CN202218546U - Full automatic greenhouse control system - Google Patents

Abstract

The utility model discloses a full automatic control greenhouse system, comprising a power supply module, a microcontroller, a sensor group and a control device group, wherein the sensor group and the control device group are connected with the microcontroller; also comprising a display module, a storage module, a touch screen and a PC, wherein the display module, the storage module and the touch screen are connected with the microcontroller, the is connected with the microcontroller by the communication module. The utility model has the advantages of high practicability, good accuracy and realization of full automatic control and detection by common use of the temperature controller and the PC and is free from the limit of season, climate and other natural factors and prevents the malfunction due to manual operation.

Description

Full-automatic greenhouse control system

Technical field

The utility model relates to automation control area, relates in particular to a kind of full-automatic greenhouse control system.

Background technology

Greenhouse is claimed in the greenhouse again, is used for the facility of cultivated plant.In the season of unsuitable plant growing, can be provided breeding time and increase output, be used for plant cultivation such as low temperature season warm season vegetable, flowers, forest more or grow seedlings etc.But temperature, humidity, illumination and the air circulation equal controller in the greenhouse is by manual operation mostly at present, can not realize in real time, control accurately effect; Existing in addition greenhouse controller only can be realized simple several kinds of control modes; Realize various control if desired; Such as: temperature control, humidity control, illumination control or the like; The controller of a plurality of difference in functionalitys then need be installed, and this has not only increased many troubles to control, and has increased cost of investment.Also have the power module of existing temperature control system often to insert, can not reach the purpose of energy-saving and environmental protecting with civil power.

Summary of the invention

To the problem that above-mentioned prior art exists, the utility model provides a kind of full-automatic greenhouse control system.

To achieve these goals; The technical scheme that the utility model adopts is: a kind of full-automatic greenhouse control system; Comprise power module, microcontroller, sensor groups and control appliance group, sensor groups, control appliance group all link to each other with microcontroller, also comprise display module, memory module, touch-screen and PC; Display module, memory module, touch-screen all link to each other with microcontroller, and PC links to each other with microcontroller through communication module.

As preferably; Power module comprises solar panel, wind-driven generator, wind light mutual complementing controller, accumulator and DC/AC modular converter; Solar panel links to each other with the input of wind-driven generator with the wind light mutual complementing controller, and accumulator links to each other with the output of DC/AC modular converter with the wind light mutual complementing controller.

As preferably, accumulator links to each other with sensor groups with microcontroller respectively, and the DC/AC modular converter links to each other with control appliance.

As preferably, sensor groups comprises temperature sensor, humidity sensor, optical sensor, gas concentration lwevel sensor and oxygen concentration sensor.

As preferably, control appliance comprises and increases cooling system, humidification apparatus, light irradiation apparatus, drip irrigation equipment and carbon-dioxide generator.

As preferably, display module is a LCD display.

Compared with prior art; The advantage of the utility model is: practicality is high, accuracy good; Temperature controller and PC can realize full-automatic control jointly and detect, and do not receive the restriction of season, weather or other natural causes, avoid the manually-operated error that causes; Integrated level is high, and integrated various control function has reduced cost of investment; Easy and simple to handle, be suitable for marketing; Power module adopts wind energy and the power supply of solar energy complementary type, energy-saving and environmental protecting.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is the power module structural representation of the utility model.

Embodiment

To combine accompanying drawing that the utility model is described further below.

