CN112827090A - High altitude construction safety device based on 5G - Google Patents

Abstract

The invention discloses a 5G-based aerial work safety device which comprises a host control box and an intelligent safety belt, wherein physical signs of a user and environment videos of the user are collected into the host control box through the intelligent safety belt and are sent to a server through the host control box for real-time processing, so that the user of the intelligent safety belt can be monitored and managed in real time, and the safety of the user of the intelligent safety belt is guaranteed. The device includes host computer control box and intelligent safety belt, through set up little electric on-off switch, pressure sensor and host computer control box on intelligent safety belt, transmits the server to the surrounding environment situation that the user that will wear intelligent safety belt is located to do benefit to and carry out safety control to the user, monitor user's operation action and job site high altitude construction's risk early warning, in order to stop the potential safety hazard.

Description

High altitude construction safety device based on 5G

Technical Field

The invention belongs to the technical field of intelligent equipment for building construction safety guarantee, and particularly relates to a 5G-based aerial work safety device.

Background

The safety belt is a personal protection article for preventing falling casualty accidents of high-altitude operation workers and is praised as a life-saving belt by the majority of construction workers. According to different use conditions, the safety belt can be divided into a fence operation safety belt, a region limiting safety belt and a falling suspension safety belt. According to the style division, the common safety belts used in construction sites are half-body type (three-point type) and full-body type (five-point type). Although the majority of high-altitude operators wear safety belts, the accidents that the construction personnel fall from high altitude still occur.

The following accident causes are found by combining accident teaching and investigation: firstly, when a user fixes the safety belt on the body of the user in the use process of the safety belt, on one hand, the wearing mode is incorrect, and on the other hand, the safety belt does not play a good role in safety anti-falling protection because the use is not standard; secondly, the safety belt is usually fixed by adopting a safety buckle connection mode, when the safety buckle is buckled, the problem of untight buckling may occur, or in the using process, high-altitude operators can freely open and hook due to frequent change of construction positions and cannot hang well conveniently, so that the personal safety of the operators is endangered; thirdly, wearing the existing safety belt, the personal physical state of the operator using the safety belt cannot be known in real time, and potential safety hazards are easily caused by the physical health condition of the operator; fourthly, the construction personnel can not finish self rescue when falling and being injured by accident, and can not be found by external personnel easily or can not realize emergency alarm, thereby causing further casualty conditions; fifthly, the safety belt product quality cannot be detected in real time or in stages, whether the safety belt can meet the use stress requirement or not can not be determined only by subjective observation of a person, and high-altitude operation personnel fall and property loss are easily caused by quality problems.

Aiming at the problems, the technology improvement of the traditional safety belt is carried out by utilizing a scientific and technological means, and the reduction of the safety accident rate is urgent. By means of higher technical means and efficient management measures, the high-altitude safety construction can be prevented in advance, controlled in the process and traceable afterwards, and the method is the next key research and development direction.

Disclosure of Invention

The invention provides a 5G-based aerial work safety device, which can monitor, early warn, manage the use state of a safety belt and collect work data by combining the existing Internet of things technology so as to solve the problems in the background technology.

The technical scheme of the invention is as follows: the utility model provides a high altitude construction safety device based on 5G, includes host computer control box and intelligent safety belt, collects user's sign and affiliated environment video through intelligent safety belt in the host computer control box to send the server through the host computer control box and carry out real-time processing, so that carry out real time monitoring management to the user of intelligent safety belt, with guarantee intelligent safety belt user's safety.

Further: the intelligent safety belt comprises a vest, a safety rope and a hook; the safety rope is connected to the vest, and the hook is connected to the safety rope; the vest comprises shoulder straps, a chest strap, a waist strap and leg straps, wherein the chest strap and the waist strap are detachably closed through buckles, micro-electricity closing switches are arranged in the buckles, and the micro-electricity closing switches are used for detecting whether the buckles are connected in place or not; a camera is arranged on the front side part of the shoulder strap close to the left chest of the human body; all little electric on-off and the camera all passes through data line access host computer control box, carries out data information through host computer control box and gathers and send to the server.

