CN111342493A - Wireless solar power generation system and working method thereof - Google Patents

Abstract

The invention relates to the technical field of photovoltaic solar energy, in particular to a wireless solar power generation system and a working method thereof. The wireless solar power generation system includes: the power generation unit comprises a plurality of solar panels; the wireless transmitting unit is electrically connected with the power generation unit and is used for transmitting electric energy with the wireless receiving unit of the electric equipment; the control unit is electrically connected with the power generation unit and the wireless transmitting unit respectively and can receive and process the power utilization request sent by the power utilization equipment; the control unit can control the solar panels to carry out electric energy transmission action matched with the power utilization request according to the power utilization request sent by the power utilization equipment. The wireless solar power generation system provided by the invention not only solves the problem of complex circuit of the existing solar power generation system, but also realizes reasonable utilization of electric energy generated by the power generation unit through the combination of the wireless transmitting unit and the control unit.

Description

Wireless solar power generation system and working method thereof

Technical Field

The invention relates to the technical field of photovoltaic solar energy, in particular to a wireless solar power generation system and a working method thereof.

Background

At present, a solar cell panel and an energy storage unit in a solar power generation system are connected through a lead to form a circuit.

Due to the fact that the number of the solar panels is large, circuits are large in number, complex in structure and complex in design and installation, and the application range of the solar power generation system is seriously affected by the complex installation circuits. For example, in the field of building integration of photovoltaic systems, solar power generation systems cannot be installed in old buildings and buildings with complex structures due to the complex circuit composition of the solar power generation systems.

Therefore, a wireless solar power generation system and an operating method thereof are needed to solve the above problems.

Disclosure of Invention

The invention provides a wireless solar power generation system and a working method thereof, which aim to solve the problem that the circuit of the existing solar power generation system is complex.

A first aspect of the present invention provides a wireless solar power generation system, comprising:

the power generation unit comprises one or more solar panels;

the wireless transmitting unit is electrically connected with the power generation unit and is used for transmitting electric energy with the wireless receiving unit of the electric equipment;

the control unit is electrically connected with the power generation unit and the wireless transmitting unit respectively and can receive and process the power utilization request sent by the power utilization equipment;

the control unit can control the solar panels to carry out electric energy transmission action matched with the power utilization request according to the power utilization request sent by the power utilization equipment.

Optionally, the power utilization request includes power utilization power of the power utilization equipment, and the control unit can control the solar panels to be connected in series and parallel with the power utilization power according to the power utilization power.

Optionally, the power utilization request further includes location information of the power utilization device, and the control unit can control the solar panel, which is located at a distance not greater than a preset distance from the location of the power utilization device, to perform power transmission on the power utilization device according to the location information.

Optionally, the electric equipment is movable electric equipment, the power utilization request further includes real-time position information of the electric equipment, and the control unit can control the solar panel, which is not more than the preset distance from the real-time position of the electric equipment, to perform electric energy transmission on the electric equipment according to the real-time position information.

Optionally, when the real-time position of the electrical equipment exceeds the preset distance from the power generation unit, the control unit controls the electrical equipment to move to a range which is not more than the preset distance from the power generation unit.

Optionally, the electric equipment comprises an electric appliance, an energy storage module and a power grid, and the control unit can control the wireless transmitting unit to sequentially transmit electric energy according to the priority order of the electric appliance, the energy storage module and the power grid.

Optionally, the control unit comprises:

the data acquisition module is used for respectively acquiring data sent by the power generation unit and the wireless transmitting unit;

the data processing module is used for processing the data acquired by the data acquisition module and sending a control instruction to the wireless transmitting unit according to the data;

and the signal receiving module is used for receiving the power utilization request.

Optionally, the data sent by the power generation unit to the data acquisition module includes:

whether the solar cell panel is damaged and the output power of each solar cell panel in work.

Optionally, the data sent by the wireless transmitting unit to the data acquisition module includes:

whether the wireless transmitting unit is damaged and whether the wireless transmitting unit in work transmits electric energy to the electric equipment.

