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CN-122015953-A - Intelligent sensing device for safety of electric power working site

CN122015953ACN 122015953 ACN122015953 ACN 122015953ACN-122015953-A

Abstract

The invention relates to the technical field of safety monitoring, in particular to an intelligent safety sensing device for an electric power working site, which comprises a device body, an environment sensing module, a monitoring module, an alarming module, an energy module, a communication and positioning module and an interface module, wherein the device body is of a cylindrical structure, a portable handle is arranged at the top, a base with radial protrusions is arranged at the bottom, the environment sensing module comprises temperature, wind speed and water immersion sensors, the monitoring module is a panoramic camera with 3 triangular distribution, the energy module comprises a side solar panel and a built-in lithium battery, the communication and positioning module comprises wireless communication, bluetooth, local networking and GPS/Beidou positioning components, the interface module is arranged at the bottom, and the alarming module is a voice broadcasting device capable of customizing threshold values. The invention realizes multidimensional environment monitoring, field monitoring, autonomous power supply and remote data interaction, and improves the operation safety guarantee and management efficiency.

Inventors

  • LIU JIE
  • WU TAOTAO
  • LI XU
  • WANG KE

Assignees

  • 国网新疆电力有限公司阿克苏供电公司

Dates

Publication Date
20260512
Application Date
20260127

Claims (10)

  1. 1. The intelligent safety sensing device for the electric power working site is characterized by comprising a device body, an environment sensing module, a monitoring module, an alarm module and an energy module; The device body is used for bearing each functional module and providing a stable installation basis for each functional module; The environment sensing module is integrated in the device body and connected with the alarm module through signals, and is used for transmitting the acquired environment parameter data to the alarm module; The monitoring module is integrated in the device body and is used for monitoring the activity state of personnel on the operation site and capturing images; The alarm module is used for receiving the abnormal parameter signals transmitted by the environment sensing module and sending alarm prompts; the energy module is electrically connected with the environment sensing module, the monitoring module and the alarm module respectively and is used for continuously providing working power for each functional module.
  2. 2. The intelligent safety sensing device for electric power working sites according to claim 1, wherein the device body is of a cylindrical structure, the top is provided with a carrying handle, the bottom is provided with a base, and the bottom of the base is provided with radial protrusions.
  3. 3. The intelligent sensing device for safety of an electric power work site according to claim 1, wherein the monitoring modules are panoramic cameras, the number of the panoramic cameras is 3, and the panoramic cameras are distributed in a triangle shape.
  4. 4. The intelligent safety sensing device for the electric power work site according to claim 1, 2 or 3, wherein the environment sensing module comprises a temperature sensor, a wind speed sensor and a water immersion sensor, the temperature sensor is used for measuring the ambient temperature, the wind speed sensor is used for detecting wind power parameters, and the water immersion sensor is used for monitoring rainfall and ground water storage.
  5. 5. The intelligent sensing device for safety of electric power working site according to claim 1, 2 or3, further comprising a communication and positioning module, wherein the communication and positioning module is integrated with the device body and comprises a wireless communication assembly, a Bluetooth assembly, a local networking assembly and a positioning assembly, the wireless communication assembly is used for realizing remote data transmission, the Bluetooth assembly is used for short-distance data interaction, the local networking assembly is used for multi-device cooperative networking, and the positioning assembly is used for acquiring real-time positions of the devices.
  6. 6. The intelligent power job site safety sensing device according to claim 5, wherein the positioning component is a GPS positioning component or a beidou positioning component.
  7. 7. The intelligent sensing device for electric power work site safety according to claim 1, 2, 3 or 6, further comprising an interface module, wherein the interface module is arranged at the bottom of the device body and is used for realizing data export transmission and external power supply charging.
  8. 8. The intelligent power job site safety sensing device according to claim 1 or 2 or 3 or 6, wherein the energy module comprises a solar panel provided at a side of the device body and a lithium battery built in the device body, the solar panel being electrically connected with the lithium battery for converting solar energy into electric energy and storing the electric energy into the lithium battery.
  9. 9. The intelligent power job site safety sensing device according to claim 1,2, 3 or 6, wherein the alarm module is a voice broadcasting device for receiving the abnormal parameter signal transmitted by the environment sensing module and sending out an alarm statement to prompt the operator.
  10. 10. The intelligent power job site safety sensing device according to claim 1 or 2 or 3 or 6, wherein the alarm module is provided with an alarm threshold setting component for custom setting alarm trigger thresholds of temperature, wind speed and water immersion depth.

