CN113055650A - Power distribution uninterrupted operation field audio and video cooperative auxiliary system - Google Patents

Abstract

The invention discloses a power distribution uninterrupted operation field audio and video cooperative auxiliary system which comprises an intelligent field service guarantee center module, a wearable audio and video interactive assembly module, a movable intelligent command terminal module, an insulation bucket panoramic view angle auxiliary module, a field safety supervision and control module, a remote support and control platform module, a personnel state acquisition module and a tool information acquisition module. The invention organically combines personnel, tools, operation processes and the like involved in the uninterrupted power distribution operation. Through arranging 360 degrees panoramic image systems to the insulating fill of insulating boom car, the safety and the convenience that the insulating fill of reinforcing operation personnel operation. By means of the equipment, the integral linkage cooperative scheduling of the regional distribution uninterrupted operation can be realized, and the equipment is a supporting solution for the whole processes of operation cooperation, field supervision, integral scheduling and the like in the field of distribution uninterrupted operation.

Description

Power distribution uninterrupted operation field audio and video cooperative auxiliary system

Technical Field

The invention belongs to the technical field of uninterrupted power distribution in the power industry, and particularly relates to an audio and video cooperative auxiliary system for an uninterrupted power distribution operation site.

Background

Along with the continuous improvement of resident's standard of living, the maintenance mode of distribution network among the electric power industry is more and more fast to the maintenance mode conversion that does not have a power failure, will become the major mode that the distribution network was overhauld in future, and this maintenance mode can be when accomplishing the electric wire netting and overhauld, and the normal power consumption of at utmost guarantee user has great social and economic value, but the operation process is higher to the requirement and the management and control of safety. A distribution non-power-off maintenance operation site is mainly based on an insulating bucket arm vehicle and used as a main insulating bearing to convey operating personnel to 10 meters of high altitude, and the operation site generally comprises a working responsible person and 3-4 operating personnel, wherein 1-2 operating personnel at high altitude further relate to the management requirements of the operating personnel on qualification, tool and instrument qualification verification and the like. At present, the on-the-spot management and control means of operation is traditional and single, restriction such as high altitude ground vision difference for on-the-spot responsible person is difficult to high-efficient management and control scene, and inefficiency just has a large amount of potential safety risks, is difficult to adapt to future needs.

The power distribution network overhaul site is mostly in a downtown area, a large number of buildings and trees are shielded, network interference of the same kind also exists, the environment is very complex, the part of the power distribution network overhaul site is in a remote suburb, the insulation hopper only depends on the sight of ground and aerial personnel in the operation process, dead corners often occur, and relevant video auxiliary equipment is not arranged. The interphone for communicating the ground with the high-altitude personnel under the traditional operation condition has general anti-interference capability and is easy to be used in a channel-crossing manner due to the limitation of technical conditions, and has large noise and unclear voice under complex working conditions such as high altitude and the like, and a button needs to be pressed to carry out one-way voice communication, so that the hands of the operator cannot be liberated, and functions of a hand-free type, multi-party voice and the like which meet continuous cooperative requirements cannot be supported. The distribution uninterrupted power operation field relates to operating personnel, safety tools and appliances and the like, the field operation safety is directly influenced, along with the higher and higher safety production requirements, strict regulations are provided for the qualification of the operating personnel and the tool and appliance tests, but the number of the operating fields at the same time is large, the field supervision of each field by regional management personnel is impossible, no effective supervision auxiliary equipment is provided at present, and the potential safety risk is high.

Therefore, in the present stage, an audio and video cooperative auxiliary system for a power distribution uninterrupted operation field needs to be designed to solve the above problems.

