A "one-key remote" remote intelligent control system and a method of using the same

By designing a remote intelligent control system with intelligent circuit breaker modules and remote control devices, the problems of cumbersome operation and low coordination efficiency of operators in multi-screen cabinets have been solved, and convenient and efficient remote operation has been achieved.

CN122268019APending Publication Date: 2026-06-23XUCHANG POWER SUPPLY COMPANY OF STATE GRID HENAN ELECTRIC POWER

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
XUCHANG POWER SUPPLY COMPANY OF STATE GRID HENAN ELECTRIC POWER
Filing Date
2026-02-03
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In existing technologies, operators need to operate each cabinet sequentially, which is cumbersome and time-consuming, carries the risk of missing operations, and results in low coordination efficiency between different disciplines.

Method used

Design a remote intelligent control system that includes an intelligent circuit breaker module and an intelligent remote control device. Through the combination of a power module, a communication module and a circuit breaker module, the system realizes remote control and information transmission of the circuit breaker module, and performs intelligent automatic switching under the control of the back-end machine.

Benefits of technology

It improves the ease and efficiency of operation, reduces the risk of missed operations, and enhances the reliability and coordination efficiency of the system.

✦ Generated by Eureka AI based on patent content.

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    Figure CN122268019A_ABST
Patent Text Reader

Abstract

The application relates to a one-key remote switching intelligent control system and a use method thereof, wherein a power module adopts a 220V alternating current power source and is located at a left end; a communication module is used for acquiring the current on-off state of each air switch module; the air switch module is multiple and is arranged between the power module and the communication module in a series connection mode; the upper connecting port of each air switch module is connected with a 101 positive electrode of a corresponding branch protection screen cabinet; the lower connecting port is connected with a remote control loop of a corresponding branch control screen cabinet; a wireless communication assembly is connected between an intelligent remote control device and a background machine; the wireless communication assembly is used for transmitting the on-off state of each air switch module and real-time information of the power module and the communication module to the background machine; meanwhile, the wireless communication assembly can also control the air switch module to intelligently and automatically switch the on-off state based on the command of the background machine; and the application has the advantages of convenient operation and use and high intelligence and efficiency.
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Description

Technical Field

[0001] This invention belongs to the field of remote control circuit breaker technology, specifically relating to a "one-click remote control" intelligent control system and its usage method. Background Technology

[0002] When operators perform switch opening and closing operations, they often need to activate the remote / local handle at the control cabinet. Using the control cabinet as a reference, when operators perform switch opening and closing operations at the control cabinet, it is considered a "local switch opening and closing" operation from the control cabinet's perspective. In this case, the operator should first activate the remote / local handle at the control cabinet to the "local" position before performing the switch opening and closing operation at the control cabinet. However, when monitoring personnel or dispatchers perform switch opening and closing operations at the monitoring station, it is considered a "remote switch opening and closing" operation from the control cabinet's perspective. In this case, the operator should first activate the remote / local handle at the control cabinet to the "remote" position before the monitoring personnel or dispatchers can perform the switch opening and closing operation at the monitoring station. Currently, in order to... To facilitate remote switching operations by monitoring or dispatching personnel, the remote / local handles of each control cabinet are defaulted to the "remote" position. This presents the following problems: 1. With too many cabinets, operators need to operate each cabinet sequentially according to the operation ticket, which is cumbersome and time-consuming. Furthermore, operators may miss operations, resulting in low overall reliability. 2. After maintenance personnel complete their work, they need to wait for operators to arrive, severely testing coordination between different specialties and leading to low overall efficiency. Therefore, to solve these problems, it is necessary to develop a convenient, intelligent, and efficient "one-click remote switching" remote intelligent control system and its usage method. Summary of the Invention

[0003] The purpose of this invention is to overcome the shortcomings of the prior art and provide a convenient, intelligent and efficient "one-click remote control" system and its usage method.

