CN211263665U - Distribution network detection device and distribution network detection system - Google Patents

Abstract

The utility model relates to a distribution network detection device and a distribution network detection system, wherein the distribution network detection device comprises a head-wearing module, a detection module, a processing module and a transmission module; the detection module comprises a plurality of detection sub-modules, the detection sub-modules are arranged on the head-mounted module, each detection sub-module is used for collecting environmental state data, the output end of each detection sub-module is connected with the input end of the processing module, the processing module is used for acquiring the environmental state data through the detection sub-modules, the output end of the processing module is connected with the input end of the transmission module, and the output end of the transmission module is used for being connected with an external monitoring system. Each detection submodule is respectively arranged on the head-wearing module, so that the detection submodules are concentrated on one part, and can be carried together only by carrying the head-wearing module, thereby facilitating the carrying and detection of each detection submodule.

Description

Distribution network detection device and distribution network detection system

Technical Field

The utility model relates to a join in marriage net and patrol and examine technical field, especially relate to a join in marriage net detection device and join in marriage net detecting system.

Background

With the high-speed development of power systems in China, the distribution network system is continuously promoted and transformed from 2.0 version to 3.0 version, the mileage of distribution network lines is longer and longer, the quantity of equipment such as distribution network transformer switch cabinets and the like is also rapidly increased, the distribution lines are widely distributed, one electric room is arranged every 30-50m in a basic urban area, the environments are different, the equipment environments are complex, the number of people managing 10kV line kilometers, the number of transformers and the number of switch cabinets is high, meanwhile, the distribution network engineering is increasingly diversified, the number of new equipment in operation and transportation each year is large, the operation and maintenance inspection pressure of groups of operation and maintenance classes is high according to the basic level, and the number of people on daily inspection lines is frequently insufficient.

Usually, the patrol personnel need to carry a large amount of tools to the scene, including partial discharge instrument, infrared temperature measurement instrument, operation instruction book, line drawing, telescope, flashlight, patrol special cell-phone, camera etc. in addition the patrol personnel need the driver of working simultaneously, and basic team staff goes out to patrol and all need to carry the big packet of parcel every time, carries and test operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

Therefore, a distribution network detection device and a distribution network detection system which are convenient to detect and carry are needed to be provided.

A distribution network detection device comprising: the device comprises a head-mounted module, a detection module, a processing module and a transmission module; the detection module comprises a plurality of detection sub-modules, the detection sub-modules are arranged on the head-mounted module, each detection sub-module is provided with a corresponding detection structure, the output end of each detection sub-module is respectively connected with the input end of the processing module, the processing module is used for acquiring environmental state data through the detection sub-modules, the output end of the processing module is connected with the input end of the transmission module, and the output end of the transmission module is used for being connected with an external monitoring system.

In one embodiment, the detection submodule includes an infrared tester and an infrared camera, an input end of the infrared camera is used for collecting an ambient temperature image, an output end of the infrared camera is connected with an input end of the infrared tester, and an output end of the infrared tester is connected with an input end of the processing module.

In one embodiment, the detection submodule includes an partial discharge tester and a partial discharge probe, an input end of the partial discharge probe is used for collecting partial discharge electric quantity, an output end of the partial discharge probe is connected with an input end of the partial discharge tester, and an output end of the partial discharge tester is connected with an input end of the processing module.

In one embodiment, the detection submodule includes a gas detector and a gas probe, an input end of the gas probe is used for collecting gas concentration, an output end of the gas probe is connected with an input end of the gas detector, and an output end of the gas detector is connected with an input end of the processing module.

In one embodiment, the processing module includes a processing chip and a power supply, the power supply is respectively connected to the processing chip, the transmission module and each of the detection sub-modules, an input end of the processing chip is connected to the detection sub-modules, and an output end of the processing chip is connected to the transmission module.

