JP3223981U - Solar energy management system and output control device - Google Patents

Abstract

An output control device that can be easily provided between a solar energy conversion device and a power transmission network and can reduce the installation cost, and solar energy capable of effectively and quickly controlling the total amount of electric energy based on the output control information. Provide a management system. A solar energy management system includes a solar panel group 11, a solar energy conversion device 12 electrically connected to the solar panel group, and a storage device 13 electrically connected to the solar energy conversion device. And an output control device 14 that is provided between the solar energy conversion device and the power transmission network and receives the output control information transmitted from the server through communication connection with the server 2. When the output control device receives the output control information, the output control device adjusts the total amount of electric energy output from the solar energy conversion device to the power transmission network based on the output control information. [Selection] Figure 1

Description

  The present invention relates to a solar energy management system and an output control device, and more particularly to a solar energy management system and an output control device that control the amount of output power of a solar panel group.

  Conventional solar power plants do not have facilities related to the Internet of Things, so it is difficult to quickly respond to the demand that power companies control the amount of output power in each area of the transmission network using existing facilities. If the equipment is replaced with new equipment to meet demand, the cost will be considerably high.

  Therefore, it is an important issue in the industry to provide a solar energy management system that can contribute to the quick adjustment to the output power amount from the power plant and that is low in cost.

  A technical problem to be solved by the present invention is to provide a solar energy management system and an output control device capable of improving an existing technical shortage.

  In order to solve the above technical problem, one aspect according to the present invention provides a solar energy management system connected to a power grid. A solar energy management system includes a solar panel group, a solar energy conversion device electrically connected to the solar panel group, a storage device electrically connected to the solar energy conversion device, a solar energy conversion device, and power transmission An output control device that is provided between the solar energy conversion device and the power transmission network so as to be electrically connected to the network, and that is in communication connection with the server and receives output control information transmitted from the server. When the output control device receives the output control information, the output control device adjusts the total electric energy output from the solar energy conversion device to the power transmission network based on the output control information.

  In order to solve the technical problem described above, another aspect of the present invention provides an output control device provided between a power transmission network and a solar energy conversion device. The output control device respectively controls a plurality of control switch modules electrically connected to the corresponding solar energy conversion module, and a corresponding control switch module electrically connected to the corresponding control switch module, A plurality of sequence control modules electrically connected to each other, and a communication module for communication connection with the plurality of sequence control modules and the server are included. When the communication module receives the output control information transmitted from the server, the plurality of sequence control modules turn on or off the corresponding control switch module based on the output control information, respectively, to control the output from the solar energy conversion device. To match the output power amount with the output control information. The controlled output power is output to the power grid.

  The excellent effects of the present invention are as follows. The solar energy management system according to the present invention can quickly control the total amount of electric energy effectively based on the output control information. The output control device according to the present invention can be easily installed between the solar energy conversion device and the power grid, can be easily installed in a solar energy power plant with old facilities, and effectively reduces the installation cost. Can be reduced.

  For a clearer understanding of the features and technical contents of the present invention, reference is made to the following detailed description and drawings related to the present invention. However, the provided drawings are for reference and explanation only and do not limit the present invention.

FIG. 1 is a schematic diagram of a solar energy management system according to an embodiment of the present invention. FIG. 2 is another schematic diagram of the solar energy management system according to the embodiment of the present invention. FIG. 3 is a schematic diagram in which the solar energy management system according to the embodiment of the present invention performs control based on control information.

  Hereinafter, an implementation method related to the “solar energy management system and output control device” according to the present invention will be described according to a specific specific embodiment. Those skilled in the art can understand the advantages and effects of the present invention according to the contents disclosed herein. The present invention can be implemented or applied in other different specific embodiments. Each detailed description in the present specification may be variously modified and changed based on different viewpoints and applications without departing from the gist of the present invention. Also, the above description is merely for the purpose of using the drawings of the present invention for a simple schematic description, and is not drawn based on actual dimensions. Although the following embodiments will explain the technical contents related to the present invention in more detail, the disclosed contents are not intended to limit the scope of the claims for utility model registration of the present invention.

