CN219476182U - High-altitude operation safety belt monitoring alarm system - Google Patents

Abstract

The utility model discloses a safety belt monitoring and alarming system for high-altitude operation, which relates to the technical field of safety belts for high-altitude operation and comprises the following components: a safety belt located at a high altitude; the detection processing alarm module is arranged on the safety belt and used for detecting, processing and alarming the locking state of the safety belt; the handheld monitoring alarm terminal is positioned on the ground and is in wireless communication connection with the detection processing alarm module; the first intercom device is positioned beside the safety belt, and the second intercom device is positioned beside the handheld monitoring alarm terminal and is in wireless communication connection with the second intercom device; the dispatch center module is used for receiving the dispatch information, the dispatching center module is in wireless communication connection with the handheld monitoring alarm terminal. When the high-altitude operation personnel do not notice the alarm information on the detection processing alarm module, the ground staff notice the alarm information and can remind the high-altitude operation personnel through the first intercom device and the second intercom device so as to reduce the occurrence of high-altitude safety accidents.

Description

High-altitude operation safety belt monitoring alarm system

Technical Field

The utility model relates to the technical field of safety belts for high-altitude operation, in particular to a safety belt monitoring and alarming system for high-altitude operation.

Background

In order to ensure safe and stable operation of the power grid, circuit maintenance is very necessary. The overhead operation is unavoidable in the process of circuit maintenance, and safety belts and safety caps are required to be worn for ensuring the personal safety of operators in the process of overhead operation. Therefore, the correct use of the safety belt is one of important measures for preventing the casualties caused by the high-altitude falling of the on-site high-altitude workers and ensuring the personal safety. However, in the using process of the traditional safety belt, the safety consciousness of constructors is light, the mind and the mind exist, and a construction unit cannot monitor at any time; the prior safety belt and safety rope solutions are mainly focused on the aspects of strengthening the strength of the product and the like, and the use state of the safety belt cannot be effectively identified; the existing safety belt solution cannot conduct process management and cannot count data, and is unfavorable for accident analysis and responsibility division.

In recent years, high-altitude safety accidents frequently occur, and safety protection and early warning problems of high-altitude operation become primary problems for guaranteeing life safety of workers in high-altitude operation. The high-altitude operators are faced with the following dangerous points:

(1) Performing high-altitude open-air operation in severe weather such as heavy wind, rain, snow and the like;

(2) The physical condition of the high-altitude operation personnel is abnormal;

(3) The safety belt is not correctly worn according to the specification;

(4) Personal wear is not in line with high-altitude operation is required.

In the field of overhead operation, the number of lost life is as high as tens of thousands of people each year, and the establishment of an overhead operation safety belt monitoring alarm system is an urgent requirement in the field of overhead operation.

In the prior art, the patent with publication number CN214912822U discloses a safety belt state monitoring device for overhead operation, which comprises: the safety belt and the state monitoring device arranged on the safety belt comprise a pressure sensor, an acceleration sensor, an altimeter, a human body proximity sensor, a buckle sensor, a GPS positioning module and a voice alarm module which are respectively and electrically connected with the processor; the pressure sensor is used for monitoring the use state of the hook, the acceleration sensor is used for monitoring the use state of the hanging rope of the safety belt, and the altimeter is used for monitoring the use state of the hanging rope in low use; the eye-splice sensor is used for monitoring the using state of the buckle; the human body proximity sensor is used for monitoring the wearing and using state of the safety belt of the operator; the GPS positioning module is used for positioning the high-altitude operation personnel, and the voice alarm module is used for voice alarm. The safety belt state monitoring device for the overhead operation is used for comprehensively monitoring the state of the safety belt for the overhead operation, and has the characteristics of simple structure, convenience in use and high monitoring accuracy.

