CN207653110U - A kind of greenhouse control system with seawater planting crops - Google Patents

Abstract

The utility model discloses a kind of greenhouse control system with seawater planting crops, including pedestal, pedestal is arranged in ground surface hereinafter, setting and waterproof layer on base internal wall, and planting soil layer is provided on waterproof layer；Pedestal both ends are connected by the keel shoe of arc, and greenhouse wall is provided on keel shoe；The angle on ground is provided with salina in greenhouse；Control system includes central processing unit, low-voltage power circuit, and the input terminal of low-voltage power circuit is connected with mains supply, and power circuit output end is electrically connected with central processing unit；The first temperature sensor is provided in salina, the output end of the first temperature sensor is connected with signal conditioning circuit, and the input terminal of signal conditioning circuit is connected with the first temperature sensor.Water source of the seawater as agricultural production can be used, improve the utility value of seawater；And saline and alkaline, desert region soil sunlight resource can be made full use of, provide more food sources for people.

Description

A kind of greenhouse control system with seawater planting crops

Technical field

The utility model is related to a kind of greenhouses, more particularly to a kind of greenhouse control system with seawater planting crops.

Background technology

Green house of vegetables is a kind of frame structure of film with outstanding heat-insulating property, it occurs that people are had Vegetables in improper season.General green house of vegetables is covered with one or more layers insulating plastic pipe above using bamboo structure or the skeleton of steel construction Film, material is thus formed a greenhouse spaces.Outer membrane prevents the loss of carbon dioxide caused by internal vegetable growth well, Make that there is good heat insulation effect in canopy.

Water resource is to be not only widely used in agricultural, work in the resource for producing with being utilized extensively in life activity by the mankind Industry and life are additionally operable to power generation, water transport, aquatic products, tourism and environmental reconstruction etc..A variety of different on the way, has plenty of consumption With water, some is then non-expendable or the use water of consumption very little, and the requirement to water quality is different.This is to make water resource one Water is multi-purpose, fully develops the advantage of its comprehensive benefit.Global fresh water extremely lacks, and especially special climate is formed Salt-soda soil, seashore desert climate, having a large amount of water sources in vain cannot be fully used.

Utility model content

The goal of the invention of the utility model is：In view of the above problems, a kind of seawater planting agriculture is provided The greenhouse control system of crop can use water source of the seawater as agricultural production, improve the utility value of seawater；And it can be fully Using saline and alkaline, desert region soil sunlight resource, more food sources are provided for people.

The technical solution adopted in the utility model is as follows：

A kind of greenhouse control system with seawater planting crops, including pedestal, pedestal are arranged in ground surface hereinafter, pedestal Setting and waterproof layer on inner wall, are provided with planting soil layer on waterproof layer；Pedestal both ends are connected by the keel shoe of arc, keel shoe On be provided with greenhouse wall；The angle on ground is provided with salina in greenhouse；Control system include central processing unit, The input terminal of low-voltage power circuit, low-voltage power circuit is connected with mains supply, power circuit output end and central processing unit Electrical connection；The first temperature sensor is provided in salina, the output end of the first temperature sensor is connected with signal condition Circuit, the input terminal of signal conditioning circuit are connected with the first temperature sensor, and the output end of signal conditioning circuit is connected with A/D and turns The input terminal for changing circuit is connected, and the signal output end of A/D conversion circuits is connected with central processing unit signal.

Further, the utility model discloses a kind of preferred knots of the greenhouse control system with seawater planting crops Structure, the pedestal upper value have multiple supporting racks, supporting rack to be connected with the middle part of keel shoe, condenser pipe are provided between supporting rack； The water inlet of condenser pipe is provided with second temperature sensor, the input of the output end and signal conditioning circuit of second temperature sensor End is connected.

Further, the greenhouse is nearby provided with seawater storage pool, further includes water circulating pump, the input terminal of water circulating pump It is connected with seawater storage pool, the output end of water circulating pump is connected with the input terminal of condenser pipe；It is provided in the shaft of water circulating pump Circulation motor；Be provided with flow sensor in the water inlet of water circulating pump or water outlet, the signal output end of flow sensor with The input terminal of signal conditioning circuit is connected；Control system includes motor-drive circuit, and the signal input part of motor-drive circuit is used Central control unit is connected, and the electrical energy inputs of motor-drive circuit are connected with mains supply, the output end of motor-drive circuit It is electrically connected with circulation motor.

