CN220603601U - A verification device based on defect detection algorithm for substation equipment - Google Patents

Abstract

The utility model discloses a verification device based on a defect detection algorithm of power transformation equipment, which is in communication connection with a defect detection system of the power transformation equipment, and comprises a network topology component and a controller, wherein the controller is in communication connection with an information acquisition unit and a data acquisition unit; the information acquisition unit is used for acquiring a plurality of cameras of the power transformation equipment at all angles; the data acquisition unit is used for acquiring operation data of the power transformation equipment; the display unit is in communication connection with the controller, the information acquisition unit and the data acquisition unit. The verification device based on the defect detection algorithm of the power transformation equipment comprises a plurality of cameras for collecting images of all angles of the power transformation equipment, a plurality of sensors in communication connection with the power transformation equipment, and image data and operation data of the power transformation equipment, wherein when the collected image data and operation data of the power transformation equipment are different from initialization data built in a defect detection system of the power transformation equipment, alarm prompt is triggered.

Description

Verification device based on substation equipment defect detection algorithm

Technical Field

The utility model relates to the field of transformer detection tests, in particular to a verification device based on a defect detection algorithm of transformer equipment.

Background

The transformer is used as operation junction equipment for power transmission and distribution of a power system, and is often influenced by bad factors such as short circuit, overcurrent and overvoltage at near sites of a manufacturer in the operation process, so that the transformer is often provided with operation defects such as winding overheat, winding loosening deformation, inter-turn and inter-cake insulation mapping and sleeve defects, and when the transformer fails, the safe operation of a power grid can be greatly influenced, and the accurate identification of the defects in the operation process of the transformer is particularly important. Therefore, the verification device for timely and efficiently utilizing the defect detection algorithm of the power transformation equipment is required to verify the power transformation equipment so as to prevent related events to the maximum extent and ensure that the power transformation equipment can stably and efficiently operate.

Disclosure of Invention

Based on the technical problems, the verification device based on the defect detection algorithm of the transformer equipment is provided.

A verification device based on a transformation equipment defect detection algorithm, which is in communication connection with a transformation equipment defect detection system, comprising: the network topology assembly, the controller, the communication connection with information acquisition unit, data acquisition unit;

the information acquisition unit comprises a plurality of cameras for acquiring images of all angles of the power transformation equipment; the data acquisition unit comprises a plurality of sensors which are in communication connection with the power transformation equipment and is used for acquiring the operation data of the power transformation equipment; the display unit is in communication connection with the controller, the information acquisition unit and the data acquisition unit.

As a further optimization of the above solution, the network topology component is selected from one or more of CAN network, ethernet, serial port, LIN bus, flexRay bus interface.

As a further optimization of the above scheme, the display unit is selected from one or more of a programmable touch display screen, a tablet computer and a mobile phone.

As a further optimization of the scheme, the controller is selected from one of a singlechip, an industrial personal computer and an FPGA.

As a further optimization of the above scheme, the power transformation device operation data includes load conditions, oil temperature, winding temperature, vibration characteristics, partial discharge signals, center point grounding current and core grounding current associated with the power transformation device.

As a further optimization of the above, the controller includes:

the image processing module is connected with the cameras of the images of all angles of the power transformation equipment, receives the images of the power transformation equipment, is used for performing splicing processing on the images to generate 360-degree looking-around images, and verifies and alarms in the display unit when the built-in previous image sets of the images and the defect detection system of the power transformation equipment exceed a difference threshold value.

As a further optimization of the above, the controller includes:

the processing unit is connected with the data acquisition unit and is used for receiving the substation equipment operation data acquired by the sensor, and when the substation equipment operation data is different from the set threshold value of the substation equipment defect detection system, the processing unit outputs a verification alarm at the display unit.

As a further optimization of the above scheme, the controller comprises an alarm unit, the image processing module and the processing unit data are different from the set data set of the defect detection system of the power transformation equipment, and when the difference exceeds a preset threshold value, an abnormal alarm is triggered.

The verification device based on the defect detection algorithm of the power transformation equipment is in communication connection with a defect detection system of the power transformation equipment and comprises a plurality of cameras for collecting images of all angles of the power transformation equipment and a plurality of sensors in communication connection with the power transformation equipment, wherein the plurality of sensors are respectively used for acquiring image data and operation data of the power transformation equipment. When the acquired image data and operation data of the power transformation equipment are different from the initialization data built in the defect detection system of the power transformation equipment, an alarm prompt is triggered.

Drawings

Fig. 1 is a schematic structural diagram of a verification device based on a defect detection algorithm of a transformer device;

fig. 2 is a schematic structural diagram of a controller of a verification device based on a defect detection algorithm of a transformer device according to the present utility model;

fig. 3 is a schematic structural diagram of a data acquisition unit of a verification device based on a defect detection algorithm of a transformer device;

fig. 4 is a schematic structural diagram of an image acquisition unit of a verification device based on a defect detection algorithm of a transformer device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The data acquisition, storage, use, processing and the like in the technical scheme meet the relevant regulations of national laws and regulations.