The safety belt state monitoring device disclosed in the above patent is provided with an alarm module only on the safety belt, and no alarm module is provided on the terminal monitoring equipment. When the high-altitude operation personnel engages in high-altitude open-air operation in severe weather such as heavy wind, rain, snow and the like, the external environment is noisy, so that the high-altitude operation personnel can not notice the alarm of the alarm module, and further safety accidents are caused.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model aims to provide a safety belt monitoring and alarming system for high-altitude operation, which aims to solve the problems that when high-altitude operation personnel engage in high-altitude open-air operation in severe weather such as heavy wind, rain, snow and the like, the external environment is noisy, the high-altitude operation personnel cannot notice the alarming of an alarming module, and safety accidents are caused.

In order to achieve the above purpose, the present utility model adopts the technical scheme that:

an overhead safety belt monitoring alarm system comprising:

a safety belt located at a high altitude;

the detection processing alarm module is arranged on the safety belt and used for detecting, processing and alarming the locking state of the safety belt;

the handheld monitoring alarm terminal is positioned on the ground and is in wireless communication connection with the detection processing alarm module;

the first intercom device is positioned beside the safety belt, and the second intercom device is positioned beside the handheld monitoring alarm terminal and is in wireless communication connection with the second intercom device;

and the dispatching center module is in wireless communication connection with the handheld monitoring alarm terminal.

Further, the detection processing alarm module comprises a lock catch state detection sub-module, a lock catch detection data processing sub-module, an alarm sub-module, a wireless transmission sub-module and a power supply module;

the lock catch state detection submodule is located beside a lock catch of the safety belt to detect the state of the lock catch, the lock catch detection data processing submodule is respectively in communication connection with the lock catch state detection submodule, the alarm submodule and the wireless transmission submodule, the wireless transmission submodule is in communication connection with the handheld monitoring alarm terminal, and the power supply module is respectively connected with the lock catch state detection submodule, the lock catch detection data processing submodule, the alarm submodule and the wireless transmission submodule.

Further, the safety belt comprises a rope, a lock hook and a lock catch, wherein the lock hook is arranged at the end part of the rope, and the lock catch is movably installed at the opening part of the lock hook.

Further, the latch state detection sub-module is arranged on the latch hook, and the detection end of the latch state detection sub-module faces to an opening of the latch hook; the rope is provided with a box body, and the lock catch detection data processing sub-module, the alarm sub-module, the wireless transmission sub-module and the power supply module are all arranged in the box body.

Further, the lock catch state detection sub-module is a detector adopting laser induction detection.

Further, the alarm sub-module is an audible and visual alarm.

Further, the handheld monitoring alarm terminal is connected with the dispatching center module through 4G/5G wireless communication.

The utility model has the beneficial effects that:

according to the high-altitude operation safety belt monitoring alarm system provided by the utility model, the safety belt carries out high-altitude safety protection on high-altitude operation personnel, the detection processing alarm module detects, processes and alarms the locking state of the safety belt, when alarm information exists, the detection processing alarm module alarms the operation personnel in the high altitude, and meanwhile, the alarm information is transmitted to the handheld monitoring alarm terminal, and the handheld monitoring alarm terminal confirms the alarm information again. When the high-altitude operation personnel engages in high-altitude open-air operation in severe weather such as heavy wind, rain and snow, the external environment is noisy, and when the alarm information on the alarm module is not detected and processed, the personnel on the ground can remind the high-altitude operation personnel through the first intercom device and the second intercom device after the personnel on the ground notice the alarm information of the handheld monitoring alarm terminal, so that the occurrence of high-altitude safety accidents is reduced.

According to the safety belt monitoring and alarming system for the high-altitude operation, whether the safety belt lock catches are hung or not is monitored and judged in real time through the lock catch state detection sub-module and the lock catch detection data processing sub-module, and the safety of the safety belt is guaranteed.

The high-altitude operation safety belt monitoring alarm system is mainly used for intelligent warning of safety belt protection in pole (tower) climbing operation, particularly for reminding operators of whether safety belts are hung or not when the high-altitude pole (tower) climbing operation is carried out, and for reminding operators of safety reminding of alternate hanging of double hooks of the safety belts when the operators move on the pole (tower), and the intelligent and safety of high-altitude operation safety protection equipment are improved through technical means such as audible and visual alarm, bidirectional confirmation and the like.