Disclosure of Invention

The invention aims to provide a power distribution uninterrupted operation field audio and video cooperative auxiliary system, which is used for solving the technical problems in the prior art, such as: the power distribution network overhaul site is mostly in a downtown area, shelters from a large number of buildings and trees, network interference of the same kind also exists, the environment is very complex, a part of the power distribution network overhaul site is in a remote suburb, the insulation hopper only depends on the sight of ground and aerial personnel in the operation process, dead corners often occur, and related video auxiliary equipment is not provided. The interphone for communicating the ground with the high-altitude personnel under the traditional operation condition has general anti-interference capability and is easy to be used in a channel-crossing manner due to the limitation of technical conditions, and has large noise and unclear voice under complex working conditions such as high altitude and the like, and a button needs to be pressed to carry out one-way voice communication, so that the hands of the operator cannot be liberated, and functions of a hand-free type, multi-party voice and the like which meet continuous cooperative requirements cannot be supported. The distribution uninterrupted power operation field relates to operating personnel, safety tools and appliances and the like, the field operation safety is directly influenced, along with the higher and higher safety production requirements, strict regulations are provided for the qualification of the operating personnel and the tool and appliance tests, but the number of the operating fields at the same time is large, the field supervision of each field by regional management personnel is impossible, no effective supervision auxiliary equipment is provided at present, and the potential safety risk is high.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a power distribution uninterrupted operation field audio and video cooperative auxiliary system comprises an intelligent field service guarantee center module, a wearable audio and video interactive component module, a movable intelligent command terminal module, an insulation bucket panoramic view angle auxiliary module, a field safety supervision and control module, a remote support and control platform module, a personnel state acquisition module and a tool information acquisition module;

the field safety supervision and control module is used for acquiring fingerprint information and face information of field workers in real time before field operation, and is in communication connection with the intelligent field service guarantee center module;

the wearable audio-video interaction component module is worn by field workers, is used for receiving the control information transmitted by the intelligent field service support center module and transmitting the feedback information of the field workers to the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the mobile intelligent command terminal module is used for transmitting control information to the intelligent field service support center module in real time and receiving feedback information transmitted by the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the insulation bucket panoramic view auxiliary module is used for collecting real-time insulation bucket panoramic information of the insulation bucket arm vehicle and transmitting the real-time insulation bucket panoramic information to the intelligent field service guarantee center module, and the insulation bucket panoramic view auxiliary module is in communication connection with the intelligent field service guarantee center module;

the remote support and control platform module is used for remotely acquiring comprehensive conditions of field operation from the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the personnel state acquisition module is used for acquiring the health state information of field workers in real time before field operation and transmitting the health state information to the intelligent field service guarantee center module;

the tool and instrument information acquisition module acquires qualified state information of field operation tools and instruments in real time before field operation and transmits the qualified state information to the intelligent field service guarantee center module;

the intelligent on-site service support center module is provided with a first wireless communication receiving unit; the personnel health information acquisition unit is used for acquiring health state information of field workers before field operation and transmitting the health state information to the first wireless communication transmitting unit, and the first wireless communication transmitting unit transmits the health state information to the first wireless communication receiving unit;

the personnel state acquisition module also comprises an acquisition module output detection unit, a communication transmission input detection unit, a communication transmission output detection unit, a first abnormity alarm unit, a second abnormity alarm unit and a third abnormity alarm unit, and the intelligent field service support center module is also provided with a communication receiving input detection unit and a fourth abnormity alarm unit;

the acquisition output detection unit is used for detecting whether an output signal exists at the output end of the personnel health information acquisition unit;

the communication transmission input detection unit is used for detecting whether an input signal exists at the input end of the first wireless communication transmission unit;

the communication emission output detection unit is used for detecting whether an output signal exists at the output end of the first wireless communication emission unit;

the communication receiving input detection unit is used for detecting whether an output signal exists at the input end of the first wireless communication receiving unit;

when the acquisition output detection unit detects that no output signal is output from the output end of the personnel health information acquisition unit, the personnel health information acquisition unit is judged to be in fault, and the first abnormity alarm unit starts abnormity alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit and the communication transmission input detection unit detects that no input signal exists at the input end of the first wireless communication transmission unit, it is judged that a line between the personnel health information acquisition unit and the first wireless communication transmission unit breaks down, and the second abnormal alarm unit starts abnormal alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit, the communication transmission input detection unit detects that an input signal exists at the input end of the first wireless communication transmission unit, and the communication transmission output detection unit detects that no output signal exists at the output end of the first wireless communication transmission unit, the first wireless communication transmission unit is judged to be in fault, and the third abnormal alarm unit starts abnormal alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit, the communication transmission input detection unit detects that an input signal exists at the input end of the first wireless communication transmission unit, the communication transmission output detection unit detects that an output signal exists at the output end of the first wireless communication transmission unit, and the communication reception input detection unit detects that no signal exists at the input end of the first wireless communication reception unit, it is determined that a wireless communication link between the first wireless communication transmission unit and the first wireless communication reception unit is abnormal, and the fourth abnormal alarm unit starts abnormal alarm.

