CN216056456U - Intelligent control type commercial power complementary power generation system - Google Patents

Abstract

The utility model discloses an intelligent control type commercial power complementary power generation system which comprises a first solar power generation module, a second solar power generation and output power conversion module; the output power conversion module is connected with the first solar power generation module and the second solar power generation module and used for controlling the output power generation of the first solar power generation module and the second solar power generation module, in a normal working state, the output power ratio of the first solar power generation module and the second solar power generation module is controlled by the output power conversion module to simultaneously supply power to a load or independently supply power to the load, the output power of the system is ensured to be equal to the requirement of a user load, and the power conversion state is entered, the replaced first solar power generation module and the replaced second solar power generation module can supplement energy, so that uninterrupted power generation can be realized in a reciprocating mode, the safety of power-requiring equipment under the condition of power failure is fully protected, the work of the user is ensured to be efficiently and smoothly completed, the loss caused by power failure accidents is reduced, and the power supply reliability is improved.

Description

Intelligent control type commercial power complementary power generation system

The technical field is as follows:

the utility model relates to an intelligent control type commercial power complementary power generation system.

Background art:

in the existing scene of partial emergency power supply in life, because the working property requires long-time uninterrupted power supply, short-time power failure of power-requiring equipment can cause huge loss, such as a large-scale server and the like, so that one equipment is required to realize the uninterrupted power supply. However, at present, power generation devices generally consume energy, the energy is consumed after being used for a period of time, and the power generation devices must be stopped to supplement the energy for safety. At which time the power supply is interrupted. A device is needed to implement this functionality.

The utility model content is as follows:

the utility model aims to provide an intelligent control type commercial power complementary power generation system, which solves the technical problems that long-time uninterrupted power generation cannot be completely realized in the power supply condition in the prior art, so that the long-time uninterrupted power supply cannot be normally operated due to the requirement of working property, and huge loss can be caused.

The purpose of the utility model is realized by the following technical scheme.

The utility model aims to provide an intelligent control type commercial power complementary power generation system, which is characterized in that: the method comprises the following steps:

the first solar power generation module comprises a first solar panel, a first storage battery and a first control circuit board, wherein the first control circuit board is integrated with a first electric energy conversion module, a first electric quantity detection module and a first controller, the first solar panel converts solar energy into electric energy through the first electric energy conversion module to charge the first storage battery, and the first electric quantity detection module is used for detecting the current electric quantity of the first storage battery and transmitting a detection signal to the first controller;

the second solar power generation module comprises a second solar panel, a second storage battery and a second control circuit board, the second control circuit board integrates a second electric energy conversion module, a second electric quantity detection module and a second controller, the second solar panel converts solar energy into electric energy through the second electric energy conversion module to charge the second storage battery, and the second electric quantity detection module is used for detecting the current electric quantity of the second storage battery and transmitting a detection signal to the second controller;

the output power conversion module is connected with the first solar power generation module and the second solar power generation module and is used for controlling the output power generation of the first solar power generation module and the second solar power generation module;

the output power conversion module comprises an interface circuit, a microprocessor MCU, a first drive circuit, a first relay, a second drive circuit and a second relay, and the first controller and the second controller are connected with the microprocessor MCU through the interface circuit and are communicated with each other; the power supply output end of the first storage battery is connected to a load through a first switch JK1, the power supply output end of the second storage battery is connected to the load through a second switch JK2, the microprocessor MCU drives a first relay through a first driving circuit, and the first relay controls the opening or closing of a first switch JK 1; the microprocessor MCU drives a second relay through a second driving circuit, and the second relay controls the opening or closing of a second switch JK 2.

The first controller and the second controller can be connected with the microprocessor MCU in a wired or wireless way.

The microprocessor MCU is also connected with a control panel, and the control panel inputs data and sends instructions to the microprocessor MCU.

The first solar power generation module, the second solar power generation module and the output power conversion module are integrated on a mounting bracket.

The mounting bracket comprises a connecting seat, a first supporting platform and a second supporting platform, wherein the first supporting platform and the second supporting platform are arranged at the top of the connecting seat, and the first solar panel of the first solar power generation module and the second solar panel of the second solar power generation module are respectively mounted on the first supporting platform and the second supporting platform.

The microprocessor MCU is also connected with an alarm, and when the battery replacement state is started, the microprocessor MCU utilizes the alarm to externally alarm to inform workers.

The alarm comprises a wireless alarm communication module, the microprocessor MCU is connected to a mobile phone of a worker through the wireless alarm communication module, and when the mobile phone enters a battery replacement state, the mobile phone of the worker can receive alarm information so that the worker can operate the control panel to input data and send instructions to the microprocessor MCU.

