JP2024029696A - Solar energy performance enhancement system - Google Patents

Abstract

To provide a solar energy performance enhancement system, in which a performance enhancement device accumulates electric power generated by a solar energy power generation device in an electricity storage group via a maximum power point tracking device.SOLUTION: A solar energy performance enhancement system 1 is connected with a solar energy power generation device 2, a maximum power point tracking device 3, and an electricity storage group 4. In the solar energy performance enhancement system 1, there are arranged two to twelve units of mutually connected performance enhancement devices 11. The performance enhancement device includes: a capacitor boosting member 12; a communication monitoring member 13; a smart management chip member 14; an operation period extension member 15; an electric power output member 16; and an electric power management arithmetic member 17. The solar energy power generation device includes one or two solar panels 21. The electric power generated by the solar panel is stably output to the electric power output member at 5 V to 40 V via the capacitor boosting member. The maximum power point tracking device collects the electric power of each of the performance enhancement devices and stores the electric power in the electricity storage group.SELECTED DRAWING: Figure 2

Description

The present invention relates to a solar energy performance improvement system, in particular, in which performance improvement devices are arranged that are connected to each other, and the performance improvement device transfers the power generated by the solar energy power generation device to a power storage group through a maximum power point tracking device. It relates to a storage, solar energy performance improvement system.

A solar energy power generation device 101 is arranged in a conventional solar energy system 10 . A rectifier converter 20 is connected to the solar energy power generation device 101 . A power storage group 30 is connected to the rectification conversion device 20 . One or two solar panels 102 are arranged in the solar energy power generation device 101 . One solar panel 102 of the solar energy power generation device 101 can generate approximately 40V of power. The electric power generated by the solar panel 102 can be stored in the power storage group 30 via the rectification converter 20. The electric power stored in the power storage group 30 is converted into alternating current electricity by the conversion function of the rectification converter 20 and output to the outside. The maximum power consumption that the rectifier converter 20 can process is 150W to 12.5W (see FIG. 1).

The electric power generated by the solar energy power generation device 101 is rectified and stored in the power storage group 30 relying only on the rectification conversion device 20 . When the power generated by the solar energy power generation device 101 is too small, the conversion efficiency of the rectifying converter 20 may become too low, which may affect the rectifying converter 20 and cause it to malfunction or stop. If too much power is generated by the solar energy power generation device 101, the burden on the conversion efficiency of the rectification conversion device 20 becomes too large, and too much power generated by the solar energy power generation device 101 is wasted and cannot be stored. , there is a problem that the power conversion performance of the solar energy system 10 is unfavorable because the power load that the rectifier converter 20 receives becomes too large and it may be damaged, and an improvement has been required (see Figure 1). do).

SUMMARY OF THE INVENTION An object of the present invention is to provide a solar energy performance improvement system in which a performance improvement device stores the power generated by a solar energy power generation device in a power storage group via a maximum power point tracking device.

In order to solve the above problems, a first aspect of the present invention provides a solar energy performance improvement system in which a solar energy power generation device, a maximum power point tracking device, and a power storage group are connected, the solar energy performance improvement system The improvement system is arranged with 2 to 12 performance improvement devices connected to each other, and the performance improvement devices include a capacitor boosting member, a communication monitoring member, a smart management chip member, a working time extension member, a power output member, and a power a management calculation member, the solar energy power generation device is connected to the capacitor boosting member, the solar energy power generation device is arranged to form a solar energy power generation field, and the solar energy power generation device includes one solar energy power generation device. Or, it has two solar panels, and the maximum power generated by each solar panel is about 40V, and the power generated by the solar panel is 5V to 40V to the power output member via the capacitor boosting member. The power output member outputs a maximum of 1800 W to the maximum power point tracking device, and the maximum power point tracking device collects the power of each of the performance improvement devices and stores it in the power storage group; The communication monitor member monitors and sets the power output by the capacitor booster member to the power output member to be within a predetermined value, and when the power exceeds the predetermined value, the communication monitor member The management calculation component controls the extension of the power output time, and the communication monitor component notifies the smart management chip component, and connects with the other performance improvement devices to jointly control the maximum power point tracking device to power the maximum power point tracking device. Provides a solar energy performance improvement system that outputs .

