CN114145531A - A kind of monitoring method for safety regulation of distribution network without power outage - Google Patents
A kind of monitoring method for safety regulation of distribution network without power outage Download PDFInfo
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- CN114145531A CN114145531A CN202110812908.2A CN202110812908A CN114145531A CN 114145531 A CN114145531 A CN 114145531A CN 202110812908 A CN202110812908 A CN 202110812908A CN 114145531 A CN114145531 A CN 114145531A
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- A—HUMAN NECESSITIES
- A42—HEADWEAR
- A42B—HATS; HEAD COVERINGS
- A42B3/00—Helmets; Helmet covers ; Other protective head coverings
- A42B3/04—Parts, details or accessories of helmets
- A42B3/0406—Accessories for helmets
- A42B3/0433—Detecting, signalling or lighting devices
- A42B3/046—Means for detecting hazards or accidents
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- A—HUMAN NECESSITIES
- A42—HEADWEAR
- A42B—HATS; HEAD COVERINGS
- A42B3/00—Helmets; Helmet covers ; Other protective head coverings
- A42B3/04—Parts, details or accessories of helmets
- A42B3/0406—Accessories for helmets
- A42B3/0433—Detecting, signalling or lighting devices
- A42B3/0453—Signalling devices, e.g. auxiliary brake or indicator lights
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- A—HUMAN NECESSITIES
- A42—HEADWEAR
- A42B—HATS; HEAD COVERINGS
- A42B3/00—Helmets; Helmet covers ; Other protective head coverings
- A42B3/04—Parts, details or accessories of helmets
- A42B3/30—Mounting radio sets or communication systems
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44C—PERSONAL ADORNMENTS, e.g. JEWELLERY; COINS
- A44C5/00—Bracelets; Wrist-watch straps; Fastenings for bracelets or wrist-watch straps
- A44C5/0007—Bracelets specially adapted for other functions or with means for attaching other articles
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44C—PERSONAL ADORNMENTS, e.g. JEWELLERY; COINS
- A44C5/00—Bracelets; Wrist-watch straps; Fastenings for bracelets or wrist-watch straps
- A44C5/0053—Flexible straps
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Abstract
The invention relates to a method for monitoring the safety specification of distribution network uninterrupted operation, wherein a wearable helmet monitoring component and a wearable belt monitoring component are worn on an operator, the operator transmits a video shot by a camera to a management server in a market management subsystem in real time through a communication module I in the live operation process, then the management server stores the received video on a storage server, an AI server retrieves the video on the storage server and analyzes and judges whether the operation behavior of the operator is normal or not, when the operation behavior of the operator is not in accordance with the safety specification, the AI server informs the management server, and the management server immediately triggers an acousto-optic-electric alarm I through the communication module I to perform on-site alarm. The invention relates to a distribution network uninterrupted operation safety standard monitoring method, which is based on that a camera shoots field operation, standard judgment is carried out through a background server, and then prompt alarm is carried out on the field, so that the standard uniformity and the timely effectiveness of the judgment are ensured.
Description
Technical Field
The invention relates to a distribution network uninterrupted operation safety standard monitoring method, and belongs to the technical field of power construction supervision.
Background
At present, in the running process of a power grid, in order to ensure the continuity of power supply, certain operational operations need to be carried out in a live-line mode; in the live working process, operators are required to strictly execute the ancestral safety standard so as to avoid serious personal safety accidents triggered by errors and even large-area grid disconnection accidents of a power grid. Therefore, in the conventional operation mode, a guardian is equipped to monitor the operation action of the operator, and when the operation is irregular, the operator can give a warning and prevent or even cut off the power grid in time to protect the personal safety of the operator. However, when the operator operates, a dead angle which cannot be seen by the guardian inevitably exists, and once the operation is not standard, the guardian cannot know the dead angle, so that the risk is caused to the operator; meanwhile, because the operator and the guardian inevitably have deviation of understanding and comprehension for the same operation standard, different comprehensions are provided for whether the compliance exists, and the field communication is inevitable and disputed, thereby seriously affecting the construction efficiency. Therefore, a distribution network uninterrupted operation safety standard monitoring method based on the judgment of the operation safety standard is needed.