As a kind of embodiment of the utility model, consult Fig. 1, the utility model comprises a kind of full-automatic greenhouse control system; Comprise power module, microcontroller, sensor groups and control appliance group; Microcontroller can adopt single-chip microcomputer, and is with low cost, and control accurately; Sensor groups, control appliance group all link to each other with microcontroller, also comprise display module, memory module, touch-screen and PC, and display module, memory module, touch-screen all link to each other with microcontroller, and PC links to each other with microcontroller through communication module.Power module comprises solar panel, wind-driven generator, wind light mutual complementing controller, accumulator and DC/AC modular converter; Solar panel links to each other with the input of wind-driven generator with the wind light mutual complementing controller, and accumulator links to each other with the output of DC/AC modular converter with the wind light mutual complementing controller.Accumulator links to each other with sensor groups with microcontroller respectively, and the DC/AC modular converter links to each other with control appliance.Sensor groups comprises temperature sensor, humidity sensor, optical sensor, gas concentration lwevel sensor and oxygen concentration sensor.Control appliance comprises and increases cooling system, humidification apparatus, light irradiation apparatus, drip irrigation equipment and carbon-dioxide generator, can be respectively under the control of microcontroller to the greenhouse increase cooling, humidification, illumination be provided, drip irrigation and release of carbon dioxide.Display module is a LCD display, and friendly interface is easy and simple to handle.

The control appliance in the greenhouse can controlled and detect to temperature controller in real time, do not receive the restriction of season, weather or other natural causes.Sensor groups is gathered the relevant environment data in the greenhouse, and after microcontroller was handled, temperature, humidity, illumination and gas concentration lwevel etc. in the greenhouse were controlled in drive control apparatus work real-time and accurately.Touch-screen can the scene be operated and is regulated and control, and display module can accurately show field data, makes things convenient for the staff to write down related data.PC links to each other with microcontroller through communication module, can also long-range controlling, realize full-automatic control and detection jointly with microcontroller.PC links to each other with microcontroller through communication module, thereby can control microprocessor control whole system, can also the data that collect stored and analyze simultaneously.

Consult Fig. 2; Power module comprises solar panel, wind-driven generator, wind light mutual complementing controller, accumulator and DC/AC modular converter; Solar panel links to each other with the input of wind-driven generator with the wind light mutual complementing controller, and accumulator links to each other with the output of DC/AC modular converter with the wind light mutual complementing controller.Accumulator links to each other with sensor groups with microcontroller respectively, and the DC/AC modular converter links to each other with control appliance.Not only can utilize solar energy can also utilize wind energy to carry out complementation the energy is provided, avoid the use of mains-supplied, energy-saving and environmental protecting.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the utility model.Multiple modification to these embodiment will be conspicuous concerning those skilled in the art, and defined General Principle can realize under the situation in spirit that does not break away from the utility model or the scope in other embodiments among this paper.Therefore, the utility model will can not be limited to these embodiment shown in this paper, but will accord with principle disclosed herein and features of novelty the wideest corresponding to scope.

Claims (6)

1. full-automatic greenhouse control system; Comprise power module, microcontroller, sensor groups and control appliance group; Said sensor groups, control appliance group all link to each other with microcontroller; It is characterized in that: also comprise display module, memory module, touch-screen and PC, said display module, memory module, touch-screen all link to each other with microcontroller, and said PC links to each other with microcontroller through communication module.

2. full-automatic greenhouse control system according to claim 1; It is characterized in that: said power module comprises solar panel, wind-driven generator, wind light mutual complementing controller, accumulator and DC/AC modular converter; Said solar panel links to each other with the input of wind-driven generator with the wind light mutual complementing controller, and said accumulator links to each other with the output of DC/AC modular converter with the wind light mutual complementing controller.

3. full-automatic greenhouse control system according to claim 1 and 2 is characterized in that: said accumulator links to each other with sensor groups with microcontroller respectively, and said DC/AC modular converter links to each other with control appliance.

4. full-automatic greenhouse control system according to claim 1 is characterized in that: said sensor groups comprises temperature sensor, humidity sensor, optical sensor, gas concentration lwevel sensor and oxygen concentration sensor.

5. full-automatic greenhouse control system according to claim 1 is characterized in that: said control appliance comprises and increases cooling system, humidification apparatus, light irradiation apparatus, drip irrigation equipment and carbon-dioxide generator.

6. full-automatic greenhouse control system according to claim 1 is characterized in that: said display module is a LCD display.