  It should be understood that various components or signals may be described in this text by terms such as “first”, “second”, “third”, etc. It is not limited to terms. These terms are mainly for distinguishing between one component and the other, or one signal and the other. Also, the term “or” used herein may include any one or more combinations of the items listed in the actual case.

[First embodiment]
Please refer to FIG. 1, FIG. 2 and FIG. FIG. 1 is a schematic diagram of a solar energy management system according to an embodiment of the present invention. FIG. 2 is another schematic diagram of the solar energy management system according to the embodiment of the present invention. FIG. 3 is a schematic diagram in which the solar energy management system according to the embodiment of the present invention performs control based on control information.

  The solar energy management system 1 is electrically connected to the power transmission network 3. The solar energy management system 1 includes a solar panel group 11, a solar energy conversion device 12, a storage device 13, and an output control device 14.

  The solar energy conversion device 12 is electrically connected to the solar panel group 11. The storage device 13 is electrically connected to the solar energy conversion device 12. The output control device 14 is provided between the solar energy conversion device 12 and the power transmission network 3. The output control device 14 is electrically connected to the solar energy conversion device 12 and the power transmission network 3. The output control device 14 communicates with the server 2 and receives the output control information transmitted from the server 2.

  When the output control device 14 receives the output control information transmitted from the server 3, the output control device 14 adjusts the total electric energy output from the solar energy conversion device 12 to the power transmission network 3 based on the output control information.

  The solar energy conversion device 12 transmits the electrical energy received from the solar panel group 11 to the power transmission network 3 via the output control device 14. Further, when the electrical energy of the solar panel group 11 is left, it is transmitted to the storage device 13 by the solar energy conversion device 12 and stored. The solar panel group 11 includes a plurality of solar panel modules (not shown) for absorbing light energy and converting it into electrical energy.

  The solar panel group 11 includes a plurality of solar panel modules 111-11N for receiving light energy and converting it into electrical energy. The storage device 13 includes a plurality of storage modules 131-13N. The solar energy conversion device 12 includes a plurality of solar energy conversion modules 121-12N. In the present embodiment, the number of solar panel modules 111-11N in the solar panel group 11 includes the number of solar energy conversion modules 121-12N of the solar energy conversion device 12 and the number of storage modules 131-131N of the storage device 13. The same, but may be adjusted or designed according to actual demand and is not limited by the present invention. In another embodiment, the number of solar panel modules 111-11N in the solar panel group 11, the number of solar energy conversion modules 121-12N in the solar energy conversion device 12, and the storage modules 131-131N in the storage device 13 are also described. The number may be different.

  In the present embodiment, the solar panel group 11 includes N solar panel modules that are the first solar panel module 111 to the Nth solar panel module 11N. The solar energy conversion device 12 includes N solar energy conversion modules which are the first solar energy conversion module 121 to the Nth solar energy conversion module 12N. The storage device 13 includes N storage modules that are the first storage module 131 to the Nth storage module 13N. In the present embodiment, the first storage module 131 to the Nth storage module 13N may be high capacity batteries such as lithium ion batteries, nickel metal hydride batteries, nickel manganese batteries, and are not limited by the present invention.

  Each solar panel module is electrically connected to a corresponding storage module and a corresponding solar energy conversion module. Each solar energy conversion module is electrically connected to the output control device 14.

  The output control device 14 includes a communication module 140, a plurality of control switch modules 141-1 to 141-N, a plurality of sequence control modules 142-1 to 142-N, and a plurality of ammeters 143-1 to 143-N. The control switch modules 141-1 to 141-N of the output control device 14 are electrically connected to the corresponding sequence control modules 142-1 to 142-N, respectively. Each control switch module is electrically connected to a corresponding solar energy conversion module.

