Disclosure of Invention
Embodiments of the present invention provide a double-hook seat belt and a safety management system, so as to solve the technical problems mentioned in the above background art, or at least partially solve the technical problems mentioned in the above background art.
In a first aspect, an embodiment of the present invention provides a double-hook safety belt, including: the safety belt comprises a portable controller, safety belt fabric, two intelligent hooks and a D-shaped ring, wherein the portable controller is arranged on the safety belt fabric, the D-shaped ring is arranged at the rear part of the safety belt fabric, and the two intelligent hooks are connected with the D-shaped ring through safety ropes;
the portable controller is used for detecting the current operation height, and when the current operation height is higher than the preset operation height information, a locking instruction is sent to the intelligent hook;
the intelligent hook starts the locking executing mechanism when receiving the locking instruction, the two intelligent hooks continuously perform unhooking detection, and if the two intelligent hooks are detected to be unhooked, the unhooking alarm is sent to the portable controller to enable the portable controller to send an unhooking alarm.
More specifically, the portable controller specifically includes: the device comprises an air pressure sensor, a voice alarm, a lock-closing control mechanism, an operation controller and a communicator;
the air pressure sensor is used for detecting the current operation height and sending the current operation height to the operation controller;
the operation controller analyzes the current operation height, and if the current operation height is higher than the preset operation height information, a locking instruction is sent to the intelligent hook;
the locking control mechanism is used for controlling the mutual opening of the two hooks;
the communicator is used for receiving the alarm information and sending the alarm information to the voice alarm so that the voice alarm can send out voice alarm.
More specifically, the intelligent hook specifically includes: the device comprises a suspension state detector, a locking actuating mechanism and an electric unlocking button;
the hanging state detector is arranged on the intelligent hook body and used for detecting whether the intelligent hook is hung on the metal structure or not;
the locking executing mechanism is used for locking the intelligent hook;
the electric unlocking button is used for sending an unlocking instruction request to the server through the portable controller after the intelligent hook is locked, and closing the locking execution mechanism after receiving an unlocking allowing instruction sent by the server.
More specifically, the intelligent hook specifically further comprises: a physical emergency unlock button;
the physical emergency unlocking button is used for directly unlocking through machinery, closing the locking execution mechanism of the intelligent hook, and sending emergency unlocking alarm information to the server through the portable controller.
More specifically, the arithmetic controller further comprises an acceleration sensor;
the acceleration sensor is used for detecting the acceleration of the double-hook safety belt and the movement track information of the double-hook safety belt;
when the acceleration of the double-hook safety belt is detected to accord with a preset dropping acceleration condition, respectively sending dropping alarm information to a voice alarm and a communicator;
the voice alarm gives out voice alarm according to the falling alarm information;
and the communicator sends the falling alarm information to a server so that the server can perform falling alarm response.
More specifically, the D type ring is the intelligent D type ring, is provided with pressure sensor on it, pressure sensor is used for detecting the safety belt and wears elasticity information, when the safety belt is worn the elasticity unqualifiedly, sends to portable controller and wears non-standard alarm information.
More specifically, the double hook safety belt further comprises: the intelligent rope grab hanging ring is arranged on the waist of the safety belt fabric or the back of the safety belt fabric and is connected with the rope grab through a safety rope;
the intelligent rope grabbing device comprises a portable controller, and is characterized in that a pressure sensor is arranged on an intelligent rope grabbing device hanging ring, the pressure sensor is used for detecting whether the intelligent rope grabbing device hanging ring is connected with a rope grabbing device, and if the intelligent rope grabbing device hanging ring detects that a double-hook safety belt is not connected with the rope grabbing device, the portable controller sends out warning information of the unconnected rope grabbing device.
More specifically, a portable camera is further arranged in front of the safety belt fabric, and the portable camera is in communication connection with the portable controller;
the portable camera is used for shooting the field video information, and sending the field video information to the server through the portable controller so that the field video information of the server can be analyzed, the personnel without wearing the safety belt in the field video information can be identified, and safety early warning can be sent out.
In a second aspect, an embodiment of the present invention provides a safety management system for a double-hook seat belt based on the first aspect, including: the double-hook safety belt and the safety management module;
the double-hook safety belt is used for detecting the high-altitude operation non-standard information, and when the high-altitude operation non-standard information is detected, the double-hook safety belt gives an alarm and sends the high-altitude operation non-standard information to the safety management module;
the safety management module is used for storing the high-altitude operation non-standard information and generating performance assessment and evaluation information of the operating personnel according to the high-altitude operation non-standard information. More specifically, the safety management module is further configured to perform statistical analysis on the stored high-altitude operation non-standard information periodically to generate a safety management report.
