CN214475124U - Construction operation safety control system - Google Patents

Abstract

The utility model relates to a construction operation safety management and control system, include: a personnel RFID tag configured for the operator; the authentication card is configured for a protective article and comprises an article RFID label and an article GPS positioning module; the system comprises a handheld intelligent terminal, a radio frequency tag card reading and writing module, a terminal GPS positioning module, a camera, a PDA module and a first wireless network module, wherein the handheld intelligent terminal is configured for an operator and is used for reading an RFID tag, carrying out face verification, generating and uploading information to be verified and monitoring information and receiving verification result information; the electronic fence is arranged on a construction site and used for verifying the positions of protective articles and operators; the server is communicated with the handheld intelligent terminal and the electronic fence through a 5G communication network and used for verifying the identity of an operator and the wearing condition of a protective article. The utility model discloses can realize implementing comprehensive, real-time, accurate automatic management and control to the construction operation flow for the safety management and control to the construction place is more high-efficient, reduces safe risk.

Description

Construction operation safety control system

Technical Field

The utility model relates to a construction site safety management and control technical field, concretely relates to construction operation safety management and control system to construction site, especially electric power construction site.

Background

The safety management and control strength of various construction sites including power enterprises is enhanced, the risk of safety accidents is reduced, and the work content which needs to be constantly grasped and carried out for a long time is provided. All kinds of construction units are provided with safety control mechanisms, and the whole process monitoring of all kinds of work sites is realized.

In order to ensure safety, a construction unit can require that an operator can enter a field only by wearing protective equipment according to requirements, such as wearing a tool, wearing a protective tool and the like, or else, the construction operation can not be carried out. The requirements of the electric power construction site are more strict, and besides the regulations for wearing the protective equipment, the operators are also required to strictly execute the protective equipment wearing specifications of the construction site, such as wearing protective masks, insulating gloves, insulating boots and the like. The protection worn by the operator is provided with different national standard levels, for example, the execution standard of the high-voltage electrostatic protection suit is GB/T18136-2008, while the execution standard of the general protection suit is GB/T20097-. In addition, some electric power construction sites also require that protective equipment must be worn according to regulations within a certain range from the construction site, for example, in an operation site where high-voltage equipment is grounded, operators are required to use insulating shoes within the range of 4 meters indoors and 8 meters outdoors. Therefore, if the electronic fence is used for management and control, more accurate GPS information is required to avoid safety accidents due to carelessness.

In order to prevent such situations, management departments specially arrange personnel for field management and control. However, many places are still monitored in a manual mode at present, the method is time-consuming and labor-consuming, all-weather real-time monitoring is difficult to achieve, and working efficiency is reduced along with increase of working time of monitoring personnel. Therefore, the existing manual management and control mode has limitations.

In recent years, various computers including computer vision technology, image technology, and the like have been rapidly developed in many fields. How to be applied to various fields with calculation intelligence in many work researches, can realize on-the-spot supervision through video monitoring equipment, people have also developed all kinds of management and control systems, but this type of system function has the limitation, mainly embodies in the condition that is difficult to check out wrong wearing protective equipment, and detection accuracy is easily influenced by the environment, can't realize the supervision at no video monitoring place (such as high altitude line operation etc.).

The fifth generation mobile communication technology (5G) is the latest generation cellular mobile communication technology, and is also an extension following the fourth generation mobile communication technology (4G), the third generation mobile communication technology (3G), and the second generation mobile communication technology (2G) systems. The performance goals of fifth generation mobile communication technologies are high data rates, reduced latency, energy savings, reduced cost, increased system capacity, and large-scale device connectivity. In the three application scenarios of 5G, Ultra-reliable and Low Latency Communications (URLLC) have the brand-new characteristics of high reliability, Low Latency, extremely high availability, and the like, and can be widely applied to the scenarios of industrial control, factory automation, smart grid, equipment, car networking Communications, remote operations, and the like. The high-precision positioning of the 5G URLLC is oriented to the centimeter level, and the time delay is usually within 50 milliseconds. The technology of the fifth generation mobile communication is continuously promoted, and effective guarantee is provided for realizing efficient real-time intelligent safety monitoring.

In summary, the requirements of construction site management of power enterprises are stricter, more accurate positioning information and real-time high-quality communication guarantee are needed, and 5G can provide high-precision positioning, ultrahigh reliability and low-delay communication. Based on the method, a system which is based on the latest mobile communication technology and can automatically and comprehensively manage and control the construction operation flow can be designed.