Furthermore, the tool information acquisition module comprises a tool qualified information acquisition unit and a second wireless communication transmitting unit, and the intelligent field service support center module is provided with a second wireless communication receiving unit; the tool and instrument qualified information acquisition unit is used for acquiring qualified state information of field tools and instruments before field operation and transmitting the qualified state information to the second wireless communication transmitting unit, and the second wireless communication transmitting unit transmits the qualified state information to the second wireless communication receiving unit;

the tool information acquisition module further comprises an acquisition module output detection device, a communication transmission input detection device, a communication transmission output detection device, a first abnormity alarm device, a second abnormity alarm device and a third abnormity alarm device, and the intelligent field service support center module is also provided with a communication receiving input detection device and a fourth abnormity alarm device;

the acquisition output detection device is used for detecting whether an output signal exists at the output end of the instrument qualified information acquisition unit;

the communication transmission input detection device is used for detecting whether an input signal exists at the input end of the second wireless communication transmission unit;

the communication emission output detection device is used for detecting whether an output signal exists at the output end of the second wireless communication emission unit;

the communication receiving input detection device is used for detecting whether an output signal exists at the input end of the second wireless communication receiving unit;

when the acquisition output detection device detects that no output signal is output from the output end of the tool and instrument qualified information acquisition unit, the tool and instrument qualified information acquisition unit is judged to be in fault, and the first abnormity alarm device starts abnormity alarm;

when the acquisition output detection device detects that an output signal exists at the output end of the tool and instrument qualified information acquisition unit and the communication transmission input detection device detects that no input signal exists at the input end of the second wireless communication transmission unit, it is judged that a line between the tool and instrument qualified information acquisition unit and the second wireless communication transmission unit is in fault, and the second abnormal alarm device starts abnormal alarm;

when the acquisition output detection device detects that an output signal exists at the output end of the qualified information acquisition unit of the tool, the communication transmission input detection device detects that an input signal exists at the input end of the second wireless communication transmission unit, and the communication transmission output detection device detects that no output signal exists at the output end of the second wireless communication transmission unit, the second wireless communication transmission unit is judged to be in fault, and the third abnormal alarm device starts abnormal alarm;

when the acquisition output detection device detects that the output end of the tool and instrument qualified information acquisition unit has an output signal, the communication transmission input detection device detects that the input end of the second wireless communication transmission unit has an input signal, the communication transmission output detection device detects that the output end of the second wireless communication transmission unit has an output signal, and the communication reception input detection device detects that the input end of the second wireless communication reception unit does not output a signal, it is determined that a wireless communication link between the second wireless communication transmission unit and the second wireless communication reception unit is abnormal, and the fourth abnormal alarm device starts abnormal alarm.

Furthermore, the wearable audio and video interactive component module comprises a high-definition video acquisition unit, a voice acquisition unit, an audio output unit, a first processing unit, a first wireless communication device and a first power supply device;

the first processing unit is respectively connected with the video acquisition unit, the voice acquisition unit, the audio output unit, the first wireless communication device and the first power supply device; the first processing unit is in network connection with the intelligent field service support center module through the first wireless communication device.

Furthermore, the mobile intelligent command terminal module comprises a first display unit, a second wireless communication device, a second processing unit, a second power supply device and a human-computer interaction device;

the second processing unit is respectively connected with the first display unit, the second wireless communication device, the second power supply device and the human-computer interaction device; and the second processing unit is in network connection with the intelligent field service support center module through the second wireless communication device.

