TWM633995U - Solar energy performance improvement system - Google Patents

Abstract

This creation refers to a solar energy efficiency improvement system, wherein, the solar energy efficiency improvement system is distributed with interconnected efficiency improvement devices, and the efficiency improvement device is equipped with a capacitor boost element connected to a solar power generation device, and the solar power generation device passes through the power output element The output to the maximum power point tracking device collects the power and stores it into the power storage group. The communication monitoring component monitors and sets the power output from the capacitor boost component to the power output component within the predetermined value. When the power exceeds the predetermined value, the power output time is controlled by the extended working time component and the power management calculation component. At the same time, the communication monitoring component Notify the intelligent management chip components to connect with other performance improvement devices to control the power output to the maximum power point tracking device.

Description

Solar Energy Efficiency Improvement System

This creation refers to a solar energy efficiency improvement system, wherein the solar energy efficiency improvement system is distributed with interconnected efficiency improvement devices, and the efficiency improvement device stores the electricity generated by the solar power generation device into the storage power group through the maximum power point tracking device field person.

The first button refers to the current solar energy system 10, wherein the solar energy system 10 is distributed with a solar power generation device 101, the solar power generation device 101 is connected with a rectification and inverter device 20, and the rectification and inverter device 20 is connected with a power storage group 30. The solar power generation device 101 is distributed with one to two solar panels 102. A single solar panel 102 of the solar power generation device 101 can generate power of about 40V, and the power generated by the solar panel 102 can pass through the rectification and inverter device 20 stored in the power storage group 30. In addition, the power stored in the power storage group 30 is then converted into alternating current by the inverter function of the rectification and inverter device 20 and output to the outside. The maximum power flow that the rectification and inverter device 20 can handle is about Between 150W and 12.5W (eg: as shown in Figure 1).

However, the electricity generated by the solar power generation device 101 is rectified and stored in the power storage group 30 only by the rectification and inverter device 20 . And when the power generated by the solar power generation device 101 is too low, it will often cause the conversion power of the rectification and inverter device 20 to be too low, and even affect the rectification and inverter device 20 to fail to operate normally or shut down. And when the power generated by the solar power generation device 101 is too high, it will cause the conversion power of the rectification and inverter device 20 to be overloaded, and cause the excess power generated by the solar power generation device 101 to be wasted and unable to be stored, and often cause the rectification and inverter device 20 to be overloaded. 20 is damaged due to power overload, therefore, it is found that the solar energy system 10 has the problem of insufficient power conversion power, which needs to be improved (as shown in Figure 1).

In view of the above, it is known that the conventional solar energy system has the problem of insufficient power conversion efficiency. Therefore, the author of this case was urged to develop in the direction of stabilizing and improving power conversion, and after thinking about it in many ways, the author of this case came to the creation of this case.

The solar energy efficiency improvement system of this creation is at least connected with: a solar power generation device, a maximum power point tracking device and a power storage group. The solar energy efficiency improvement system is distributed with two to twelve interconnected efficiency improvement devices, and the efficiency improvement device is at least equipped with: a capacitor boost component, a communication monitoring component, a smart management chip component, a working time extension component, A power output element and a power management calculation element. The capacitor boost element is connected with the solar power generation device, and the solar power generation devices are arranged to form a solar farm. The solar power generation device is provided with one to two solar panels, and the maximum power generated by each solar panel is about 40V. The power generated by the solar panel is output to the power output element at a stable rate of 5V to 40V through the capacitor boost element, and the maximum power output element is output to the maximum power point tracking device at a maximum of 1800W. The maximum power point tracking device collects all The power of the performance enhancing device is stored in the power storage group. The communication monitoring component monitors and sets the power output from the capacitive boost component to the power output component within a predetermined value, and when the power exceeds the predetermined value, the power output time is controlled by the extended working time component and the power management calculation component to prolong , and at the same time, the communication monitoring component notifies the smart management chip component to connect with other performance enhancing devices to control power output to the maximum power point tracking device.

The performance improvement device of this creation is additionally equipped with an intelligent monitoring management element and a solar panel protection inverter element, and the intelligent monitoring management element and the solar panel protection inverter element monitor at least the voltage value, output current and temperature of the solar panel situation.

The solar energy efficiency improvement system of this invention is connected with the efficiency improvement device in series, and each of the efficiency improvement devices is connected to the maximum power point tracking device with the power output element. In addition, the stored power of the power storage group is obtained from the maximum power point The tracking device is converted into alternating current for external output power supply.