In a second aspect of the present invention, an operating method of a wireless solar power generation system is adopted to operate the wireless solar power generation system.

The technical scheme provided by the invention can achieve the following beneficial effects:

the wireless solar power generation system provided by the invention not only solves the problem of complex circuit of the existing solar power generation system, but also realizes reasonable utilization of electric energy generated by the power generation unit through the combination of the wireless transmitting unit and the control unit.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

Fig. 1 is a communication schematic diagram of a wireless solar power generation system according to an embodiment of the present invention;

fig. 2 is a communication schematic diagram of a wireless solar power generation system according to a second embodiment of the present invention.

Reference numerals:

10-a power generating unit;

101-a solar panel;

20-a wireless transmitting unit;

30-a control unit;

301-a data acquisition module;

302-a data processing module;

303-a signal receiving module;

40-electric equipment;

50-wireless receiving unit.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, unless explicitly stated or limited otherwise, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless specified or indicated otherwise; the terms "connected," "fixed," and the like are to be construed broadly and may, for example, be fixedly connected, detachably connected, integrally connected, or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, it should be understood that the terms "upper" and "lower" as used in the description of the embodiments of the present invention are used in the angle shown in the drawings, and should not be construed as limiting the embodiments of the present invention. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

Fig. 1 is a schematic communication diagram of a wireless solar power generation system according to an embodiment of the present invention. The wireless solar power generation system comprises a power generation unit 10, a wireless transmitting unit 20 and a control unit 30, wherein:

the power generation unit 10 includes one or more solar panels 101; the wireless transmitting unit 20 is electrically connected with the power generating unit 10, and electric energy is transmitted between the wireless transmitting unit 20 and the wireless receiving unit 50 of the electric equipment 40; the control unit 30 is electrically connected with the power generation unit 10 and the wireless transmission unit 20 respectively, and the control unit 30 can receive and process the power utilization request sent by the power utilization equipment 40; the control unit 30 can control the solar panels 101 to perform an electric energy transmission operation matching the power consumption request according to the power consumption request sent by the power consumption equipment 40. The wireless solar power generation system provided by the invention not only solves the problem of complex circuit of the existing solar power generation system, but also realizes reasonable utilization of electric energy generated by the power generation unit 10 by combining the wireless transmitting unit 20 and the control unit 30.

Specifically, the power demand includes the power consumption of the electric equipment 40, and the control unit 30 can control the solar panels 101 to perform serial-parallel connection matching the power consumption according to the power consumption. The series-parallel connection between different solar panels 101 can be realized in a relay matrix, specifically, positive and negative leads of each solar panel 101 in the power generation unit 10 are connected to a wiring bar, and are firstly connected to the array voltage scanning and acquisition device, then connected to the relay array, and finally connected to the wireless transmitting unit 20 through a direct current breaker connected to the relay array. The array voltage scanning and collecting device is connected with the DSP control circuit through the RS485 communication interface, and transmits data to the DSP control circuit through the RS485 communication interface. The relay array is also connected with the DSP control circuit through the RS485 communication interface and receives the instruction of the DSP control circuit through the RS485 communication interface. The control and measurement of the system by the DSP are realized by programming, and all possible switch combinations of series-parallel connection of the solar panels 101 are included in the programming.

Specifically, the power consumption request further includes location information of the power consumption device 40, and the control unit 30 can control the solar cell panel 101, which is not more than a preset distance from the location of the power consumption device 40, to perform power transmission operation on the power consumption device 40 according to the location information. The position information of the electric device 40 may be implemented by means including but not limited to satellite positioning, base station positioning, WIFI positioning, bluetooth positioning, and the like. For example, the initial position of each solar cell panel 101 is fixed and the position information of the solar cell panel 101 is stored in the control unit 30, so it is only necessary to judge the distance between the electric device 40 and each solar cell panel 101.