Disclosure of Invention
The invention aims to overcome the defects and provides a distribution network uninterrupted operation safety standard monitoring method, which is based on that a camera shoots field operation, standard judgment is carried out through a background server, and then a prompt alarm is carried out on the field, so that the standard uniformity and the timely effectiveness of the judgment are ensured.
The purpose of the invention is realized as follows:
a distribution network non-power-off operation safety standard monitoring method comprises the steps that a wearable helmet monitoring component and a wearable belt monitoring component are worn on an operator, the operator transmits a video shot by a camera to a management server in a market management subsystem in real time through a communication module I in the process of live operation, then the management server stores the received video on a storage server, an AI server retrieves the video on the storage server and analyzes and judges whether the operation behavior of the operator is standard or not, when the operation behavior of the operator is not in accordance with the safety standard, the AI server informs the management server, and the management server immediately triggers an acousto-optic-electric alarm I through the communication module I to perform on-site alarm; meanwhile, the wearable bracelet monitoring component is worn on the wrist of the guardian, so that the signal of the management server is received by the communication module II in the wearable bracelet monitoring component to perform on-site alarm.
The invention discloses a method for monitoring the distribution network uninterrupted operation safety standard, which is characterized in that an AI server calls videos in a storage server to judge and simultaneously carries out artificial intelligent learning on the video contents, sends the conclusion of the artificial intelligent learning to a standard server, and simultaneously sends the conclusion to an AI server in a foreign market to be stored, thereby realizing linkage of provinces and cities, and simultaneously, a total scheduling server can input formed new standards according to expert investigation and the like and transmit the new standards to each AI server through the standard server.
The distribution network uninterrupted operation safety standard monitoring system based on the method comprises an on-site subsystem and a city-level management subsystem;
the on-site subsystem comprises a wearable helmet monitoring component and a wearable waistband monitoring component, the wearable helmet monitoring component comprises a helmet body, the wearable waistband monitoring component comprises a waistband body, and intelligent monitoring boxes are mounted on the helmet body and the waistband body;
the intelligent monitoring box is internally provided with a circuit board, a first storage battery, a first microprocessor, a first camera, a first acousto-optic-electric alarm and a first communication module are mounted on the circuit board, the first microprocessor is electrically connected with the first camera, the first acousto-optic-electric alarm and the first communication module, and the first storage battery is connected with the first microprocessor, the first camera, the first acousto-optic-electric alarm and the first communication module for power supply;
the city level management subsystem comprises a management server, a storage server and an AI server, wherein the first communication module and the second communication module are in communication connection with the management server through a network, the management server is in communication connection with the storage server and the AI server, and the storage server is in communication connection with the AI server.
Furthermore, the field subsystem comprises a wearable bracelet monitoring component, the wearable bracelet monitoring component comprises a bracelet body, and an intelligent alarm box is mounted on the bracelet body;
the intelligent alarm box is internally provided with a circuit board, a second storage battery, a second microprocessor, a second acousto-optic-electric alarm, a second vibration motor and a second communication module are mounted on the circuit board, the second microprocessor is electrically connected with the second acousto-optic-electric alarm, the second vibration motor and the second communication module, and the second storage battery is connected with the second microprocessor, the second acousto-optic-electric alarm, the second vibration motor and the second communication module to supply power.
Further, the system also comprises a provincial management subsystem, wherein the provincial management subsystem comprises a normative server and a total scheduling server, the normative server is connected with the AI server through a network, and the total scheduling server is connected with the normative server through a network;
further, the bracelet body is an annular structure made of silica gel materials, so that the bracelet body can be conveniently worn on the wrist and does not have any allergic side effect on the skin of the human body.
Furthermore, a first vibration motor is installed on a circuit board in the intelligent monitoring box, an IO port of the first microprocessor is electrically connected with the first vibration motor, and a first storage battery is connected with the first vibration motor for power supply.
Compared with the prior art, the invention has the beneficial effects that:
according to the invention, artificial intelligence judgment is carried out through the AI server, so that the standardization of live working actions of operators can be rapidly judged without interruption; meanwhile, the head-wearing type camera and the waist-wearing type camera can conveniently, quickly and comprehensively take a picture of whether the operation action is standard or not, so that the action judgment without dead angles is realized, and the operation safety is ensured; meanwhile, the process of distinguishing the actions of the operator during operation by the AI server is also a learning process, so that the distinguishing model can be continuously expanded and evolved, and the standard distinguishing is more and more accurate and rapid.