The solar energy efficiency improvement system of this invention is connected with the efficiency improvement device. The solar power generation device is provided with an adapter connected to the efficiency improvement device. The adapter is connected with the smart management chip component of the efficiency improvement device. A performance enhancing device is connected to the maximum power point tracking device through the power output element.

The main purpose of this creation is: the electricity generated by the solar panel passes through the electricity Capacitance booster components output stably from 5V to 40V to the power output component, and the power output component outputs up to 1800W to the maximum power point tracking device, and the maximum power point tracking device collects the power storage input of each performance improvement device Substantial benefits of the power storage group.

Another purpose of this creation is: the maximum power point tracking device collects the power storage of each performance enhancing device into the substantial benefit of the power storage group.

Another purpose of this creation is: the communication monitoring component monitors and sets the power output from the capacitor boost component to the power output component within a predetermined value, and when the power exceeds the predetermined value, the extended working time component and the power management The computing element controls the extension of the power output time, and at the same time the communication monitoring element informs the intelligent monitoring management element to connect with other performance enhancing devices to control the actual benefit of the power output to the maximum power point tracking device.

Another purpose of this creation is: the intelligent monitoring and management element and the solar panel protection inverter element monitor the voltage value, output current and temperature conditions of the solar power generation device to have substantial benefits.

Yet another purpose of this invention is: the solar energy efficiency improvement system is connected with the efficiency improvement device in series, and in addition, the power stored in the power storage group is inverted by the maximum power point tracking device into alternating current for external output and power supply.

Another purpose of this creation is: the solar energy efficiency improvement system is connected with the efficiency improvement device, the solar power generation device is provided with an adapter connected to the efficiency improvement device, and the adapter is connected with the smart device of the efficiency improvement device To manage chip components, each of the performance enhancing devices connects the substantial efficiency of the maximum power point tracking device with the power output device.

[knowledge]

10: Solar system

101: Solar power generation device

102: Solar panels

20: Rectification and inverter device

30: Storage power group

[this creation]

1: Solar energy efficiency improvement system

11: Efficiency improvement device

111: Intelligent monitoring and management components

112: Solar panels protect inverter components

12: Capacitor boost element

13: Communication monitoring components

14: Smart management of chip components

15: Extended working time components

16: Power output components

17: Power Management Calculation Components

18: Intelligent management of chip components

2: Solar power generation device

2A: Solar Farm

21: Solar panels

3:Maximum power point tracking device

4: Storage power group

5: Adapter

[Figure 1] is a schematic diagram of a conventional solar energy system.

【Picture 2】It is a schematic diagram of the solar energy efficiency improvement system created by the author.

[Fig. 3] is a schematic diagram of the intelligent monitoring and management components of the performance improvement device of this invention.

【Figure 4】It is a schematic diagram of the serial efficiency improvement device of the solar energy efficiency improvement system created by this invention.

[Figure 5] is a schematic diagram of the solar energy efficiency improvement system connected with the efficiency improvement device of this creation.

In order to make your review committee have a better understanding of this creation, I will illustrate it with the following examples.

The invention refers to a solar energy efficiency improvement system, wherein the solar energy efficiency improvement system 1 is at least connected with: a solar power generation device 2 , a maximum power point tracking device 3 and a power storage group 4 . The solar energy efficiency improvement system 1 is distributed with two to twelve interconnected efficiency improvement devices 11, and the efficiency improvement device 11 is at least equipped with: a capacitor booster element 12, a communication monitoring element 13, an intelligent management chip element 14, A working time extension component 15 , a power output component 16 and a power management calculation component 17 . The capacitor boost element 12 is connected with the solar power generation device 2, and the solar power generation devices 2 are arranged to form a solar power field 2A. The solar power generation device 2 is provided with one to two solar panels 21, and each solar panel 21 produces The maximum power is about 40V. The power generated by the solar panel 21 is output to the power output component 16 at a stable rate of 5V to 40V through the capacitor boost component 12, and the power output component 16 outputs up to 1800W to the maximum power point The tracking device 3 , the maximum power point tracking device 3 collects the power of each of the performance improvement devices 11 and stores it in the power storage group 4 . The communication monitoring component 13 monitors and sets the power output from the capacitor boost component 12 to the power output component 16 within a predetermined value, and when the power exceeds a predetermined value, the extended working time component 15 and the power management calculation component 17 The control power output time is prolonged, and at the same time the communication monitoring component 13 notifies the smart management chip component 14 to connect other performance improvement devices 11 to control the power output to the maximum power point tracking device 3 (as shown in FIG. 2 ).

