CN204836032U - Complementary electricity generation control system of scene - Google Patents

Abstract

The utility model relates to an electricity generation control system technical field, especially a complementary electricity generation control system of scene, including solar cell panel and wind generator system, still include battery and controller, the controller is connected with sensing data detecting element, the battery is connected with the controller through the electric quantity detection unit, solar cell panel and wind generator system are connected with the battery through the defeated entry control unit that charges respectively, the controller is connected with the defeated entry control unit that charges through control switch. After the structure of the oil adding device is adopted, the utility model discloses an optical line sensors soft breeze level sensor detects current light intensity and amount of wind size, then judges with which kind of electricity generation to give first place to, adopt the unit electricity generation that the electric energy output is high through the defeated entry control unit control that charges then through the controller.

Description

Wind-solar hybrid generation control system

Technical field

The utility model relates to power-generating control system technical field, particularly a kind of wind-solar hybrid generation control system.

Background technology

Wind and solar hybrid generating system is the complementarity utilizing wind energy and solar energy resources, has a kind of novel energy electricity generation system compared with high performance-price ratio, has good application prospect.

Chinese invention patent CN101707381A discloses a kind of wind-solar hybrid generation control system, comprise solar energy load device, this system is by wind power generation blade, solar panel, permagnetic synchronous motor, storage battery, microcomputer control system forms, wherein permagnetic synchronous motor is two and is connected with storage battery, and be connected with wind power generation blade respectively at solar panel, wind light mutual complementing power generation can be the device of electric energy by luminous energy and wind energy transformation, overcome the defect that single luminous energy or wind energy transformation are the device of electric energy, wind-solar hybrid generation control system structure of the present invention is simple simultaneously, functional intellectualization, cost is low, be suitable for suitability for industrialized production, be easy to promote.But which kind of systems generate electricity the present invention cannot select automatically.

Summary of the invention

The utility model technical issues that need to address.

For solving above-mentioned technical problem, wind-solar hybrid generation control system of the present utility model, comprise solar panel and wind generator system, also comprise storage battery and controller, described controller is connected with sensing data detecting unit, and described storage battery is connected with controller by electric power detection unit; Described solar panel is connected with storage battery respectively by charging Input Control Element with wind generator system, and described controller is connected with charging Input Control Element by control switch.

Further, described sensing data detecting unit comprises light sensor and air flow sensor.

Further, described control switch comprises the first relay and the second relay, described charging Input Control Element comprises the first charging Input Control Element and the second charging Input Control Element, described first charging Input Control Element is connected between solar panel and storage battery, described second charging Input Control Element is connected between wind generator system and storage battery, described first relay and first Input Control Element that charges is connected, and described second relay and second Input Control Element that charges is connected.

After adopting said structure, the utility model detects current light intensity and air force by light sensor and air flow sensor, then judge based on which kind of generating by controller, then controlled the unit generating adopting electric energy output high by charging Input Control Element.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is the structured flowchart of the utility model wind-solar hybrid generation control system.

In figure: 1 is controller, 2 is electric power detection unit, and 3 is storage battery, 4 is load, 5 is solar panel, and 6 is the first charging Input Control Element, and 7 is wind generator system, 8 is the second charging Input Control Element, 9 is sensing data detecting unit, and 10 is the first relay, and 11 is the second relay, 901 is light sensor, and 902 is air flow sensor

Embodiment

As shown in Figure 1, wind-solar hybrid generation control system of the present utility model, comprise solar panel 5 and wind generator system 7, also comprise storage battery 3 and controller 1, described controller 1 is connected with sensing data detecting unit 9, and described storage battery 3 is connected with controller 1 by electric power detection unit 2.Described solar panel 5 is connected with storage battery 3 respectively by charging Input Control Element with wind generator system 6, and described controller 1 is connected with charging Input Control Element by control switch.Charging is stopped by charging Input Control Element when electric power detection unit 2 detects that storage battery 3 electricity is full.

Further, described sensing data detecting unit 9 comprises light sensor 901 and air flow sensor 902.Detected light luminance and the air quantity of current environment by light sensor 901 and air flow sensor 902 respectively, and the data collected are sent to controller 1, controller 1 judges it is adopt solar power generation or wind power generation, carries out complementation.

Further, described control switch comprises the first relay 10 and the second relay 11, described charging Input Control Element comprises the first charging Input Control Element 6 and the second charging Input Control Element 8, described first charging Input Control Element 6 is connected between solar panel 5 and storage battery 2, described second charging Input Control Element 8 is connected between wind generator system 7 and storage battery 3, described first relay 10 and first Input Control Element 6 that charges is connected, and described second relay 11 and second Input Control Element 8 that charges is connected.

Although the foregoing describe embodiment of the present utility model; but those skilled in the art are to be understood that; these only illustrate; various changes or modifications can be made to present embodiment; and not deviating from principle of the present utility model and essence, protection range of the present utility model is only defined by the appended claims.

Claims (3)

1. a wind-solar hybrid generation control system, comprise solar panel and wind generator system, it is characterized in that: also comprise storage battery and controller, described controller is connected with sensing data detecting unit, and described storage battery is connected with controller by electric power detection unit; Described solar panel is connected with storage battery respectively by charging Input Control Element with wind generator system, and described controller is connected with charging Input Control Element by control switch.

2. according to wind-solar hybrid generation control system according to claim 1, it is characterized in that: described sensing data detecting unit comprises light sensor and air flow sensor.

3. according to wind-solar hybrid generation control system according to claim 1, it is characterized in that: described control switch comprises the first relay and the second relay, described charging Input Control Element comprises the first charging Input Control Element and the second charging Input Control Element, described first charging Input Control Element is connected between solar panel and storage battery, described second charging Input Control Element is connected between wind generator system and storage battery, described first relay and first Input Control Element that charges is connected, described second relay and second Input Control Element that charges is connected.