A verification device based on a transformation equipment defect detection algorithm, which is in communication connection with a transformation equipment defect detection system, comprising: the network topology assembly, the controller, the communication connection with information acquisition unit, data acquisition unit;

the information acquisition unit comprises a plurality of cameras for acquiring images of all angles of the power transformation equipment; the data acquisition unit comprises a plurality of sensors which are in communication connection with the power transformation equipment and is used for acquiring the operation data of the power transformation equipment; the display unit is in communication connection with the controller, the information acquisition unit and the data acquisition unit.

As a further optimization of the above solution, the network topology component is selected from one or more of CAN network, ethernet, serial port, LIN bus, flexRay bus interface.

As a further optimization of the above scheme, the display unit is selected from one or more of a programmable touch display screen, a tablet computer and a mobile phone.

As a further optimization of the scheme, the controller is selected from one of a singlechip, an industrial personal computer and an FPGA.

As a further optimization of the above scheme, the power transformation device operation data includes load conditions, oil temperature, winding temperature, vibration characteristics, partial discharge signals, center point grounding current and core grounding current associated with the power transformation device.

As a further optimization of the above, the controller includes: the image processing module is connected with the cameras of the images of all angles of the power transformation equipment, receives the images of the power transformation equipment, is used for performing splicing processing on the images to generate 360-degree looking-around images, and verifies and alarms in the display unit when the built-in previous image sets of the images and the defect detection system of the power transformation equipment exceed a difference threshold value.

As a further optimization of the above, the controller includes: the processing unit is connected with the data acquisition unit and is used for receiving the substation equipment operation data acquired by the sensor, and when the substation equipment operation data is different from the set threshold value of the substation equipment defect detection system, the processing unit outputs a verification alarm at the display unit.

As a further optimization of the above scheme, the controller comprises an alarm unit, the image processing module and the processing unit data are different from the set data set of the defect detection system of the power transformation equipment, and when the difference exceeds a preset threshold value, an abnormal alarm is triggered.

The verification device based on the defect detection algorithm of the power transformation equipment is in communication connection with a defect detection system of the power transformation equipment and comprises a plurality of cameras for collecting images of all angles of the power transformation equipment and a plurality of sensors in communication connection with the power transformation equipment, wherein the plurality of sensors are respectively used for acquiring image data and operation data of the power transformation equipment. When the acquired image data and operation data of the power transformation equipment are different from the initialization data built in the defect detection system of the power transformation equipment, an alarm prompt is triggered.

The present utility model is not limited to the above-described specific embodiments, and various modifications may be made by those skilled in the art without inventive effort from the above-described concepts, and are within the scope of the present utility model.

Claims (8)

1. The utility model provides a verifying attachment based on substation equipment defect detection algorithm, is connected with substation equipment defect detection system communication, its characterized in that includes:

the network topology component(s),

the controller is in communication connection with the information acquisition unit and the data acquisition unit;

the information acquisition unit comprises a plurality of cameras for acquiring images of all angles of the power transformation equipment;

the data acquisition unit comprises a plurality of sensors which are in communication connection with the power transformation equipment and is used for acquiring the operation data of the power transformation equipment;

the display unit is in communication connection with the controller, the information acquisition unit and the data acquisition unit.

2. The verification device based on the defect detection algorithm of the transformer equipment according to claim 1, wherein: the network topology component is selected from one or more of CAN network, ethernet, serial port, LIN bus and FlexRay bus interface.

3. The verification device based on the defect detection algorithm of the transformer equipment according to claim 1, wherein: the display unit is selected from one or more of a programmable touch display screen, a tablet computer and a mobile phone.

4. The verification device based on the defect detection algorithm of the transformer equipment according to claim 1, wherein: the controller is selected from one of a singlechip, an industrial personal computer and an FPGA.

5. The verification device based on the defect detection algorithm of the transformer equipment according to claim 1, wherein: the operation data of the power transformation equipment comprise load conditions related to the power transformation equipment, oil temperature, winding temperature, vibration characteristics, partial discharge signals, central point grounding current and iron core grounding current.

6. A power transformation device defect detection algorithm-based verification apparatus as claimed in claim 1, wherein said controller comprises:

the image processing module is connected with the cameras of the images of all angles of the power transformation equipment, receives the images of the power transformation equipment, is used for performing splicing processing on the images to generate 360-degree looking-around images, and verifies and alarms in the display unit when the built-in previous image sets of the images and the defect detection system of the power transformation equipment exceed a difference threshold value.

7. A power transformation device defect detection algorithm-based verification apparatus as claimed in claim 1, wherein said controller comprises:

the processing unit is connected with the data acquisition unit and is used for receiving the substation equipment operation data acquired by the sensor, and when the substation equipment operation data is different from the set threshold value of the substation equipment defect detection system, the processing unit outputs a verification alarm at the display unit.

8. The power transformation equipment defect detection algorithm-based verification device according to claim 1, wherein the controller comprises an alarm unit, the image processing module and the processing unit data are different from a set data set of the power transformation equipment defect detection system, and an abnormal alarm is triggered when the set data set exceeds a preset threshold.