Specifically, the electric device 40 is a movable electric device 40, the power utilization request further includes real-time position information of the electric device 40, and the control unit 30 can control the solar cell panel 101, which is not more than a preset distance from the real-time position of the electric device 40, to perform an electric energy transmission operation on the electric device 40 according to the real-time position information. The position information of the electric device 40 may be implemented by means including but not limited to satellite positioning, base station positioning, WIFI positioning, bluetooth positioning, and the like. For example, the initial position of each solar cell panel 101 is fixed and the position information of the solar cell panel 101 is stored in the control unit 30, so it is only necessary to judge the distance between the electric device 40 and each solar cell panel 101. The distance between the electric equipment 40 and each solar cell panel 101 and the preset distance for electric energy transmission of the electric equipment 40 are stored in the control unit 30, and when the distance between at least one solar cell panel 101 and the electric equipment 40 does not exceed the preset distance, electric energy transmission can be carried out on the electric equipment 40 through the wireless transmitting unit 20. The specific application scenario may be that the electric device 40 may be a mobile phone terminal, and the user carries the mobile phone terminal to move the position in real time, so that the mobile phone terminal can be charged as long as the mobile phone terminal is within the range of the preset distance.

Specifically, when the real-time position of the electric device 40 exceeds the preset distance from the power generation unit 10, the control unit 30 controls the electric device 40 to move to a range that does not exceed the preset distance from the power generation unit 10. The specific application scenario may be that, the electric device 40 may be an electric robot, the electric robot moves along with the specific work requirement, and when the moved position exceeds the range of the preset distance, the controller 30 sends an instruction to the electric robot to drive the electric robot to move in the direction close to the solar cell panel 101 until the position distance between the electric robot and the solar cell panel 101 does not exceed the preset distance.

Further, the electric equipment 40 includes the electric appliance, the energy storage module and the power grid, and the control unit 30 can control the wireless transmitting unit 20 to sequentially transmit the electric energy according to the priority order of the electric appliance, the energy storage module and the power grid. According to the change of actual electricity generation, accumulate and power consumption condition and operate under the operating mode of difference, realize many operating modes and move in real time, reduce weather change, energy storage module electric quantity storage, electric wire netting running state to the influence of normal operating, improve stability and reliability to it is not extravagant to solar cell panel 101 electricity generation quantity, and the energy storage module life-span receives the influence of charge-discharge to diminish, realizes the system interests maximize. It is understood that, in order to realize the transmission of the wireless power, the consumer, the energy storage module and the power grid are respectively provided with a wireless receiving unit 50.

Fig. 2 is a schematic communication diagram of a wireless solar power generation system according to a second embodiment of the present invention. In the second embodiment, the control unit 30 includes a data acquisition module 301, a data processing module 302 and a signal receiving module 303, wherein:

the data acquisition module 301 is used for respectively acquiring data sent by the power generation unit 10 and the wireless transmitting unit 20; the data processing module 302 is configured to process the data acquired by the data acquisition module 301, and send a control instruction to the wireless transmitting unit 20 according to the data; the signal receiving module 303 is configured to receive a power utilization request. The wireless solar power generation system provided by the invention not only solves the problem of complex circuit of the existing solar power generation system, but also realizes reasonable utilization of electric energy generated by the power generation unit 10 by combining the wireless transmitting unit 20 and the control unit 30.

Specifically, the data sent by the power generation unit 10 to the data acquisition module 301 includes: whether the solar cell panel 101 is damaged and the amount of output power of each solar cell panel 101 in operation. Wherein, the basis of judging the damage of the solar panel 101 is as follows: the solar cell panel 101 has no object to shield it and cannot generate electricity. Otherwise, it is proved that the solar cell panel 101 is merely shielded by the object. It can be understood that, when judging that solar cell panel 101 is sheltered from, can set up vision sensor on solar cell panel 101, observe whether there is the object on solar cell panel 101 through vision sensor, judge whether solar cell panel 101 is sheltered from. In addition, since the output power of each solar cell panel 101 during operation is different due to different lighting factors (for example, light is irradiated on all or part of the solar cell panel 101, and then light is irradiated on the solar cell panel 101 at noon and afternoon, for example), the power generation unit 10 needs to transmit the output power of each solar cell panel 101 during operation to the control unit 30, and then calculate the series connection mode matching the power consumption of the electric equipment 40 by the program stored in the control unit 30.