Disclosure of Invention

The utility model aims at providing a can be applied to the safety control in all kinds of workplaces including the electric power job site, realize the safe management and control system of construction operation to the overall process real time monitoring of construction.

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

a construction operation safety control system comprises:

a personnel RFID tag configured for the operator;

the authentication card is configured for a protective article and comprises an article RFID label and an article GPS positioning module;

the system comprises a handheld intelligent terminal, a radio frequency tag card reading and writing module, a terminal GPS positioning module, a camera, a PDA module and a first wireless network module, wherein the handheld intelligent terminal is configured for an operator and is used for reading the personnel RFID tag and the RFID tag, carrying out face verification on the operator, generating and uploading information to be verified and monitoring information and receiving verification result information;

the electronic fence is arranged on a construction site and used for verifying the positions of protective articles and operators in cooperation with the article GPS positioning module and the terminal GPS positioning module;

and the server is communicated with the handheld intelligent terminal and the electronic fence through a 5G communication network and is used for verifying the identity of an operator and the wearing condition of a protective article based on the information to be verified and returning the server corresponding to the verification result information.

The article RFID tag is a dual-frequency RFID tag.

The handheld intelligent terminal further comprises a first Bluetooth module for communication.

The authentication card further comprises a second Bluetooth module and/or a second wireless network module for communication.

The PDA module comprises a display screen for displaying corresponding content or prompting information based on the verification result information.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages: the utility model discloses can realize implementing comprehensive, real-time, accurate automatic management and control to the construction operation flow for the safety management and control to the construction place is more high-efficient, reduces safe risk.

Drawings

Figure 1 is the utility model discloses a construction operation safety control system's connection schematic diagram.

Figure 2 is the utility model discloses an electric structure block diagram of authentication card among construction operation safety control system.

Fig. 3 is the utility model discloses a handheld intelligent terminal's electrical structure block diagram among construction operation safety control system.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings.

The first embodiment is as follows: as shown in fig. 1 to 3, a construction work safety management and control system includes a personnel RFID tag, an authentication card, a handheld intelligent terminal, an electronic fence, and a server.

The personnel RFID tag (13.56 MHz high frequency tag card) is configured for the operator, wherein relevant information corresponding to the operator can be recorded.

The authentication card is configured for the protective articles and comprises an article RFID label and an article GPS positioning module, and the authentication card can respectively record information of the corresponding protective articles and determine the positions of the corresponding protective articles. Wherein, the article RFID label is a double-frequency RFID label (a double-frequency label card integrating 2.4G active and 13.56MHz high frequency). The authentication card can also comprise a second Bluetooth module and/or a second wireless network module for communication, a clock circuit, a clock synchronization circuit for synchronizing with the second wireless network module, a USB circuit and the like, which are connected with the interface circuit.

The handheld intelligent terminal is configured for operators and mainly comprises a radio frequency tag card reading and writing module, a terminal GPS positioning module (supporting Beidou or GPS positioning), a camera, a PDA module and a first wireless network module supporting 5G communication, wherein the camera can be embedded in the PDA module. The handheld intelligent terminal is used for reading the RFID tags of the personnel and the RFID tags, carrying out face verification on the operators, generating and uploading information to be verified and monitoring information, and receiving verification result information. The handheld intelligent terminal can also comprise a first Bluetooth module for communication, a clock circuit and a clock synchronization circuit, wherein the clock synchronization circuit is communicated with the first wireless network module and used for clock synchronization. The PDA module may include a display screen for displaying corresponding contents or prompting for information based on the authentication result information.

The electronic fence is arranged on a construction site and is used for verifying the positions of protective articles and operators by matching with the article GPS positioning module and the terminal GPS positioning module.

The server adopts a common mechanically-assisted teacher server, is communicated with the handheld intelligent terminal and the electronic fence through a 5G communication network, and is used for verifying the identity of an operator and the wearing condition of a protective article based on information to be verified and returning corresponding verification result information.

The work flow of the construction operation safety control system is as follows:

1. the server system collects information of a site needing construction, information of operators, a list to be operated, information of protective articles and the like, and makes a construction operation list instruction to be sent to the handheld intelligent terminal. The construction job list instructions include: the construction site system comprises a construction site number, a construction site name, construction site GPS information, an operation site range, site leader information, a to-be-operated list, operator information, protection article information, a construction period and other cautions.

