CN202904323U

CN202904323U - Solar energy control system

Info

Publication number: CN202904323U
Application number: CN2012203720956U
Authority: CN
Inventors: 王维廷
Original assignee: HEC SOLAR ENERGY HIGH TECHNOLOGY Co Ltd
Current assignee: HEC SOLAR ENERGY HIGH TECHNOLOGY Co Ltd
Priority date: 2012-07-27
Filing date: 2012-07-27
Publication date: 2013-04-24
Anticipated expiration: 2022-07-27

Abstract

The utility model discloses a solar energy control system. The system comprises a controller, a solar energy power supply control subsystem, a solar energy water pump subsystem, a solar energy heating control subsystem and a data acquisition subsystem, wherein the controller generates and sends a control instruction; the solar energy power supply control subsystem is connected with the controller, is used to generate electric energy and output the electric energy for a greenhouse according to a power supply instruction in the control instruction; the solar energy water pump subsystem is connected with the controller, is used to acquire water and output the water for the greenhouse according to a water supply instruction in the control instruction; the solar energy heating control subsystem is connected with the controller, is used to generate heat energy and output the heat energy for the greenhouse according to a heating instruction in the control instruction; and the data acquisition subsystem is connected with the controller and is used to collect an environmental parameter of the greenhouse. According to the system of the utility model, the greenhouse can be managed automatically, which is stable and environmental-protection.

Description

Solar control system

Technical field

The utility model relates to control field, in particular to a kind of solar control system.

Background technology

Traditional booth refers to do skeleton with materials such as bamboo rod, cement pole, light steel tube or tubing, covered with plastic film and become the material shed of arch-shaped.In booth, carry out interior winter protection with multilayer film, temperature in the canopy is mainly from solar radiation, warm oneself by modes such as straw screen or mat, boilers, adopt these heating modes to need a large amount of material and human cost, and these modes are unstable, pollute the environment and need to carry out manual control and adjustment, especially be difficult to reach the effect of wanting in partially cold area.Aspect power supply, mainly adopt mains-supplied.Because booth is generally all built place away from the urban district in, no matter be that laying-out or the manual control in later stage in early stage all needs a large amount of manpower and materials costs, and mains-supplied is a kind of power supply mode of dangerous, not environmental protection.Aspect water supply, generally adopt the manual watering, manpower that need to be a large amount of and time cost are managed and are safeguarded.Therefore the management of traditional booth needs a large amount of human cost and dangerous unstable not environmental protection with maintenance.

Need to consume the problem of a large amount of human costs and dangerous unstable not environmental protection for the management maintenance booth of correlation technique, not yet propose at present effective solution.

The utility model content

Need to consume the problem of a large amount of human costs and dangerous unstable not environmental protection for the management maintenance booth of correlation technique, effective solution is not yet proposed at present, for this reason, fundamental purpose of the present utility model is to provide a kind of solar control system, to address the above problem.

To achieve these goals, provide a kind of solar control system according to the utility model, this system comprises: controller generates and sends steering order; Solar powered control subsystem is connected with controller, for generation of electric energy, and comes to be booth output electric energy according to the power supply instruction in the steering order; The solar water pump subsystem is connected with controller, is used for obtaining water, and comes to be booth output water according to the water supply instruction in the steering order; The solar heating control subsystem is connected with controller, be used for to generate heat energy, and is that booth is carried heat energy according to the heating instruction in the steering order; Data acquisition subsystem is connected with controller, is used for gathering the environmental parameter of booth.

Further, solar powered control subsystem comprises: power supply monitoring system, and for the power switch of controlling one or more equipment according to the power supply instruction, sun power is from the net power generation sub-system, be connected with power supply monitoring system, the equipment that is used to power supply monitoring system to control provides electric energy.