The invention provides a double-hook safety belt and a safety management system, which detect the current operation height of an operator wearing the safety belt through an air pressure sensor in a portable controller, indicate that an intelligent hook is locked when the detected operation height is higher than preset operation height information, a locking control mechanism is used for controlling the interactive opening of two hooks, namely, only one hook can be opened at a time, ensure that at least one hook is always locked, effectively ensure that the operator can also obtain safety guarantee in the moving process, simultaneously and continuously perform unhooking detection, automatically detect whether at least one hook is on a hanging point, and immediately alarm if the two hooks are not hung, prompt the operator to process, prevent the occurrence of accidental falling events caused by the operator randomly picking the hooks, and effectively monitor the condition of irregular use of the safety belt, the personal safety of the operating personnel is better protected.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Fig. 1 is a schematic structural view of a double hook seatbelt apparatus according to an embodiment of the present invention, as shown in fig. 1, including: the safety belt comprises a portable controller 101, a safety belt fabric 102, two intelligent hooks 103 and a D-shaped ring 104, wherein the portable controller 101 is arranged on the safety belt fabric 102, the D-shaped ring 104 is arranged at the rear part of the safety belt fabric 102, and the two intelligent hooks 103 are connected with the D-shaped ring 104 through safety ropes;
wherein, portable controller 101 is used for detecting current operation height, and when current operation height was higher than predetermineeing operation height information, then lock control mechanism through among the portable controller sent the locking instruction to two intelligent couple 103, two couples had to be one and was in under the dead state of lock always this moment, and two couples can't open and shut simultaneously promptly this moment, wherein, intelligent couple 103 starts the shutting actuating mechanism when receiving the locking instruction to continuously carry out the unhook detection, if detect when two intelligent couples all unhook, then to portable controller 101 sends the unhook warning, makes portable controller 101 sends the unhook warning.
Specifically, the portable controller 101 described in the embodiment of the present invention is communicatively connected to the D-ring 104 and the smart hook 103, and the communication connection may be realized in a bluetooth connection manner.
The portable controller described in the embodiment of the invention is integrated with the air pressure sensor, when a constructor wearing the double-hook safety belt performs high-altitude operation, the portable controller can move along with the constructor, the air pressure sensor can continuously detect the current operation height of the constructor, and when the operation height is higher than the preset operation height information, a locking instruction is sent to the intelligent hook through the communication module of the portable controller.
The air pressure sensor described in the embodiment of the invention can be used for comparing information detected by the air pressure sensor with air pressure at a preset 0-altitude position independently so as to realize current operation height measurement, or can be matched with the air pressure sensor and used for realizing air pressure measurement in cooperation with an air pressure calibrator preset on a safety reference surface, after equipment is started, the air pressure data of the surrounding environment are constantly monitored by a height measurement module in the portable controller and the air pressure calibrator, meanwhile, the portable controller receives the air pressure data sent by the air pressure calibrator, compares the air pressure data with the air pressure data monitored by the portable controller, and analyzes the air pressure data through the portable controller so as to obtain the current operation height information.
The preset operation height information described in the embodiment of the present invention may be specified according to standard GB/T3608-2008 "high place operation rating": "work at a high place where there is a possibility of falling at a height of 2m or more (including 2m) from the falling height reference surface is called high place work. "set 2m, or more strictly stated 1.8 m.
The intelligent hook described in the embodiment of the invention is provided with a hanging state detector, a locking executing mechanism, a locking control mechanism and an electric unlocking button, the intelligent hook starts the locking executing mechanism after receiving a locking instruction, the hook cannot be opened at the moment, and the intelligent hook can be freely opened and closed only after the locking executing mechanism is closed.
The locking control mechanism in the embodiment of the invention is used for controlling the driving motors of the locking actuating mechanisms in the two hooks, so as to control the interactive opening of the two hooks, namely, the two intelligent hooks cannot be opened at the same time and can only be opened and locked interactively.
The electric unlocking button described in the embodiment of the invention can send a hook unlocking request to the server after being pressed, at the moment, the server examines and approves the request, only after the portable controller receives an unlocking allowing instruction examined and approved by the server, the portable controller can send an unlocking instruction to the intelligent hook, at the moment, the locking execution mechanism is closed, and the intelligent hook can be freely opened and closed.