In one embodiment, the distribution network detection device further comprises an illumination module, the illumination module is connected with the power supply, and the illumination module is used for providing light illumination.

In one embodiment, the distribution network detection device further comprises a communication module, the communication module is connected with the power supply, and the communication module is used for voice communication with an external monitoring system.

In one embodiment, the distribution network detection device further includes a motion camera, the motion camera is connected to the power supply, the motion camera is further connected to the transmission module, and the motion camera is used for acquiring an environment image.

In one embodiment, the head-mounted module comprises a helmet.

In one embodiment, the distribution network detection device includes a receptacle and the distribution network detection device described in any of the above embodiments, the receptacle is configured to receive the processing module, and a surface of the head-mounted module, which faces away from the detection module, is configured to be mounted on a mounting body of the receptacle.

In the distribution network detection device and the distribution network detection system, each detection submodule is respectively arranged on the head-mounted module, the detection submodule is concentrated on one part, each detection submodule can be carried together only by carrying the head-mounted module, when detection is needed, each item of detection can be started only by taking the head-mounted module out, thereby being convenient for carrying and detecting each detection submodule, moreover, each detection submodule is respectively connected with the processing module, the processing module processes the environmental state data collected by the detection submodule, the transmission module is connected with the processing module again, the data after processing is transmitted to the monitoring system, and the monitoring to each environmental state is convenient.

Drawings

Fig. 1 is a schematic structural diagram of a distribution network detection device according to an embodiment;

fig. 2 is a schematic structural diagram of a distribution network detection device according to another embodiment.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model relates to a join in marriage net detection device. For example, the distribution network detection device includes: the device comprises a head-mounted module, a detection module, a processing module and a transmission module; the detection module comprises a plurality of detection sub-modules, the detection sub-modules are arranged on the head-mounted module, each detection sub-module is provided with a corresponding detection structure, the output end of each detection sub-module is respectively connected with the input end of the processing module, the processing module is used for acquiring environmental state data through the detection sub-modules, the output end of the processing module is connected with the input end of the transmission module, and the output end of the transmission module is used for being connected with an external monitoring system. Each detection submodule sets up respectively on wear-type module, make the detection submodule concentrate on a part, only need can together carry each detection submodule through carrying wear-type module, when needs examine time measuring, only need take out wear-type module and can begin each item to detect, thereby be convenient for each carry and detect of detecting the submodule, furthermore, each detection submodule is connected with processing module respectively, processing module handles the environmental state data that the detection submodule gathered, transmission module is connected with processing module again, realize data transmission to monitored control system after will handling, be convenient for to the control of each item environmental state.

Please refer to fig. 1, which is a schematic structural diagram of a distribution network detection apparatus according to an embodiment of the present invention.

A distribution network detection apparatus 10 comprising: a head mounted module 100, a detection module 200, a processing module 300, and a transmission module 400; the detection module 200 includes a plurality of detection sub-modules 210, the detection sub-modules 210 are disposed on the head-mounted module 100, each detection sub-module 210 has a corresponding detection structure, an output end of each detection sub-module 210 is connected to an input end of the processing module 300, the processing module 300 is configured to obtain environmental status data through the detection sub-modules 210, an output end of the processing module 300 is connected to an input end of the transmission module 400, and an output end of the transmission module 400 is configured to be connected to an external monitoring system.

In this embodiment, each detection submodule 210 is respectively arranged on the head-mounted module 100, so that the detection submodule 210 is concentrated on one component, each detection submodule 210 can be carried together only by carrying the head-mounted module 100, when detection is required, each detection can be started only by taking out the head-mounted module 100, thereby facilitating carrying and detection of each detection submodule 210, furthermore, each detection submodule 210 is respectively connected with the processing module 300, the processing module 300 processes the environmental state data collected by the detection submodule 210, the transmission module 400 is connected with the processing module 300 again, the data after processing is transmitted to the monitoring system, and monitoring of each environmental state is facilitated.