Drawings

FIG. 1 is a schematic illustration of the present utility model;

FIG. 2 is a schematic view of a seat belt of the present utility model;

FIG. 3 is a control logic diagram of the present utility model;

reference numerals:

1. a safety belt; 11. a rope; 12. a latch hook; 13. locking; 14. a case body; 2. a detection processing alarm module; 21. a latch state detection sub-module; 22. a latch detection data processing sub-module; 23. an alarm sub-module; 24. a wireless transmission sub-module; 25. a power module; 3. a hand-held monitoring alarm terminal; 4. a first intercom device; 5. a second intercom device; 6. and a dispatch center module.

Detailed Description

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present utility model.

Example 1

An overhead safety belt monitoring alarm system, as shown in fig. 1-3, comprising:

a safety belt 1 positioned at a high altitude;

the detection processing alarm module 2 is arranged on the safety belt 1 and used for detecting, processing and alarming the locking state of the safety belt 1;

the handheld monitoring alarm terminal 3 is positioned on the ground, and the handheld monitoring alarm terminal 3 is in wireless communication connection with the detection processing alarm module 2;

the first intercom device 4 is positioned beside the safety belt 1, the second intercom device 5 is positioned beside the handheld monitoring alarm terminal 3, and the first intercom device 4 and the second intercom device 5 are in wireless communication connection;

the dispatching center module 6, the dispatching center module 6 is connected with the hand-held monitoring alarm terminal 3 in a wireless communication mode.

In this embodiment, the seat belt 1 is used for protecting the safety of an overhead worker. The detection processing alarm module 2 is used for detecting, processing and alarming the lock catch state of the safety belt, when alarm information exists, the detection processing alarm module 2 alarms an operator in the high altitude, meanwhile, the alarm information is transmitted to the handheld monitoring alarm terminal 3, and the handheld monitoring alarm terminal 3 confirms the alarm information again, namely, the detection processing alarm module 2 and the handheld monitoring alarm terminal 3 are utilized to confirm the alarm information in a two-way mode. The first intercom device 4 and the second intercom device 5 are used for communication between the overhead working personnel and the ground working personnel. The dispatching center module 6 is used for dispatching the high-altitude jobs.

When the high-altitude operation personnel engages in high-altitude open-air operation in severe weather such as heavy wind, rain, snow and the like, the external environment is noisy, and when the alarm information on the alarm module 2 is not detected and processed, the high-altitude operation personnel can be reminded through the first intercom device 4 and the second intercom device 5 after the ground personnel notice the alarm information, so that the occurrence of high-altitude safety accidents is reduced.

Example 2

The present embodiment is further described on the basis of embodiment 1, and as shown in fig. 1-3, the detection processing alarm module 2 includes a latch status detection sub-module 21, a latch detection data processing sub-module 22, an alarm sub-module 23, a wireless transmission sub-module 24, and a power module 25.

The lock catch state detection sub-module 21 is located beside the lock catch of the safety belt 1 and is used for detecting the lock catch state, the lock catch detection data processing sub-module 22 is respectively in communication connection with the lock catch state detection sub-module 21, the alarm sub-module 23 and the wireless transmission sub-module 24, the wireless transmission sub-module 24 is in communication connection with the handheld monitoring alarm terminal 3, and the power supply module 25 is respectively connected with the lock catch state detection sub-module 21, the lock catch detection data processing sub-module 22, the alarm sub-module 23 and the wireless transmission sub-module 24.

In this embodiment, the latch status detection sub-module 21 is configured to detect whether an object (latch) is in the hook, and transmit status data to the latch detection data processing sub-module 22; the latch detection data processing sub-module 22 is configured to perform comprehensive analysis according to the status data, and determine whether the latch hooks are locked by the latch; when the locking hook is not locked, the alarm sub-module 23 is controlled to alarm, meanwhile, the hook state and the alarm information of the safety belt are pushed to the wireless transmission sub-module 24, and the wireless transmission sub-module 24 sends the hook state and the alarm information of the safety belt to the handheld monitoring alarm terminal 3 on the ground. The power module 25 is used for supplying power to the latch state detection sub-module 21, the latch detection data processing sub-module 22, the alarm sub-module 23 and the wireless transmission sub-module 24.