Drawings
Fig. 1 is a schematic diagram of a distribution network uninterrupted operation safety specification monitoring system according to the present invention.
Fig. 2 is a schematic structural diagram of a wearable helmet monitoring assembly in a distribution network uninterruptible operation safety standard monitoring system according to the present invention.
Fig. 3 is a schematic structural diagram of a wearable belt monitoring component in a distribution network uninterrupted operation safety specification monitoring system according to the present invention.
Fig. 4 is a schematic structural diagram of a wearable bracelet monitoring component in a distribution network uninterruptible operation safety standard monitoring system according to the present invention.
Wherein:
helmet body 1, waistband body 2, bracelet body 3, intelligent monitoring box 4, intelligent alarm box 5.
Detailed Description
The invention relates to a distribution network uninterrupted operation safety standard monitoring system, which is developed based on responding to the safety monitoring requirement of a national network power supply company and verifies a plurality of AI technologies, and comprises the following steps:
researching a multi-source monitoring technology (namely a demand point of the embodiment) of distribution network uninterrupted operation field personnel operation and risk characteristics;
researching an image feature-based automatic identification technology (namely an image identification algorithm) of typical unsafe behaviors of distribution network uninterrupted operation;
researching a distribution network uninterrupted operation site risk early warning technology (namely an AI artificial intelligence learning algorithm) based on information fusion;
and developing a visual monitoring and intelligent early warning system for the distribution network uninterrupted operation site, and developing field application (namely the system of the embodiment).
The invention relates to a method for monitoring the safety specification of distribution network uninterrupted operation, wherein a wearable helmet monitoring component and a wearable belt monitoring component are worn on an operator, the operator transmits a video shot by a camera to a management server in a market management subsystem in real time through a communication module I in the live-line operation process, then the management server stores the received video on a storage server, an AI server retrieves the video on the storage server and analyzes and judges whether the operation behavior of the operator is normal or not, when the operation behavior of the operator is not consistent with the safety specification, the AI server informs the management server, and the management server immediately triggers an acousto-optic-electric alarm I through the communication module I to perform on-site alarm; meanwhile, the wearable bracelet monitoring component is worn on the wrist of the guardian, so that the signal of the management server is received by the communication module II in the wearable bracelet monitoring component to perform on-site alarm.
Furthermore, the AI server calls videos in the storage server to judge and simultaneously carries out artificial intelligence learning on the video contents, the conclusion of the artificial intelligence learning is sent to the standard server, and the standard server simultaneously sends the conclusion into the AI server in the foreign city to be stored, so that linkage of the whole province and the city is realized, and meanwhile, the general scheduling server can input formed new standards according to expert research and the like and transmit the new standards to each AI server through the standard server.
Referring to fig. 1 to 4, the distribution network uninterruptible operation safety specification monitoring method of the present invention is based on a distribution network uninterruptible operation safety specification monitoring system, which includes:
the field subsystem is worn or installed on operators of each construction operation field;
the city level management subsystem is fixedly pre-installed in a safety management machine room of a city in the ground level;
a provincial level management subsystem; fixedly pre-installed in a safety management mechanism of a provincial bureau.
And the local subsystem is connected with the city level management subsystem through 5G network communication, and the city level management subsystem is connected with the provincial level management subsystem through the world wide web, special power or 5G network and other wireless network communication.
On-spot subsystem includes wearing formula helmet monitoring subassembly, wearing formula waistband monitoring subassembly and wearing formula bracelet monitoring subassembly, wearing formula helmet monitoring subassembly includes the helmet body 1 that adopts conventional helmet to make, wearing formula waistband monitoring subassembly includes the waistband body 2 that comprises conventional belt, wearing formula bracelet monitoring subassembly includes the bracelet body 3 of loop configuration, install intelligent monitoring box 4 on helmet body 1 and the waistband body 2, install intelligent alarm box 5 on the bracelet body 3.