In an embodiment, referring to fig. 2, the detection submodule 210 includes a first detection submodule 201, the detection submodule 201 includes an infrared tester 211 and an infrared camera 212, an input end of the infrared camera 212 is used for collecting an ambient temperature image, an output end of the infrared camera 212 is connected to an input end of the infrared tester 211, and an output end of the infrared tester 211 is connected to an input end of the processing module 300. In this embodiment, the head-mounted module 100 includes the helmet, each the detection submodule 210 set up respectively in the outside of helmet, the inboard of helmet is used for acceping the head of patrolling and examining personnel, promptly the helmet is used for wearing in patrolling and examining personnel overhead, moreover, for the convenience of the detection submodule 210 detects and carries, the detection submodule 210 is located the helmet deviates from patrolling and examining personnel's head, and patrolling and examining personnel only need control on the helmet the detection submodule 210 can realize right the opening and closing of detection submodule 210, thereby is convenient for the detection submodule 210 detects. The infrared camera 212 is disposed outside the helmet, the infrared camera 212 acquires a temperature image of an ambient environment, the infrared tester 211 converts the temperature image into a corresponding temperature parameter according to the environment temperature image, the infrared tester 211 sends the acquired temperature parameter to the processing module 300, the processing module 300 outputs a response signal to the transmission module 400 according to a comparison result between the temperature parameter and a preset temperature parameter, for example, when the infrared tester 211 sends the acquired temperature parameter to the preset temperature parameter, the processing module 300 outputs an over-temperature warning signal, the temperature parameter of the processing module 300 and the over-temperature warning signal are sent to the transmission module 400 together, the transmission module 400 records and stores the above information, and sends the over-temperature warning signal to a monitoring system, the monitoring system can monitor the environmental temperature conveniently; for another example, when the temperature parameter to be obtained by the infrared tester 211 is smaller than the preset temperature parameter, the processing module 300 sends the temperature parameter to the transmission module 400, and the transmission module 400 sends the temperature parameter to the monitoring system in real time, so that the monitoring personnel can know the current environment temperature of the device through the monitoring system. In other embodiments, transmission module 400 includes the panel computer, the temperature parameter in processing module 300 shows on the panel computer to the personnel of patrolling and examining pass through the panel computer learns the ambient temperature of equipment, moreover, the last overtemperature warning signal that shows of panel computer is convenient for the personnel of patrolling and examining in time learn the ambient temperature of equipment, thereby is convenient for to the monitoring to ambient temperature of equipment. In the above embodiment, the infrared tester 211 and the infrared camera 212 are a detection structure of the detection submodule 210.