Compared with the prior art, the invention has the beneficial effects that:

one innovation point of the scheme is that the personnel, tools and tools, operation processes and the like involved in the uninterrupted power distribution operation are organically combined, and the overall management and operation implementation efficiency is improved. Through arranging 360 degrees panoramic image systems to the insulating fill of insulating boom car, the safety and the convenience that the insulating fill of reinforcing operation personnel operation. By means of the equipment, the integral linkage cooperative scheduling of regional distribution uninterrupted operation can be realized, and the equipment is a supporting solution for the whole processes of operation cooperation, field supervision, integral scheduling and the like in the field of distribution uninterrupted operation.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to fig. 1 of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

as shown in fig. 1, therefore, a power distribution uninterruptible operation field audio/video cooperative auxiliary system is provided, which includes an intelligent field service support center module, a wearable audio/video interactive component module, a mobile intelligent command terminal module, an insulation bucket panoramic view angle auxiliary module, a field safety supervision and control module, a remote support and control platform module, a personnel state acquisition module, and a tool information acquisition module;

the field safety supervision and control module is used for acquiring fingerprint information and face information of field workers in real time before field operation, and is in communication connection with the intelligent field service guarantee center module;

the wearable audio-video interaction component module is worn by field workers, is used for receiving the control information transmitted by the intelligent field service support center module and transmitting the feedback information of the field workers to the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the mobile intelligent command terminal module is used for transmitting control information to the intelligent field service support center module in real time and receiving feedback information transmitted by the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the insulation bucket panoramic view auxiliary module is used for collecting real-time insulation bucket panoramic information of the insulation bucket arm vehicle and transmitting the real-time insulation bucket panoramic information to the intelligent field service guarantee center module, and the insulation bucket panoramic view auxiliary module is in communication connection with the intelligent field service guarantee center module;

the remote support and control platform module is used for remotely acquiring comprehensive conditions of field operation from the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the personnel state acquisition module is used for acquiring the health state information of field workers in real time before field operation and transmitting the health state information to the intelligent field service guarantee center module;

the tool and instrument information acquisition module acquires qualified state information of field operation tools and instruments in real time before field operation and transmits the qualified state information to the intelligent field service support center module.

One innovation point of the scheme is that the personnel, tools and tools, operation processes and the like involved in the uninterrupted power distribution operation are organically combined, and the overall management and operation implementation efficiency is improved. Through arranging 360 degrees panoramic image systems to the insulating fill of insulating boom car, the safety and the convenience that the insulating fill of reinforcing operation personnel operation. By means of the equipment, the integral linkage cooperative scheduling of regional distribution uninterrupted operation can be realized, and the equipment is a supporting solution for the whole processes of operation cooperation, field supervision, integral scheduling and the like in the field of distribution uninterrupted operation.

The intelligent on-site service support center module is provided with a first wireless communication receiving unit; the personnel health information acquisition unit is used for acquiring health state information of field workers before field operation and transmitting the health state information to the first wireless communication transmitting unit, and the first wireless communication transmitting unit transmits the health state information to the first wireless communication receiving unit;

the personnel state acquisition module also comprises an acquisition module output detection unit, a communication transmission input detection unit, a communication transmission output detection unit, a first abnormity alarm unit, a second abnormity alarm unit and a third abnormity alarm unit, and the intelligent field service support center module is also provided with a communication receiving input detection unit and a fourth abnormity alarm unit;

the acquisition output detection unit is used for detecting whether an output signal exists at the output end of the personnel health information acquisition unit;

the communication transmission input detection unit is used for detecting whether an input signal exists at the input end of the first wireless communication transmission unit;

the communication emission output detection unit is used for detecting whether an output signal exists at the output end of the first wireless communication emission unit;

the communication receiving input detection unit is used for detecting whether an output signal exists at the input end of the first wireless communication receiving unit;

