CN219558529U - Intelligent safety belt for high-altitude operation - Google Patents

Abstract

The intelligent safety belt for the high-altitude operation comprises a safety belt body and a safety belt body, wherein a plurality of buckles for adjusting the length are arranged on the safety belt body, a connecting part is arranged at the rear side of the safety belt body, and the safety belt body is connected with the safety belt body through the connecting part; the safety belt body comprises a safety lock catch, an energy-absorbing buffer rope, a connecting buckle, belt body sections and a safety belt hook, wherein one end of the energy-absorbing buffer rope is detachably connected with the connecting part through the safety lock catch, the other end of the energy-absorbing buffer rope is connected with the plurality of belt body sections through the connecting buckle, the central control box is installed at one end, close to the connecting buckle, of the belt body sections, and the safety belt hook is installed at one end, far away from the connecting buckle. This high altitude construction intelligence safety belt can be through hanging knot and the hasp state of detecting the safety belt, sets up dual safety belt both ends high low state detection real-time supervision safety belt's service condition, can judge whether the safety belt is in and rocks or fall the state through judging the rocking angle and the motion acceleration of safety belt, whether there is high-tension electricity near the detectable safety operation scope etc..

Description

Intelligent safety belt for high-altitude operation

Technical Field

The utility model relates to safety of overhead operation, in particular to an intelligent safety belt for overhead operation.

Background

In recent years, safety accidents frequently occur in the field of high-altitude operation, and for high-altitude operation, a safety belt is a protective article for preventing a human body from falling, is one of important protective articles for protecting personal safety of high-altitude operation personnel, and correct use of the safety belt and state monitoring of the safety belt are important measures for preventing falling casualties of the high-altitude operation personnel on site. In the high-altitude operation, the high-altitude open-air operation is carried out in bad weather, the safety belt is not correctly worn, the safety belt is not fastened and firmly hung, the high-altitude operation is hung down, the double-hook distance is too close, and the like, so that the problems of monitoring, early warning, alarming and the like of the use state of the safety belt in the high-altitude operation become the primary problem for guaranteeing the life safety of high-altitude operation personnel.

The traditional safety belt mainly focuses on the aspects of strengthening the self strength of products and the like, the use state and the use environment of the safety belt cannot be effectively monitored, the illegal use safety belt occupies a considerable proportion in high-altitude falling accidents, along with technological development, various monitoring modules are applied to the field of high-altitude operation, most intelligent high-altitude protection products are used for improving and innovating the existing protection tools or combining single monitoring and protection tools, various monitoring devices independently operate, the operation flow is complex, the data are difficult to comprehensively use, and the best intelligent safety protection effect cannot be exerted.

Therefore, the inventor provides a novel intelligent high-altitude operation safety belt through beneficial exploration and research, can push the wearing state and the tying state of the safety belt of high-altitude operation personnel in real time, reduces the risk of high-altitude operation, and improves the protection performance and the safety of the safety belt.

Disclosure of Invention

In order to overcome the problems in the background technology, the utility model provides an intelligent safety belt for high-altitude operation, which is used for detecting the hanging buckle and locking state of the safety belt and setting the high-low state detection at the two ends of the double safety belt to monitor the use state of the safety belt in real time; judging whether the safety belt is in a shaking or falling state or not through judging the shaking angle and the movement acceleration of the safety belt; whether high-voltage electricity exists near the safe operation range or not can be detected; the voice intercom can be realized, and voice communication between the overhead operation personnel and the management personnel or other operation personnel is facilitated; the current position information of the high-altitude operation personnel can be obtained; the environmental temperature and humidity conditions of the environment where the safety belt is positioned can be detected; the safety guarantee measures can be timely and effectively reminded of the high-altitude operators. Meanwhile, when an overhead working personnel encounters an emergency, the emergency call button can be pressed to inform the manager, so that the occurrence of overhead working safety accidents can be reduced as much as possible.

The utility model adopts the technical scheme that:

the intelligent safety belt for the high-altitude operation comprises a safety belt body and a safety belt body, wherein a plurality of buckles for adjusting the length are arranged on the safety belt body, a connecting part is arranged on the rear side of the safety belt body, and the safety belt body is connected with the safety belt body through the connecting part;

the safety belt body comprises a safety lock catch, an energy-absorbing buffer rope, a connecting buckle, belt body sections and a safety belt hook, one end of the energy-absorbing buffer rope is detachably connected with the connecting part through the safety lock catch, the other end of the energy-absorbing buffer rope is connected with the plurality of belt body sections through the connecting buckle, a central control box is arranged at one end, close to the connecting buckle, of the belt body sections, and the safety belt hook is arranged at one end, far away from the connecting buckle;

the safety belt hook is provided with a fixed hanging buckle, a movable lock catch and a micro switch, the safety belt hook is matched with the fixed hanging buckle and the movable lock catch to form a hook body capable of being opened or closed, the micro switch is arranged at the contact position of the fixed hanging buckle and the movable lock catch and the contact position of the fixed hanging buckle and the safety belt hook, and the micro switch is connected with the central control box;

and the belt section is also provided with an inclination switch which is connected with the central control box.