Yes, the solar energy efficiency improvement system 1 is mainly used to stabilize and improve the power conversion rate generated by the solar panel 21, and is not limited to the combination mode of the solar panel 21, and is not limited to the maximum power point tracking device 3 Brand specifications. Furthermore, the power output element 16 of the performance enhancing device 11 outputs to the maximum power point tracking device 3 at a maximum of 1800W, and the maximum power generated by the four solar panels 21 is approximately 1700W, so each of the performance enhancing devices 11 can safely handle the electricity generated by the four solar panels 21. And the power generated by the solar panel 21 is output to the maximum power point tracking device 3 through the solar energy efficiency improvement system 1, and the maximum power point tracking device 3 collects the power of each efficiency improvement device 11 and stores it into the power storage group 4 ( as shown in picture 2).

The communication monitoring component 13 monitors and sets the power output from the capacitor boosting component 12 to the power output component 16 to be controlled within a predetermined value, so as to prevent power from impacting the built-in equipment of the performance enhancing device 11 and the maximum power point tracking device 3, and When the electric power exceeds the predetermined value, the power output time extension can be controlled by the extended working time component 15 and the power management calculation component 17, and at the same time, the communication monitoring component 13 notifies the smart management chip component 14 to connect to other performance improvement devices 11 Together control the power to expand the output to the maximum power point tracking device 3, and the maximum power point tracking device 3 increases the amount of electricity stored in the stored power group 4 (as shown in Figure 2).

The performance improvement device 11 of the present invention is additionally equipped with an intelligent monitoring management element 111 and a solar panel protection inverter element 112, and the intelligent monitoring management element 111 and the solar panel protection inverter element 112 monitor at least the voltage of the solar panel 21 Numerical value, output current and temperature status, based on which, effective remote protection and monitoring of the usage status of the solar power generation device 2, so that the solar power generation device 2 can be maintained in time and the power generation of the solar panel 21 can be guaranteed. The intelligent monitoring and management component 111 and the solar panel protection inverter component 112 can monitor that the solar panel 21 stops operating and distributing power when the output current is overloaded, and then turn on the solar panel 21 to generate electricity, thereby preventing the solar panel 21 from Damaged due to current overload of power generation. In addition, the intelligent monitoring and management component 111 and the solar panel protection and inverter component 112 can monitor that the solar panel 21 stops generating electricity until it cools down when the temperature is too high, and waits until the safe operation condition is met before turning on the solar panel 21 to generate electricity. According to this, Prevent the solar panel 21 from being damaged due to the high temperature of power generation (as shown in FIG. 3 ).

The solar energy efficiency improvement system 1 of this invention is further connected with the efficiency improvement device 11, each of the efficiency improvement devices 11 is connected to the maximum power point tracking device 3 with the power output element 16, and when the power exceeds a predetermined value, The power output time extension is controlled by the extended working time component 15 and the power management calculation component 17. At the same time, the communication monitoring component 13 notifies the smart management chip component 14 to connect with other performance improvement devices 11 to control the power output to the maximum power. Point Tracker 3. In addition, the power stored in the power storage group 4 is converted into alternating current by the maximum power point tracking device 3 for external output (as shown in FIG. 4 ).

The solar energy efficiency improvement system 1 of this invention is also connected with the efficiency improvement device 11, and the solar power generation device 2 is additionally provided with an adapter 5 connected with the efficiency improvement device 11, and the adapter 5 is connected with the efficiency improvement device 11 of the smart management chip component 14, each of the performance improvement devices 11 is connected to the maximum power point tracking device 3 with the power output component 16, and When the power exceeds the predetermined value, the extended working time element 15 and the power management calculation element 17 control the power output time extension, and at the same time, the communication monitoring element 13 notifies the smart management chip element 14 to connect other The efficiency enhancing device 11 together controls power output to the maximum power point tracking device 3 (as shown in FIG. 5 ).

It can be seen from the above description that the solar energy efficiency improvement system 1 is mainly used to stabilize and increase the power conversion rate generated by the solar panel 21 , and is not limited to the combination mode of the solar panel 21 and the brand of the maximum power point tracking device 3 . The power generated by the solar panel 21 is output to the maximum power point tracking device 3 through the solar energy efficiency improvement system 1, and the maximum power point tracking device 3 collects the power of each efficiency improvement device 11 and stores it in the power storage group 4. Top features.