Further, sun power comprises from the net power generation sub-system: the first solar panel is used for receiving sun power, and converts solar energy into electrical energy; Accumulator is connected with controller for solar, the electric energy that generates for storage controller for solar conversion solar energy; Controller for solar is connected between the first solar panel and the accumulator, is used for control and monitors discharging and recharging between the first solar panel and the accumulator.

Further, the solar water pump subsystem comprises: the second solar panel is used for receiving sun power, and converts solar energy into electrical energy; Water pump is used for the water that is extracted into is saved in water tank; Water pump controller is connected between the second solar panel and the water pump, draws water from underground for carrying out by the solar control water pump according to the water supply instruction, and water level, the flow direction and the irrigation time of monitoring Water in Water Tanks.

Further, the solar heating control subsystem comprises: heat collector is used for converting solar energy into heat energy, and the heat energy that generates is saved in the heat storage can; Heating equipment obtains heat energy from heat storage can; The heating control device is connected between heat storage can and the heating equipment, is used for regulating heating equipment to the flow velocity of booth output heat energy according to the heating instruction.

Further, the solar heating control subsystem also comprises: the heat storage can Monitor And Control Subsystem, be connected with heat storage can, and be used for medium temperature and/or liquid level in the monitoring heat storage can, and the switch of control heat storage can; Heat storage can medium device for supplying is connected between heat storage can Monitor And Control Subsystem and the heat storage can, is used for to replenish medium to heat storage can by the supplementary instructions of heat storage can Monitor And Control Subsystem.

Further, environmental parameter comprises: booth air themperature parameter, booth air humidity parameter, plastic shed soil temperature parameter and plastic shed soil humidity parameter, wherein, data acquisition subsystem comprises: air temperature sensor is used for gathering booth air themperature parameter; Air humidity sensor is used for gathering booth air humidity parameter; Soil temperature sensor is used for gathering the plastic shed soil temperature parameter; And soil humidity sensor, be used for gathering the plastic shed soil humidity parameter.

Further, system also comprises: air interchanger, be connected with controller, and be used for to be the booth ventilation according to the ventilation instruction of steering order; Lighting device is connected with controller, is used for to be the booth illumination according to the lighting instruction of steering order; Plant growth lamp is connected with controller, is used for starting the light that sends the stimulating plant growth according to the open command of steering order.

Further, system also comprises: Monitor And Control Subsystem is used for monitoring booth internal state.

Further, Monitor And Control Subsystem comprises: camera, for the view data that gathers booth; Fire-alarm is used for the monitoring booth and whether has naked light, and send alarm when breaking out of fire.

By the utility model, adopt controller, generate and send steering order; Solar powered control subsystem is connected with controller, for generation of electric energy, and comes to be booth output electric energy according to the power supply instruction in the steering order; The solar water pump subsystem is connected with controller, is used for obtaining water, and comes to be booth output water according to the water supply instruction in the steering order; The solar heating control subsystem is connected with controller, be used for to generate heat energy, and is that booth is carried heat energy according to the heating instruction in the steering order; Data acquisition subsystem is connected with controller, is used for gathering the environmental parameter of booth.Such scheme passes through solar control system, utilize this green energy resource of sun power to provide stable and be not subjected to the heating temperature of regional limits, convenient and safe power supply mode, time saving and energy saving water supply and irrigation method for booth, realize the function of booth automatic management and artificial remote monitoring, solved that the management maintenance booth need to consume the problem of a large amount of human costs and dangerous unstable not environmental protection in the prior art, and then realized the effect of automatic management booth safety and stability environmental protection.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, consists of the application's a part, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation according to the solar control system of the utility model embodiment; And

Fig. 2 is the detailed construction synoptic diagram according to solar control system embodiment illustrated in fig. 1.

Embodiment

Need to prove that in the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

Fig. 1 is the structural representation according to the solar control system of the utility model embodiment; And Fig. 2 is the detailed construction synoptic diagram according to solar control system embodiment illustrated in fig. 1.