Specifically, the data sent by the wireless transmitting unit 20 to the data collecting module 301 includes: whether the wireless transmitting unit 20 is damaged and whether the wireless transmitting unit 20 in operation performs power transmission to the electric device 40. The basis for judging the damage of the wireless transmitting unit 20 is as follows: the wireless transmitting unit 20 cannot transmit power to the electric device 40, that is, the wireless transmitting unit 20 is determined to be damaged by the electric device 40 not continuously receiving power. In addition, when the powered device 40 has sufficient power, i.e., no power needs to be transmitted, the wireless transmitting unit 20 is in an operating state (i.e., not damaged), but no power is transmitted to the powered device 40.

In another aspect, the present invention further provides a method for operating a wireless solar power generation system, where the wireless solar power generation system operates as described in the first embodiment or the second embodiment. The working method of the wireless solar power generation system has the same effect as the wireless solar power generation system, and is not described herein again.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A wireless solar power generation system, comprising:

a power generation unit (10) comprising one or more solar panels (101);

the wireless transmitting unit (20) is electrically connected with the power generating unit (10), and electric energy is transmitted between the wireless transmitting unit (20) and the wireless receiving unit (50) of the electric equipment (40);

the control unit (30) is electrically connected with the power generation unit (10) and the wireless transmission unit (20) respectively, and the control unit (30) can receive and process the power utilization request sent by the power utilization equipment (40);

the control unit (30) can control the solar panel (101) to be matched with the power utilization request according to the power utilization request sent by the power utilization equipment (40), and corresponding electric energy is transmitted.

2. The wireless solar power generation system according to claim 1, wherein the power demand includes a power consumption of the power consumer (40), and the control unit (30) controls the series-parallel connection between the solar panels (101) according to the power consumption so as to match the power consumption.

3. The wireless solar power generation system according to claim 1, wherein the power utilization request further includes position information of the power utilization device (40), and the control unit (30) is configured to control the solar cell panel (101) which is not more than a predetermined distance from the position of the power utilization device (40) to perform a power transmission operation on the power utilization device (40) according to the position information.

4. The wireless solar power generation system according to claim 3, wherein the electric equipment (40) is a movable electric equipment (40), the power utilization request further includes real-time position information of the electric equipment (40), and the control unit (30) can control the solar panel (101) which is not more than the preset distance from the real-time position of the electric equipment (40) to perform power transmission operation on the electric equipment (40) according to the real-time position information.

5. The wireless solar power generation system according to claim 4, wherein when the real-time location of the electric device (40) exceeds the preset distance from the power generation unit (10), the control unit (30) controls the electric device (40) to move within a range not exceeding the preset distance from the power generation unit (10).

6. The wireless solar power generation system according to claim 1, wherein the electric equipment (40) comprises an electric appliance, an energy storage module and a power grid, and the control unit (30) can control the wireless transmitting unit (20) to transmit electric energy in sequence according to the priority order of the electric appliance, the energy storage module and the power grid.

7. The wireless solar power generation system according to claim 1, characterized in that the control unit (30) comprises:

the data acquisition module (301) is used for respectively acquiring data sent by the power generation unit (10) and the wireless transmitting unit (20);

the data processing module (302) is used for processing the data collected by the data collecting module (301) and sending a control instruction to the wireless transmitting unit (20) according to the data;

a signal receiving module (303) for receiving the power utilization request.

8. The wireless solar power generation system according to claim 7, characterized in that the data sent by the power generation unit (10) to the data acquisition module (301) comprises:

whether the solar panel (101) is damaged and the output power of each solar panel (101) in operation.

9. The wireless solar power system according to claim 7, wherein the data transmitted by the wireless transmitting unit (20) to the data acquisition module (301) comprises:

whether the wireless transmitting unit (20) is damaged and whether the wireless transmitting unit (20) in operation transmits electric energy to the electric equipment (40).

10. A method of operating a wireless solar power system, characterized by operating with a wireless solar power system according to any of claims 1-9.

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