Further, a central control circuit board and a power supply battery connected with the central control circuit board are arranged in the central control box; the central control circuit board and the power supply battery are respectively connected with the micro switch and the dip switch in a wired way.

Further, the inside line hose that is equipped with of band body section, tilt angle switch locates in the line hose that is crossed, and central control circuit board and power supply battery are through walking line and micro-gap switch and tilt angle switch wired connection in the line hose that is crossed.

Further, a controller, a Bluetooth wireless communication module, a 4G communication module, a swinging falling detection module, a temperature and humidity detection module and a GPS positioning module are arranged on the central control circuit board, and the Bluetooth wireless communication module, the 4G communication module, the swinging falling detection module, the temperature and humidity detection module and the GPS positioning module are all connected with the controller; and the controller is connected with the cloud platform through data transmission between the 4G communication module and the cloud platform.

Further, near-electric induction module is still installed to the front side of safety belt body, near-electric induction module passes through bluetooth wireless communication module and controller wireless connection.

Furthermore, an emergency call button is also arranged on the box body of the central control box, and the emergency call button is connected with the controller.

Further, a voice intercom module is also installed on the central control circuit board, and the voice intercom module is connected with the controller.

The beneficial effects of the utility model are as follows:

this high altitude construction intelligence safety belt can be through hanging knot and the hasp state of detecting the safety belt, set up dual safety belt both ends high low state and detect the service condition of real-time supervision safety belt, can judge whether the safety belt is in rocking or falling state through judging the rocking angle and the motion acceleration of safety belt, whether there is high-tension electricity near the detectable safety operation scope, can realize the pronunciation function of talkbacking, the environment humiture situation of detectable safety belt place environment can remind the high altitude construction personnel in time effectively to pay attention to the safety precaution measure, simultaneously, accessible presses emergency call button in order to inform the manager when the high altitude construction personnel runs into emergency, the emergence of high altitude construction incident can be reduced as far as possible.

Drawings

FIG. 1 is a schematic view of the front structure of a seat belt body according to the present utility model;

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

FIG. 3 is a schematic view of the structure of the seat belt body of the present utility model;

FIG. 4 is a schematic view of the structure of the safety belt hook of the present utility model;

FIG. 5 is a schematic diagram showing the connection of a central control circuit board and other electrical components in the central control box of the present utility model;

FIG. 6 is a schematic diagram of the connection of electrical components on a central control circuit board according to the present utility model;

1-a seat belt body; 2-a safety belt body, 3-a buckle, 4-a connecting part, 5-a safety buckle, 6-an energy-absorbing buffer rope, 7-a connecting buckle and 8-a belt body section; 9, a safety belt hook, 10, a central control box, 11, a fixed hanging buckle, 12, a movable lock catch and 13, a micro switch; 14-dip switch; 15-near electricity induction module, 16-emergency call button, 17-voice intercom module.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without any inventive effort, are intended to be within the scope of the utility model.

Aiming at independent operation of the traditional safety belt and monitoring equipment, the operation flow is complex, the data are difficult to comprehensively use, the best effect of intelligent safety protection can not be exerted, and the embodiment provides the intelligent safety belt for the overhead operation.

Specifically, as shown in fig. 1 to 3, the intelligent safety belt for high-altitude operation comprises a safety belt body 1 and a safety belt body 2. Be equipped with a plurality of buckles 3 that are used for adjusting length on the safety belt body 1, the rear side of safety belt body 1 is equipped with connecting portion 4, and safety belt body 2 passes through connecting portion 4 to be connected with safety belt body 1. The safety belt body 2 comprises a safety lock catch 5, an energy-absorbing buffer rope 6, a connecting buckle 7, belt body sections 8 and a safety belt hook 9, wherein one end of the energy-absorbing buffer rope 6 is detachably connected with the connecting part 4 through the safety lock catch 5, the other end of the energy-absorbing buffer rope is connected with the two belt body sections 8 through the connecting buckle 7, and the safety belt hook 9 is arranged at one end, far away from the connecting buckle 7, of the belt body sections 8. The safety belt body 1 is used for being worn by an overhead worker, and the safety belt body 2 is used for hanging the safety belt body 1 and a fixed point. As shown in fig. 4, the safety belt hook 9 is provided with a fixed hanging buckle 11 and a movable lock catch 12, and the safety belt hook 9 is matched with the fixed hanging buckle 11 and the movable lock catch 12 to form a hook body which can be opened or closed, so that hanging connection can be satisfied. The energy-absorbing buffer rope 6 is used for playing a buffering role when a falling accident occurs in high-altitude operation, so that personnel safety is ensured.

