CN113421360A - Safety operation control system and method based on man-machine bidirectional intelligent identification switch cabinet - Google Patents

Abstract

The invention relates to a safety operation control system and method based on a man-machine bidirectional intelligent identification switch cabinet. The safe operation control system based on the man-machine bidirectional intelligent identification switch cabinet comprises: the intelligent bracelet, the mobile phone client, the switch cabinet server and the switch cabinet door lock controller are connected in sequence. According to the intelligent bracelet and the intelligent bracelet control method, the mental state and the health state of an operator are identified and monitored by adopting health index data acquired by the intelligent bracelet, so that the personal safety is basically protected. The mobile phone client and the switch cabinet server are adopted to realize the function of mutual identification among the operating equipment, the operating ticket and the operator, so that mutual monitoring and protection among the operating equipment, the operating task and the operator are realized, the problems of misoperation, missing operation and wrong operation of the operator are prevented, and the potential safety hazard problem of the existing switch cabinet is really and fundamentally solved.

Description

Safety operation control system and method based on man-machine bidirectional intelligent identification switch cabinet

Technical Field

The invention relates to the field of switch cabinet control, in particular to a safety operation control system and method based on man-machine bidirectional intelligent identification switch cabinet.

Background

The 6kV high-voltage switch cabinet plays an important role in the operation process of a power system, and once the power of a line is cut off due to improper operation, personal casualty accidents can be caused in serious cases. With the development of economy and technology, the safety and the quality of the 6kV switch cabinet are obviously improved, but corresponding problems still exist in the daily operation and operation process, and more reasonable solving measures need to be taken. Particularly, the existing potential safety hazards are serious, and accidents caused by improper operation, big mahu cares, bad mental states of operators, nonstandard operation tickets and operation, insufficient safety supervision and the like are rare, comparatively common and many incomprehensive every year, so that great damage is caused to enterprises and families, and huge economic loss is also caused.

The intelligent switch cabinet on the existing market mainly realizes that the switch cabinet door can not be opened under the power-on state through the protection in the aspect of machinery to reach the purpose of safe operation, but is in the ground connection state at the intelligent switch cabinet, and open the cabinet door and carry out the in-process of operating, the operator still can utilize special spanner to insert the handle hole, with rotating the operating axis, switch over the intelligent switch cabinet to the power-on state, and because to personnel's health status, the unable monitoring of mental state, to the operating procedure, thereby produce the potential safety hazard, fail fundamentally to solve the problem of potential safety hazard.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a safety operation control system and method based on a man-machine bidirectional intelligent identification switch cabinet.

In order to achieve the purpose, the invention provides the following scheme:

a safe operation control system based on man-machine bidirectional intelligent identification switch cabinet comprises:

the intelligent bracelet is used for detecting health index data of field operators;

the mobile phone client is in wireless connection with the intelligent bracelet, is used for acquiring the health index data, generating an operation ticket and generating a control request according to the health index data and the operation ticket;

the switch cabinet server is connected with the mobile phone client through a network, is used for providing operation order information, generating a control instruction according to the control request and generating an alarm signal when standard exceeding data exists in the health index data; the operation ticket information includes: the method comprises the steps of obtaining working time information of an operator, location information of the operator and SIM (subscriber identity module) information of the operator;

and the switch cabinet door lock controller is wirelessly connected with the switch cabinet server, is used for controlling the switch cabinet door lock to be opened and closed according to the control instruction, and is also used for sending feedback information to the switch cabinet server after the switch cabinet door lock is opened and closed.

Preferably, the mobile phone client is an intelligent mobile phone based on an Android intelligent operating system.

Preferably, the switch cabinet server comprises:

the internal database is used for storing one or more of a user table, health index data, an operation ticket, a switch cabinet table, a switch cabinet door lock table, an authority table, an operation record table, a time zone table and an abnormal condition table;

and the examination and approval platform is in network connection with the internal database and the mobile phone client and is used for generating a control instruction according to the control request.