Further, the output end of the condenser pipe is connected by pipeline with salina, the output of salina End is connected by pipeline with seawater storage pool；Solenoid valve is provided on pipeline, control system includes driving circuit for electromagnetic valve, electromagnetism The signal input part of valve-driving circuit is connected with central control unit signal, output end and the solenoid valve electricity of driving circuit for electromagnetic valve Connection.

Further, multiple deflectors for guiding flow are set on the greenhouse wall, and deflector is uniformly arranged on greatly On canopy wall；Third temperature sensor, the input of the output end and signal conditioning circuit of third temperature sensor are provided in greenhouse End is connected.

In conclusion by adopting the above-described technical solution, the utility model has the beneficial effects that：

1. by the way that the utility model is arranged, the land resource and sunlight in seashore desert can be made full use of, realizes cereal crops Production；

2. by the way that the utility model is arranged, the utilization of seawater can be realized, greenhouse can also be utilized to generate more in process of production More freshwater resources.

Description of the drawings

Fig. 1 is the utility model structure diagram；

It is marked in figure：1 is pedestal, and 2 be waterproof layer, and 3 be planting soil layer, and 4 be salina, and 5 be ground, and 6 be keel Frame, 7 be deflector, and 8 be greenhouse wall, and 9 be supporting rack, and 10 be condenser pipe.

Specific implementation mode

Below in conjunction with the accompanying drawings, the utility model is described in detail.

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

As shown in Figure 1, a kind of greenhouse control system with seawater planting crops, including pedestal 1, pedestal 1 are arranged on ground Surface is provided with planting soil layer 3 on waterproof layer 2 hereinafter, setting and waterproof layer 2 on 1 inner wall of pedestal；1 both ends of pedestal pass through arc Keel shoe 6 be connected, greenhouse wall 8 is provided on keel shoe 6；The angle on ground is provided with salina 4 in greenhouse；Control System processed includes central processing unit, low-voltage power circuit, and the input terminal of low-voltage power circuit is connected with mains supply, power supply electricity Road output end is electrically connected with central processing unit；The first temperature sensor, the first temperature sensor are provided in salina 4 Output end be connected with signal conditioning circuit, the input terminal of signal conditioning circuit is connected with the first temperature sensor, signal condition The input terminal that the output end of circuit is connected with A/D conversion circuits is connected, signal output end and the central processing list of A/D conversion circuits First signal is connected.

Further, 1 upper value of the pedestal has multiple supporting racks 9, supporting rack 9 to be connected with the middle part of keel shoe 6, supporting rack Condenser pipe 10 is provided between 9；The water inlet of condenser pipe 10 is provided with second temperature sensor, the output of second temperature sensor End is connected with the input terminal of signal conditioning circuit.

Further, the greenhouse is nearby provided with seawater storage pool, further includes water circulating pump, the input terminal of water circulating pump It is connected with seawater storage pool, the output end of water circulating pump is connected with the input terminal of condenser pipe 10；It is arranged in the shaft of water circulating pump There is circulation motor；Flow sensor, the signal output end of flow sensor are provided in the water inlet of water circulating pump or water outlet It is connected with the input terminal of signal conditioning circuit；Control system includes motor-drive circuit, the signal input part of motor-drive circuit It is connected with central control unit, the electrical energy inputs of motor-drive circuit are connected with mains supply, the output of motor-drive circuit End is electrically connected with circulation motor.

Further, the output end of the condenser pipe 10 is connected by pipeline with salina 4, salina 4 Output end is connected by pipeline with seawater storage pool；Solenoid valve is provided on pipeline, control system includes driving circuit for electromagnetic valve, The signal input part of driving circuit for electromagnetic valve is connected with central control unit signal, the output end and electromagnetism of driving circuit for electromagnetic valve Valve is electrically connected.

Further, multiple deflectors 7 for guiding flow are set on the greenhouse wall 8, and deflector 7 is uniformly arranged on On greenhouse wall 8；Be provided with third temperature sensor in greenhouse, the output end of third temperature sensor and signal conditioning circuit it is defeated Enter end to be connected.

When specifically used, greenhouse is built by the sea or the water source side in salt-soda soil, filling can be planted directly in greenhouse Greenhouse is sealed and be can be used by soil.