Furthermore, in order to combine the monitoring device with the safety belt, in this embodiment, an inclination switch 14 is further installed on the belt section 8, the inclination switch 14 adopts a direct ZCT215L-SQS-A1B-1907 type inclination switch, meanwhile, a central control box 10 is installed at one end of the belt section 8 near the connecting buckle 7, a micro switch 13 is further installed on the safety belt hook 9, and the micro switch 13 adopts a positive-terminal (CHNT) YBLXW-6/11CL type micro switch; the micro switch 13 is arranged at the contact position of the fixed hanging buckle 11 and the movable lock catch 12 and the contact position of the fixed hanging buckle 11 and the safety belt hook 9, and the micro switch 13 is connected with the central control box 10; the tilt switch 14 is connected to the central control box 10.

The purpose of the tilt switch 14 is to: the rope hanging state detection is realized through the inclination angle of the inclination switch 14, so that the central control box 10 can judge whether the overhead working personnel have low-hanging high-use behaviors or not. The purpose of the microswitch 13 is to: when the fixed buckle 11 and the movable buckle 12 are in the closed state, the micro switch 13 is in the conducting state, and the central control box 10 determines that the fixed buckle 11 and the movable buckle 12 of the safety belt hanging rope are in the closed state through the conducting state.

In addition, the front side of the safety belt body 1 is also provided with a near-electric induction module 15, the near-electric induction module 15 adopts a near-electric induction module of SUN brand 10KV 50HZ, and the near-electric induction module 15 can detect high-voltage objects within a set range.

Further, in order to realize the above-mentioned monitoring function, as shown in fig. 5 and 6, a central control circuit board and a power supply battery connected with the central control circuit board are disposed in the central control box 10 in this embodiment; the central control circuit board and the power supply battery are respectively connected with the micro switch 13 and the dip switch 14 in a wired way. The central control circuit board is provided with a controller, a Bluetooth wireless communication module, a 4G communication module, a swing falling detection module, a temperature and humidity detection module and a GPS positioning module; bluetooth wireless communication module, 4G communication module, swing detection module, temperature and humidity detection module and GPS orientation module all are connected with the controller.

The controller adopts a micro-core ATSAMA5D36A-CU type controller, and the controller has the functions of receiving monitoring signals of all modules, issuing control instructions and transmitting monitoring data.

The Bluetooth wireless communication module adopts an N/A HC-06 type Bluetooth wireless communication module, and the Bluetooth wireless communication module is used for communication between the controller and the near-electricity induction module 15; when the distance between the high-voltage charged object and the high-voltage charged object is within a set range, the near-electric induction module 15 induces a high-voltage signal and transmits the signal to the controller through the Bluetooth wireless communication module, and the controller carries out subsequent alarm processing.

The 4G communication module adopts an AMKN 4G DTU wireless communication module, and the 4G communication module can cooperate between the controller and the cloud platform to carry out data transmission, so that all monitoring data can be transmitted to the cloud platform in real time.

The swing falling detection module adopts a Michael sensing ML720-MEMS three-axis electronic gyroscope, the three-axis electronic gyroscope judges whether the safety belt is in a swing falling state or not through detecting acceleration and inclination angle, and when the safety belt is in the swing falling state, a detection signal is sent to the controller.

The temperature and humidity detection module adopts a French Humirel temperature and humidity detection module, and can detect temperature and humidity data of an aerial working environment in real time and transmit the temperature and humidity data to the controller.

The GPS positioning module adopts a Beitian ZED-F9PK4 type RTK GNSS module, can position the current position of the overhead working personnel, and transmits the current position to the cloud platform in real time through the controller and the 4G communication module.