Preferably, the internal database is a SQlite database.

Preferably, the switch cabinet door lock controller includes: the device comprises a singlechip, a GSM module, a power supply module and an output module;

the single chip microcomputer is connected with the GSM module through a serial port; the power supply module respectively provides electric energy for the singlechip, the GSM module and the output module; the output module is electrically connected with the single chip microcomputer.

Preferably, the single-chip microcomputer is an STC89S52 single-chip microcomputer.

Preferably, the GSM module is a GSM communication TC35 module.

Corresponding to the safe operation control system based on the man-machine bidirectional intelligent identification switch cabinet, the invention also provides the following implementation method:

a safe operation control method based on a man-machine bidirectional intelligent identification switch cabinet is applied to the safe operation control system based on the man-machine bidirectional intelligent identification switch cabinet; the safety operation control method includes:

acquiring health index data and an operation ticket; the health index data includes: electrocardiographic monitoring, heart rate monitoring, blood pressure monitoring, blood oxygen monitoring, fatigue monitoring and HRV health index;

generating a control request according to the health index data and the operation ticket;

generating a control instruction according to the control request;

and controlling the opening and closing of the switch cabinet door lock according to the control instruction.

Preferably, the method further comprises the following steps:

acquiring user registration information of an operator; the user registration information includes: user identity information, a user login account and a user login password;

and performing information authentication on the operator according to the user registration information.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

according to the safety operation control system and method based on the man-machine bidirectional intelligent identification switch cabinet, the mental state and the health state of an operator are identified and monitored through health index data acquired by the intelligent bracelet, so that the personal safety is basically protected. The mobile phone client and the switch cabinet server are adopted to realize the function of mutual identification among the operating equipment, the operating ticket and the operator, so that mutual monitoring and protection among the operating equipment, the operating task and the operator are realized, the problems of misoperation, missing operation and wrong operation of the operator are prevented, and the potential safety hazard problem of the existing switch cabinet is really and fundamentally solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a schematic structural diagram of a safety operation control system based on a man-machine bidirectional intelligent identification switch cabinet provided by the invention;

fig. 2 is a flowchart illustrating an operation of a mobile phone client according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a switch cabinet server according to an embodiment of the present invention;

fig. 4 is a flowchart illustrating an operation of a switch cabinet server according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a switch cabinet controller according to an embodiment of the present invention;

fig. 6 is a flowchart of a safety operation control method based on a man-machine bidirectional intelligent identification switch cabinet according to an embodiment of the present invention.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

The invention aims to provide a safety operation control system and a safety operation control method based on a man-machine bidirectional intelligent identification switch cabinet, so as to fundamentally solve the problem of potential safety hazard of the existing switch cabinet.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1, the safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet provided by the invention comprises four parts: the intelligent mobile phone comprises an intelligent bracelet (monitoring part), a mobile phone client (remote control part), a switch cabinet server and a switch cabinet controller (execution part).

And the intelligent bracelet is used for detecting health index data of field operators. The health index data mainly comprises electrocardio monitoring, heart rate monitoring, blood pressure monitoring, blood oxygen monitoring, fatigue monitoring and HRV health indexes.

And the mobile phone client is in wireless connection with the intelligent bracelet, is used for acquiring health index data, generating an operation ticket and generating a control request according to the health index data and the operation ticket.