Carrying out practically process, after sun rise comes, the temperature of greenhouse increases, and vapor is full of in greenhouse；Then it recycles Electric motor starting, circulation motor drive water circulating pump operating, water circulating pump by seawater storage pool low temperature seawater or saline-alkali water inhale Enter, and be transported in condenser pipe 10, the temperature of condenser pipe 10 reduces, and the Water vapor condensation in greenhouse is on condenser pipe 10, then Water droplet is instilled from condenser pipe 10 in soil, is watered for soil.Meanwhile the temperature of greenhouse can be reduced, improve the speed of growth of crop. In the process of running, the temperature of seawater gradually rises condenser pipe 10, then injects the seawater of heating in salina 4, sea Water evaporates in salina 4, and more moisture are provided for greenhouse.

As time goes by, the hot water in salina 4 gradually increases, when the temperature of greenhouse is reduced to photosynthesis most After excellent critical point, circulation motor is closed, and condenser pipe 10 is out of service.Hot water in salina 4 can provide heat for greenhouse, Prevent greenhouse temperature is too low from plant being caused to be damaged by frost.Under the low temperature environment at night, the Water vapor condensation in greenhouse is in greenhouse wall 8 On, it is then flowed back on crop along deflector 7, without returning in salina 4.

The seawater to cool down is input in seawater storage pool by morning, salina 4, repeats above follow Ring.In this way, greenhouse-environment can be utilized, fresh water is much constantly manufactured, for crop growth.

To the later stage, after the fresh water of production is more than the growth demand of crop, by being provided with guiding device on condenser pipe 10 In fresh water collecting to container, the production of fresh water will be realized.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model Protection domain within.

Claims (5)

1. a kind of greenhouse control system with seawater planting crops, it is characterised in that：Including pedestal（1）, pedestal（1）Setting exists Ground surface is hereinafter, pedestal（1）Setting and waterproof layer on inner wall（2）, waterproof layer（2）On be provided with planting soil layer（3）；Pedestal（1） The keel shoe that both ends pass through arc（6）It is connected, keel shoe（6）On be provided with greenhouse wall（8）；It is set with the angle on ground in greenhouse It is equipped with salina（4）；Control system includes central processing unit, low-voltage power circuit, the input terminal of low-voltage power circuit It is connected with mains supply, power circuit output end is electrically connected with central processing unit；Salina（4）Inside it is provided with the first temperature Sensor is spent, the output end of the first temperature sensor is connected with signal conditioning circuit, the input terminal of signal conditioning circuit and first Temperature sensor is connected, and the input terminal that the output end of signal conditioning circuit is connected with A/D conversion circuits is connected, A/D conversion circuits Signal output end be connected with central processing unit signal.

2. a kind of greenhouse control system with seawater planting crops as described in claim 1, it is characterised in that：The pedestal （1）Upper value has multiple supporting racks（9）, supporting rack（9）With keel shoe（6）Middle part be connected, supporting rack（9）Between be provided with condensation Pipe（10）；Condenser pipe（10）Water inlet be provided with second temperature sensor, output end and the signal tune of second temperature sensor The input terminal for managing circuit is connected.

3. a kind of greenhouse control system with seawater planting crops as claimed in claim 2, it is characterised in that：The greenhouse It nearby is provided with seawater storage pool, further includes water circulating pump, the input terminal of water circulating pump is connected with seawater storage pool, water circulating pump Output end and condenser pipe（10）Input terminal be connected；It is provided with circulation motor in the shaft of water circulating pump；Water circulating pump into Flow sensor, the signal output end of flow sensor and the input terminal phase of signal conditioning circuit are provided on water or water outlet Even；Control system includes motor-drive circuit, and the signal input part of motor-drive circuit is connected with central control unit, and motor drives The electrical energy inputs of dynamic circuit are connected with mains supply, and the output end of motor-drive circuit is electrically connected with circulation motor.

4. a kind of greenhouse control system with seawater planting crops as claimed in claim 3, it is characterised in that：The condensation Pipe（10）Output end pass through pipeline and salina（4）It is connected, salina（4）Output end pass through pipeline and seawater Storage pool is connected；Solenoid valve is provided on pipeline, control system includes driving circuit for electromagnetic valve, the signal of driving circuit for electromagnetic valve Input terminal is connected with central control unit signal, and the output end of driving circuit for electromagnetic valve is electrically connected with the solenoid valve.

5. a kind of greenhouse control system with seawater planting crops as claimed in claim 4, it is characterised in that：The greenhouse Wall（8）The upper multiple deflectors for guiding flow of setting（7）, deflector（7）It is uniformly arranged on greenhouse wall（8）On；In greenhouse It is provided with third temperature sensor, the output end of third temperature sensor is connected with the input terminal of signal conditioning circuit.