when the acquisition output detection unit detects that no output signal is output from the output end of the personnel health information acquisition unit, the personnel health information acquisition unit is judged to be in fault, and the first abnormity alarm unit starts abnormity alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit and the communication transmission input detection unit detects that no input signal exists at the input end of the first wireless communication transmission unit, it is judged that a line between the personnel health information acquisition unit and the first wireless communication transmission unit breaks down, and the second abnormal alarm unit starts abnormal alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit, the communication transmission input detection unit detects that an input signal exists at the input end of the first wireless communication transmission unit, and the communication transmission output detection unit detects that no output signal exists at the output end of the first wireless communication transmission unit, the first wireless communication transmission unit is judged to be in fault, and the third abnormal alarm unit starts abnormal alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit, the communication transmission input detection unit detects that an input signal exists at the input end of the first wireless communication transmission unit, the communication transmission output detection unit detects that an output signal exists at the output end of the first wireless communication transmission unit, and the communication reception input detection unit detects that no signal exists at the input end of the first wireless communication reception unit, it is determined that a wireless communication link between the first wireless communication transmission unit and the first wireless communication reception unit is abnormal, and the fourth abnormal alarm unit starts abnormal alarm.

In the scheme, when a communication line between the personnel state acquisition module and the intelligent field service support center module breaks down or is abnormal, which link breaks down or is abnormal in the process of rapid detection, and the quick overhaul and source tracing reaction of maintainers is facilitated.

Furthermore, the tool information acquisition module comprises a tool qualified information acquisition unit and a second wireless communication transmitting unit, and the intelligent field service support center module is provided with a second wireless communication receiving unit; the tool and instrument qualified information acquisition unit is used for acquiring qualified state information of field tools and instruments before field operation and transmitting the qualified state information to the second wireless communication transmitting unit, and the second wireless communication transmitting unit transmits the qualified state information to the second wireless communication receiving unit;

the tool information acquisition module further comprises an acquisition module output detection device, a communication transmission input detection device, a communication transmission output detection device, a first abnormity alarm device, a second abnormity alarm device and a third abnormity alarm device, and the intelligent field service support center module is also provided with a communication receiving input detection device and a fourth abnormity alarm device;

the acquisition output detection device is used for detecting whether an output signal exists at the output end of the instrument qualified information acquisition unit;

the communication transmission input detection device is used for detecting whether an input signal exists at the input end of the second wireless communication transmission unit;

the communication emission output detection device is used for detecting whether an output signal exists at the output end of the second wireless communication emission unit;

the communication receiving input detection device is used for detecting whether an output signal exists at the input end of the second wireless communication receiving unit;

when the acquisition output detection device detects that no output signal is output from the output end of the tool and instrument qualified information acquisition unit, the tool and instrument qualified information acquisition unit is judged to be in fault, and the first abnormity alarm device starts abnormity alarm;

when the acquisition output detection device detects that an output signal exists at the output end of the tool and instrument qualified information acquisition unit and the communication transmission input detection device detects that no input signal exists at the input end of the second wireless communication transmission unit, it is judged that a line between the tool and instrument qualified information acquisition unit and the second wireless communication transmission unit is in fault, and the second abnormal alarm device starts abnormal alarm;

when the acquisition output detection device detects that an output signal exists at the output end of the qualified information acquisition unit of the tool, the communication transmission input detection device detects that an input signal exists at the input end of the second wireless communication transmission unit, and the communication transmission output detection device detects that no output signal exists at the output end of the second wireless communication transmission unit, the second wireless communication transmission unit is judged to be in fault, and the third abnormal alarm device starts abnormal alarm;

when the acquisition output detection device detects that the output end of the tool and instrument qualified information acquisition unit has an output signal, the communication transmission input detection device detects that the input end of the second wireless communication transmission unit has an input signal, the communication transmission output detection device detects that the output end of the second wireless communication transmission unit has an output signal, and the communication reception input detection device detects that the input end of the second wireless communication reception unit does not output a signal, it is determined that a wireless communication link between the second wireless communication transmission unit and the second wireless communication reception unit is abnormal, and the fourth abnormal alarm device starts abnormal alarm.

In the scheme, when a communication line between the tool information acquisition module and the intelligent field service support center module breaks down or is abnormal, which link breaks down or is abnormal in the process of rapid detection, and the overhaul and traceability reaction is facilitated for maintainers.

Further optionally, the wearable audio/video interaction component module comprises a high-definition video acquisition unit, a voice acquisition unit, an audio output unit, a first processing unit, a first wireless communication device and a first power supply device;

the first processing unit is respectively connected with the video acquisition unit, the voice acquisition unit, the audio output unit, the first wireless communication device and the first power supply device; the first processing unit is in network connection with the intelligent field service support center module through the first wireless communication device.