And the switch cabinet server is connected with the mobile phone client through a network, is used for providing operation order information, generating a control instruction according to the control request and generating an alarm signal when standard exceeding data exists in the health index data. Specifically, the switch cabinet server analyzes and monitors health index data of an operator in real time, and alarms over standard data. The mobile phone client accesses the switch cabinet server through the Internet, and fills corresponding operation ticket applications according to operation ticket requirements, specifications and templates. The operation ticket obtains operation ticket information from the switch cabinet server. And analyzing the operation ticket information to obtain the authorization information of the switch cabinet door lock. And authorizing the switch cabinet door lock controller of the operator according to the switch cabinet door lock authorization information. The operation ticket information includes: the operating time information of the operator, the location information of the operator, and the SIM information of the operator. The cubical switchboard lock authorization information includes: the start and stop time of the work of the operator, the switch cabinet number involved in the work and the identity information of the worker. Authorizing an operator's switch cabinet door lock controller includes: and authorizing an operator to open and close the switch cabinet in the starting and stopping time.

The switch cabinet door lock controller is in wireless connection with the switch cabinet server, is used for controlling the opening and closing of the switch cabinet door lock according to the control instruction, and is also used for sending feedback information to the switch cabinet server after the opening and closing operation of the switch cabinet door lock is completed.

The switch cabinet server communicates with a switch cabinet door lock controller at a switch cabinet end through a short message in a specific format by using a built-in GSM communication function of the mobile phone.

Based on the specific structure, the specific implementation principle of the safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet provided by the invention is as follows:

after a user takes the intelligent bracelet and opens an APP (application program) in a mobile phone client on the mobile phone, the user applies for an operation ticket and selects a specific switch cabinet door lock of a switch cabinet to be controlled, accesses a switch cabinet server through the Internet and sends a control request. After receiving a control request sent by a user, a switch cabinet server (which can be a smart phone) accesses an internal database, judges the authority state of the request and sends a control instruction to a switch cabinet controller through a global system for mobile communications (GSM). After the switch cabinet controller at the front end of the switch cabinet receives the related instruction sent by the switch cabinet server, the switch cabinet controller correspondingly controls the related door lock. The mobile phone client carries out voice prompt on the content and steps in the operation ticket, confirms the completion condition of each link, transmits and sends a control request to the switch cabinet server for the completion condition of the important link, receives feedback information from the switch cabinet server and then carries out next step. And after all the work in the mobile phone client is finished, transmitting and sending a control request to the switch cabinet server, receiving feedback information from the switch cabinet server, closing a switch cabinet door lock, and finishing the operation.

The content and steps in the operation ticket are subjected to voice prompt and confirmation of the completion condition of each link, the operation ticket is completed by a related small program of the mobile phone client, the completion condition of the important link is transmitted to the switch cabinet server and a control request is sent, feedback information from the switch cabinet server is received, and then the next step is carried out. And after all work in the operation ticket is finished, transmitting and sending a control request to the switch cabinet server, receiving feedback information from the switch cabinet server, closing the switch cabinet door lock, and finishing the operation.

Further, the switch cabinet server includes: an internal database and an approval platform. And the switch cabinet server is used for accessing the internal database after receiving the control request sent by the user and sending a control instruction to the switch cabinet controller through the GSM after judging the request permission state.

The internal database is used for storing one or more of a user table, health index data, an operation ticket, a switch cabinet table, a switch cabinet door lock table, an authority table, an operation record table, a time zone table and an abnormal condition table.

And the examination and approval platform is connected with the internal database and the mobile phone client side through a network and is used for generating a control instruction according to the control request.

The internal database employed in the present invention is preferably a SQlite database.

Further, above-mentioned cubical switchboard lock controller includes: singlechip, GSM module, power module and output module that have the SIM card. The switch cabinet controller is used for controlling and operating the corresponding door lock after receiving a control instruction sent by the switch cabinet server, and sending feedback information to the switch cabinet server after completing the corresponding operation.

Wherein, the singlechip is connected with the GSM module through a serial port. The power module respectively provides electric energy for the singlechip, the GSM module and the output module. The output module is electrically connected with the singlechip. The singlechip adopted by the invention is preferably an STC89S52 singlechip. The GSM module is preferably a GSM communication TC35 module. The output module comprises a 4-channel relay connected into a power supply loop of the electromagnetic lock type switch cabinet door lock, and the control of the switch cabinet door lock is realized by the action of a normally open and normally closed contact of the relay.

