CN215642791U - Safety production risk remote control system - Google Patents

Abstract

The utility model discloses a safety production risk remote control system which comprises an Internet of things server, security equipment and an intelligent terminal, wherein the security equipment comprises an intelligent safety helmet and a distribution control ball, the distribution control ball is arranged at a high-altitude operation point and used for monitoring whether an operator correctly wears a safety belt, and a judging unit used for judging whether the operator correctly wears the safety helmet is arranged on the intelligent safety helmet; the control ball arrangement server, the judgment unit and the intelligent terminal are respectively in signal connection with the Internet of things server, the Internet of things server is used for acquiring and storing monitoring information of the control ball arrangement server and judgment information of the judgment unit, and the intelligent terminal is used for acquiring and checking the monitoring information and the judgment information stored in the Internet of things server. The safety helmet monitoring system can timely and comprehensively monitor and supervise unsafe behaviors of improperly wearing safety belts in high-altitude operation and correctly wearing safety helmets not according to safety regulations, thereby reducing safety risks and safety accidents.

Description

Remote control system for safety production risk

Technical Field

The utility model belongs to the field of safety protection equipment, and particularly relates to a safety production risk remote control system.

Background

The power grid operation has the characteristics of large scale, one-time use, long period, complex process and the like, so that a plurality of uncertain factors exist in an operation site, and the unsafe state of objects and the unsafe behavior of people are mainly focused. The unsafe behaviors of people in the power grid operation field mainly comprise behaviors that operators do not wear safety helmets (ineffective wear caused by not wearing or fastening chin straps) according to safety requirements or do not wear safety belts according to the safety requirements in high-altitude operation, and the unsafe behaviors are the most main factors causing head collision injury accidents and serious personal accidents caused by high-altitude falling. The majority of unsafe behaviors of people are due to insufficient subjective safety consciousness, the people do not operate according to safety regulations for the purpose of saving trouble or for comfort, for example, operators feel that the safety helmet is not well worn and do not wear when the operators wear the safety helmet in hot and humid summer, or feel that the head of the safety helmet is not worn and do not wear the safety helmet, for example, when many operators consider that an operation point two or three meters high is not too high, a safety belt is not needed to wear (actually, safety regulations require that the height of falling exceeds 2 meters belongs to high-altitude operation), or when the operators need to move positions for many times during high-altitude operation, and the operators need to replace safety belt hanging points for many times, the operators are too cumbersome to wear the safety belt, and the like. The unsafe state of the object mainly means that some equipment in the working environment is in an unsafe working state, such as a safety cap, a safety belt is expired or broken, and the like. In addition, the operation site also comprises other unsafe factors, such as safety accidents of collision or electric shock and the like caused by the fact that the off-site operators freely enter and exit the operation site due to improper management.

The traditional supervision mode mainly depends on the field inspection of security personnel, and illegal personnel are processed afterwards in an education criticizing or fine mode, so that a warning effect is formed. Especially, with the continuous promotion of new capital construction in recent years, the safety supervision pressure faced by power grid construction and power production is continuously increased, firstly, the company is in a large construction stage, high-risk operation is still numerous, and the safety production organization management faces a severe examination; secondly, the number of production and maintenance operations is high, the difficulty of field safety control is high, and the defects that the traditional safety risk is low in efficiency by depending on experience recognition are gradually enlarged.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a remote safety production risk management and control system, which can effectively solve the problem that safety risks are not found timely or comprehensively in a traditional safety production supervision mode.

In order to solve the technical problems, the utility model adopts the following technical scheme: the safety production risk remote control system comprises an Internet of things server, safety protection equipment and an intelligent terminal, wherein the safety protection equipment comprises an intelligent safety helmet and a distribution control ball, the distribution control ball is installed at a high-altitude operation point and used for monitoring whether an operator correctly wears a safety belt, and a judging unit used for judging whether the operator correctly wears the safety helmet is arranged on the intelligent safety helmet; the intelligent terminal is used for acquiring and checking the monitoring information and the judging information stored in the Internet of things server.

Preferably, the intelligent safety helmet comprises a mandibular belt, the determination unit comprises a controller and a tension sensor arranged on the mandibular belt, the tension sensor is used for monitoring a tension value applied to the mandibular belt and transmitting the tension value to the controller, a tension threshold value is preset in the controller, and when the tension value is smaller than the tension threshold value, the controller determines that the wearer does not correctly wear the safety helmet. Because the mandible belt needs to be tightened when the safety helmet is correctly worn so as to ensure the stability of the safety helmet, the mandible belt is detected by the tension sensor when the safety helmet is correctly worn, and a certain tension value is obtained.

