CN116862427A - AR technology-based electricity safety inspection identification method - Google Patents

Abstract

The invention discloses an electricity utilization safety inspection identification method based on an AR technology, and relates to the technical field of electricity utilization safety. Selecting an electric field scene to be detected and converting information of the electric field scene to be detected into visual information based on an AR technology; carrying out power utilization detection on the electric field scene to be detected, and recording a detection result; carrying out electricity safety analysis on the obtained visual information and detection results; and if the analysis is safe, storing the data, and if the analysis is abnormal, positioning and correcting. The invention assists the electricity inspection personnel to sense the electricity field scene, discovers the safety abnormality phenomenon of the electric equipment, analyzes the abnormality reason, improves the work efficiency of electricity inspection, improves the quality and efficiency of electricity inspection, and plays an important role in the fine management of electricity inspection service.

Description

AR technology-based electricity safety inspection identification method

Technical Field

The invention relates to the technical field of electricity safety, in particular to an electricity safety inspection identification method based on an AR technology.

Background

Along with the rapid development of economy and the improvement of people's life, the electricity consumption is also increasing continuously. Electric safety, including personal safety and prevention of fire caused by electric leakage or arc faults, is increasingly important, especially for electric safety inspection of buildings with dense crowd such as factory buildings, office buildings and the like.

The augmented reality AR technology is to fuse scene equipment captured by a field camera lens with 3D image information by using image processing technologies such as a 3D technology, an image analysis technology, a tracking technology and a real-time rendering technology, and is to construct a three-dimensional scene to display by combining the position and the angle of a computer image and the interaction of field equipment images and virtual information, so that real information of the field equipment is displayed, virtual information is displayed at the same time, and the two information are mutually supplemented and overlapped on the equipment. The most special effect is to realize coexistence of the real world and the virtual things, the virtual space is synchronous with the real space, and the development consistency and interaction are stronger.

At present, the electricity utilization inspection management is mainly carried out by means of manual work, is difficult to comprehensively, accurately and timely inspect and judge, is influenced by various factors aiming at the problems of hidden property, potential safety hazard and the like, and the inspection tool of the existing electric energy metering device can not judge some abnormal conditions, so that the field work difficulty is continuously increased. The inspector needs to be familiar with the power inspection workflow and further needs advanced technical means and inspection equipment. The existing safety inspection tool for electric equipment cannot meet various abnormal electricity utilization conditions, so that the field work difficulty is increased continuously. Namely, the AR technology is utilized to assist inspectors to perceive electric field scenes for inspection service, abnormal phenomena are found in time, abnormal reasons are analyzed, the working efficiency of electricity inspection is improved, the quality and efficiency of electricity inspection are improved, and an important role is played in fine management of electricity inspection service.

Therefore, providing an electric safety inspection identification method based on AR technology to solve the difficulties existing in the prior art is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

In view of the above, the invention provides an electricity safety inspection identification method based on AR technology, which can be applied to the electricity safety inspection operation scene and equipment perception identification to realize the interactive fusion between equipment entity and data information.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

an electricity use safety inspection identification method based on AR technology comprises the following steps:

s1, selecting an electric field scene to be detected and converting information of the electric field scene to be detected into visual information based on an AR technology;

s2, carrying out power utilization detection on the electric field scene to be detected, and recording a detection result;

s3, carrying out electricity safety analysis on the acquired visual information and detection results;

and S4, if the analysis is safe, storing the data, and if the analysis is abnormal, positioning and correcting.

Optionally, the specific content of selecting the electric field scene to be detected and converting the information of the electric field scene to be detected into the visual information based on the AR technology in S1 is:

the AR equipment identifies the information of the power utilization scene to be detected, converts the information into visual image-text information according to the identified information and stores the visual image-text information.

Optionally, in S2, the power consumption detection of the electric field scene to be detected includes total distribution room detection, distribution box detection and terminal detection.

Alternatively, total distribution room detection includes, but is not limited to: detecting and recording the power of distribution transformers of distribution room, the number of low-voltage distribution boxes and the electric energy parameters of each distribution box, and the prompt of the power utilization condition, the equipment model, the wire diameter, the environment temperature and humidity in the distribution room and the distribution box, whether the distribution room environment is tidy, whether the line planning of the total distribution room and the distribution boxes is reasonable, whether the equipment use condition is normal, whether the power utilization environment meets the requirement of entering the distribution room authority and whether the electric danger is installed.