As shown in Figure 1, this system comprises: controller 100 generates and sends steering order; Solar powered control subsystem 200 is connected with controller, for generation of electric energy, and comes to be booth output electric energy according to the power supply instruction in the steering order; Solar water pump subsystem 300 is connected with controller, is used for obtaining water, and comes to be booth output water according to the water supply instruction in the steering order; Solar heating control subsystem 400 is connected with controller, be used for to generate heat energy, and is that booth is carried heat energy according to the heating instruction in the steering order; Data acquisition subsystem 500 is connected with controller, is used for gathering the environmental parameter of booth.

Adopt solar control system, by controller steering order is sent to solar powered control subsystem, solar water pump subsystem, solar heating control subsystem and data acquisition subsystem.Solar powered control subsystem produces electric energy, and comes to be booth output electric energy according to the power supply instruction in the steering order; The solar water pump subsystem obtains water, and comes to be booth output water according to the water supply instruction in the steering order; The solar heating control subsystem generates heat energy, and is that booth is carried heat energy according to the heating instruction in the steering order; Data acquisition subsystem gathers the environmental parameter of booth.The application passes through solar control system like this, utilize this green energy resource of sun power to provide stable heating, power supply, water supply and irrigation method for booth, solved that the management maintenance booth need to consume the problem of a large amount of human costs and dangerous unstable not environmental protection in the prior art, and then realized the effect of automatic management booth and safety and stability environmental protection.

In above-described embodiment of the application, as shown in Figure 2, this solar powered control subsystem 200 can comprise: power supply monitoring system, be used for controlling according to the power supply instruction power switch of one or more equipment, sun power is from the net power generation sub-system, be connected with power supply monitoring system, the equipment that is used to power supply monitoring system to control provides electric energy.Wherein, power switch can comprise: the power switch of socket, light fixture, plant growth lamp, air interchanger.

Particularly, power supply monitoring system can be controlled the later use of electric energy.Wherein, power supply monitoring system can be controlled each power switch, also can the monitoring system current voltage, the operating position such as electric weight, can also provide direct supply by direct current jack each controller and equipment in the system.Preferably, power supply monitoring system can preset switching strategy, and can independent operating.

Preferably in above-described embodiment of the application, sun power can comprise from the net power generation sub-system: the first solar panel is used for receiving sun power, and converts solar energy into electrical energy; Accumulator, the electric energy that generates for storage the first solar panel conversion solar energy; Controller for solar is connected between the first solar panel and the accumulator, is used for discharging and recharging between control the first solar panel and the accumulator, and monitoring supply voltage and electric weight.Particularly, the first solar panel is converted into electric energy with the sun power that receives, then by accumulator these power storage are got up, in this process, control charging between the first solar panel and the accumulator by controller for solar, and the electric quantity data that monitors is sent to power supply monitoring system; When needs were powered, accumulator was supplied with solar control system with the electric energy of storage, in this process, by the discharge of controller for solar control accumulator, and the supply voltage that monitors, the data of electric weight was sent to power supply monitoring system.Preferably, sun power provides the energy resource supply of low-voltage DC form from the net power generation sub-system for whole system, and is convenient and safe and pollution-free.

As shown in Figure 2, in the embodiment of the application's solar control system, solar water pump subsystem 300 can comprise: the second solar panel is used for receiving sun power, and converts solar energy into electrical energy; Water pump is used for the water that is extracted into is saved in water tank; Water pump controller is connected between the second solar panel and the water pump, draws water from underground for carrying out by the solar control water pump according to the water supply instruction, and water level, the flow direction and the irrigation time of monitoring Water in Water Tanks.

Particularly, adopt the solar water pump subsystem, underground water can be extracted in the water tank when the weather of the sun is arranged, then, the water in the water tank is guided to each pouring zone by pipeline, the like this irrigation of the booth time saving and energy saving and easy control that becomes.The flow of water depends primarily on the situation at sunshine when wherein, drawing water.