The intelligent monitoring box 4 can adopt terminal modules (such as a mobile phone module, a flat panel module, an intelligent watch module and the like) commonly used at present, and can also adopt a self-made simplified module in the embodiment, at the moment, a circuit board is arranged in the intelligent monitoring box 4, a first storage battery, a first microprocessor, a first camera, a first acousto-optic and electric alarm, a first vibrating motor and a first communication module are installed on the circuit board, the first microprocessor is electrically connected with the first camera, the first acousto-optic and electric alarm, the first vibrating motor and the first communication module, and the first storage battery is connected with the first microprocessor, the first camera, the first acousto-optic and electric alarm, the first vibrating motor and the first communication module for power supply.
Similarly, the intelligent alarm box 5 may adopt a terminal module (such as a mobile phone module, a tablet module, an intelligent watch module, etc.) which is commonly used today, and may also adopt a simplified module which is self-made in this embodiment, at this time, a circuit board is arranged in the intelligent alarm box 5, a second storage battery, a second microprocessor, a second acousto-optic alarm, a second vibration motor and a second communication module are mounted on the circuit board, the second microprocessor is electrically connected with the second acousto-optic alarm, the second vibration motor and the second communication module, and the second storage battery is connected with the second microprocessor, the second acousto-optic alarm, the second vibration motor and the second communication module to supply power.
The city level management subsystem comprises a management server, a storage server and an AI server, wherein the first communication module and the second communication module are in communication connection with the management server through a network, the management server is in communication connection with the storage server and the AI server, and the storage server is in communication connection with the AI server.
When the wearable helmet monitoring assembly and the wearable belt monitoring assembly are worn on an operator, the operator transmits a video shot by a camera to a management server in a market management subsystem in real time through a communication module I in a live-line operation process, then the management server stores the received video on a storage server, an AI server calls the video on the storage server and analyzes and judges whether the operation behavior of the operator is standard or not, when the operation behavior of the operator is not in accordance with the safety standard, the AI server informs the management server, and the management server immediately triggers an acousto-optic-electric alarm I and a vibration motor I through the communication module I to perform on-site alarm;
meanwhile, the wearable bracelet monitoring component is worn on the wrist of the guardian, so that the signal of the management server is received by the communication module II in the wearable bracelet monitoring component to perform on-site alarm.
Preferably, bracelet body 3 is an annular structure of being made by the silica gel material, and silica gel is a high active adsorption material, belongs to amorphous substance. In the embodiment, the organic silica gel is adopted, is an organic silicon compound, has a flexible main chain and weaker intermolecular acting force than that of a hydrocarbon compound, and therefore has lower viscosity, weaker surface tension, lower surface energy and stronger film forming capability than that of the hydrocarbon compound with the same molecular weight. The low surface tension and surface energy of the silicone rubber make it have excellent properties of hydrophobicity, defoaming, foam stability, anti-sticking, lubrication, glazing and the like, so that the silicone rubber is convenient to wear on the wrist after being applied in the embodiment, and has no allergic side effect on the skin of a human body.
Preferably, the provincial level management subsystem comprises a normative server and a total scheduling server, the normative server is connected with the AI server through a network, and the total scheduling server is connected with the normative server through a network.
When the intelligent video recognition system is used, the AI server calls the video in the storage server to judge and simultaneously carries out artificial intelligent learning on the video content, the artificial intelligent learning adopts a Matlab neural network toolbox to carry out deep learning training, the AI server processes continuously acquired field pictures during training, marks each action (the marking mode adopts an EdgeBoxes image recognition algorithm to carry out recognition and marking), carries out digital conversion on the displacement among all marked points, inputs the converted displacement as a detection learning array into the Matlab neural network toolbox to be compared with a prefabricated standard array and automatically generates planning data after learning, sends the planning data generated by the artificial intelligent learning as a conclusion to the standard server, and simultaneously sends the conclusion to the AI server in the foreign market to be stored, thereby realizing the full province multi-linkage city, meanwhile, the formed new specification may be input through the general scheduling server and transmitted to each AI server through the specification server according to expert research and the like.
In addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.