Another excellent feature of this invention is: the communication monitoring component 13 monitors and sets the power output from the capacitive boosting component 12 to the power output component 16 to be controlled within a predetermined value, preventing power from impacting the built-in equipment of the performance enhancing device 11 and the The maximum power point tracking device 3, and when the power exceeds a predetermined value, it can control the extension of the power output time, and at the same time, notify the other performance improvement devices 11 to control the power expansion output to the maximum power point tracking device 3, and by The maximum power point tracking device 3 increases the power efficiency stored in the stored power group 4 and becomes the characteristic benefit of this creation.

Another excellent feature of this invention is that: the efficiency improvement device 11 is provided with the intelligent monitoring management element 111 and the solar panel protection inverter element 112, and the intelligent monitoring management element 111 and the solar panel protection inverter element 112 monitor the solar energy. According to the voltage value, output current and temperature status of the panel 21, the remote protection and monitoring of the usage status of the solar power generation device 2 can be effectively carried out, so that the solar power generation device 2 can be maintained in time and the power generation of the solar panel 21 can be guaranteed. It can prevent the solar panel 21 from being damaged due to the current overload of power generation, and prevent the solar panel 21 from being damaged due to the excessive temperature of power generation.

Another excellent feature of this invention is that: the solar energy efficiency improvement system 1 is connected with the efficiency improvement device 11 in series, and when the power exceeds a predetermined value, the smart management chip component 14 is connected to other efficiency improvement devices 11 to control the power output together To the characteristic benefit of the maximum power point tracking device 3 .

Another excellent feature of this creation is: the solar power generation device 2 is provided with a connection The adapter 5 of the performance improvement device 11, and when the power exceeds a preset value, the communication monitoring component 13 notifies the smart management chip component 14 to connect other performance improvement devices 11 through the adapter 5 to control power together The characteristic benefits output to the maximum power point tracking device 3 .

The technical content and technical characteristics of this creation have been disclosed above. It can be seen that this creation does meet the new patent requirements of novelty, advancement and industrial utilization. Replacements and modifications that do not deviate from the creative spirit of this case. Therefore, the protection scope of this creation should not be limited to what is disclosed in the embodiment, but should include various replacements and modifications that do not deviate from this creation, and are covered by the patent scope of the new application.

1: Solar energy efficiency improvement system

11: Efficiency improvement device

12: Capacitor boost element

13: Communication monitoring components

14: Smart management of chip components

15: Extended working time components

16: Power output components

17: Power Management Calculation Components

2: Solar power generation device

2A: Solar Farm

21: Solar panels

3:Maximum power point tracking device

4: Storage power group

Claims (4)

A solar energy efficiency improvement system, wherein the solar energy efficiency improvement system is at least connected with: a solar power generation device, a maximum power point tracking device and a storage power group; the solar energy efficiency improvement system is distributed with two to twelve interconnected performance The boosting device, the efficiency boosting device is at least equipped with: a capacitor boosting component, a communication monitoring component, a smart management chip component, a working time extension component, a power output component and a power management calculation component; the capacitor boosting component The solar power generation device is connected, and the solar power generation device is arranged to form a solar farm. The solar power generation device is equipped with one or two solar panels, and the maximum power generated by each solar panel is about 40V. The electric power is output to the power output element at a stable rate of 5V to 40V through the capacitor boost element, and the maximum power output element is output to the maximum power point tracking device at a maximum of 1800W. The power is stored in the storage power group; the communication monitoring component monitors and sets the power output from the capacitive boost component to the power output component within a predetermined value, and when the power exceeds the predetermined value, the extended working time component and the power The management calculation element controls the extension of the power output time, and at the same time the communication monitoring element notifies the intelligent management chip element to connect with other performance enhancing devices to control the power output to the maximum power point tracking device. The solar energy efficiency improvement system as described in Claim 1, wherein, the efficiency improvement device is additionally equipped with an intelligent monitoring management element and a solar panel protection inverter element, and the intelligent monitoring management element and the solar panel protection inverter element monitor at least The voltage value, output current and temperature of the solar panel. The solar energy efficiency improvement system as described in Claim 1, wherein, the solar energy efficiency improvement system is further connected with the efficiency improvement device in series, and each of the efficiency improvement devices is connected to the maximum power point tracking device through the power output element. In addition, The power stored in the power storage group is converted into alternating current by the maximum power point tracking device for external output power supply. The solar energy efficiency improvement system as described in claim 1, wherein the solar energy efficiency The energy-enhancing system is further connected with the efficiency-enhancing device. The solar power generation device is additionally provided with an adapter connected to the efficiency-enhancing device. The lifting device is connected to the maximum power point tracking device through the power output element.

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