In an embodiment, referring to fig. 2, the detection submodule 210 includes a second detection submodule 202, the detection submodule 202 includes an partial discharge tester 213 and an partial discharge probe 214, an input end of the partial discharge probe 214 is used for collecting partial discharge power, an output end of the partial discharge probe 214 is connected to an input end of the partial discharge tester 213, and an output end of the partial discharge tester 213 is connected to an input end of the processing module 300. In this embodiment, wear-type module 100 includes the helmet, the test appearance 213 is put in the office with probe 214 is put in the office respectively set up in the outside of helmet, the inboard of helmet is used for acceping the head of patrolling and examining personnel, promptly the helmet is used for wearing overhead in patrolling and examining personnel, and, for the convenience of the office put test appearance 213 with probe 214 is put in the office's detection and carrying, the office put test appearance 213 with probe 214 is all located in the office deviates from patrolling and examining personnel's head, and patrolling and examining personnel only need control on the helmet the test appearance 213 is put in the office with probe 214 is put in the office, can realize right the office put test appearance 213 with opening and closing of probe 214 is put in the office, thereby be convenient for the office put test appearance 213 with probe 214 is put in the office detects. The partial discharge probe 214 is disposed outside the helmet, the partial discharge probe 214 acquires a partial discharge amount, the partial discharge tester 213 converts the partial discharge amount into a corresponding partial discharge amount parameter according to the partial discharge amount, the partial discharge tester 213 sends the acquired partial discharge amount parameter to the processing module 300, the processing module 300 correspondingly outputs a response signal to the transmission module 400 according to a comparison result between the partial discharge amount parameter and a preset partial discharge amount parameter, for example, when the partial discharge tester 213 obtains the partial discharge amount parameter greater than or equal to the preset partial discharge amount parameter, the processing module 300 outputs an overdischarge warning signal, the partial discharge amount parameter of the processing module 300 and the overdischarge warning signal are sent to the transmission module 400 together, the transmission module 400 records and stores the information, and sends the overdischarge warning signal to a monitoring system, the monitoring system can conveniently monitor the partial discharge capacity of the equipment; for another example, when the partial discharge quantity parameter to be obtained by the partial discharge tester 213 is smaller than the preset partial discharge quantity parameter, the processing module 300 sends the partial discharge quantity parameter to the transmission module 400, and the transmission module 400 sends the partial discharge quantity parameter to the monitoring system in real time, so that the monitoring personnel can know the current partial discharge quantity of the device through the monitoring system. In other embodiments, the transmission module 400 includes an inspection mobile phone, the partial discharge amount parameter in the processing module 300 is displayed on the inspection mobile phone, so that an inspection worker can know the partial discharge amount of the device through the inspection mobile phone, and an overdischarge warning signal is displayed on the inspection mobile phone, so that the inspection worker can know the partial discharge amount condition of the device in time, and thus the partial discharge condition of the device can be monitored. In the above embodiment, the partial discharge tester 213 and the partial discharge probe 214 are a detection structure of the detection submodule 210.

In one embodiment, referring to fig. 2, the detection submodule 210 includes a third detection submodule 203, the detection submodule 203 includes a gas detector 215 and a gas probe 216, an input of the gas probe 216 is used for collecting a gas concentration, an output of the gas probe 216 is connected to an input of the gas detector 215, and an output of the gas detector 215 is connected to an input of the processing module 300. In this embodiment, the head-mounted module 100 includes a helmet, the gas detector 215 and the gas probe 216 are respectively disposed on an outer side of the helmet, an inner side of the helmet is used for receiving a head of an inspector, that is, the helmet is used for being worn on the head of the inspector, in addition, in order to facilitate detection and carrying of the gas detector 215 and the gas probe 216, the gas detector 215 and the gas probe 216 are both located on the helmet away from the head of the inspector, and the inspector can open and close the gas detector 215 and the gas probe 216 only by controlling the gas detector 215 and the gas probe 216 on the helmet, so as to facilitate detection of the gas detector 215 and the gas probe 216. The gas probe 216 is disposed outside the helmet, the gas probe 216 obtains a gas concentration, the gas detector 215 converts the gas concentration into a corresponding gas concentration parameter according to the gas concentration, the gas detector 215 sends the obtained gas concentration parameter to the processing module 300, the processing module 300 outputs a response signal to the transmission module 400 according to a comparison result between the gas concentration parameter and a preset gas concentration parameter, for example, when the gas detector 215 obtains the gas concentration parameter greater than or equal to the preset gas concentration parameter, the processing module 300 outputs an excessive concentration warning signal, the gas concentration parameter of the processing module 300 and the excessive concentration warning signal are sent to the transmission module 400 together, the transmission module 400 records and stores the above information, and sends the excessive concentration warning signal to a monitoring system, the monitoring system can conveniently monitor the gas concentration of the equipment; for another example, when the gas concentration parameter obtained by the gas detector 215 is smaller than the preset gas concentration parameter, the processing module 300 sends the gas concentration parameter to the transmission module 400, and the transmission module 400 sends the gas concentration parameter to the monitoring system in real time, so that a monitoring person can know the current gas concentration of the device through the monitoring system. In other embodiments, the transmission module 400 includes a patrol mobile phone, the gas concentration parameter of the gas in the processing module 300 is displayed on the patrol mobile phone, so that patrol personnel can know the gas concentration of the equipment through the patrol mobile phone, and moreover, an excessive warning signal of the gas concentration displayed on the patrol mobile phone can facilitate the patrol personnel to know the gas concentration condition of the equipment in time, so as to facilitate the monitoring of the gas concentration condition of the equipment. In the above embodiment, the gas detector 215 and the gas probe 216 are a detection structure of the detection submodule 210. In other embodiments, the carrying platform further comprises a mounting ring, the mounting ring is sleeved on the trunk of the human body, for example, the mounting ring is sleeved on the arm of the inspection personnel; for another example, the mounting ring is sleeved on the leg of the inspection personnel; in another example, the mounting ring is sleeved on the waist of the inspection personnel. The action of the mounting ring on the helmet is the same and will not be described in detail here.