Hang state detector for pressure detector or metal detector, specifically can set up at couple hook body inboard, fix when metal structure at intelligent couple, pressure detector or metal detector can acquire corresponding pressure information or metal detection information, be used for confirming whether intelligent couple normally hangs on metal structure, if hang state detector and detect intelligent couple and not hang on metal structure, or intelligent couple drops from metal structure, can send out unhook warning to portable controller, portable controller can sound the alarm, when hanging state detector and detecting intelligent couple again and fixing on metal structure, the alarm just can stop.
Before operation, worker card identification is needed, the safety belt can be selected after the identification is passed, the safety belt is started to confirm whether the state of the safety belt is in compliance, and if the safety belt is insufficient in charge or damaged, an alarm is given. The field monitoring device reads the employee card, uploads information such as an employee code, a safety belt code, operation time, operation content, the height of the field monitoring device, safety belt charge and the like to the server, and uploads information such as the height of the safety belt, operation alarm and the like to the server in real time.
The embodiment of the invention detects the current working height of the operator wearing the safety belt through the air pressure sensor in the portable controller, when the detected operation height is higher than the preset operation height information, the intelligent hook is indicated to be locked, the locking control mechanism is used for controlling the interactive opening of the two hooks, namely, only one hook can be opened at a time, at least one hook is ensured to be locked all the time, the safety of the operating personnel can be effectively ensured in the moving process, and simultaneously and continuously carrying out unhooking detection, automatically detecting whether at least one hook is on a hanging point, if both hooks are not hung, immediately alarming to prompt an operator to carry out treatment, preventing the operator from picking up the hook at will to cause an accidental falling event, moreover, the condition that the safety belt is used in an irregular mode is effectively monitored, and the personal safety of operating personnel is better protected.
On the basis of the above embodiment, the portable controller specifically includes: the device comprises an air pressure sensor, a voice alarm, a lock-closing control mechanism, an operation controller and a communicator;
the air pressure sensor is used for detecting the current operation height and sending the current operation height to the operation controller;
the operation controller analyzes the current operation height, and if the current operation height is higher than the preset operation height information, a locking instruction is sent to the intelligent hook;
the locking control mechanism is used for controlling the mutual opening of the two hooks;
the communicator is used for receiving the alarm information and sending the alarm information to the voice alarm so that the voice alarm can send out voice alarm.
Specifically, the air pressure sensor described in the embodiment of the present invention may send the detected air pressure data to the operation controller, so that the operation controller calculates the current operation height information, or send the detected air pressure data to the server through the communication module, and send the current operation height information back to the portable controller after the server calculates the current operation height information.
The voice alarm described in the embodiment of the invention sends out voice alarm after receiving alarm information.
The operation controller processor in the embodiment of the invention is used for rapidly processing the instructions of the server and data such as working logic, state and the like of the hook.
The locking control mechanism in the embodiment of the invention is mutually exclusive locking in an opening and closing state and is used for controlling the interactive opening of the two hooks, namely ensuring that the two intelligent hooks cannot be opened simultaneously and can only be opened and locked interactively.
The communicator in the embodiment of the invention communicates through NB-loT, and sends a request to the security management platform or receives an instruction of the security management platform, so that a manager can remotely monitor data such as height, electric quantity and working state, or sends an instruction to enable the intelligent hook to perform corresponding actions. The RIFD identification module can identify and match safety belts and operators through RIFD radio frequency identification technology.
The portable controller described in the embodiment of the invention can effectively realize the intelligent hook provided with the hanging state detector and the locking actuating mechanism and the intelligent safety belt provided with the height measuring module, automatically detect whether at least one hook is hung on a hanging point when the working height is higher than the preset safety height, and immediately alarm if the two hooks are unhooked, so as to prompt an operator to process, prevent the occurrence of an accidental falling event caused by the fact that the operator takes the hook at will and protect the personal safety of the operator.
On the basis of the above embodiment, the intelligent hook specifically includes: the device comprises a suspension state detector, a locking actuating mechanism and an electric unlocking button;
the hanging state detector is arranged on the intelligent hook body and used for detecting whether the intelligent hook is hung on the metal structure or not;
the locking executing mechanism is used for locking the intelligent hook;
the electric unlocking button is used for sending an unlocking instruction request to the server through the portable controller after the intelligent hook is locked, and closing the locking execution mechanism after receiving an unlocking allowing instruction sent by the server.