The microprocessor MCU is also connected with a display, and the display is used for displaying the working state and relevant working data of the power generation system.

Compared with the prior art, the utility model has the following effects:

1) the solar power generation and conversion system comprises a first solar power generation module, a second solar power generation and output and conversion module; the output power conversion module is connected with the first solar power generation module and the second solar power generation module and used for controlling the output power generation of the first solar power generation module and the second solar power generation module, in a normal working state, the output power ratio of the first solar power generation module and the second solar power generation module is controlled by the output power conversion module to simultaneously supply power to a load or independently supply power to the load, the output power of the system is ensured to be equal to the requirement of a user load, and the power conversion state is entered, the replaced first solar power generation module and the replaced second solar power generation module can supplement energy, so that uninterrupted power generation can be realized in a reciprocating mode, the safety of power-requiring equipment under the condition of power failure is fully protected, the work of the user is ensured to be efficiently and smoothly completed, the loss caused by power failure accidents is reduced, and the power supply reliability is improved.

2) Other advantages of the present invention are described in detail in the examples section.

Description of the drawings:

FIG. 1 is a schematic diagram of the principles of the present invention;

FIG. 2 is a schematic diagram of the working principle of the output swapping module according to the present invention;

FIG. 3 is a schematic diagram of the signal transmission principle of the present invention;

FIG. 4 is a schematic structural view of the present invention;

FIG. 5 is a schematic view of another angular configuration of the present invention;

fig. 6 is an exploded view of the present invention.

The specific implementation mode is as follows:

the present invention will be described in further detail below with reference to specific embodiments and with reference to the accompanying drawings.

As shown in fig. 1 to fig. 6, the present embodiment provides an intelligent control type commercial power complementary power generation system, which is characterized in that: the method comprises the following steps:

the first solar power generation module comprises a first solar panel 1, a first storage battery and a first control circuit board, wherein the first control circuit board is integrated with a first electric energy conversion module, a first electric quantity detection module and a first controller, the first solar panel 1 converts solar energy into electric energy through the first electric energy conversion module to charge the first storage battery, and the first electric quantity detection module is used for detecting the current electric quantity of the first storage battery and transmitting a detection signal to the first controller;

the second solar power generation module comprises a second solar panel 2, a second storage battery and a second control circuit board, the second control circuit board integrates a second electric energy conversion module, a second electric quantity detection module and a second controller, the second solar panel 2 converts solar energy into electric energy through the second electric energy conversion module to charge the second storage battery, and the second electric quantity detection module is used for detecting the current electric quantity of the second storage battery and transmitting a detection signal to the second controller;

the output power conversion module is connected with the first solar power generation module and the second solar power generation module and is used for controlling the output power generation of the first solar power generation module and the second solar power generation module;

the output power conversion module comprises an interface circuit, a microprocessor MCU, a first drive circuit, a first relay, a second drive circuit and a second relay, and the first controller and the second controller are connected with the microprocessor MCU through the interface circuit and are communicated with each other; the power supply output end of the first storage battery is connected to a load through a first switch JK1, the power supply output end of the second storage battery is connected to the load through a second switch JK2, the microprocessor MCU drives a first relay through a first driving circuit, and the first relay controls the opening or closing of a first switch JK 1; the microprocessor MCU drives a second relay through a second driving circuit, the second relay controls the second switch JK2 to be switched on or off, in a normal working state, the output power proportion of the first solar power generation module and the second solar power generation module is controlled by the output power switching module to simultaneously supply power to the load or independently supply power to the load, the output power of the system is ensured to be equal to that required by a user load, and the system enters a power switching state, and the first solar power generation module and the second solar power generation module which are switched out can supplement energy, so that uninterrupted power generation can be realized in a reciprocating mode, the safety of power-requiring equipment under the condition of power failure is fully protected, the work of the user is ensured to be efficiently and smoothly completed, the loss caused by power failure is reduced, and the power supply reliability is improved.

The first controller and the second controller can be connected with the MCU through wires or wirelessly.

The microprocessor MCU is also connected with a control panel, and the control panel inputs data and sends instructions to the microprocessor MCU.

The first solar power generation module, the second solar power generation module and the output battery replacement module are integrated on the mounting bracket 3, the structural arrangement is reasonable, and the integration level is high.

The mounting bracket 3 comprises a connecting seat 31 and a first supporting platform 32 and a second supporting platform 33 which are arranged at the top of the connecting seat 31, the first solar panel 1 of the first solar power generation module and the second solar panel 2 of the second solar power generation module are respectively mounted on the first supporting platform 32 and the second supporting platform 33, the structural arrangement is reasonable, and the mounting is simple.