In the above embodiment of the present invention, as shown in Figure 2, this solar heating control subsystem 400 can comprise: heat collector is used for converting solar energy into heat energy, and the heat energy that generates is saved in the heat storage can; Heating equipment obtains heat energy from heat storage can; The heating control device is connected between heat storage can and the heating equipment, is used for regulating heating equipment to the flow velocity of booth output heat energy according to the heating instruction.

Particularly, heating equipment can be realized heating to booth by carrying out heat interchange with heat storage can.Preferably, the heating control device is regulated temperature in the booth by modes such as temperature monitoring, velocity of flow adjusts, by adopting this green energy resource of sun power, for booth provides stable and not controlled by the temperature of regional limits.

Particularly, as shown in Figure 2, this solar heating control subsystem 400 can also comprise: the heat storage can Monitor And Control Subsystem, be connected with heat storage can, and be used for medium temperature and/or liquid level in the monitoring heat storage can, and the switch of control heat storage can; Heat storage can medium device for supplying is connected between heat storage can Monitor And Control Subsystem and the heat storage can, is used for to replenish medium to heat storage can by the supplementary instructions of heat storage can Monitor And Control Subsystem.

Environmental parameter in above-described embodiment can comprise: booth air themperature parameter, booth air humidity parameter, plastic shed soil temperature parameter and plastic shed soil humidity parameter, wherein, data acquisition subsystem 500 as shown in Figure 2 comprises: air temperature sensor is used for gathering booth air themperature parameter; Air humidity sensor is used for gathering booth air humidity parameter; Soil temperature sensor is used for gathering the plastic shed soil temperature parameter; And soil humidity sensor, be used for gathering the plastic shed soil humidity parameter.

According to above-described embodiment of the application, solar control system can also comprise: air interchanger, be connected with controller, and be used for to be the booth ventilation according to the ventilation instruction of steering order; Lighting device is connected with controller, is used for to be the booth illumination according to the lighting instruction of steering order; Plant growth lamp is connected with controller, is used for starting the light that sends the stimulating plant growth according to the open command of steering order.

In above-described embodiment of the application, solar control system can also comprise: Monitor And Control Subsystem is used for monitoring booth internal state.

Particularly, Monitor And Control Subsystem can comprise: camera, for the view data that gathers booth; Fire-alarm is used for the monitoring booth and whether has naked light, and send alarm when breaking out of fire.

Preferably, controller is connected with each control subsystem except Monitor And Control Subsystem, can monitor and Comprehensive Control each control subsystem.Simultaneously all parameters can be carried out teletransmission, thereby realize the remote monitoring to whole booth.

From above description, can find out, the utility model has been realized following technique effect: adopt solar control system, by controller steering order is sent to solar powered control subsystem, solar water pump subsystem, solar heating control subsystem and data acquisition subsystem.Solar powered control subsystem produces electric energy, and comes to be booth output electric energy according to the power supply instruction in the steering order; The solar water pump subsystem obtains water, and comes to be booth output water according to the water supply instruction in the steering order; The solar heating control subsystem generates heat energy, and is that booth is carried heat energy according to the heating instruction in the steering order; Data acquisition subsystem gathers the environmental parameter of booth.The application is by utilizing this green energy resource of sun power to provide stable and be not subjected to the heating temperature of regional limits, convenient and safe power supply mode, time saving and energy saving water supply and irrigation method for booth like this, realize the function of booth automatic management and artificial remote monitoring, solved that the management maintenance booth need to consume the problem of a large amount of human costs and dangerous unstable not environmental protection in the prior art, and then realized the effect of automatic management booth safety and stability environmental protection.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present utility model or each step can realize with general calculation element, they can concentrate on the single calculation element, perhaps be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in the memory storage and be carried out by calculation element, perhaps they are made into respectively each integrated circuit modules, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize.Like this, the utility model is not restricted to any specific hardware and software combination.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims

1. a solar control system is characterized in that, comprising:

Controller generates and sends steering order;

Solar powered control subsystem is connected with described controller, for generation of electric energy, and comes to be booth output electric energy according to the power supply instruction in the described steering order;

The solar water pump subsystem is connected with described controller, is used for obtaining water, and comes to be described booth output water according to the water supply instruction in the described steering order;

The solar heating control subsystem is connected with described controller, be used for to generate heat energy, and is that described booth is carried heat energy according to the heating instruction in the described steering order;

Data acquisition subsystem is connected with described controller, is used for gathering the environmental parameter of described booth.