Meanwhile, the handheld monitoring alarm terminal 3 receives the data transmitted by the wireless transmission sub-module 24, displays the data in real time, and transmits the state data of the safety belt hook to the dispatching center module 6 through 4G/5G.

Dispatch center module 6 function: the dispatching center can intuitively display the job distribution and the job safety state information in the jurisdiction through a GIS map, automatically calculate whether the equipment is normally operated or not through the time of data transmission, and alarm and remind the equipment which cannot be normally operated, and the specific functions are as follows:

(1) The system can receive alarm data and state data sent by the handheld monitoring alarm terminal 3 and can display the alarm data and the state data intuitively through a map. After clicking the alarm information, specific positions, high-altitude operators, ground protection personnel, alarm time and the like can be checked.

(2) Historical alert information can be queried.

In this embodiment, the latch state detection sub-module 21 is selected as a photoelectric correlation (ZPT 034) module manufactured by du tang source electric share limited; the lock catch detection data processing sub-module 22 selects an NRF24 model module produced by Nordic Semiconductor company; the alarm sub-module 23 is selected as a TY-NRF24-1 model module manufactured by Du Tang Source electric Co., ltd; the wireless transmission sub-module 24 selects a TX118SA-4 wireless transmission module manufactured by ZKLLF company; the power module 25 selects button cells of cr2032 type manufactured by the company Pink; the hand-held monitoring alarm terminal 3 selects a TY-SMDA module produced by Du Tang Source electric Co., ltd; the first intercom device 4 selects an SA828 intercom manufactured by G-NiceRF company; the second intercom device 5 selects an SA828 intercom manufactured by G-NiceRF company; the dispatch center module 6 is selected as a TY-DCHMI module manufactured by Du Tang Source Electrical Co., ltd.

Example 3

The present embodiment is further described on the basis of embodiment 2, as shown in fig. 1-3, the safety belt 1 includes a rope 11, a latch hook 12 and a latch 13, the latch hook 12 is disposed at an end of the rope 11, the latch 13 is movably mounted at an opening of the latch hook 12, and the latch 13 is utilized to lock the opening of the latch hook 12, so as to prevent the safety belt 1 from falling off.

The latch state detection sub-module 21 is arranged on the latch hook 12, and the detection end of the latch state detection sub-module faces to the opening of the latch hook 12; the rope 11 is provided with a box body 14, and the lock catch detection data processing sub-module 22, the alarm sub-module 23, the wireless transmission sub-module 24 and the power module 25 are all arranged in the box body 14, and the lock catch detection data processing sub-module 22, the alarm sub-module 23, the wireless transmission sub-module 24 and the power module 25 are installed and protected by utilizing the box body 14.

The latch state detection sub-module 21 is a detector that uses laser sensing detection. The alarm sub-module 23 is an audible and visual alarm. The hand-held monitoring alarm terminal 3 is connected with the dispatching center module 6 through 4G/5G wireless communication.

For a better understanding of the present utility model, the following is a complete description of the principles of the utility model:

when an aerial worker performs aerial work, the safety belt 1 is used for aerial safety protection, and the first intercom device 4 is carried for communication with a ground worker. The ground staff holds the handheld monitoring alarm terminal 3 and monitors the aerial work personnel, carries the second intercom device 5 simultaneously and communicates with the aerial work personnel.