Optionally, the distribution box detection includes, but is not limited to: and detecting and recording prompts of whether all equipment models and wiring are reasonable, whether cable diameters are reasonable, measuring electric energy parameters, conditions of surrounding environments of the distribution box, whether locks are installed and whether electric hazards are installed or not.

Optionally, the specific content detected by the terminal is: and checking all line terminals in the building, and testing the leakage, harmonic current, electric spark and overload performance of each terminal.

Optionally, all line terminals inside the building are inspected including, but not limited to, contactors, circuit breakers, air-break, molded cases, wall sockets, and mobile sockets.

Optionally, the judgment threshold of the safety and abnormal result in S4 is set manually; the data of the safety result is stored in the storage module, and the abnormal result is positioned and then is waited for manual correction.

Compared with the prior art, the invention provides the electricity safety inspection identification method based on the AR technology, which has the following beneficial effects: the method helps electricity inspection personnel to sense electricity utilization field scenes, discovers safety abnormality of electric equipment, analyzes abnormality reasons, improves electricity inspection work efficiency, improves electricity inspection quality and efficiency, and plays an important role in fine management of electricity inspection service.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a flowchart of an electrical safety inspection identification method based on AR technology provided by the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the invention discloses an electricity safety inspection identification method based on an AR technology, which comprises the following steps:

s1, selecting an electric field scene to be detected and converting information of the electric field scene to be detected into visual information based on an AR technology;

s2, carrying out power utilization detection on the electric field scene to be detected, and recording a detection result;

s3, carrying out electricity safety analysis on the acquired visual information and detection results;

and S4, if the analysis is safe, storing the data, and if the analysis is abnormal, positioning and correcting.

Further, the specific contents of selecting the electric field scene to be detected and converting the information of the electric field scene to be detected into the visual information based on the AR technology in S1 are as follows:

the AR equipment identifies the information of the power utilization scene to be detected, converts the information into visual image-text information according to the identified information and stores the visual image-text information.

Specifically, the AR equipment is used as a first visual angle to replace human eyes to identify the information of the electric field scene target to be detected, which is measured by the metering device, and the AR equipment converts the identified information into visual image-text information and stores the visual image-text information.

Specifically, the AR intelligent equipment converts information into visual image-text information content, and performs data acquisition, optimization and analysis processing to realize information enhancement sharing.

According to the invention, AR equipment such as AR intelligent glasses or AR intelligent helmets can directly and intuitively respond on-site target information to be detected to the detection personnel, so that the detection personnel can be assisted to rapidly judge and locate the abnormal line loss area, and meanwhile, the diagnosis skills of the power utilization inspector can be improved, and the personnel and time cost are saved.

Further, in the step S2, the electric field scene to be detected is detected by electricity, including detection of a total distribution room, detection of a distribution box and detection of a terminal.

Further, total distribution room detection includes, but is not limited to: detecting and recording the power of distribution transformers of distribution room, the number of low-voltage distribution boxes and the electric energy parameters of each distribution box, and the prompt of the power utilization condition, the equipment model, the wire diameter, the environment temperature and humidity in the distribution room and the distribution box, whether the distribution room environment is tidy, whether the line planning of the total distribution room and the distribution boxes is reasonable, whether the equipment use condition is normal, whether the power utilization environment meets the requirement of entering the distribution room authority and whether the electric danger is installed.

Further, distribution box detection includes, but is not limited to: and detecting and recording prompts of whether all equipment models and wiring are reasonable, whether cable diameters are reasonable, measuring electric energy parameters, conditions of surrounding environments of the distribution box, whether locks are installed and whether electric hazards are installed or not.

Further, the specific content of the terminal detection is: and checking all line terminals in the building, and testing the leakage, harmonic current, electric spark and overload performance of each terminal.

Specifically, the leakage detection is used for checking the leakage protection condition of the load terminal (socket). When the human body touches, wets, etc., the leakage protection device can effectively act, and the personal safety and the equipment safety are timely ensured.