Description

Intelligent sensing device for safety of electric power working site Technical Field The invention relates to the technical field of safety monitoring, in particular to an intelligent safety sensing device for an electric power working site. Background The electric power working site is often in an outdoor complex environment, and relates to various scenes such as high-altitude operation, equipment operation and maintenance, line overhaul and the like, and safety monitoring is a key link for guaranteeing the life safety of operators and the stable operation of equipment. At present, the existing electric power field safety monitoring equipment adopts a single sensor design, and can only monitor single environmental parameters such as temperature or humidity, and the like, and cannot comprehensively capture various potential safety hazards such as field wind speed mutation, ponding soaking and the like, so that operators are difficult to pre-judge risks in advance, and safety accidents are easy to cause. For example, part of outdoor power overhaul sites are not monitored for wind speed change in real time, so that unbalance of high-altitude operators can be caused when gusts are suddenly blown, and when working in low-lying areas, the lack of accumulated water depth monitoring can cause short circuit of equipment or risk of electric shock to the operators, and the single monitoring mode cannot meet the safety guarantee requirements in complex scenes. In the aspect of field visual monitoring, the existing equipment is provided with a single camera, the monitoring visual angle is limited, obvious dead zones exist, and all corners of an operation area are difficult to be covered comprehensively. When an operator operates on the back of the equipment or in the blind area of the camera, a background manager cannot grasp the field state in real time, and emergency measures cannot be taken in time once an emergency occurs. Meanwhile, the existing monitoring equipment depends on a wired transmission or single wireless mode, the stability of data transmission is poor, signal interruption easily occurs in a remote outdoor area, a monitoring picture is lost, continuous and effective field supervision cannot be realized, and great challenges are brought to safety management. In the power supply mode, most of the existing power safety monitoring equipment is powered by an external power supply or a built-in common battery. The equipment which depends on an external power supply is limited by a power supply circuit and cannot be flexibly deployed on a remote operation site without a power supply condition, while the equipment which adopts a common battery for power supply has limited cruising ability and needs to replace the battery frequently, so that the operation and maintenance cost is increased, the equipment is stopped possibly due to the battery exhaustion, and the 24-hour continuous monitoring cannot be realized. In addition, the existing equipment lacks effective positioning and collaborative networking functions, when a plurality of operation sites are used for working at the same time, management staff is difficult to accurately master the deployment positions of the equipment, data sharing and collaborative scheduling among the equipment cannot be realized, management efficiency is low, and synchronous safety monitoring requirements of multiple scenes and multiple areas are difficult to deal with. These prior art shortcomings severely restrict the comprehensiveness, timeliness and reliability of safety monitoring of the electric power working site, and a safety sensing device integrating multi-dimensional monitoring, autonomous power supply and intelligent cooperative functions is needed to solve the above problems. Disclosure of Invention The invention provides a safety intelligent sensing device for an electric power working site, which overcomes the defects of the prior art and can effectively solve the problems of single monitoring dimension, blind area monitoring, limited power supply mode and lack of intelligent cooperative function of the prior equipment. The technical scheme of the invention is realized by the following measures that the intelligent sensing device for the safety of the electric power working site comprises a device body, an environment sensing module, a monitoring module, an alarm module and an energy module; The device body is used for bearing each functional module and providing a stable installation basis for each functional module; The environment sensing module is integrated in the device body and connected with the alarm module through signals, and is used for transmitting the acquired environment parameter data to the alarm module; The monitoring module is integrated in the device body and is used for monitoring the activity state of personnel on the operation site and capturing images; The alarm module is used for receiving the abnormal parameter signals transmitted by the envi