The safety helmet is fixed on the edge of the safety helmet through a convenient buckle by a high-altitude operation worker, and the video and voice information of the operation surface under the visual angle of the operation worker are collected and transmitted back to the intelligent field service support center module. Meanwhile, the module can be connected with a noise reduction earphone, so that the hands-free multi-party voice communication with commanders and other personnel of the operation group is met. The module adopts the integrated design, and whole quality is slim and graceful, wears comfortablely, does not influence the operation to can provide the real-time video of high-quality many ways voice interaction, the wide visual angle high definition of operation face, easily liberation operation personnel both hands, effectively improve on-the-spot operation efficiency and standardability.

Further optionally, the mobile intelligent command terminal module includes a first display unit, a second wireless communication device, a second processing unit, a second power supply device, and a human-computer interaction device;

the second processing unit is respectively connected with the first display unit, the second wireless communication device, the second power supply device and the human-computer interaction device; and the second processing unit is in network connection with the intelligent field service support center module through the second wireless communication device.

The system is used for the field operation responsible person to carry out unified management and command on the whole operation field. The module is communicated with the intelligent field service guarantee center module, is not responsible for calculation, is mainly used for receiving, displaying and managing video and voice information of operation field personnel, and uniformly manages information such as qualification of the operation personnel, qualified condition of industrial and mechanical tests, operation tasks, equipment states and the like.

Further optionally, insulating fill panorama visual angle auxiliary module mainly comprises collection part (4 way wide angle video acquisition units, communication unit) and display part (processing unit, supplementary display terminal), can arrange collection part in insulating 4 border parts of fighting according to the actual conditions of different insulating fights, then carry out video synthesis through display part's FPGA processing unit, form 360 degrees panorama pictures, panorama information passes back to intelligent on-the-spot service guarantee center module, also supply this module to assist display terminal to show simultaneously, display part directly places in insulating fill operation panel part, with do not influence the operation as the standard. The module mainly indicates the distance between the insulating bucket and obstacles such as surrounding lines, trees and the like and the movement track of the insulating bucket per se in the transferring process of the operation position, so that the sight dead angle of an operator can be avoided, and the operation safety of the insulating bucket is improved.

Further optionally, the on-site safety supervision and control module mainly comprises a face information acquisition unit, a fingerprint information acquisition unit, a wireless communication unit and a monitoring unit. The bracket is placed on the ground and is responsible for monitoring the overall condition of an operation site, information such as fingerprints and human faces of personnel is collected before operation starts, and the video collection angle is adjusted after the operation starts, so that the high-altitude operation process is mainly collected. The collected fingerprint information, face recognition and other biological information are transmitted back to the intelligent on-site service guarantee center module, whether relevant qualification certificates, training records and the like of distribution network uninterrupted operation, climbing operation, electrician operation and the like of operators meet the operation requirements or not is verified, the on-site operators are guaranteed to be certified and on duty, and the problems that the qualification quality of the distribution network uninterrupted operation operators is insufficient or the qualification certificate of a simple project is engaged in red line violation problems such as a complex project are avoided from the source.

Further optionally, the remote support and control platform module mainly comprises a large display screen unit, a background control system unit, a server unit and a network interaction unit. The management of urban power grid is constantly refined, so often have a plurality of operation teams in the region, the module is used for managers to the platform management and control and the dispatch of the operation team of not having a power failure of distribution in the region at the back stage, information such as real-time position, operation progress, construction quality, personnel state, multiplexer utensil state, the site conditions of operation scene are passback to intelligent on-the-spot service guarantee center module, this module can look over in real time and manage and control, visual completion team dispatch improves safety control ability and efficiency.

Further optionally, the personnel state acquisition module is used for acquiring and monitoring health state information of operating personnel, the distribution maintenance operation without power failure belongs to high-altitude operation, if the personnel state is abnormal before operation, the module can immediately give an alarm to remind the operating personnel in the bucket, and meanwhile, the module is also transmitted back to the intelligent field service support center module, so that the on-site operating personnel can be timely reminded through the mobile intelligent command terminal module, and corresponding emergency rescue measures are taken.