Further: the host control box comprises a control mainboard, a voice broadcaster and a detachable battery power supply; the front side of the host control box is provided with a power indicator light and a safety belt networking state indicator light; the lower part of host computer control box is provided with a key SOS switch and voice broadcast accuse, and host computer control box can dismantle the buckle department that is connected to the pectoral girdle.

Further: the power-on part of the hook is also provided with a micro-electricity closing switch, a pressure sensor is arranged at the power-on part of the hook, and the micro-electricity closing switch and the pressure sensor which are arranged on the hook are connected into a host control box through data lines.

Further: the safety rope is provided with an MEMS inclination angle sensor, and the state of the safety rope is detected constantly by the MEMS inclination angle sensor.

Further: the control mainboard is integrated with a central processing unit, a 5G communication module, a positioning module, a storage module, a power interface and an extensible data interface; the camera, the inclination angle sensor, the pressure sensor and all the micro-electricity closed switches are connected to the extensible data interface through data lines, and collected data information is transmitted into the control main board through the extensible data interface.

Further: wire grooves for embedding data wires are reserved in the vest, the safety rope and the hook.

Has the advantages that: this scheme provides a high altitude construction safety device based on 5G, the device includes host computer control box and intelligent safety belt, through set up little electric on the intelligent safety belt, pressure sensor and host computer control box, the surrounding environment situation that the user that will wear intelligent safety belt locates transmits the server to do benefit to and carry out safety control to the user, monitor user's operation action and job site high altitude construction's risk early warning, in order to stop the potential safety hazard.

Through the innovative design, increase on the couple and set up pressure sensor to the user state of accurate judgement couple, and implement through this state information and monitor the couple and be enough the hook and target in place, whether the user has carried out the couple protection according to the operation standard, also guaranteed user's safety in utilization in the lump when supervising the user.

The host computer control box in this scheme is special for intelligent safety belt and makes, has multiple functional, advantage that the reliability is high. The host computer control intelligence and the intelligent safety belt must be matched for use, and the comprehensive management of high-altitude operation personnel is realized by one defect, so that the safety of high-altitude operation is greatly ensured.

Drawings

Fig. 1 is a schematic view of the overall structure of the intelligent safety belt in the invention;

fig. 2 is a schematic structural view of a pressure sensor mounted on a hook according to the present invention.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in figures 1 and 2, the invention discloses a 5G-based aerial work safety device, which comprises a host control box 11 and an intelligent safety belt.

The intelligent safety belt comprises a vest, a safety rope 7 and a hook 8. The safety rope 7 is connected on the vest, and the hook 8 is connected on the safety rope 7. The undershirt includes baldric 1, pectoral girdle 2, waistband 3 and leg strap 4, and pectoral girdle 2 and waistband 3 all carry out detachable closure through buckle 10, be equipped with little electric closure switch in the buckle 10, utilize little electric closure switch to detect whether buckle 10 blocks and connect and target in place, are similar to the safety belt jack detection on the current car.

The front part of the shoulder strap 1 close to the left chest of the human body is also provided with a camera 5. When the vest is worn by a human body, the environment in front of the human body is monitored and shot in real time by the camera 5.

The MEMS inclination angle sensor 6 is arranged on the safety rope 7, the state of the safety rope 7 is detected constantly by the MEMS inclination angle sensor 6, if the safety rope 7 is in a horizontal state, a vertical state or an inclined state after being stretched straightly and the safety rope 7 is in a complete state when not being stretched straightly, the inclination angle of the safety rope 7 can be monitored in real time by the MEMS inclination angle sensor 6.

A micro-electricity closing switch is also arranged at the opening and closing position of the hook 8, and a pressure sensor 9 is arranged at the acting position of the hook 8. The force application part of the hook 8 indicates the contact part of the hook 8 and a steel pipe or other fixed objects when the hook 8 is hooked on the steel pipe or other fixed objects, and the pressure sensor 9 is used for monitoring the contact pressure between the steel pipe (or other fixed objects) and the hook 8 in real time.

The buckle 10 of the chest belt 2 is detachably connected with a host control box 11. Host computer control box 11 is including control mainboard, voice broadcast ware and removable battery power. The front side of the host control box 11 is provided with a power indicator light and a safety belt networking state indicator light; the lower part of the host control box 11 is provided with a key SOS distress switch and voice broadcast control.