After the locking actuating mechanism is opened, the hook cannot be opened at will, and only after the locking actuating mechanism is closed, the hook can be opened at will.
The suspension state detector described in the embodiment of the invention is a pressure detector or a metal detector, when the metal detector is adopted, a double redundant metal sensor is arranged on the protruding part of the hook to detect whether the hook is hung on a metal structure, and the metal structure is a safe metal structure confirmed by constructors or a metal structure marked with a safety mark.
After the electric unlocking button is pressed down, a hook unlocking request can be sent to the server through the portable controller, the server examines and approves the request, only after the portable controller receives an unlocking allowing instruction examined and approved by the server, the portable controller can send the unlocking instruction to the intelligent hook, the locking execution mechanism is closed at the moment, and the intelligent hook can be freely opened and closed.
According to the embodiment of the invention, when an operator arrives at a destination or needs to unlock to perform operation, the electric unlocking button is pressed to send the lock-picking request, and the lock can be unlocked after receiving the background lock-picking instruction, so that the occurrence of an accidental falling event caused by the fact that the operator picks the hook randomly is prevented.
On the basis of the above embodiment, the intelligent hook further comprises: a physical emergency unlock button;
the physical emergency unlocking button is used for directly unlocking through machinery, closing the locking execution mechanism of the intelligent hook, and sending emergency unlocking alarm information to the server through the portable controller.
The physical emergency unlocking button in the embodiment of the invention adopts mechanical unlocking, is not easy to touch by mistake, and is convenient to press in emergency. In normal operation, if the physical emergency unlocking button is pressed, the safety belt will give an alarm. When the intelligent module needs to be evacuated under the condition of power failure or failure, or emergency evacuation is needed when sudden danger occurs and the hook cannot be unlocked timely by the electric unlocking button, the physical emergency unlocking button can be pressed, and the locked hook is mechanically unlocked. The couple can freely open and shut this moment, and intelligent safety belt can regard as ordinary safety belt of non-intelligence to use.
The embodiment of the invention is provided with the intelligent hook provided with the physical emergency unlocking button, if the unlocking is needed in case of emergency, the hook automatically carries out mechanical unlocking, so that the operation personnel can timely carry out emergency escape, and the personal safety of the operation personnel is further ensured; and meanwhile, emergency unlocking information is sent to the background, so that managers can timely know the emergency unlocking condition.
On the basis of the above embodiment, the arithmetic controller further includes an acceleration sensor;
the acceleration sensor is used for detecting the acceleration of the double-hook safety belt and the movement track information of the double-hook safety belt;
when the acceleration of the double-hook safety belt is detected to accord with a preset dropping acceleration condition, respectively sending dropping alarm information to a voice alarm and a communicator;
the voice alarm gives out voice alarm according to the falling alarm information;
and the communicator sends the falling alarm information to a server so that the server can perform falling alarm response.
Specifically, the preset dropping acceleration condition in the embodiment of the present invention may be set to a dropping acceleration greater than 1 m/s.
When the height of the operator is detected to be higher than the preset safety height (2m), if the system detects that the descending speed of the operator is higher than 1m/s, the falling event is judged to occur, and at the moment, the portable controller gives an alarm and transmits the alarm to the field monitoring device and the server.
The on-site monitoring device and the server can rapidly inform relevant responsible personnel of the early warning information and remind the relevant responsible personnel to contact medical rescue.
According to the embodiment of the invention, through the safety belt equipped with the acceleration sensor, when the working height is higher than the preset safety height, whether a falling event occurs or not is continuously detected, and if the falling event occurs, an alarm is given immediately, so that background management personnel can timely make treatment, and rescue time is effectively strived for.
On the basis of the embodiment, the D-shaped ring is an intelligent D-shaped ring, a pressure sensor is arranged on the intelligent D-shaped ring, the pressure sensor is used for detecting the tightness information of the wearing of the safety belt, and when the tightness of the wearing of the safety belt is unqualified, the warning information of the wearing unnormality is sent to the portable controller.
Specifically, the intelligent D-shaped ring in the embodiment of the invention can detect the wearing tightness information of the safety belt through the pressure sensor arranged on the inner side of the intelligent D-shaped ring and send the detection information to the portable controller, in the process, if the situation that the wearing tightness or tightness of an operator is detected, the portable controller gives an alarm, and the alarm can be eliminated after the operator adjusts the compliance.