In one embodiment, the gas collected by the gas probe comprises at least one of ozone, carbon dioxide, carbon monoxide, and sulfur hexafluoride. For example, when the gas collected by the gas probe is ozone, the preset gas concentration parameter is a safe concentration, and the safe concentration of ozone is 0.15 ppm; for another example, when the gas collected by the gas probe is carbon dioxide, the preset gas concentration parameter is a safe concentration, and the safe concentration of the carbon dioxide is 4580 ppm; for another example, when the gas collected by the gas probe is carbon monoxide, the preset gas concentration parameter is a safe concentration, and the safe concentration of the carbon monoxide is 50 ppm; for another example, when the gas collected by the gas probe is sulfur hexafluoride, the preset gas concentration parameter is a safe concentration, and the safe concentration of the sulfur hexafluoride is 1000 ppm.

In one embodiment, the processing module includes a processing chip and a power supply, the power supply is respectively connected to the processing chip, the transmission module and each of the detection sub-modules, an input end of the processing chip is connected to the detection sub-modules, and an output end of the processing chip is connected to the transmission module. In this embodiment, the power supply supplies power to each module, the processing chip obtains the environmental status signal collected by each detection submodule, and the processing chip processes the environmental status signal, for example, the processing chip includes a single chip microcomputer, and the single chip microcomputer converts the analog signal collected by the detection submodule into a corresponding digital signal so as to convert analog physical quantities such as temperature, concentration, and electric charge quantity in the environment into digital voltage values, thereby facilitating the single chip microcomputer to judge the environmental status.

In an embodiment, referring to fig. 2, the distribution network detecting apparatus 10 further includes an illumination module 500, the illumination module 500 is connected to the power supply, and the illumination module 500 is configured to provide light illumination. In this embodiment, power supply does lighting module 500 provides the electric energy, and when patrolling and examining the personnel entering the electricity room and examining equipment, lighting module 500 circular telegram for patrolling and examining personnel provide the illumination, in being convenient for patrolling and examining personnel and looking for equipment and the region that needs detected to the condition that can't detect in the dim region of electricity room light has been reduced. Like this, the personnel of patrolling and examining only need with lighting module 500 opens, can realize shining the light of detection area, and the personnel of patrolling and examining of being convenient for accurately detect.

In an embodiment, referring to fig. 2, the distribution network detecting device 10 further includes a communication module 600, the communication module 600 is connected to the power supply, and the communication module 600 is configured to perform a voice call with an external monitoring system. In this embodiment, in order to facilitate the routing inspection personnel to keep in touch with the monitoring system in real time, the communication module 600 is connected with the monitoring system through a wireless network, i.e., communication connection is realized, and the power supply supplies electric energy for the communication module 600 during communication. Through communication module 600, the control personnel pass through monitored control system keeps in touch with the personnel of patrolling and examining, knows the current fortune dimension state condition of equipment in real time, for example, the control personnel provide long-range online service for the personnel of patrolling and examining according to monitored control system received status signal for the personnel of patrolling and examining pass through communication module 600 and control personnel conversation, thereby obtain how to handle the unusual problem of equipment current state, be convenient for in time maintain equipment.