Further optionally, the tool information acquisition module further comprises an unique identification unit and the like, the tool for field operation is identified through an NFC unique tag technology, information is returned to the intelligent field service support center module, the test period, the test unit, the last test date and the like of the tool are identified and verified, the tool which is unqualified or not in the test period can be prevented from being used by a power distribution uninterrupted operation team, and personal casualty accidents caused by the disqualification of the tool are avoided.

The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.

Claims (4)

1. A power distribution uninterrupted operation field audio and video cooperative auxiliary system is characterized by comprising an intelligent field service guarantee center module, a wearable audio and video interactive component module, a mobile intelligent command terminal module, an insulation bucket panoramic view angle auxiliary module, a field safety supervision and control module, a remote support and control platform module, a personnel state acquisition module and a tool information acquisition module;

the field safety supervision and control module is used for acquiring fingerprint information and face information of field workers in real time before field operation, and is in communication connection with the intelligent field service guarantee center module;

the wearable audio-video interaction component module is worn by field workers, is used for receiving the control information transmitted by the intelligent field service support center module and transmitting the feedback information of the field workers to the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the mobile intelligent command terminal module is used for transmitting control information to the intelligent field service support center module in real time and receiving feedback information transmitted by the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the insulation bucket panoramic view auxiliary module is used for collecting real-time insulation bucket panoramic information of the insulation bucket arm vehicle and transmitting the real-time insulation bucket panoramic information to the intelligent field service guarantee center module, and the insulation bucket panoramic view auxiliary module is in communication connection with the intelligent field service guarantee center module;

the remote support and control platform module is used for remotely acquiring comprehensive conditions of field operation from the intelligent field service support center module, and is in communication connection with the intelligent field service support center module;

the personnel state acquisition module is used for acquiring the health state information of field workers in real time before field operation and transmitting the health state information to the intelligent field service guarantee center module;

the tool and instrument information acquisition module acquires qualified state information of field operation tools and instruments in real time before field operation and transmits the qualified state information to the intelligent field service guarantee center module;

the intelligent on-site service support center module is provided with a first wireless communication receiving unit; the personnel health information acquisition unit is used for acquiring health state information of field workers before field operation and transmitting the health state information to the first wireless communication transmitting unit, and the first wireless communication transmitting unit transmits the health state information to the first wireless communication receiving unit;

the personnel state acquisition module also comprises an acquisition module output detection unit, a communication transmission input detection unit, a communication transmission output detection unit, a first abnormity alarm unit, a second abnormity alarm unit and a third abnormity alarm unit, and the intelligent field service support center module is also provided with a communication receiving input detection unit and a fourth abnormity alarm unit;

the acquisition output detection unit is used for detecting whether an output signal exists at the output end of the personnel health information acquisition unit;

the communication transmission input detection unit is used for detecting whether an input signal exists at the input end of the first wireless communication transmission unit;

the communication emission output detection unit is used for detecting whether an output signal exists at the output end of the first wireless communication emission unit;

the communication receiving input detection unit is used for detecting whether an output signal exists at the input end of the first wireless communication receiving unit;

when the acquisition output detection unit detects that no output signal is output from the output end of the personnel health information acquisition unit, the personnel health information acquisition unit is judged to be in fault, and the first abnormity alarm unit starts abnormity alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit and the communication transmission input detection unit detects that no input signal exists at the input end of the first wireless communication transmission unit, it is judged that a line between the personnel health information acquisition unit and the first wireless communication transmission unit breaks down, and the second abnormal alarm unit starts abnormal alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit, the communication transmission input detection unit detects that an input signal exists at the input end of the first wireless communication transmission unit, and the communication transmission output detection unit detects that no output signal exists at the output end of the first wireless communication transmission unit, the first wireless communication transmission unit is judged to be in fault, and the third abnormal alarm unit starts abnormal alarm;

when the acquisition output detection unit detects that an output signal exists at the output end of the personnel health information acquisition unit, the communication transmission input detection unit detects that an input signal exists at the input end of the first wireless communication transmission unit, the communication transmission output detection unit detects that an output signal exists at the output end of the first wireless communication transmission unit, and the communication reception input detection unit detects that no signal exists at the input end of the first wireless communication reception unit, it is determined that a wireless communication link between the first wireless communication transmission unit and the first wireless communication reception unit is abnormal, and the fourth abnormal alarm unit starts abnormal alarm.