On the basis of the above embodiment, the double hook seatbelt further includes: the intelligent rope grab hanging ring is arranged on the waist of the safety belt fabric or the back of the safety belt fabric and is connected with the rope grab through a safety rope;
the intelligent rope grabbing device comprises a portable controller, and is characterized in that a pressure sensor is arranged on an intelligent rope grabbing device hanging ring, the pressure sensor is used for detecting whether the intelligent rope grabbing device hanging ring is connected with a rope grabbing device, and if the intelligent rope grabbing device hanging ring detects that a double-hook safety belt is not connected with the rope grabbing device, the portable controller sends out warning information of the unconnected rope grabbing device.
Specifically, the intelligent rope grabbing device hanging ring detects whether the rope grabbing device is connected or not, and respectively feeds back signals to the portable controller, and the portable controller feeds back the signals to the field monitoring device and the background server.
The embodiment of the invention further improves the safety of operation by detecting whether the safety belt is connected with the rope grab.
On the basis of the embodiment, a portable camera is further arranged in front of the safety belt fabric, and is in communication connection with the portable controller;
the portable camera is used for shooting the field video information, and sending the field video information to the server through the portable controller so that the field video information of the server can be analyzed, the personnel without wearing the safety belt in the field video information can be identified, and safety early warning can be sent out.
Specifically, the portable head-mounted camera described in the embodiment of the present invention may be disposed at a position in front of the chest of the seat belt fabric, and when the working surface condition needs to be photographed, the camera may photograph a field picture and transmit the scene picture to the background in real time, so that the manager can synchronously know the working surface condition and perform real-time guidance.
The processor can judge whether the safety belt is worn by the personnel appearing in the video according to a preset image recognition model, and if the personnel not wearing the safety belt are found, a safety early warning is sent out, and the personnel not wearing the safety belt appear on the early warning construction site.
On the basis of the above embodiment, the suspension state detector is: a metal detector or a pressure detector.
The portable controller also comprises a power supply, and the power supply is electrically connected with the air pressure sensor, the voice alarm, the operation controller and the communicator respectively.
Specifically, the power module described in the embodiment of the present invention is used for providing power, and the power module includes a large-capacity rechargeable lithium battery pack and a charging interface, so that the power module can temporarily supply power by using the charger in an emergency situation.
On the basis of the above embodiment, an embodiment of the present invention further includes a security management system, including: the double-hook safety belt and the safety management module; the safety management module is used for detecting high-altitude operation non-standard information, and when the high-altitude operation non-standard information is detected, the double-hook safety belt gives an alarm and sends the high-altitude operation non-standard information to the safety management module; the safety management module is used for storing the high-altitude operation non-standard information and generating performance assessment and evaluation information of the operating personnel according to the high-altitude operation non-standard information.
Specifically, the out-of-specification information for overhead work described in the embodiment of the present invention may specifically be information that may cause the double-hook seat belt to send an alarm. Before each operator gets the safety belt, the identity information of each operator needs to be bound with the safety belt, namely, each high-altitude operation non-standard information received by the safety management module has the corresponding operator, and the information such as comprehensive scores and ranking is generated according to the operation completion times, the operation violation times, the violation incentives, the operation adding items and the dominant incentives, so that the report generation and export functions are supported.
On the basis of the above embodiment, the safety management module is further configured to perform statistical analysis on the stored high-altitude operation non-standard information periodically to generate a safety management report.
Specifically, the safety management report can include functions of department personnel violation condition comparison, personnel violation times comparison, company or group violation times comparison in each month and the like, and the high-altitude operation data can be deeply analyzed by a user conveniently.
The process of statistical analysis comprises information such as operation information, operation time, alarm records, operation and equipment data, operator codes, equipment codes, contact information, field pictures and the like. For the alarm records, the alarm reasons can be analyzed, such as human errors caused by irregular operation, emergencies caused by field conditions or emergencies, and classified statistics can be carried out according to information such as operation time intervals, working years of operators and the like.
On the basis of the above embodiment, fig. 2 is a field safety management flowchart described in an embodiment of the present invention, and as shown in fig. 2, before operation, an employee card needs to be identified, an intelligent seat belt and a head-mounted camera are selected (an operator independently selects whether to wear a seat belt with a portable camera according to an operation condition), and the system is turned on to confirm whether the state of the device is in compliance, and if the charge amount of the seat belt is insufficient or damaged, an alarm is given. The field monitoring device reads the employee card, uploads information such as an employee code, an intelligent safety belt code, operation time, operation content, the height of the field monitoring device, safety belt charge and the like to the server, and uploads information such as the height of the safety belt, the height of the air pressure calibrator, operation alarm and the like to the server in real time.