In one embodiment, referring to fig. 2, the distribution network detection apparatus 10 further includes a motion camera 700, the motion camera 700 is connected to the power supply, the motion camera 700 is further connected to the transmission module 400, and the motion camera 700 is used for acquiring an environment image. In this embodiment, in order to facilitate obtaining the current ambient working environment condition of the inspection personnel, the motion camera 700 obtains the current ambient environment condition through its own image capturing function. The power supply does the motion camera 700 provides electric power support, power supply output electric energy makes the motion camera 700 opens image acquisition, the motion camera 700 passes through the image of surrounding operational environment transmission module 400 conveying to monitored control system for the supervisory personnel passes through monitored control system looks over the personnel's of patrolling and examining operational environment image, is convenient for to the control of the operational environment of patrolling and examining personnel.

In one embodiment, the distribution network detection device comprises an ultrasonic receiver, the ultrasonic receiver detects the fine discharge in the designated area through the transmitted ultrasonic signal, that is, the ultrasonic receiver collects the discharge amount in the designated area, especially when the discharge charge is extremely small, the ultrasonic receiver combines the partial discharge tester and the partial discharge probe to jointly form the detection of the partial discharge condition, so that the sensitivity of the partial discharge electric quantity is further improved, and the detection of the partial discharge condition is more accurate.

In an embodiment, a distribution network detection system includes a receptacle and the distribution network detection apparatus in any of the above embodiments, the receptacle is configured to receive the processing module, and a surface of the head-mounted module, which faces away from the detection module, is configured to be mounted on a mounting body.

Above-mentioned join in marriage net detection device, each detection submodule sets up respectively on the wear-type module, make the detection submodule concentrate on a part, only need can together carry each detection submodule through carrying the wear-type module, when needs examine time measuring, only need take out the wear-type module and can begin each item to detect, thereby be convenient for each carry and detect of detecting the submodule, and, each detection submodule is connected with processing module respectively, processing module handles the environmental state data that detects the submodule collection, transmission module is connected with processing module again, realize data transmission to monitored control system after will handling, be convenient for to each item environmental state's control.

In one embodiment, the distribution network detection system comprises a helmet, a backpack and an inspection mobile phone, the helmet is used for being worn on the head of an inspection worker, an infrared camera, a partial discharge probe, a gas probe, a lighting lamp and a camera are arranged on the helmet, an infrared tester, a partial discharge tester, a gas detector, a power supply and a data processing device are accommodated in the backpack, the power supply is respectively connected with the infrared tester, the partial discharge tester, the gas detector, the lighting lamp, the camera and the data processing device and provides electric energy for the infrared tester, the partial discharge tester, the gas detector and the data processing device, the infrared camera is connected with the infrared tester and is used for collecting an environment temperature image and transmitting the environment temperature image to the infrared tester, the infrared tester converts the environment temperature image into a corresponding temperature parameter and sends the temperature parameter to the data processing device; the partial discharge probe is connected with the partial discharge tester and used for collecting partial discharge electric quantity and transmitting the partial discharge electric quantity to the partial discharge tester, and the partial discharge tester converts the partial discharge electric quantity into corresponding partial discharge quantity parameters and sends the partial discharge quantity parameters to the data processing device; the gas probe is connected with the gas detector and used for collecting gas concentration and transmitting the gas concentration to the gas detector, and the gas detector converts the gas concentration into corresponding gas concentration parameters and sends the gas concentration parameters to the data processing device. The data processing device compares the parameters with preset parameters respectively, and when the parameters exceed the range of the preset parameters, the data processing device sends a warning signal to the monitoring system through the inspection mobile phone and also sends the parameters to the monitoring system, so that monitoring personnel can monitor inspection working environment in real time, and a corresponding solution is made in time to solve corresponding warning. And, the light provides the illumination for patrolling and examining the dim electric room of personnel's entering light, the camera acquires the surrounding image of patrolling and examining personnel's work, and passes through patrol and examine the cell-phone and send to monitored control system in real time. The infrared tester, the partial discharge tester, the gas detector, the illuminating lamp, the camera and the power supply can be manually turned on and off, and a patrol inspection person can send an opening and closing instruction to the data processing device through the patrol inspection mobile phone and control the corresponding part to be turned on and turned off by the data processing device. In addition, join in marriage net detecting system still includes ultrasonic receiver, ultrasonic receiver with data processing module connects, ultrasonic receiver is used for gathering the discharge capacity in the appointed region, with the tester is put in the office with the probe uses jointly is put in the office, and the personnel of patrolling and examining are handheld ultrasonic receiver's mode is gathered the discharge capacity in the appointed region. Still including being provided with on the helmet be used for with the real-time communication's of monitored control system communication device and with data processing device connects the goggles, the goggles is worn on patrolling and examining personnel's bridge of the nose and ear, the goggles has the display function, the goggles will each item parameter display of data processing is in on the goggles, the personnel of being convenient for to patrol and examine read each item parameter.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A distribution network detection device, comprising: the device comprises a head-mounted module, a detection module, a processing module and a transmission module;