2. The non-power-distribution-outage-operation-field audio and video cooperative auxiliary system as claimed in claim 1, wherein the tool information acquisition module comprises a tool qualified information acquisition unit and a second wireless communication transmission unit, and the intelligent field service guarantee center module is configured with a second wireless communication receiving unit; the tool and instrument qualified information acquisition unit is used for acquiring qualified state information of field tools and instruments before field operation and transmitting the qualified state information to the second wireless communication transmitting unit, and the second wireless communication transmitting unit transmits the qualified state information to the second wireless communication receiving unit;

the tool information acquisition module further comprises an acquisition module output detection device, a communication transmission input detection device, a communication transmission output detection device, a first abnormity alarm device, a second abnormity alarm device and a third abnormity alarm device, and the intelligent field service support center module is also provided with a communication receiving input detection device and a fourth abnormity alarm device;

the acquisition output detection device is used for detecting whether an output signal exists at the output end of the instrument qualified information acquisition unit;

the communication transmission input detection device is used for detecting whether an input signal exists at the input end of the second wireless communication transmission unit;

the communication emission output detection device is used for detecting whether an output signal exists at the output end of the second wireless communication emission unit;

the communication receiving input detection device is used for detecting whether an output signal exists at the input end of the second wireless communication receiving unit;

when the acquisition output detection device detects that no output signal is output from the output end of the tool and instrument qualified information acquisition unit, the tool and instrument qualified information acquisition unit is judged to be in fault, and the first abnormity alarm device starts abnormity alarm;

when the acquisition output detection device detects that an output signal exists at the output end of the tool and instrument qualified information acquisition unit and the communication transmission input detection device detects that no input signal exists at the input end of the second wireless communication transmission unit, it is judged that a line between the tool and instrument qualified information acquisition unit and the second wireless communication transmission unit is in fault, and the second abnormal alarm device starts abnormal alarm;

when the acquisition output detection device detects that an output signal exists at the output end of the qualified information acquisition unit of the tool, the communication transmission input detection device detects that an input signal exists at the input end of the second wireless communication transmission unit, and the communication transmission output detection device detects that no output signal exists at the output end of the second wireless communication transmission unit, the second wireless communication transmission unit is judged to be in fault, and the third abnormal alarm device starts abnormal alarm;

when the acquisition output detection device detects that the output end of the tool and instrument qualified information acquisition unit has an output signal, the communication transmission input detection device detects that the input end of the second wireless communication transmission unit has an input signal, the communication transmission output detection device detects that the output end of the second wireless communication transmission unit has an output signal, and the communication reception input detection device detects that the input end of the second wireless communication reception unit does not output a signal, it is determined that a wireless communication link between the second wireless communication transmission unit and the second wireless communication reception unit is abnormal, and the fourth abnormal alarm device starts abnormal alarm.

3. The on-site audio and video cooperative auxiliary system for distribution uninterrupted power operation according to claim 1, wherein the wearable audio and video interactive component module comprises a high-definition video acquisition unit, a voice acquisition unit, an audio output unit, a first processing unit, a first wireless communication device and a first power supply device;

the first processing unit is respectively connected with the video acquisition unit, the voice acquisition unit, the audio output unit, the first wireless communication device and the first power supply device; the first processing unit is in network connection with the intelligent field service support center module through the first wireless communication device.

4. The audio and video cooperative auxiliary system for the distribution uninterrupted power operation field is characterized in that the mobile intelligent command terminal module comprises a first display unit, a second wireless communication device, a second processing unit, a second power supply device and a man-machine interaction device;

the second processing unit is respectively connected with the first display unit, the second wireless communication device, the second power supply device and the human-computer interaction device; and the second processing unit is in network connection with the intelligent field service support center module through the second wireless communication device.

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