[0004] The objective of this invention is achieved as follows: a "one-click remote control" intelligent system includes an intelligent circuit breaker module and an intelligent remote control device. The intelligent circuit breaker module consists of a power supply module, a communication module, and circuit breaker modules. The power supply module uses 220V AC power and is located on the left. The communication module is used to acquire the current open / closed status of each circuit breaker module, and after A / D conversion, sends the acquired information to the intelligent remote control device via a connection line. Simultaneously, it can also transmit control commands between the intelligent remote control device and the circuit breaker modules. Multiple circuit breaker modules are connected in series between the power supply module and the communication module. Between the modules, the upper connection port of each circuit breaker module is connected to the 101 positive terminal of the corresponding branch protection panel, and the lower connection port is connected to the remote control circuit of the corresponding branch measurement and control panel. Data transmission is performed between the power supply module, the communication module, and multiple circuit breaker modules via data pin headers. The intelligent remote control device is connected to the back-end unit via a wireless communication component. It is used to send the open / close status of each circuit breaker module and the real-time information of the power supply module and the communication module to the back-end unit. At the same time, it can also control the circuit breaker modules to perform intelligent automatic switching of open / close status based on the commands of the back-end unit via the communication module.

[0005] Furthermore, the circuit breaker module is equipped with a push-button switch inside and a toggle operating handle on the outside. By pressing the push-button switch, the circuit breaker module can be automatically and intelligently switched between open and closed states according to the control commands transmitted by the communication module; by toggle the operating handle, the circuit breaker module can be manually switched between open and closed states.

[0006] Furthermore, the surface of the circuit breaker module is sequentially equipped with a communication indicator light and a status indicator light. When the communication indicator light is blue and constantly lit, it indicates that the communication is normal. At this time, the circuit breaker module can receive opening and closing control commands from the communication module. When the communication indicator light is off, it indicates a communication failure. The status indicator light indicates the opening and closing status of the circuit breaker module. Red indicates that the circuit breaker module is in the closed state, and green indicates that the circuit breaker module is in the open state.

[0007] Furthermore, the surface of the communication module is sequentially provided with a UART indicator light and a network status indicator light. The UART indicator light represents the system working status of the communication module. A solid light indicates that the system is in the startup process, while a flashing light indicates that the system and communication are in normal operation. The network status indicator light represents the network mode status of the communication module. A solid light indicates that the network cable between the module and the smart remote control module is normally connected, while an off light indicates that the network cable between the module and the smart remote control module is disconnected.

[0008] A method for using a "one-click remote access" intelligent control system includes the following steps: (1) When the operator needs to remotely control the opening and closing of a certain branch, the operator needs to send the closing / opening command to the circuit breaker module corresponding to the target branch through the back-end machine. (2) After the background unit issues a command, the command can be transmitted to the intelligent remote control module via the wireless communication component; and after the intelligent remote control module receives the command, it sends a control command to the corresponding circuit breaker module via the communication module. (3) After receiving the control command transmitted by the communication module, the circuit breaker module can use the internal push-button switch to intelligently and automatically switch the circuit breaker module's opening and closing states according to the command requirements. (4) After the above steps are completed, when the intelligent circuit breaker module corresponding to a certain branch is in the closed state, the remote control circuit of the branch is powered on, and the operator can perform remote control operation. When the intelligent circuit breaker module corresponding to a certain branch is in the open state, the branch is in the manual open / close state by default. At this time, the operator can unlock the five-proof lock and perform local operation in front of the corresponding branch's measurement and control screen.

[0009] The beneficial effects of this invention are as follows: This invention transfers the positive power of all remote / local handles (101) throughout the station and replaces the remote / local handles with intelligent circuit breaker modules that have remote control and information transmission functions. Different operating circuit switches are set up for the positive power of different cabinets (101) and clearly marked. In actual operation, the back-end unit sends a closing / opening command to the circuit breaker module corresponding to the target branch. After the command is issued, the intelligent remote control module and communication module transmit the command to the circuit breaker module. The circuit breaker module can then use its internal push-button switches to intelligently and automatically switch between closing and opening states according to the command requirements. This structure increases the convenience and intelligence of the entire operation. Furthermore, when operators need to operate multiple branch switches simultaneously, they can perform unified operation at the control system, improving operational efficiency and convenience. In summary, this invention has the advantages of convenient operation, intelligence, and high efficiency. Attached Figure Description

[0010] Figure 1 This is a schematic diagram of the principle of the present invention.

[0011] Figure 2 This is a wiring diagram illustrating the application of the present invention in the opening and closing circuit.

[0012] Figure 3 This is the wiring diagram of the intelligent circuit breaker module in this invention. Detailed Implementation

[0013] The present invention will now be further described with reference to the accompanying drawings.

