CN109683645B - Power equipment with self-feedback function - Google Patents

Abstract

The invention provides an electric power device with a self-feedback function, and the patrol inspection of the electric power device located in a remote mountain area requires staff to travel long distances to complete the inspection. The present invention provides a power device with a self-feedback function, including device state monitoring, associated device state monitoring, a wireless communication module and a backup power supply module, and enhanced device durability. After the installation of the equipment is completed, regular status feedback and status feedback of the associated equipment can be performed to reduce the workload of inspection personnel.

Description

A kind of power equipment with self-feedback function

technical field

The present invention relates to the field of electric power, in particular to an electric power device with a self-feedback function.

Background technique

Power equipment, especially power transmission equipment, is often erected in remote mountainous areas or in relatively steep terrain. In order to ensure the normal use of the equipment, manual inspections are often required, which requires a great workload. The patent application number in the prior art is: 201721617724.6 The patent application for protection of a power line intelligent inspection system, through the unmanned aerial vehicle and remote sensing technology, combined with image processing, finds the abnormality of the equipment, but because the above two technologies both require Weather support, and there is a blind spot in image processing, it cannot achieve effective monitoring inside the device, so it cannot respond well to the problems of the device itself; patent application number: 201711241383.1 The patent application for protection of an unattended power state monitoring system The equipment is used for signal monitoring of the transmitting station, but it can only feed back the status of the equipment itself, and cannot feed back the status of the associated equipment along the line. It still requires manpower to conduct line inspections.

In view of the above problems in the prior art, the present application adopts the following technical solutions.

SUMMARY OF THE INVENTION

In order to solve the above-mentioned technical problems, the present invention is realized through the following technical solutions:

An electric power device with self-feedback function is characterized in that it specifically includes the following modules: a self-state monitoring module, an associated device state monitoring module, a wireless communication module, a power supply module, and a server.

The self-state monitoring module monitors the operating state according to the installed power equipment, specifically including the input and output parameters, temperature, and working hours of the current power equipment.

The associated equipment state monitoring is used to obtain the working state of the power equipment associated with the current power equipment, including obtaining through the communication module, or obtaining through the input and output power data.

The server obtains the operating status of each device through wireless communication with different monitoring devices. When the associated state value sent by the associated power device is inconsistent with the current state value sent by the current power device, or when there is an abnormality, the abnormality can be passed. The value locates where the fault occurs.

The wireless communication module is used for communication between the power devices and between the power devices and the main server, and the specific communication information is the running state of the current device and the running state of the associated device.

The power supply module includes the main power supply for performing the current monitoring function and the backup power supply for continuous real-time uploading of status information.

A variety of sensors are also included, including sensors for temperature, humidity, noise, and radiation parameters.

The beneficial effects of the present invention are:

1. By installing the equipment on substations, substations, line poles, line towers and other equipment erected in wild mountainous areas, monitoring and real-time feedback of operation status and improving equipment safety.

2. Through timely feedback, the inspection feedback of line faults can be reduced, the fault point can be located more quickly, and the fault information can be fed back in time through the backup power supply and wireless communication, which improves the work efficiency.

Description of drawings

1 and 2 are schematic diagrams of the system work of the present invention.

A kind of power equipment with self-feedback function, the inspection of power equipment located in remote mountainous areas requires staff to travel long distances to complete. The present invention provides a power device with a self-feedback function, including device state monitoring, associated device state monitoring, a wireless communication module and a backup power supply module, and enhanced device durability. After the installation of the equipment is completed, regular status feedback and status feedback of the associated equipment can be performed to reduce the workload of inspection personnel.

Detailed ways

The present invention will be described in further detail below in conjunction with the specific embodiments, but the embodiments of the present invention are not limited thereto. In the case of no conflict, the embodiments of the present invention and the features of the embodiments can be combined with each other:

An electric power device with self-feedback function is characterized in that it specifically includes the following modules: a self-state monitoring module, an associated device state monitoring module, a wireless communication module, a power supply module, and a server.

The self-state monitoring module monitors the operating state according to the installed power equipment, specifically including the input and output parameters, temperature, and working hours of the current power equipment.

The associated equipment state monitoring is used to obtain the working state of the power equipment associated with the current power equipment, including obtaining through the communication module, or obtaining through the input and output power data.

The server obtains the operating status of each device through wireless communication with different monitoring devices. When the associated state value sent by the associated power device is inconsistent with the current state value sent by the current power device, or when there is an abnormality, the abnormality can be passed. The value locates where the fault occurs.

The wireless communication module is used for communication between the power devices and between the power devices and the main server, and the specific communication information is the running state of the current device and the running state of the associated device.

Further, as shown in Fig. 1 of the description, each monitoring device is installed on the power equipment to perform data feedback of the running state of the power equipment.

The power supply module includes the main power supply for performing the current monitoring function and the backup power supply for continuous real-time uploading of status information.

A variety of sensors are also included, including sensors for temperature, humidity, noise, and radiation parameters.

Further, when the temperature, noise, etc. exceed the normal values, the data fed back by the associated equipment can be compared to quickly locate the faulty power equipment.

Specifically, another embodiment includes the processing terminal installed in each device, which includes a data processing and comparison device, which includes the standard parameter range during the normal operation of the device, and the data collected by each sensor is compared with the data in the processing terminal. The standard data is compared, and when the data exceeds the standard range, the terminal will issue a data alarm. The data comparison range of each processing terminal is adjusted according to changes in factors such as weather and equipment operating environment. Specifically, for example, high temperature weather, extremely cold weather, and the controllable temperature range of equipment operation are adjusted accordingly.

Further, as shown in Figure 2 of the description, each monitoring device communicates with the server, and the server can obtain the data feedback of the associated device to its own state, and compare it with its own data to detect abnormal power loss or other abnormality. value situation.

The preferred embodiments of the present invention have been specifically described above, but the present invention is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or replacements without departing from the spirit of the invention. , these equivalent modifications or substitutions are all included within the scope of this application.

Claims (4)

1. A power device with a self-feedback function, characterized in that it specifically comprises the following modules: a self-state monitoring module, an associated device state monitoring module, a wireless communication module, a power supply module, and a server; The self-state monitoring module monitors the operating state according to the installed power equipment, specifically including the input and output parameters, temperature, and working hours of the current power equipment; Associated equipment status monitoring, used to obtain the working status of the power equipment associated with the current power equipment, including acquisition through the communication module, or through the acquisition of input and output power data; The server obtains the operating status of each device through wireless communication with different monitoring devices. When the associated state value sent by the associated power device is inconsistent with the current state value sent by the current power device, or when there is an abnormality, the abnormality can be passed. The value locates where the fault occurs. 2 . The device according to claim 1 , wherein the wireless communication module is used for communication between power devices and between the power devices and the main server, and the specific communication information is the running state of the current device and the running state of the associated device. 3 . . 3 . The device according to claim 1 , wherein the power supply module includes a main power supply for performing a current monitoring function and a backup power supply, which are used for continuous real-time uploading of status information. 4 . 4. The apparatus of claim 1, further comprising a variety of sensors, including temperature, humidity, noise, and radiation parameter sensors.

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