In addition, an emergency call button 16 is also installed on the box body of the central control box 10, and the emergency call button 16 is connected with the controller; the central control circuit board is also provided with a voice intercom module 17, and the voice intercom module 17 is connected with the controller. When the emergency call button 16 is used for enabling the controller to inform the manager through the 4G communication module when the high-altitude operation personnel encounters an emergency, the occurrence of high-altitude operation safety accidents can be reduced as much as possible. The voice intercom module 17 adopts a Shenzhencao Yi Lian KYL-368 voice intercom module, communication between the overhead working personnel and the overhead working personnel can be realized through the voice intercom module 17, and meanwhile, the central control box 10 alarms when the corresponding problems are detected by the micro switch 13, the dip switch 14 and the swing falling detection module by utilizing the loudspeaker of the voice intercom module 17.

To sum up, this high altitude construction intelligence safety belt can be through hanging knot and the hasp state of detecting the safety belt, set up dual safety belt both ends high low state and detect the service condition of real-time supervision safety belt, can judge whether the safety belt is in rocking or falling state through judging the rocking angle and the motion acceleration of safety belt, whether there is high-tension electricity near the detectable safety operation scope, can realize the pronunciation function of talkbacking, the environment humiture situation of detectable safety belt place environment, can remind the high altitude construction personnel in time effectively to pay attention to the safety guarantee measure, simultaneously, the emergence of high altitude construction incident can be reduced as far as possible through pressing emergency call button 16 with the notification manager when the high altitude construction personnel runs into emergency.

The preferred technical scheme of this embodiment is applied to avoid the influence of the central control circuit board and the connection lines of the power supply battery, the micro switch 13 and the tilt switch 14 on the users of the intelligent safety belt for high-altitude operation. Therefore, a wire passing hose can be arranged in the belt body section 8, the dip switch 14 is arranged in the wire passing hose, and the central control circuit board and the power supply battery are connected with the micro switch 13 and the dip switch 14 in a wired manner through wires in the wire passing hose.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (7)

1. An intelligent safety belt for high-altitude operation, which is characterized in that: the intelligent safety belt for the high-altitude operation comprises a safety belt body and a safety belt body, wherein a plurality of buckles for adjusting the length are arranged on the safety belt body, a connecting part is arranged at the rear side of the safety belt body, and the safety belt body is connected with the safety belt body through the connecting part;

the safety belt body comprises a safety lock catch, an energy-absorbing buffer rope, a connecting buckle, belt body sections and a safety belt hook, one end of the energy-absorbing buffer rope is detachably connected with the connecting part through the safety lock catch, the other end of the energy-absorbing buffer rope is connected with the plurality of belt body sections through the connecting buckle, a central control box is arranged at one end, close to the connecting buckle, of the belt body sections, and the safety belt hook is arranged at one end, far away from the connecting buckle;

the safety belt hook is provided with a fixed hanging buckle, a movable lock catch and a micro switch, the safety belt hook is matched with the fixed hanging buckle and the movable lock catch to form a hook body capable of being opened or closed, the micro switch is arranged at the contact position of the fixed hanging buckle and the movable lock catch and the contact position of the fixed hanging buckle and the safety belt hook, and the micro switch is connected with the central control box;

and the belt section is also provided with an inclination switch which is connected with the central control box.

2. The aerial work intelligent safety belt according to claim 1, wherein: a central control circuit board and a power supply battery connected with the central control circuit board are arranged in the central control box; the central control circuit board and the power supply battery are respectively connected with the micro switch and the dip switch in a wired way.

3. The aerial work intelligent safety belt according to claim 2, wherein: the belt body section is internally provided with a wire passing hose, the tilt angle switch is arranged in the wire passing hose, and the central control circuit board and the power supply battery are connected with the micro switch and the tilt angle switch in a wired manner through wires in the wire passing hose.

4. The aerial work intelligent safety belt according to claim 2, wherein: the central control circuit board is provided with a controller, a Bluetooth wireless communication module, a 4G communication module, a swing falling detection module, a temperature and humidity detection module and a GPS positioning module, wherein the Bluetooth wireless communication module, the 4G communication module, the swing falling detection module, the temperature and humidity detection module and the GPS positioning module are all connected with the controller; and the controller is connected with the cloud platform through data transmission between the 4G communication module and the cloud platform.

5. The aerial work intelligent safety belt of claim 4, wherein: the front side of the safety belt body is also provided with a near-electricity induction module which is in wireless connection with the controller through a Bluetooth wireless communication module.

6. The aerial work intelligent safety belt of claim 4, wherein: an emergency call button is also arranged on the box body of the central control box, and the emergency call button is connected with the controller.

7. The aerial work intelligent safety belt of claim 4, wherein: and the central control circuit board is also provided with a voice intercom module, and the voice intercom module is connected with the controller.