The performance improvement device is provided with a smart monitor management member and a solar panel protection conversion member, and the smart monitor management member and the solar panel protection conversion member monitor voltage values, output current, and temperature status of the solar panel. It is preferable.

In the solar energy performance improvement system, the performance improvement devices are connected in series, and each of the performance improvement devices is respectively connected to the maximum power point tracking device through the power output member, and the power is stored in the power storage group. It is preferable that the electric power is converted into alternating current electricity by the maximum power point tracking device and output to the outside for power supply.

The solar energy performance improvement system has the performance improvement device connected in parallel, the solar energy power generation device is provided with an adapter connected to the performance improvement device, and the adapter connects the smart device of the performance improvement device. Preferably, each performance enhancing device is connected to a management chip member, and each said performance enhancing device is connected to said maximum power point tracking device via said power output member.

The solar energy performance improvement system of the present invention has the following effects (1) to (6).
(1) Stably output the power generated by the solar panel at 5V to 40V to the power output member through the capacitor booster, and the power output member outputs the maximum power of 1800W to the maximum power point tracking device, and The power point tracking device can collect the power of each performance enhancing device and store it in a power storage group.
(2) The maximum power point tracking device can collect the power of each performance improvement device and store it in a power storage group.
(3) The communication monitor member monitors and sets the power output by the capacitor booster member to the power output member to be within a predetermined value, and if the power exceeds the predetermined value, the operating time extension member and power management calculation are performed. The component can control the extension of power output time, and the communication monitor component can notify the smart management chip component, which can connect with other performance improvement devices and control them together to output power to the maximum power point tracking device. .
(4) The smart monitor management member and the solar panel protection conversion member can monitor the voltage value, output current, and temperature status of the solar panel.
(5) In the solar energy performance improvement system, a performance improvement device is connected in series, and the power stored in the storage group is converted into AC electricity by a maximum power point tracking device, which can be output to the outside for power supply. .
(6) The solar energy performance improvement system has a performance improvement device connected in parallel, the solar energy power generation device is provided with an adapter connected to the performance improvement device, and the adapter is connected to the smart management chip component of the performance improvement device. and each performance enhancing device is connected to a maximum power point tracking device via a power output member.

FIG. 1 is a schematic diagram showing a conventional solar energy system. 1 is a schematic diagram showing a solar energy performance improvement system according to an embodiment of the present invention. FIG. 2 is a schematic diagram showing a smart monitor management member included in a performance improvement device according to an embodiment of the present invention. FIG. 1 is a schematic diagram showing a performance improvement device connected in series to a solar energy performance improvement system according to an embodiment of the present invention. FIG. 1 is a schematic diagram showing a performance improvement device connected in parallel to a solar energy performance improvement system according to an embodiment of the present invention.

A solar energy power generation device 2, a maximum power point tracking device 3, and a power storage group 4 are connected to a solar energy performance improvement system 1 according to an embodiment of the present invention. In the solar energy performance improvement system 1, 2 to 12 performance improvement devices 11 connected to each other are arranged. The performance improvement device 11 includes a capacitor boost element 12 , a communication monitor member 13 , a smart management chip member 14 , an operating time extension member 15 , a power output member 16 , and a power management calculation member 17 . A solar energy power generation device 2 is connected to the capacitor boosting member 12 . The solar energy power generation devices 2 are arranged to constitute a solar energy power generation field 2A. The solar energy power generation device 2 has one or two solar panels 21. The maximum power generated by each solar panel 21 is approximately 40V. The power generated by the solar panel 21 is stably output at 5V to 40V to the power output member 16 via the capacitor booster member 12, and the power output member 16 outputs a maximum of 1800W to the maximum power point tracking device 3. . The maximum power point tracking device 3 collects the power of each performance improvement device 11 and stores it in the power storage group 4. The communication monitor member 13 monitors and sets the power output by the capacitor booster member 12 to the power output member 16 to be within a predetermined value, and when the power exceeds the predetermined value, the communication monitor member 13 and the power management member 15 and the power management The calculation component 17 controls the extension of the power output time, and the communication monitor component 13 notifies the smart management chip component 14, which connects with other performance improvement devices 11 and controls them together to supply power to the maximum power point tracking device 3. (see Figure 2).