After the safety belt is worn, the intelligent D-shaped ring detects the tightness of the safety belt, the intelligent rope grabbing device hanging ring detects whether the rope grabbing device is connected or not, signals are respectively fed back to the portable controller, and the portable controller feeds back the signals to the field monitoring device and the background server. In the process, if the wearing condition of the operator is detected to be not in compliance, the safety belt gives an alarm prompt, and the operator can perform high-altitude operation after adjusting the compliance.
The steps of detecting whether the equipment state and the wearing condition are in compliance are shown as follows, fig. 3 is a flow chart of detecting the equipment state and the wearing condition described in an embodiment of the invention, as shown in fig. 3, firstly, whether the electric quantity of the equipment is sufficient is detected, if the electric quantity is insufficient, an alarm is given and uploaded to a server, if the electric quantity is sufficient, whether the tightness degree of a safety belt is qualified is detected, if the tightness degree is not qualified, the alarm is given and uploaded to the server, if the safety belt is qualified, whether a rope grabbing device is connected with the safety belt is detected, if the safety belt is not connected, the alarm is given and uploaded to the server, if the safety.
In the above steps, after the alarm, the operator needs to adjust the alarm until the non-compliance condition corresponding to the alarm item is detected to be a compliance state, and then the alarm is stopped.
After the intelligent safety belt reaches the operation point, the operator holds the double hooks to hang the intelligent hooks on firm hanging points such as metal rods, and the intelligent safety belt can provide the protection effect of the common safety belt. When the mobile terminal needs to move, the operator unlocks the hook A and hangs the hook A at the hanging point in the direction needing to move, and after the hook A is hung, the operator unlocks the hook B and hangs the hook B at the hanging point in the direction needing to move, so that the mobile terminal moves.
Under the open mode, the system continuously carries out height detection, and when detecting that the operating personnel height is higher than preset safe height (2m), portable controller control hangs the state detector on the intelligent couple, hangs the state detector and detects whether at least one couple is on hanging the point, if not, then reports to the police and suggests, hangs at least one couple on hanging the point until the operating personnel. After the hook is hung, the locking control mechanism controls the locking actuating mechanism to be opened, at the moment, the two hooks cannot be unlocked simultaneously, and unhooking detection, falling detection and height detection are continuously carried out. And if the system detects that the descending speed of the operator is more than 1m/s, the operator is judged to have a falling event, and at the moment, the portable controller gives an alarm and transmits the alarm to the field monitoring device and the background server.
In the operation process, when an operator needs to unlock due to operation requirements, an electric unlocking button needs to be pressed, the portable controller sends an immediate unhooking request to the management platform, after receiving a feedback approval unhooking request of the manager, the locking executing mechanism is closed, the hook is automatically unlocked, the operator can take the hook down from a hanging point, at the moment, the single operation flow is finished, and the operator can close the equipment.
When an operator works at a position higher than a preset safety height (2m), and needs to be unlocked in a sudden emergency, the emergency unlocking button can be immediately pressed, and the hook is mechanically unlocked at the moment and is not limited by the locking executing mechanism, so that the operator can conveniently escape in an emergency. Meanwhile, the portable controller sends emergency unlocking information to the field controller and the management platform.
In the operation process, the head-mounted camera transmits the shot picture to the field controller and the management platform in real time.
At the management platform end, managers can comprehensively master the operation state, operation height, equipment information, operation discipline, abnormal state alarm information and the like of operators in real time, effectively supervise, and can timely handle emergency conditions to ensure the personal safety of the operators.
After the operation is completed, the operator descends to the safety height after the operation is completed, the locking executing mechanism and the hanging state detector on the intelligent hook are closed, and the two hooks are automatically unlocked.
After the intelligent safety belt is released by an operator, the operator returns to the site monitoring device, the site monitoring device reads the employee card, and information such as the employee code, the intelligent safety belt code, the operation time, the operation content, the height of the site monitoring device, the intelligent safety belt charge and the like is uploaded to the server again.
At the management platform end, managers can access the history records and view information such as shot history pictures at any time, and perform management work such as afterward review, analysis and statistics, performance assessment and the like.
The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.
Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.
Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.