Preferably, a lower jaw support is arranged at the lower end of the lower jaw belt, the determination unit further comprises a pressure sensor arranged on the lower jaw support, the pressure sensor is used for detecting a pressure value applied to the lower jaw support and transmitting the pressure value to the controller, a pressure threshold value is preset in the controller, and when the pressure value is smaller than the pressure threshold value, the controller determines that the wearer does not wear the safety helmet correctly. When the safety helmet is worn correctly, the jaw support is abutted against the chin and has a certain acting force on the chin, and whether the safety helmet is worn correctly by an operator can be judged by setting the pressure sensor and the preset pressure threshold value through comparison.

Preferably, the judging unit further comprises a communication module, and the controller is in signal connection with the internet of things server through the communication module. The communication module is arranged to realize signal connection between the controller and the server of the Internet of things, namely signal connection between the judging unit and the server of the Internet of things.

Preferably, the intelligent safety helmet is provided with a buzzer, the buzzer is connected with the controller, and when the controller judges that the safety helmet is not worn correctly by the wearer, the buzzer is used for giving an alarm to the wearer. Therefore, the intelligent safety helmet can give an alarm to the operator at the first time to remind the operator to correctly wear the safety helmet without waiting for the safety helmet to remind, so that the time of being in an unsafe state is shortened, and the probability of safety accidents is reduced.

Preferably, the intelligent terminal comprises a display screen and/or a computer and/or a smart phone. The display screen or the computer is convenient for monitoring personnel or security personnel of the control center to check, and the smart phone is convenient to carry and is convenient to check at any time.

Preferably, the security protection equipment still includes intelligent floodgate machine, the intelligent floodgate machine is equipped with the image recognition unit, the image recognition unit includes image memory, treater and camera, the camera is installed and is used for shooing the photo to the staff who advances the floodgate machine on the intelligent floodgate machine, the internal prestore of image memory has staff's identity information, the treater is connected with camera and image memory respectively, the treater is used for judging whether unanimous with the identity information of prestore, when judging unanimously, the treater control intelligence floodgate machine is opened. The intelligent gate is arranged to recognize the faces of the operators who enter and exit the operation site, the operators with pre-registered information can enter and exit the operation site, and the non-operators who are not allowed can not enter and exit, so that the risk of accidents caused by the fact that the non-operators enter and exit the site is reduced.

Preferably, the image memory is in signal connection with the internet of things server, the internet of things server writes and stores the identity information of the operating personnel through the intelligent terminal, and the image memory acquires and stores the identity information of the operating personnel through the internet of things server. Therefore, the information of the operating personnel can be written in through the intelligent terminal, and the personal information of the operating personnel can be increased and decreased conveniently under the condition that the operating personnel is newly added or leaves the job, so that the management is facilitated.

Compared with the prior art, the utility model has the following beneficial effects: whether the intelligent safety helmet is correctly worn or not is judged by setting the distribution control ball to monitor the high-altitude operation point and setting the judging unit, the monitoring information and the judging information are acquired through the Internet of things server, and then the monitoring information and the judging information can be checked through the intelligent terminal, so that the current safety monitoring mode depending on a security worker to perform field inspection is changed. The safety monitoring of the whole operation field can be realized through the intelligent terminal by a small number of safety personnel, the unsafe behaviors of the operation personnel can be found in time, and meanwhile, omission is avoided. And because all monitoring information and judge that the information storage is in thing networking server, be convenient for retrieve at any time and look over, can effectively reduce the condition of tearing the skin and appear, be favorable to the fact affirmation, be convenient for going on of safety control.

Drawings

Fig. 1 is a schematic diagram of a safety production risk remote management and control system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an intelligent helmet in a first embodiment;

fig. 3 is a schematic structural diagram of an intelligent safety helmet in the second embodiment;

fig. 4 is a schematic diagram of an embodiment of the third embodiment in which an intelligent gate is applied.