2. system according to claim 1 is characterized in that, described solar powered control subsystem comprises:

Power supply monitoring system is for the power switch of controlling one or more equipment according to described power supply instruction;

Sun power is connected with described power supply monitoring system from the net power generation sub-system, and the equipment that is used to described power supply monitoring system to control provides electric energy.

3. system according to claim 2 is characterized in that, described sun power comprises from the net power generation sub-system:

The first solar panel is used for receiving sun power, and described sun power is converted into electric energy;

Accumulator is used for storing that described the first solar panel transforms described sun power and the electric energy that generates;

Controller for solar is connected between described the first solar panel and the described accumulator, is used for controlling discharging and recharging between described the first solar panel and the described accumulator, and monitoring supply voltage and electric weight.

4. system according to claim 1 is characterized in that, described solar water pump subsystem comprises:

The second solar panel is used for receiving sun power, and described sun power is converted into electric energy;

Water pump is used for the water that is extracted into is saved in water tank;

Water pump controller is connected between described the second solar panel and the described water pump, draws water from underground for carrying out by the described water pump of solar control according to described water supply instruction, and monitors water level, the flow direction and the irrigation time of described Water in Water Tanks.

5. system according to claim 1 is characterized in that, described solar heating control subsystem comprises:

Heat collector is used for described sun power is converted into heat energy, and the heat energy that generates is saved in the heat storage can;

Heating equipment obtains described heat energy from described heat storage can;

The heating control device is connected between described heat storage can and the described heating equipment, is used for regulating described heating equipment to the flow velocity of booth output heat energy according to described heating instruction.

6. system according to claim 5 is characterized in that, described solar heating control subsystem also comprises:

The heat storage can Monitor And Control Subsystem is connected with described heat storage can, is used for monitoring medium temperature and/or liquid level in the described heat storage can, and controls the switch of described heat storage can;

Heat storage can medium device for supplying is connected between described heat storage can Monitor And Control Subsystem and the described heat storage can, is used for passing through

The supplementary instructions of described heat storage can Monitor And Control Subsystem is replenished medium to described heat storage can.

7. system according to claim 1 is characterized in that, described environmental parameter comprises: booth air themperature parameter, booth air humidity parameter, plastic shed soil temperature parameter and plastic shed soil humidity parameter, and wherein, described data acquisition subsystem comprises:

Air temperature sensor is used for gathering described booth air themperature parameter;

Air humidity sensor is used for gathering described booth air humidity parameter;

Soil temperature sensor is used for gathering described plastic shed soil temperature parameter; And

Soil humidity sensor is used for gathering described plastic shed soil humidity parameter.

8. the described system of any one in 7 according to claim 1 is characterized in that described system also comprises:

Air interchanger is connected with described controller, is used for to be described booth ventilation according to the ventilation instruction of described steering order;

Lighting device is connected with described controller, is used for to be described booth illumination according to the lighting instruction of described steering order;

Plant growth lamp is connected with described controller, is used for starting the light that sends the stimulating plant growth according to the open command of described steering order.

9. the described system of any one in 7 according to claim 1 is characterized in that described system also comprises:

Monitor And Control Subsystem is used for monitoring described booth internal state.

10. system according to claim 9 is characterized in that, described Monitor And Control Subsystem comprises:

Camera is for the view data that gathers described booth;

Fire-alarm is used for monitoring described booth and whether has naked light, and send alarm when breaking out of fire.