[0014] Example: Figure 1 , Figure 2 , Figure 3 As shown, a "one-click remote control" intelligent control system includes an intelligent circuit breaker module and an intelligent remote control device. The intelligent circuit breaker module consists of a power supply module, a communication module, and circuit breaker modules. The power supply module uses 220V AC power and is located on the left. The communication module is used to acquire the current open / closed status of each circuit breaker module, convert the acquired information into an A / D converter, and send it to the intelligent remote control device via a connection line. Simultaneously, it can also transmit control commands between the intelligent remote control device and the circuit breaker modules. Multiple circuit breaker modules are connected in series between the power supply module and the communication module. Each circuit breaker module has its upper connection port connected to the 101 positive terminal of the corresponding branch protection cabinet, and its lower connection port connected to the remote control circuit of the corresponding branch measurement and control cabinet. Data transmission is performed between the power supply module, the communication module, and multiple circuit breaker modules via data pin headers. The intelligent remote control device is connected to the back-end unit via a wireless communication component. It is used to send the open / close status of each circuit breaker module and the real-time information of the power supply module and the communication module to the back-end unit. At the same time, it can also control the circuit breaker modules to perform intelligent automatic switching of open / close status based on the commands of the back-end unit via the communication module.

[0015] Furthermore, the circuit breaker module is equipped with a push-button switch inside and a toggle operating handle on the outside. By pressing the push-button switch, the circuit breaker module can be automatically and intelligently switched between open and closed states according to the control commands transmitted by the communication module; by toggle the operating handle, the circuit breaker module can be manually switched between open and closed states.

[0016] Furthermore, the surface of the circuit breaker module is sequentially equipped with a communication indicator light and a status indicator light. When the communication indicator light is blue and constantly lit, it indicates that the communication is normal. At this time, the circuit breaker module can receive opening and closing control commands from the communication module. When the communication indicator light is off, it indicates a communication failure. The status indicator light indicates the opening and closing status of the circuit breaker module. Red indicates that the circuit breaker module is in the closed state, and green indicates that the circuit breaker module is in the open state.

[0017] Furthermore, the surface of the communication module is sequentially provided with a UART indicator light and a network status indicator light. The UART indicator light represents the system working status of the communication module. A solid light indicates that the system is in the startup process, while a flashing light indicates that the system and communication are in normal operation. The network status indicator light represents the network mode status of the communication module. A solid light indicates that the network cable between the module and the smart remote control module is normally connected, while an off light indicates that the network cable between the module and the smart remote control module is disconnected.

[0018] A method for using a "one-click remote access" intelligent control system includes the following steps: (1) When the operator needs to remotely control the opening and closing of a certain branch, the operator needs to send the closing / opening command to the circuit breaker module corresponding to the target branch through the back-end machine. (2) After the background unit issues a command, the command can be transmitted to the intelligent remote control module via the wireless communication component; and after the intelligent remote control module receives the command, it sends a control command to the corresponding circuit breaker module via the communication module. (3) After receiving the control command transmitted by the communication module, the circuit breaker module can use the internal push-button switch to intelligently and automatically switch the circuit breaker module's opening and closing states according to the command requirements. (4) After the above steps are completed, when the intelligent circuit breaker module corresponding to a certain branch is in the closed state, the remote control circuit of the branch is powered on, and the operator can perform remote control operation. When the intelligent circuit breaker module corresponding to a certain branch is in the open state, the branch is in the manual open / close state by default. At this time, the operator can unlock the five-proof lock and perform local operation in front of the corresponding branch's measurement and control screen.

[0019] In use, this invention first acquires the current open / closed status of each circuit breaker module using a communication module. Then, the acquired information is converted from digital to digital (A / D) and sent to the intelligent remote control device via a connection line. Next, the intelligent remote control device, upon receiving the open / closed status information of each circuit breaker module, combines it with real-time information collected from the power supply and communication modules, and sends this information to the back-end unit. Upon receiving the information from the intelligent remote control device, the back-end unit displays the operation to the operator via its external display component. The operator can then send closing / opening commands to the circuit breaker module corresponding to the target branch via the back-end unit as needed. Subsequently, the commands issued by the back-end unit are transmitted via a wireless communication component. Upon receiving the command from the intelligent remote control module, the module sends a control instruction to the corresponding circuit breaker module via the communication module. Finally, upon receiving the control instruction, the circuit breaker module uses its internal push-button switch to automatically switch between open and closed states according to the instruction. After these steps are completed, when the intelligent circuit breaker module for a branch is in the closed state, the remote control circuit for that branch is energized, allowing the operator to perform remote control operations. When the intelligent circuit breaker module for a branch is in the open state, the entire branch defaults to manual open / close mode, allowing the operator to unlock it via the five-proof lock and perform local operations at the corresponding branch's control panel.