And a job request verification stage:

2. before an operator enters a construction site, the handheld intelligent terminal device is used, the operator RFID tag is used for initiating a construction operation request, the background server starts a verification program, and the handheld intelligent terminal sends information of the read operator RFID tag to the server for verification. And if the personnel RFID tag verification program is not passed, the verification server refuses the operation request.

3. And if the current time is within the construction period, the verification server prompts to continue and wait for subsequent verification, and otherwise, the job request is rejected.

4. The handheld intelligent terminal starts a face recognition program, and if an operator passes the face recognition verification program, the operation is continued; and if the face recognition verification program is not passed, the verification server refuses the job request.

5. And detecting whether the GPS coordinate of the handheld intelligent terminal equipped by the operator is in the legal construction site range or not by using a preset electronic fence, and if not, rejecting the operation request by the verification server.

6. The operating personnel firstly scan the FRID label of the article on the protective article by using the handheld intelligent terminal, upload the obtained information and authenticate the article on the background server by using the collected label information. And if the security article authentication program is not passed, the authentication server refuses the operation request.

7. And detecting whether the GPS coordinates of the operation protective articles are in the range of a legal construction site or not by using a preset electronic fence, and if not, rejecting the operation request by the verification server.

8. And the handheld intelligent terminal prompts the worker to wear the protective articles.

9. The handheld intelligent terminal starts a protective article wearing verification program to detect whether wearing meets the standard. The handheld intelligent terminal collects real-time image data of an operator through the camera and sends the real-time image data to the server, and the server verifies the wearing condition of the protective articles and continues to use the protective articles if the protective articles meet the standard; if not, the authentication server denies the job request.

10. And the handheld intelligent terminal prompts the start of operation and displays a current list to be operated.

An operation proceeding stage:

11. and the handheld intelligent terminal transmits the construction operation information to the background recording server through the 5G network. The construction work information includes: the construction site system comprises a construction site number, a construction site name, construction site GPS information, an operation site range, site leader information, a to-be-operated list, operator information, protection article information, a construction period, start-to-enter operation time and other cautions.

12. The handheld intelligent terminal starts a built-in camera, shoots the whole operation process and transmits the shooting operation process to the background recording server through the 5G network.

And (3) operation completion stage:

13. if the operation is finished, the operator reports the operation content to the server for back-end verification and recording, requests the server for a to-be-operated list, and checks whether the actual operation content is consistent with the to-be-operated content one by one. And if the verification result is consistent with the verification result, finishing construction and starting a finishing verification program. Otherwise, the operation is shifted to the step 20 of the temporary stop stage.

14. The handheld intelligent terminal prompts an operator to leave the range of the operation site and can take off the protective articles after reaching the position away from the safety distance of the construction site.

15. And detecting whether the GPS coordinate of the handheld intelligent terminal of the operator is in the legal construction site range or not by using a preset electronic fence, and if not, rejecting the operation completion request by the verification server and informing a safety manager.

16. And the handheld intelligent terminal starts the protective article wearing verification program again to verify whether the detection wearing meets the standard. The handheld intelligent terminal collects real-time image data of an operator through the camera, sends the real-time image data to the server for verification, and continues to complete a verification program if the real-time image data meets the standard; if not, the verification server refuses the completed verification request, and the record server records the information of violating the safety regulations. The safety regulation violation information includes: the construction site number, the construction site name, the construction site GPS information, the operation site range, the operation list, the information of the violation operation personnel, the information of the wearing protective articles, the construction time and the image of the violation safety regulation. And informing a safety manager.

17. The handheld intelligent terminal prompts the operator again that the operator has to leave the range of the operation site and can take off the protective articles after reaching the position away from the safe distance of the construction site.

18. And the operator initiates an operation completion request by using the handheld intelligent terminal and the RFID label of the operator.

19. The server records the current operation list. This job list includes: the system comprises an operation list number, a construction site name, construction site GPS information, an operation site range, site responsible person information, a completed operation list, operation person information, protection article information, a construction period, start-of-field operation time and finish operation time.