When an aerial worker works at high altitude, the lock catch state detection sub-module 21 detects whether an object (lock catch) exists in the hook and transmits state data to the lock catch detection data processing sub-module 22; the latch detection data processing sub-module 22 performs comprehensive analysis according to the state data to determine whether the latch hooks are locked by the latches; when the locking hook is not locked, the alarm sub-module 23 is controlled to alarm, meanwhile, the hook state and the alarm information of the safety belt are pushed to the wireless transmission sub-module 24, and the wireless transmission sub-module 24 sends the hook state and the alarm information of the safety belt to the handheld monitoring alarm terminal 3 on the ground.

The hand-held monitoring alarm terminal 3 receives the data transmitted by the wireless transmission sub-module 24 and displays the data in real time. When the high-altitude operation personnel engages in high-altitude open-air operation in severe weather such as heavy wind, rain, snow and the like, the external environment is noisy, and when the alarm information on the alarm module 2 is not detected and processed, the high-altitude operation personnel can be reminded through the first intercom device 4 and the second intercom device 5 after the ground personnel notice the alarm information.

Meanwhile, the hand-held monitoring alarm terminal 3 transmits the state of the safety belt hook and alarm information to the dispatching center module 6 through 4G/5G.

While the embodiments of the present utility model have been described in detail, the present utility model is not limited to the embodiments described above, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the present utility model, and these are intended to be included in the scope of the present utility model as defined in the appended claims.

Claims (7)

1. An overhead safety belt monitoring alarm system, comprising:

a safety belt (1) positioned at high altitude;

the detection processing alarm module (2) is arranged on the safety belt (1) and used for detecting, processing and alarming the locking state of the safety belt (1);

the handheld monitoring alarm terminal (3) is positioned on the ground, and the handheld monitoring alarm terminal (3) is in wireless communication connection with the detection processing alarm module (2);

the safety belt comprises a first intercom device (4) and a second intercom device (5), wherein the first intercom device (4) is positioned beside the safety belt (1), the second intercom device (5) is positioned beside the handheld monitoring alarm terminal (3), and the first intercom device (4) and the second intercom device (5) are in wireless communication connection;

and the dispatching center module (6) is connected with the handheld monitoring alarm terminal (3) in a wireless communication mode.

2. The overhead working safety belt monitoring alarm system according to claim 1, wherein the detection processing alarm module (2) comprises a latch state detection sub-module (21), a latch detection data processing sub-module (22), an alarm sub-module (23), a wireless transmission sub-module (24) and a power supply module (25);

the lock catch state detection sub-module (21) is located the state of the lock catch detected beside the lock catch of the safety belt (1), the lock catch detection data processing sub-module (22) is respectively in communication connection with the lock catch state detection sub-module (21), the alarm sub-module (23) and the wireless transmission sub-module (24), the wireless transmission sub-module (24) is in communication connection with the handheld monitoring alarm terminal (3), and the power module (25) is respectively connected with the lock catch state detection sub-module (21), the lock catch detection data processing sub-module (22), the alarm sub-module (23) and the wireless transmission sub-module (24).

3. The overhead working safety belt monitoring alarm system according to claim 2, wherein the safety belt (1) comprises a rope (11), a latch hook (12) and a latch (13); the lock hook (12) is arranged at the end part of the rope (11), and the lock catch (13) is movably arranged at the opening of the lock hook (12).

4. A safety belt monitoring alarm system according to claim 3, characterized in that the lock catch state detection sub-module (21) is arranged on the lock hook (12) with its detection end facing the opening of the lock hook (12); the novel lock catch detection device is characterized in that a box body (14) is arranged on the rope (11), and the lock catch detection data processing sub-module (22), the alarm sub-module (23), the wireless transmission sub-module (24) and the power supply module (25) are all arranged in the box body (14).

5. The overhead working safety belt monitoring alarm system according to claim 2, wherein the lock catch state detection sub-module (21) is a detector employing laser induction detection.

6. The overhead working safety belt monitoring alarm system according to claim 2, wherein the alarm sub-module (23) is an audible and visual alarm.

7. The overhead working safety belt monitoring alarm system according to claim 1, wherein the hand-held monitoring alarm terminal (3) is connected with the dispatching center module (6) through 4G/5G wireless communication.