The control mainboard is integrated with a central processing unit, a 5G communication module, a positioning module, a storage module, a power interface and an extensible data interface. The camera 5, the MEMS tilt sensor 6, the pressure sensor 9 and all the micro-electrical closed switches mentioned above are all connected to the extensible data interface through data lines, and transmit the acquired data information to the control motherboard through the extensible data interface, and the collected data information is processed by the host control box 11. Wire grooves are reserved in the vest, the safety rope 7 and the hook 8, and the data lines are arranged in the wire grooves to avoid disordered connection.

It should be noted that: according to the scheme, the host control box sends the data information to the server through the 5G communication module, the server can be a cloud server or a self-built server, and a corresponding software system or an intelligent safety management platform runs on the server.

The intelligent safety management platform runs on the server host, and the 5G wireless data receiving module is installed on the server host. The server host accesses the construction management real-name system to acquire the basic information of constructors. The server host can adopt a cloud server. The host control box 11 sends the collected data information to the 5G wireless data receiving module through the 5G network, the server host analyzes and processes the received data information, and the server is used for monitoring, early warning, monitoring the operation state and the like of an operator wearing the intelligent safety belt.

The above description is only exemplary of the present invention and should not be taken as limiting, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a high altitude construction safety device based on 5G which characterized in that: the intelligent safety belt monitoring system comprises a host control box (11) and an intelligent safety belt, wherein the use state and the surrounding environment video of a user are collected into the host control box (11) through the intelligent safety belt and are sent to a server through the host control box (11) to be processed in real time, so that the user of the intelligent safety belt can be monitored and managed in real time.

2. A 5G-based aerial work safety device as defined in claim 1, wherein: the intelligent safety belt comprises a vest, a safety rope (7) and a hook (8); the safety rope (7) is connected to the vest, and the hook (8) is connected to the safety rope (7); the vest comprises shoulder straps (1), a chest strap (2), a waist strap (3) and leg straps (4), wherein the chest strap (2) and the waist strap (3) are detachably closed through buckles (10), micro-electricity closing switches are arranged in the buckles, and whether the buckles are connected in place or not is detected by the micro-electricity closing switches; a camera (5) is arranged on the front side part of the shoulder strap (1) close to the left chest of the human body; all little electric on-off and camera (5) all insert host computer control box (11) through the data line, carry out data information through host computer control box (11) and gather and send to the server.

3. A 5G-based aerial work safety device as defined in claim 2, wherein: the host control box (11) comprises a control mainboard, a voice broadcaster and a detachable battery power supply; the front side of the host control box (11) is provided with a power indicator light and a safety belt networking state indicator light; the lower part of host computer control box (11) is provided with a key SOS switch and voice broadcast accuse, and buckle (10) department that is connected to pectoral girdle (2) can be dismantled in host computer control box (11).

4. A 5G-based aerial work safety device as defined in claim 3, wherein: the power-on and power-off hook is characterized in that a micro-electricity closing switch is also arranged at the opening and closing position of the hook (8), a pressure sensor (9) is arranged at the force application position of the hook (8), and the micro-electricity closing switch and the pressure sensor (9) arranged on the hook (8) are connected into a host control box (11) through data lines.

5. A5G-based aerial work safety device as defined in claim 4, wherein: the safety rope (7) is provided with an MEMS (micro electro mechanical system) inclination angle sensor (6), and the state of the safety rope (7) is detected by the MEMS inclination angle sensor (6) at any time.

6. A5G-based aerial work safety device as defined in claim 5, wherein: the control mainboard is integrated with a central processing unit, a 5G communication module, a positioning module, a storage module, a power interface and an extensible data interface; the camera (5), the MEMS tilt angle sensor (6), the pressure sensor (9) and all the micro-electric closed switches are connected to the extensible data interface through data lines, and collected data information is transmitted into the control mainboard through the extensible data interface.

7. A 5G-based aerial work safety device as defined in claim 1, wherein: wire grooves for embedding data wires are reserved in the vest, the safety rope (7) and the hook (8).

Images