The microprocessor MCU is also connected with an alarm, when the power switching state is started, the microprocessor MCU utilizes the alarm to externally alarm to inform workers, the safety performance is high, and the safe operation of the load under the power failure condition is ensured.

The alarm comprises a wireless alarm communication module, the microprocessor MCU is connected to a mobile phone of a worker through the wireless alarm communication module, when the mobile phone enters a power conversion state, the mobile phone of the worker can receive alarm information so that the worker can operate the control panel to input data and send instructions to the microprocessor MCU, the safety performance is high, and the safe operation of a load under the power failure condition is guaranteed.

The microprocessor MCU is also connected with a display, and the display is used for displaying the working state and relevant working data of the power generation system, so that the power surplus of the second solar power generation module and the second solar power generation module can be monitored conveniently.

The above embodiments are only preferred embodiments of the present invention, but the present invention is not limited thereto, and any other changes, modifications, substitutions, combinations, simplifications, which are made without departing from the spirit and principle of the present invention, are all equivalent replacements within the protection scope of the present invention.

Claims (8)

1. Complementary power generation system of intelligent control type commercial power, its characterized in that: the method comprises the following steps:

the first solar power generation module comprises a first solar panel (1), a first storage battery and a first control circuit board, wherein the first control circuit board is integrated with a first electric energy conversion module, a first electric quantity detection module and a first controller, the first solar panel (1) converts solar energy into electric energy through the first electric energy conversion module to charge the first storage battery, and the first electric quantity detection module is used for detecting the current electric quantity of the first storage battery and transmitting a detection signal to the first controller;

the second solar power generation module comprises a second solar panel (2), a second storage battery and a second control circuit board, the second control circuit board is integrated with a second electric energy conversion module, a second electric quantity detection module and a second controller, the second solar panel (2) converts solar energy into electric energy through the second electric energy conversion module to charge the second storage battery, and the second electric quantity detection module is used for detecting the current electric quantity of the second storage battery and transmitting a detection signal to the second controller;

the output power conversion module is connected with the first solar power generation module and the second solar power generation module and is used for controlling the output power generation of the first solar power generation module and the second solar power generation module;

the output power conversion module comprises an interface circuit, a microprocessor MCU, a first drive circuit, a first relay, a second drive circuit and a second relay, and the first controller and the second controller are connected with the microprocessor MCU through the interface circuit and are communicated with each other; the power supply output end of the first storage battery is connected to a load through a first switch JK1, the power supply output end of the second storage battery is connected to the load through a second switch JK2, the microprocessor MCU drives a first relay through a first driving circuit, and the first relay controls the opening or closing of a first switch JK 1; the microprocessor MCU drives a second relay through a second driving circuit, and the second relay controls the opening or closing of a second switch JK 2.

2. The intelligent control type commercial power complementary power generation system according to claim 1, wherein: the first controller and the second controller can be connected with the MCU through wires or wirelessly.

3. The intelligent control type commercial power complementary power generation system according to claim 2, wherein: the microprocessor MCU is also connected with a control panel, and the control panel inputs data and sends instructions to the microprocessor MCU.

4. The intelligent control type commercial power complementary power generation system according to claim 1, 2 or 3, wherein: the first solar power generation module, the second solar power generation module and the output power conversion module are integrated on a mounting bracket (3).

5. The intelligent control type commercial power complementary power generation system according to claim 4, wherein: the mounting support (3) comprises a connecting seat (31), a first supporting platform (32) and a second supporting platform (33) which are arranged at the top of the connecting seat (31), and a first solar panel (1) of the first solar power generation module and a second solar panel (2) of the second solar power generation module are respectively mounted on the first supporting platform (32) and the second supporting platform (33).

6. The intelligent control type commercial power complementary power generation system according to claim 5, wherein: the microprocessor MCU is also connected with an alarm, and when the battery replacement state is started, the microprocessor MCU utilizes the alarm to externally alarm to inform workers.

7. The intelligent control type commercial power complementary power generation system according to claim 6, wherein: the alarm comprises a wireless alarm communication module, the microprocessor MCU is connected to a mobile phone of a worker through the wireless alarm communication module, and when the mobile phone enters a battery replacement state, the mobile phone of the worker can receive alarm information so that the worker can operate the control panel to input data and send instructions to the microprocessor MCU.

8. The intelligent control type commercial power complementary power generation system according to claim 6, wherein: the microprocessor MCU is also connected with a display, and the display is used for displaying the working state and relevant working data of the power generation system.

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