  The output control device 14 is connected to the server 2 through the communication module 140. The communication module 140 is communicatively connected to a plurality of sequence control modules 142-1 to 142-N of the output control device 14. In the present embodiment, the communication module 140 is connected to a plurality of sequence control modules 142-1 to 142-N of the output control device 14 by a wired method or a wireless method. The plurality of sequence control modules 142-1 to 142-N are connected to each other by a wired system. The sequence control modules 142-1 to 142-N may be RS485 sequence control modules or RS232 sequence control modules. The ammeters 143-1 to 143-N are electrically connected to the corresponding sequence control modules, respectively. The ammeters 143-1 to 143-N are for detecting the module current value of the module output electric energy of the corresponding solar energy conversion module. Each of the control switch modules 141-1 to 141-N is a reed switch. The ammeters 143-1 to 143-N are clip-on induction ammeters.

  That is, the first solar panel module 111 is electrically connected to the first storage module 131 and the first solar energy conversion module 121. The first solar energy conversion module 121 is electrically connected to the first control switch module 141-1. The first sequence control module 142-1 is electrically connected to the first solar energy conversion module 121.

  The solar energy management system 1 includes a switch group 15 and an output power amount measuring device 16. The output control device 14 is electrically connected to the power transmission network 3 via the switch group 15 and the output power amount measuring device 16. The switch group 15 includes a plurality of switch modules 151-15N. Each control switch module of the output control device 14 is electrically connected to one of the switch modules 151-15N of the switch group 15. The plurality of switch modules 151-15N of the switch group 15 are electrically connected to the output power amount measuring device 16, respectively. In this embodiment, the output power amount measuring device 16 is for the solar panel group 11 and the solar energy conversion device 12 to detect the total electric energy output to the power transmission network 3 via the output control device 14.

  When the communication module 140 of the output control device 14 receives the output control information transmitted from the server 2, it analyzes the output control information. The output control information indicates that the solar energy management system needs to output 50% of the rated electric energy total amount at, for example, 1 to 3 pm today. The output control device 14 first calculates the actual total electric energy based on the current value and output voltage value measured by each ammeter 143-1 to 143-N. Next, the difference value between the actual electric energy total amount and the rated electric energy total amount is compared, and an analysis is performed based on the current values measured by the ammeters 143-1 to 143-N, and the corresponding control switch module 141- By turning on or off 1-141-N, the adjusted electric energy total amount is made to match the output control information.

  The solar energy conversion module 121-12N includes a DC-DC conversion module (not shown) and a DC-AC conversion module (not shown). Each DC-DC conversion module (not shown) of the solar energy conversion module 121-12N is electrically connected to the corresponding storage module 131-13N. Each DC-AC conversion module (not shown) of the solar energy conversion module 121-12N is electrically connected to the corresponding solar panel module 111-11N. The output control device 14 also transmits control signals to the corresponding solar energy conversion modules 121-12N by the sequence control modules 142-1 to 142-N, respectively, and adjusts the electrical energy converted by the solar panel module 111-11N. Then, the data is stored in the storage module 131-13N or transmitted to the power transmission network 3 through the output control device 14.

  The switch group 15 and the output energy measuring device 16 are one selectable facility option, and in another embodiment, the solar energy management system 1 uses the switch group 15 or the output energy measuring device 16 according to actual demand. It may be provided or neither of them may be provided, and is not limited by the present invention.

  Please refer to FIG. FIG. 3 is a schematic diagram in which the solar energy management system according to the embodiment of the present invention performs control based on control information.

  As shown in FIG. 3, the output control information includes time information (including year / month / day information) and an output control value (for example, an output upper limit for each time zone during the day). The solar energy management system 1 can adjust the total output electric energy of each solar panel module at a predetermined time based on the output control information so as to meet the request for the output control information. The solar energy management system 1 in the present embodiment can be applied to a solar energy power plant so as to be consistent with a power feeding control plan for a power grid.

