility model rights that falls into are wanted
The technical solution in confining spectrum is sought, is all fallen within the protection scope of the utility model.
Claims (6)
1. a kind of water conservancy irrigation device based on heliotechnics, it is characterised in that: including irrigation rig and irrigation control system;
The irrigation rig includes blending tank, phosphate fertilizer tank, nitrogenous fertilizer tank and potash fertilizer tank;The blending tank is by being equipped with water source motor-driven valve
Pipeline is connect with water source;The blending tank is by being sequentially installed with the pipe of potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump
Road is connect with potash fertilizer tank;The blending tank is by being sequentially installed with the first conductivity sensor, nitrogenous fertilizer solenoid valve, nitrogenous fertilizer metering pump
Pipeline is connect with nitrogenous fertilizer tank;The blending tank is by being sequentially installed with the second conductivity sensor, phosphate fertilizer solenoid valve, phosphate fertilizer metering pump
Pipeline connect with phosphate fertilizer tank;The lower part of the blending tank is equipped with irrigation water conveyance conduit;
The irrigation control system includes PLC control system and sun-generated electric power;The PLC control system respectively with solar-electricity
Source, water source motor-driven valve, potassium ion sensor, potash fertilizer solenoid valve, potash fertilizer metering pump, the first conductivity sensor, nitrogenous fertilizer solenoid valve, nitrogen
Fertile metering pump, the second conductivity sensor, phosphate fertilizer solenoid valve are connected with phosphate fertilizer metering pump.
2. a kind of water conservancy irrigation device based on heliotechnics according to claim 1, it is characterised in that: the irrigation
Device further includes circulation mixing arrangement;The circulation mixing arrangement includes circulating pump, circulating pump solenoid valve and third conductance sensing
Device;The lower part of the blending tank by be sequentially installed with the pipeline of third conductivity sensor, circulating pump solenoid valve and circulating pump with
The top of blending tank connects;The PLC control system connects with circulating pump, circulating pump solenoid valve and third conductivity sensor respectively
It connects.
3. a kind of water conservancy irrigation device based on heliotechnics according to claim 2, it is characterised in that: the irrigation
Water conveyance conduit is equipped with irrigation water motor-driven valve;The irrigation water conveyance conduit is by irrigation water motor-driven valve and both ends respectively with the
The pipeline connection that three conductivity sensors are connected with circulating pump solenoid valve;The irrigation water motor-driven valve is connect with PLC control system.
4. a kind of water conservancy irrigation device based on heliotechnics according to claim 3, it is characterised in that: the irrigation
Device further includes proportioner;The proportioner includes potassium resource storage tank, nitrogen source storage tank and phosphorus source storage tank;The potassium resource
Storage tank is connect by being sequentially installed with the pipeline of potassium resource metering pump and potassium resource solenoid valve with potash fertilizer tank;The nitrogen source storage tank is logical
It crosses and is sequentially installed with the pipeline of nitrogen source metering pump and nitrogen source solenoid valve and is connect with nitrogenous fertilizer tank;Phosphorus source storage tank is by successively pacifying
Pipeline equipped with phosphorus source metering pump and phosphorus source solenoid valve is connect with phosphate fertilizer tank;The PLC control system respectively with potassium resource metering pump,
Potassium resource solenoid valve, nitrogen source metering pump, nitrogen source solenoid valve, phosphorus source metering pump are connected with phosphorus source solenoid valve.
5. a kind of water conservancy irrigation device based on heliotechnics according to claim 4, it is characterised in that: the potassium resource
There are Klorvess Liquid or potassium nitrate solution in storage tank;There is ammonium nitrate solution in nitrogen source storage tank;It is deposited in phosphorus source storage tank
There are ammonium phosphate or potassium phosphate solution.
6. a kind of water conservancy irrigation device based on heliotechnics according to claim 5, it is characterised in that: the potassium resource
There is potassium nitrate solution in storage tank.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112219525A (en) * | 2020-10-19 | 2021-01-15 | 湖南皖湘科技有限公司 | Organic cultivation water and fertilizer integrated system and control method |
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2018
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112219525A (en) * | 2020-10-19 | 2021-01-15 | 湖南皖湘科技有限公司 | Organic cultivation water and fertilizer integrated system and control method |
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