In addition, the solar energy performance improvement system 1 stabilizes and improves the power conversion rate generated by the solar panel 21, and is not limited by the assembly method of the solar panel 21, and is not limited by the manufacturer's standard of the maximum power point tracking device 3. I don't accept it. Further, the power output member 16 of the performance improvement device 11 outputs a maximum of 1800 W to the maximum power point tracking device 3. Since the maximum power generated by the four solar panels 21 is approximately 1700 W, each performance improvement device 11 can safely process the amount of electricity generated by the four solar panels 21. The electric power generated by the solar panel 21 is outputted through the solar energy performance improvement system 1 to the maximum power point tracking device 3. The maximum power point tracking device 3 collects the power of each performance improvement device 11 and stores it in the power storage group 4 (see FIG. 2).

The communication monitor member 13 monitors and sets the power output from the capacitor booster member 12 to the power output member 16 to within the set value, and supplies the power to the equipment installed in the performance improvement device 11 and the maximum power point tracking device 3. Prevent surges from occurring. If the power exceeds a predetermined value, the operating time extension member 15 and the power management calculation member 17 control to extend the power output time, and the communication monitor member 13 notifies the smart management chip member 14 to perform other performance improvement devices. 11 and control the power together to expand the output amount to the maximum power point tracking device 3, and the maximum power point tracking device 3 amplifies the amount of electricity and stores it in the power storage group 4 (see Fig. 2). .

The performance improvement device 11 according to an embodiment of the present invention is provided with a smart monitor management member 111 and a solar panel protection conversion member 112. The smart monitor management member 111 and the solar panel protection conversion member 112 monitor the voltage value, output current, and temperature status of the solar panel 21, so that the solar panel 21 can be effectively protected remotely. By monitoring the usage status of the solar energy power generation device 2, the solar energy power generation device 2 can maintain and guarantee the power generation amount of the solar panel 21. The smart monitor management member 111 and the solar panel protection conversion member 112 stop operation when the current output by the solar panel 21 is overloaded. After that, the solar panel 21 resumes power generation. Therefore, the solar panel 21 becomes overloaded with the generated current and is damaged. The smart monitor management member 111 and the solar panel protection conversion member 112 monitor the temperature of the solar panel 21, stop power generation when the temperature is too high, wait until it cools down, and remove the solar panel 21 after meeting safe operating conditions. Resume power generation. Therefore, it is possible to prevent the solar panel 21 from being damaged due to the temperature of power generation being too high (see FIG. 3).

A performance improvement device 11 may be connected in series to the solar energy performance improvement system 1 according to an embodiment of the present invention. Each performance enhancing device 11 is connected to the maximum power point tracking device 3 via a power output member 16 . When the power exceeds a predetermined value, the operating time extension member 15 and the power management calculation member 17 control the extension of the power output time, the communication monitor member 13 notifies the smart management chip member 14, and other performance improvement devices 11 is connected and controlled together to output power to the maximum power point tracking device 3. The electric power stored in the power storage group 4 is converted into alternating current electricity by the maximum power point tracking device 3 and output to the outside for power supply (see FIG. 4).

A performance improvement device 11 may be connected in parallel to the solar energy performance improvement system 1 according to an embodiment of the present invention. The solar energy power generation device 2 may be provided with an adapter 5 connected to the performance improvement device 11 . The adapter 5 is connected to the smart management chip member 14 of the performance enhancement device 11. Each performance enhancing device 11 is connected to the maximum power point tracking device 3 via a power output member 16 . When the power exceeds a predetermined value, the operating time extension member 15 and the power management calculation member 17 control the extension of the power output time, and the communication monitor member 13 notifies the smart management chip member 14, It is connected to other performance improvement devices 11 and controlled together to output power to the maximum power point tracking device 3 (see FIG. 5).