[0020] The above embodiments are only used to illustrate the technical solutions of the present invention and not to limit it. Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art should understand that modifications or equivalent substitutions can still be made to the specific implementation of the present invention. Any modifications or equivalent substitutions that do not depart from the spirit and scope of the present invention should be covered within the scope of the claims of the present invention.

Claims

1. A "one-click remote control" intelligent control system, comprising an intelligent circuit breaker module and an intelligent remote control device, characterized in that: The intelligent circuit breaker module consists of a power supply module, a communication module, and circuit breaker modules. The power supply module uses 220V AC power and is located on the left. The communication module is used to acquire the current open / closed status of each circuit breaker module, convert the acquired information into A / D data, and send it to the intelligent remote control device via a connection line. It can also transmit control commands between the intelligent remote control device and the circuit breaker modules. There are multiple circuit breaker modules, which are connected in series between the power supply module and the communication module. The upper connection port of each circuit breaker module is connected to the 101 positive terminal of the corresponding branch protection panel, and the lower connection port is connected to the remote control circuit of the corresponding branch measurement and control panel. Data transmission is performed between the power supply module, the communication module, and the multiple circuit breaker modules via data pin headers. The intelligent remote control device is connected to the back-end unit via a wireless communication component. It is used to send the received open / closed status of each circuit breaker module and the real-time information from the power supply module and the communication module to the back-end unit. It can also control the circuit breaker modules to intelligently and automatically switch their open / closed status based on commands from the back-end unit via the communication module.

2. The "one-click remote control" intelligent control system as described in claim 1, characterized in that: The circuit breaker module has a push-button switch inside and a toggle operating handle on the outside. The push-button switch can be used to automatically switch the circuit breaker module's open and close states according to the control commands transmitted by the communication module; the toggle operating handle can be used to manually switch the circuit breaker module's open and close states.

3. The "one-click remote control" intelligent control system as described in claim 1, characterized in that: The surface of the circuit breaker module is sequentially equipped with a communication indicator light and a status indicator light. When the communication indicator light is blue and constantly lit, it indicates that the communication is normal. At this time, the circuit breaker module can receive opening and closing control commands from the communication module. When the communication indicator light is off, it indicates a communication failure. The status indicator light indicates the opening and closing status of the circuit breaker module. Red indicates that the circuit breaker module is in the closed state, and green indicates that the circuit breaker module is in the open state.

4. The "one-click remote control" intelligent control system as described in claim 1, characterized in that: The communication module has a UART indicator light and a network status indicator light arranged sequentially on its surface. The UART indicator light represents the system working status of the communication module. A solid light indicates that the system is in the startup process, while a flashing light indicates that the system and communication are in normal operation. The network status indicator light represents the network mode status of the communication module. A solid light indicates that the network cable between the module and the smart remote control module is properly connected, while an off light indicates that the network cable between the module and the smart remote control module is disconnected.

5. A method for using a "one-click remote control" intelligent remote control system, characterized in that, Includes the following steps: (1) When the operator needs to remotely control the opening and closing of a certain branch, the operator needs to send the closing / opening command to the circuit breaker module corresponding to the target branch through the back-end machine. (2) After the background unit issues a command, the command can be transmitted to the intelligent remote control module via the wireless communication component; and after the intelligent remote control module receives the command, it sends a control command to the corresponding circuit breaker module via the communication module. (3) After receiving the control command transmitted by the communication module, the circuit breaker module can use the internal push-button switch to intelligently and automatically switch the circuit breaker module's opening and closing states according to the command requirements. (4) After the above steps are completed, when the intelligent circuit breaker module corresponding to a certain branch is in the closed state, the remote control circuit of the branch is powered on, and the operator can perform remote control operation. When the intelligent circuit breaker module corresponding to a certain branch is in the open state, the branch is in the manual open / close state by default. At this time, the operator can unlock the five-proof lock and perform local operation in front of the corresponding branch's measurement and control screen.