Claims (7)
1. A distribution network uninterrupted operation safety standard monitoring method is characterized in that: the wearable helmet monitoring assembly and the wearable belt monitoring assembly are worn on an operator, the operator transmits a video shot by a camera to a management server in a market management subsystem in real time through a communication module I in a live-line operation process, then the management server stores the received video on a storage server, an AI server calls the video on the storage server and analyzes and judges whether the operation behavior of the operator is standard or not, when the operation behavior of the operator is not in accordance with the safety standard, the AI server informs the management server, and the management server immediately triggers an acousto-optic-electric alarm I through the communication module I to perform on-site alarm; meanwhile, the wearable bracelet monitoring component is worn on the wrist of the guardian, so that the signal of the management server is received by the communication module II in the wearable bracelet monitoring component to perform on-site alarm.
2. The distribution network uninterrupted operation safety specification monitoring method according to claim 1, characterized in that: the AI server calls the videos in the storage server to judge and simultaneously carries out artificial intelligence learning on the video contents, the conclusion of the artificial intelligence learning is sent to the standard server, and the standard server simultaneously sends the conclusion into the AI server in the foreign city to be stored, so that linkage of the whole province and the city is realized, and meanwhile, the formed new specifications can be input through the general scheduling server according to expert research and the like and transmitted to each AI server through the standard server.
3. The distribution network uninterrupted operation safety specification monitoring method according to claim 1, characterized in that: the method is based on a distribution network uninterrupted operation safety standard monitoring system, and the system comprises an on-site subsystem and a city-level management subsystem;
the field subsystem comprises a wearable helmet monitoring component and a wearable belt monitoring component, the wearable helmet monitoring component comprises a helmet body (1), the wearable belt monitoring component comprises a belt body (2), and intelligent monitoring boxes (4) are mounted on the helmet body (1) and the belt body (2);
a circuit board is arranged in the intelligent monitoring box (4), a first storage battery, a first microprocessor, a first camera, a first acousto-optic-electric alarm and a first communication module are mounted on the circuit board, the first microprocessor is electrically connected with the first camera, the first acousto-optic-electric alarm and the first communication module, and the first storage battery is connected with the first microprocessor, the first camera, the first acousto-optic-electric alarm and the first communication module for power supply;
the city level management subsystem comprises a management server, a storage server and an AI server, wherein the first communication module and the second communication module are in communication connection with the management server through a network, the management server is in communication connection with the storage server and the AI server, and the storage server is in communication connection with the AI server.
4. The distribution network uninterrupted operation safety specification monitoring method according to claim 3, characterized in that: the field subsystem comprises a wearable bracelet monitoring component, the wearable bracelet monitoring component comprises a bracelet body (3), and an intelligent alarm box (5) is mounted on the bracelet body (3);
the intelligent alarm box (5) is internally provided with a circuit board, a second storage battery, a second microprocessor, a second acousto-optic-electric alarm, a second vibration motor and a second communication module are mounted on the circuit board, the second microprocessor is electrically connected with the second acousto-optic-electric alarm, the second vibration motor and the second communication module, and the second storage battery is connected with the second microprocessor, the second acousto-optic-electric alarm, the second vibration motor and the second communication module for power supply.
5. The distribution network uninterrupted operation safety specification monitoring method according to claim 4, characterized in that: the system also comprises a provincial management subsystem, wherein the provincial management subsystem comprises a normative server and a total scheduling server, the normative server is connected with the AI server through a network, and the total scheduling server is connected with the normative server through a network.
6. The distribution network uninterrupted operation safety specification monitoring method according to claim 4, characterized in that: bracelet body (3) is an annular structure who is made by the silica gel material to be convenient for wear it on the wrist, and do not have any anaphylactic side effect to human skin.
7. The distribution network uninterrupted operation safety specification monitoring method according to claim 2, characterized in that: the intelligent monitoring box is characterized in that a first vibrating motor is installed on a circuit board in the intelligent monitoring box (4), an IO port of the first microprocessor is electrically connected with the first vibrating motor, and a first storage battery is connected with the first vibrating motor for power supply.
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| Application Number | Priority Date | Filing Date | Title |
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| CN202110812908.2A CN114145531A (en) | 2021-07-19 | 2021-07-19 | A kind of monitoring method for safety regulation of distribution network without power outage |
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| CN202110812908.2A CN114145531A (en) | 2021-07-19 | 2021-07-19 | A kind of monitoring method for safety regulation of distribution network without power outage |
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