Harmonic current detection for detecting a high-frequency current other than the fundamental wave of the phase under load. This current will cause the line and motor to heat, the reactive compensation device to fail, accidentally trip, and affect the normal use of other products, and cause harmonic pollution to the grid.

And the electric spark detection is used for checking whether the electric wire is in a virtual connection or short circuit condition and preventing electric sparks caused by aging, improper use and the like of the electric wire and the electric terminal.

Overload detection is used for detecting the fixed load carrying capacity of a wall switch, a socket and a movable socket. By the inspection, the electricity consumption condition of the socket can be generated, and fire caused by heating of the circuit due to overload is avoided.

Further, all line terminals inside the building are inspected including, but not limited to, contactors, circuit breakers, open, molded cases, wall sockets, and mobile sockets.

Further, the judgment threshold of the safety and abnormal result in S4 is set manually; the data of the safety result is stored in the storage module, and the abnormal result is positioned and then is waited for manual correction.

Specifically, the invention adopts AR glasses and combines 5G technology to carry out visual inspection, and records feedback in real time, the addition of AR equipment can be equivalent to the energization of electricity inspectors, the energization of the electricity inspectors is changed into technical specialists, the comprehensive processing capacity of on-site inspection, investigation and evidence obtaining is improved, the on-site detected target information is directly acquired and converted into visual information, the inspectors can conveniently and accurately judge the abnormality to position and correct, the diagnosis skills of the electricity inspectors can be improved, and the personnel and time cost are saved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The electricity use safety inspection identification method based on the AR technology is characterized by comprising the following steps of:

s1, selecting an electric field scene to be detected and converting information of the electric field scene to be detected into visual information based on an AR technology;

s2, carrying out power utilization detection on the electric field scene to be detected, and recording a detection result;

s3, carrying out electricity safety analysis on the acquired visual information and detection results;

and S4, if the analysis is safe, storing the data, and if the analysis is abnormal, positioning and correcting.

2. The method for recognizing electrical safety inspection based on AR technology according to claim 1, wherein,

s1, selecting an electric field scene to be detected and converting information of the electric field scene to be detected into visual information based on an AR technology, wherein the specific content is as follows:

the AR equipment identifies the information of the power utilization scene to be detected, converts the information into visual image-text information according to the identified information and stores the visual image-text information.

3. The method for recognizing electrical safety inspection based on AR technology according to claim 1, wherein,

and S2, carrying out electricity utilization detection on the electric field scene to be detected, wherein the electricity utilization detection comprises detection of a total distribution room, detection of a distribution box and detection of a terminal.

4. The method for recognizing electrical safety inspection based on AR technology according to claim 3, wherein,

total distribution room detection includes, but is not limited to: detecting and recording the power of distribution transformers of distribution room, the number of low-voltage distribution boxes and the electric energy parameters of each distribution box, and the prompt of the power utilization condition, the equipment model, the wire diameter, the environment temperature and humidity in the distribution room and the distribution box, whether the distribution room environment is tidy, whether the line planning of the total distribution room and the distribution boxes is reasonable, whether the equipment use condition is normal, whether the power utilization environment meets the requirement of entering the distribution room authority and whether the electric danger is installed.

5. The method for recognizing electrical safety inspection based on AR technology according to claim 3, wherein,

distribution box detection includes, but is not limited to: and detecting and recording prompts of whether all equipment models and wiring are reasonable, whether cable diameters are reasonable, measuring electric energy parameters, conditions of surrounding environments of the distribution box, whether locks are installed and whether electric hazards are installed or not.

6. The method for recognizing electrical safety inspection based on AR technology according to claim 3, wherein,

the specific content of the terminal detection is as follows: and checking all line terminals in the building, and testing the leakage, harmonic current, electric spark and overload performance of each terminal.

7. The method for recognizing electrical safety inspection based on AR technology according to claim 6, wherein,

all line terminals inside the building are inspected including, but not limited to, contactors, circuit breakers, air-break, molded cases, wall sockets and mobile sockets.

8. The method for recognizing electrical safety inspection based on AR technology according to claim 1, wherein,

s4, the judgment threshold value of the safety and abnormal result is set manually; the data of the safety result is stored in the storage module, and the abnormal result is positioned and then is waited for manual correction.