A temporary operation suspension stage:

20. if the operation is not completed but a temporary departure is requested, the operator uses the handheld intelligent terminal to report the content of the completed operation to the server, requests the content of the operation to be constructed from the server, and checks whether the current operation can be temporarily stopped, if the content list of the operation to be completed can be updated, the handheld intelligent terminal prompts the operator to leave the construction site. Otherwise, the temporary operation stopping request is refused, and the safety management personnel is informed.

21. The handheld intelligent terminal prompts an operator to leave the range of the operation site and can take off the protective articles after reaching the position away from the safety distance of the construction site.

22. And detecting whether the GPS coordinate of the handheld intelligent terminal of the operator is in the legal construction site range or not by using a preset electronic fence, and if not, rejecting the temporary operation suspension request by the verification server and informing a safety manager.

23. And the handheld intelligent terminal starts the protective article wearing verification program again to verify whether the detection wearing meets the standard. The handheld intelligent terminal collects real-time image data of an operator through the camera, sends the real-time image data to the server for verification, and continues to temporarily suspend a verification program if the real-time image data meets the standard; if not, the authentication server refuses to temporarily suspend the authentication request, and records the information violating the safety regulation on the recording server. The safety regulation violation information includes: the construction site number, the construction site name, the construction site GPS information, the operation site range, the operation list, the information of the violation operation personnel, the information of the wearing protective articles, the construction time and the image of the violation safety regulation. And informing a safety manager.

24. The handheld intelligent terminal prompts the operator again that the operator has to leave the range of the operation site and can take off the protective articles after reaching the position away from the safe distance of the construction site.

25. And the operating personnel initiates the departure request by using the handheld intelligent terminal and the RFID label of the user.

26. And recording the temporary suspension list of the operation on the recording server. The temporary suspension list of the current operation includes: the system comprises an operation list number, a construction site name, construction site GPS information, an operation site range, site responsible person information, a completed operation list, a to-be-completed operation list, operation person information, protection article information, a construction period, start-to-enter operation time and temporary departure time.

In summary, the above working process can be divided into four working phases: the first stage is a person, object and operation verification request starting stage, wherein the stage requires an operator to carry out construction in a specified construction site range, and the authenticity of the operator is ensured by utilizing a personnel identity card and face verification; the authenticity and the effectiveness of the protective articles are ensured by using the identification card and the geographic information of the protective articles; the second stage is a wearing verification stage of the protective articles, wherein the wearing condition of the protective articles is checked one by utilizing a high-frequency signature card on the protective articles and a camera on a handheld intelligent terminal, so that the checking and wearing correctness of the protective articles are ensured; the third stage is an operation stage, and the operation process is recorded in real time by using a camera of the handheld intelligent terminal and a 5G network, so that the authenticity and traceability of the operation process are ensured; the fourth stage is an operation completion stage, and the current operation information is verified and recorded by using the background authentication and recording server, so that the integrity of the operation process is ensured.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (5)

1. The utility model provides a construction operation safety control system which characterized in that: the construction operation safety control system comprises:

a personnel RFID tag configured for an operator;

the system comprises an authentication card, a GPS positioning module and a RFID tag, wherein the authentication card is configured for a protective article and comprises an article RFID tag and an article GPS positioning module;

the handheld intelligent terminal is configured for an operator, comprises a radio frequency tag card reading and writing module, a terminal GPS positioning module, a camera, a PDA module and a first wireless network module, and is used for reading the personnel RFID tag and the article RFID tag, performing face verification on the operator, generating and uploading information to be verified and monitoring information, and receiving verification result information;

the electronic fence is arranged on a construction site and used for verifying the positions of protective articles and operators in cooperation with the article GPS positioning module and the terminal GPS positioning module;

and the server is communicated with the handheld intelligent terminal and the electronic fence through a 5G communication network, and is used for verifying the identity of the operating personnel and the wearing condition of the protective articles based on the information to be verified and returning corresponding verification result information.

2. The construction work safety management and control system according to claim 1, characterized in that: the article RFID tag is a dual-frequency RFID tag.

3. The construction work safety management and control system according to claim 1, characterized in that: the handheld intelligent terminal further comprises a first Bluetooth module for communication.

4. The construction work safety management and control system according to claim 1, characterized in that: the authentication card further comprises a second Bluetooth module and/or a second wireless network module for communication.

5. The construction work safety management and control system according to claim 1, characterized in that: the PDA module comprises a display screen for displaying corresponding content or prompting information based on the verification result information.

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