As can be seen from the above, the solar energy performance improvement system 1 of the present invention has the following effects (1) to (5).
(1) The solar energy performance improvement system 1 can mainly stabilize and improve the power conversion rate generated by the solar panel 21, but the assembly method of the solar panel 21 and the manufacturer of the maximum power point tracking device 3 are Not limited. The electric power generated by the solar panel 21 is outputted to the maximum power point tracking device 3 via the solar energy performance improvement system 1. The maximum power point tracking device 3 can collect the power of each performance improvement device 11 and store it in the power storage group 4.
(2) The communication monitor member 13 monitors and sets the power output by the capacitor booster member 12 to the power output member 16 to be within a predetermined value, and is a device installed in the performance improvement device 11 and a maximum power point tracking device. 3. Prevent power surges from occurring. If the power exceeds a predetermined value, the extension of the power output time is controlled, the other performance improvement device 11 is notified, the power expansion output amount to the maximum power point tracking device 3 is controlled together, and the maximum power point It is amplified by the tracking device 3 and stored in the power storage group 4 to obtain the power amount performance.
(3) The performance improvement device 11 includes a smart monitor management member 111 and a solar panel protection conversion member 112. The smart monitor management member 111 and the solar panel protection conversion member 112 monitor the voltage value, output current, and temperature status of the solar panel 21 . In addition, the usage status of the solar energy power generation device 2 can be effectively remotely protected and monitored, and the solar energy power generation device 2 can immediately maintain and guarantee the power generation amount of the solar panel 21, so that the solar panel 21 can It is possible to prevent the solar panel 21 from being damaged due to an overload of current and being damaged when the power generation temperature of the solar panel 21 is too high.
(4) The solar energy performance improvement system 1 is connected in series to the performance improvement device 11. When the power exceeds a predetermined value, the smart management chip member 14 can be connected to other performance enhancement devices 11 to control them together and output power to the maximum power point tracking device 3.
(5) The solar energy power generation device 2 has an adapter 5 connected to the performance improvement device 11. If the power exceeds a predetermined value, the communication monitor component 13 notifies the smart management chip component 14, which is connected to other performance improvement devices 11 via the adapter 5 to control them together, and the maximum power point tracking device 3. Output power.

(Conventional technology)
10 Solar energy system 20 Rectification conversion device 30 Power storage group 101 Solar energy power generation device 102 Solar panel (present invention)
1 Solar energy performance improvement system 2 Solar energy power generation device 2A Solar energy power generation field 3 Maximum power point tracking device 4 Power storage group 5 Adapter 11 Performance improvement device 12 Capacitor boosting member 13 Communication monitor member 14 Smart management chip member 15 Operating time extension member 16 Power output member 17 Power management calculation member 18 Smart management chip member 21 Solar panel 111 Smart monitor management member 112 Solar panel protection conversion member

Claims (4)

A solar energy performance improvement system in which a solar energy power generation device, a maximum power point tracking device, and a power storage group are connected,
The solar energy performance improvement system includes 2 to 12 performance improvement devices connected to each other,
The performance improvement device includes a capacitor boosting member, a communication monitoring member, a smart management chip member, an operating time extension member, a power output member, and a power management calculation member,
The solar energy power generation device is connected to the capacitor boosting member, the solar energy power generation device is arranged to constitute a solar energy power generation field, and the solar energy power generation device includes one or two solar panels. The maximum power generated by each solar panel is about 40V, and the power generated by the solar panel is stably output at 5V to 40V to the power output member via the capacitor booster, and the the power output member outputs a maximum of 1800 W to the maximum power point tracking device, the maximum power point tracking device collects the power of each of the performance improvement devices and stores it in the power storage group;
The communication monitor member monitors and sets the power outputted by the capacitor booster member to the power output member to be within a predetermined value, and when the power exceeds the predetermined value, the communication monitor member The management calculation component controls the extension of the power output time, and the communication monitor component notifies the smart management chip component and connects with the other performance improvement devices to jointly control the maximum power point tracking device to power the maximum power point tracking device. A solar energy performance improvement system that outputs . The performance improvement device is provided with a smart monitor management member and a solar panel protection conversion member,
The solar energy performance improvement system according to claim 1, wherein the smart monitor management member and the solar panel protection conversion member monitor voltage values, output current, and temperature conditions of the solar panel. The solar energy performance improvement system has the performance improvement device connected in series,
each of the performance enhancement devices is respectively connected to the maximum power point tracking device via the power output member;
The solar energy performance improvement system according to claim 1, wherein the electric power stored in the power storage group is converted into alternating current electricity by the maximum power point tracking device and output to the outside for power supply. The performance improvement device is connected in parallel to the solar energy performance improvement system,
The solar energy power generation device is provided with an adapter connected to the performance improvement device,
the adapter is connected to the smart management chip member of the performance enhancement device;
The solar energy performance improvement system according to claim 1, wherein each of the performance improvement devices is connected to the maximum power point tracking device via the power output member.

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