the detection module comprises a plurality of detection sub-modules, the detection sub-modules are arranged on the head-mounted module, each detection sub-module is provided with a corresponding detection structure, the output end of each detection sub-module is respectively connected with the input end of the processing module, the processing module is used for acquiring environmental state data through the detection sub-modules, the output end of the processing module is connected with the input end of the transmission module, and the output end of the transmission module is used for being connected with an external monitoring system.

2. The distribution network detection device according to claim 1, wherein the detection submodule comprises an infrared tester and an infrared camera, an input end of the infrared camera is used for collecting an ambient temperature image, an output end of the infrared camera is connected with an input end of the infrared tester, and an output end of the infrared tester is connected with an input end of the processing module.

3. The distribution network detection device according to claim 1, wherein the detection submodule includes an partial discharge tester and a partial discharge probe, an input end of the partial discharge probe is used for collecting partial discharge electric quantity, an output end of the partial discharge probe is connected with an input end of the partial discharge tester, and an output end of the partial discharge tester is connected with an input end of the processing module.

4. The distribution network detection device according to claim 1, wherein the detection submodule comprises a gas detector and a gas probe, an input end of the gas probe is used for collecting gas concentration, an output end of the gas probe is connected with an input end of the gas detector, and an output end of the gas detector is connected with an input end of the processing module.

5. The distribution network detection device according to claim 1, wherein the processing module comprises a processing chip and a power supply, the power supply is connected to the processing chip, the transmission module and each of the detection sub-modules, an input end of the processing chip is connected to the detection sub-modules, and an output end of the processing chip is connected to the transmission module.

6. The distribution network detection device of claim 5, further comprising an illumination module, wherein the illumination module is connected to the power supply, and the illumination module is configured to provide light illumination.

7. The distribution network detection device according to claim 5, further comprising a communication module, wherein the communication module is connected with the power supply, and the communication module is used for voice communication with an external monitoring system.

8. The distribution network detection device according to claim 5, further comprising a motion camera connected to the power supply, wherein the motion camera is further connected to the transmission module, and wherein the motion camera is configured to capture an environmental image.

9. The distribution network detection apparatus of claim 1, wherein the head-mounted module comprises a helmet.

10. A distribution network detection system, comprising a housing for receiving the processing module and a distribution network detection apparatus as claimed in any one of claims 1 to 9, wherein a side of the head-mounted module facing away from the detection module is adapted to be mounted on a mounting body of the housing.

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