  As shown in FIG. 3, at 11-13, the total output amount needs to be 0%. That is, in this time zone, all the control switch modules 141-1 to 141-N of the output control device 14 are turned off. The electrical energy converted by the solar panel module 111-11N at this time is stored in the storage module 131-13N. The output control device 14 adjusts the solar energy conversion device 12 to provide the electrical energy stored in the storage module 131-13N to the power transmission network 3 in two time zones of 15-24 hours and 0-9 hours. it can.

[Excellent effects of the embodiment]
The excellent effects of the present invention are as follows. The solar energy management system according to the present invention can effectively control the total electric energy based on the output control information. The output control device according to the present invention can be easily provided between the solar energy conversion device 12 and the power transmission network 3, can be easily installed in a solar energy power plant with old facilities, and can be installed effectively. Can be reduced.

  The above description is only a preferred embodiment of the present invention, and the scope of the claims for utility model registration of the present invention is not limited thereto. Any equivalent technical modifications made from the contents of the description and drawings of the present invention are included in the claims of the utility model registration of the present invention.

DESCRIPTION OF SYMBOLS 1 Solar energy management system 2 Server 3 Power transmission network 11 Solar panel group 12 Solar energy conversion apparatus 13 Storage apparatus 14 Output control apparatus 15 Switch group 16 Output electric energy measuring apparatus 111-11N 1st solar panel module thru | or Nth sunlight Panel module 121-12N First solar energy conversion module through Nth solar energy conversion module 131-13N First storage module through Nth storage module 140 Communication modules 141-1 through 141-N First control switch module through Nth control switch Modules 142-1 to 142-N First sequence control module to Nth sequence control module 143-1 to 143-N First ammeter to Nth ammeter 151-15N First switch module to Nth switch module Yuru

Claims (6)

A solar energy management system connected to a power grid,
Solar panels,
A solar energy conversion device electrically connected to the solar panel group;
A storage device electrically connected to the solar energy conversion device;
Provided between the solar energy conversion device and the power transmission network so as to be electrically connected to the solar energy conversion device and the power transmission network, and communicated with a server to output control information transmitted from the server An output control device for receiving;
Including
When the output control device receives the output control information, the output control device adjusts the total amount of electric energy output from the solar energy conversion device to the power transmission network based on the output control information. The solar panel group includes a plurality of solar panel modules for absorbing light energy and converting it into electrical energy,
The storage device includes a plurality of storage modules;
The solar energy conversion device includes a plurality of solar energy conversion modules each electrically connected to the output control device,
The solar energy management system according to claim 1, wherein each of the solar panel modules is electrically connected to the corresponding storage module and the corresponding solar energy conversion module. The output control device includes:
A plurality of control switch modules each electrically connected to the corresponding solar energy conversion module;
A plurality of sequence control modules each electrically connected to the corresponding control switch module;
The solar energy management system according to claim 2, comprising:   Each of the output control devices includes an ammeter that is electrically connected to the corresponding sequence control module and detects a module current value of the module output electric energy of the corresponding solar energy conversion module. Item 4. A solar energy management system according to item 3. The output control device includes a communication module for communicating with a plurality of the sequence control modules of the output control device,
The solar power management system according to claim 3, wherein the output control device is connected to the server via the communication module. An output control device provided between a power grid and a solar energy conversion device,
A plurality of control switch modules each electrically connected to a corresponding solar energy conversion module;
A plurality of sequence control modules that are electrically connected to the corresponding control switch modules and that respectively control the corresponding control switch modules and are electrically connected to each other;
A plurality of sequence control modules and a communication module for communication connection with the server;
Including
When the communication module of the output control device receives the output control information transmitted from the server, a plurality of the sequence control modules respectively turn on or off the corresponding control switch module based on the output control information. The controlled output power amount output from the solar energy conversion device is matched with the output control information,
The output control apparatus characterized in that the controlled output power amount is output to the power transmission network.

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