Wherein: 1. the intelligent safety helmet comprises an Internet of things server, 2. an intelligent safety helmet, 20. a helmet shell, 21. a mandibular belt, 22. a mandibular support, 23. a tension sensor, 24. a pressure sensor, 25. a buzzer, 3. a cloth control ball, 4. an intelligent terminal, 5. an intelligent gate, 6. an image recognition unit and 60. a camera.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the terms "mounted," "connected," "fixed," and the like are to be construed broadly and may, for example, be fixedly connected or detachably connected or integrated; may be mechanically coupled, may be electrically coupled or may be in communication with each other; may be directly connected or indirectly connected through an intermediate, unless otherwise specifically limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows: as shown in fig. 1, the remote safety production risk management and control system provided by this embodiment includes an internet of things server 1, a security device and an intelligent terminal 4, where the security device includes an intelligent helmet 2 and a distribution control ball 3, the distribution control ball 3 is installed at a high-altitude operation point position of an operation site, the distribution control ball 3 is used to monitor whether an operator correctly wears a safety belt, and the intelligent helmet 2 is provided with a determination unit for determining whether the operator correctly wears the safety helmet; cloth accuse ball 3, judge unit and intelligent terminal 4 respectively with thing networking server 1 signal connection, this thing networking server 1 can adopt cloud ware, thing networking server 1 is used for acquireing and stores the monitoring information of cloth accuse ball 3 and the judgement information of judging the unit, intelligent terminal 4 is used for acquireing and looking over the monitoring information of storage in thing networking server 1 and judges the information, intelligent terminal 4 includes display screen and/or computer and/or smart mobile phone in this embodiment. The display screen or the computer is convenient for monitoring personnel or security personnel of the control center to check, and the smart phone is convenient to carry and is convenient to check at any time. Whether the safety helmet is correctly worn or not is judged by setting the distribution control ball 3 to monitor a high-altitude operation point and setting the judging unit, the monitoring information and the judging information are acquired through the Internet of things server 1, and then the monitoring information and the judging information can be checked through the intelligent terminal 4, so that the current safety monitoring mode depending on a security officer to perform field inspection is changed. The safety monitoring of the whole operation field can be realized through the intelligent terminal 4 by a small number of safety personnel, the unsafe behaviors of the operation personnel can be found in time, meanwhile, omission is avoided, the safety risk is effectively reduced, and the occurrence of safety accidents is reduced. And because all monitoring information and judge that the information is stored in thing networking server 1, be convenient for retrieve at any time and look over, can effectively reduce the condition of tearing the skin and appear, be favorable to the fact affirmation, be convenient for going on of safety control.

As shown in fig. 2, the intelligent safety helmet 2 in this embodiment includes a helmet shell 20, chin straps 21 fixedly connected to both sides of the helmet shell 20, and chin rest 22 fixedly connected to the lower end of the chin straps 21, when correctly wearing, the helmet shell 20 is worn on the head, then the chin straps 21 are tightened to slightly press the helmet shell 20 on the head, and meanwhile, the chin rest 22 abuts against the chin to assist in fixing, and in combination with a manner of correctly wearing the safety helmet, the state of the chin straps 21 when wearing is used as a criterion for correctly wearing. Specifically, the determination unit in this embodiment includes a controller and a tension sensor 23 disposed on the mandibular belt 21, the tension sensor 23 is configured to monitor a tension value applied to the mandibular belt 21 and transmit the tension value to the controller, a tension threshold is preset in the controller, and when the tension value is smaller than the tension threshold, the controller determines that the wearer does not correctly wear the crash helmet. Because jaw belt 21 need tighten up in order to guarantee the stability of safety helmet when correctly wearing the safety helmet, consequently correctly wearing safety helmet through force sensor 23 to jaw belt 21 detect have certain pulling force value, through setting up force sensor 23 and setting up the pulling force threshold value in advance, can judge whether the operation personnel correctly wears the safety helmet through the comparison. The judging unit further comprises a communication module in the embodiment, and the controller is in signal connection with the internet of things server 1 through the communication module. The communication module is arranged to realize signal connection between the controller and the internet of things server 1, namely, signal connection between the judging unit and the internet of things server 1.

In order to reduce the time in the unsafe state and reduce the probability of safety accidents, in the embodiment, a buzzer 25 is further installed on the intelligent safety helmet 2, the buzzer 25 is connected with the controller, and when the controller determines that the wearer does not correctly wear the safety helmet, the buzzer 25 is used for giving an alarm to the wearer. Therefore, the intelligent safety helmet 2 can give an alarm to the operator at the first time to remind the operator to correctly wear the safety helmet without waiting for the safety helmet to remind the operator.

Example two: the present embodiment also provides a remote safety production risk management and control system, as shown in fig. 3, the present embodiment is different from the above-mentioned embodiments in that a pressure sensor 24 is further provided on the mandible support 22, the pressure sensor 24 also belongs to a component of the determination unit, the pressure sensor 24 is used for detecting a pressure value received by the mandible support 22 and transmitting the pressure value to the controller, a pressure threshold value is preset in the controller, and when the pressure value is smaller than the pressure threshold value, the controller determines that the safety helmet is not correctly worn by the wearer. When the safety helmet is worn correctly, the jaw support 22 abuts against the chin and has a certain acting force on the chin, and whether the safety helmet is worn correctly by an operator can be judged by setting the pressure sensor 24 and a preset pressure threshold value through comparison.

Based on the above distinguishing technical features, the intelligent safety helmet 2 in the safety production risk remote management and control system provided by the embodiment is added with a judgment dimension, so that the judgment can be more accurate and rapid.

Example three: the embodiment also provides a remote control system for safety production risks, and as shown in fig. 4, the embodiment is different from the above embodiment in that the security device in the embodiment further includes an intelligent gate 5, the intelligent gate 5 is provided with an image recognition unit 6, specifically, the image recognition unit 6 includes an image memory, a processor and a camera 60, the camera 60 is installed on the intelligent gate 5 and used for taking photos of operators entering and exiting the gate, the image memory stores identity information of the operators in advance, the processor is connected with the camera 60 and the image memory respectively, the processor is used for judging whether the photos are consistent with the pre-stored identity information, and when the photos are consistent with the pre-stored identity information, the processor controls the intelligent gate 5 to open.

Based on the above distinguishing technical features, the remote control system for the safety production risk provided by this embodiment performs face recognition on the operating personnel who pass in and out of the operation site by setting the intelligent gate 5, and the operating personnel who have pre-registered information can pass in and out of the operation site, and the non-operating personnel who are not allowed can not pass in and out, so that the risk of unexpected safety accidents caused by passing in and out of the site by the non-operating personnel is reduced.

Further, the image memory is in signal connection with the internet of things server 1, the internet of things server 1 writes and stores the identity information of the operating personnel through the intelligent terminal 4, and the image memory acquires and stores the identity information of the operating personnel through the internet of things server 1. Therefore, the information of the operators can be written in through the intelligent terminal 4, and the personal information of the operators can be increased and decreased conveniently under the condition that the operators are added newly or leave the jobs, so that the management is facilitated.

The above are only specific embodiments of the present invention, but the technical features of the present invention are not limited thereto, and any changes or modifications within the scope of the present invention by those skilled in the art are covered by the present invention.

Claims (8)

1. A remote management and control system for safety production risks, characterized in that: it comprises an Internet of Things server (1), security equipment and an intelligent terminal (4), and the security equipment comprises a smart helmet (2) and a control ball (3), and the The control ball (3) is installed at a high-altitude operation point, and the control ball (3) is used to monitor whether the operator is wearing the safety belt correctly, and the smart safety helmet (2) is provided with a judgment for determining whether the operator is wearing the safety helmet correctly. unit; The deployment ball (3), the determination unit and the intelligent terminal (4) are respectively connected with the Internet of Things server (1) by signal, and the Internet of Things server (1) is used for acquiring and storing the monitoring information and judgment of the deployment and control ball (3). The determination information of the unit, the intelligent terminal (4) is used to acquire and view the monitoring information and the determination information stored in the Internet of Things server (1). 2. The safe production risk remote management and control system according to claim 1, characterized in that: the smart safety helmet (2) comprises a chin strap (21), and the determination unit comprises a controller and a chin strap (21) disposed on the chin strap (21). The tension sensor (23) on the upper jaw is used to monitor the tension value of the mandibular belt (21) and transmit the tension value to the controller. When the tension value is less than the tension threshold, the controller determines that the wearer is not wearing the helmet correctly. 3. The safety production risk remote control system according to claim 2, characterized in that: the lower end of the mandibular belt (21) is provided with a mandibular rest (22), and the determination unit further comprises a mandibular rest (22) disposed on the mandibular rest (22). a pressure sensor (24), the pressure sensor (24) is used to detect the pressure value received by the chin rest (22) and transmit the pressure value to the controller. When the value is less than the pressure threshold, the controller determines that the wearer is not properly wearing the helmet. 4. The safe production risk remote management and control system according to any one of claims 2 or 3, wherein the determination unit further comprises a communication module, and the controller communicates with the Internet of Things server (1) through the communication module. connect. 5. The safe production risk remote control system according to any one of claims 2 or 3, characterized in that: a buzzer (25) is installed on the smart safety helmet (2), and the buzzer ( 25) Connected with the controller, when the controller determines that the wearer is not wearing the helmet correctly, the buzzer (25) is used to issue an alarm to the wearer. 6. The remote management and control system for safety production risks according to claim 1, wherein the smart terminal (4) comprises a display screen and/or a computer and/or a smart phone. 7. The safety production risk remote management and control system according to claim 1, wherein the security equipment further comprises an intelligent gate (5), and the intelligent gate (5) is provided with an image recognition unit (6), The image recognition unit (6) includes an image memory, a processor and a camera (60), the camera (60) is installed on the intelligent gate (5) and is used for taking pictures of operators entering and exiting the gate, and the image The identity information of the operator is pre-stored in the memory, and the processor is respectively connected with the camera (60) and the image memory, and the processor is used to determine whether the photo and the pre-stored identity information are consistent, and when it is determined that they are consistent, the processor Control the smart gate (5) to open. 8. The remote management and control system for safety production risks according to claim 7, wherein the image memory is signal-connected to the Internet of Things server (1), and the Internet of Things server (1) writes through the intelligent terminal (4) And the identity information of the operator is stored, and the image memory acquires and stores the identity information of the operator through the Internet of Things server (1).

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