The following describes a specific implementation process of the safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet, which is provided by the invention, by taking the mobile phone client provided by the invention as an example of an intelligent mobile phone based on an Android intelligent operating system.

The mobile phone client is developed based on an Android intelligent operating system commonly used by the smart phone, and can access the switch cabinet server through the Internet. The mobile phone client APP software is designed to have the functions of registering, logging in, password protecting, receiving intelligent bracelet data, displaying an operation ticket, displaying a switch cabinet list and a door lock list, confirming the completion condition of the operation ticket, sending a request to a switch cabinet door lock controller, receiving confirmation information returned by a switch cabinet server, giving a voice prompt, giving an alarm and the like, so that a user can operate according to the flow shown in fig. 2 after downloading and installing the mobile phone client APP software. The operation process comprises the following steps:

1. the user needs to fill in a user name and a mobile phone number for registering to the switch cabinet server when using the switch cabinet system for the first time, and the switch cabinet server confirms that the registration is successful after manually checking information.

2. The user who successfully registers can enter the operation interface after inputting the password of the mobile phone client, and the authenticity of the user operation is realized because the mobile phone number is registered in a real-name system.

3. The mobile phone client APP requests the switch cabinet and the lock list from the switch cabinet server, the switch cabinet server transmits the switch cabinet and the lock list with corresponding permissions to the mobile phone client, and the mobile phone client can only operate the switch cabinet and the lock list in the permission of the operation ticket, so that the operation controllability of the mobile phone client is realized.

4. The mobile phone client further confirms the selection operation of the corresponding door lock of the operation ticket and receives the return information of the switch cabinet server about the successful operation.

In addition, the user can carry out remote monitoring to the opening and closing state of the switch cabinet door lock in the authority through the mobile phone client. In one embodiment, the remote monitoring of the state of the switch cabinet door lock in the right of the mobile phone client specifically comprises the following steps:

1. the controller of the switch cabinet door lock sends an operation success to the switch cabinet server of the remote control end after receiving the control instruction of the switch cabinet server and the action of the relay and the operation success! The short message of one-switch-two-switch-three-switch-four, wherein the short message of one-switch-two-switch-three-switch-four is the state of four relays of the controller.

2. The switch cabinet server at the remote control end receives the operation success! And after the short message of one-switch two-switch three-switch four-switch, recording the door lock state of the switch cabinet in a corresponding switch cabinet door lock controller real-time state column of the database.

3. The mobile phone client APP can be connected with the server when logging in each time, the latest corresponding switch cabinet list and the state of a switch cabinet door lock are obtained, and the latest corresponding switch cabinet list and the state of the switch cabinet door lock are displayed. For example, if the switch cabinet a is in an open state at this time, the switch cabinet a in the door lock list is displayed as being opened, and the operation button of the switch cabinet a is displayed as being "closed", that is, if an operation is to be performed, an operation of closing the switch cabinet a is performed.

Next, a specific implementation process of the safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet provided by the invention will be described by taking the switch cabinet server provided by the invention as an example of a smart phone.

For the cubical switchboard server system of large-scale specialty, utilize cell-phone development cubical switchboard server, only need a smart mobile phone APP, the short message response of user's mobile client and cubical switchboard end can be managed simultaneously to the smart mobile phone, and hardware structure is simple, also need not to add the short message and receives and dispatches controller part again. On the other hand, the access frequency of the switch cabinet door lock server is low, and the embedded switch cabinet server (namely, a smart phone) can meet the requirement. As shown in fig. 3, the switch cabinet server mainly includes an SQLite database, a response to a client mobile phone access, a mutual communication with a controller of the switch cabinet end, a data processing by the switch cabinet server itself, and the like.

The SQlite database is a lightweight database, and compared with database management systems such as Mysql and PostgreSQL, the SQlite database has the advantages of high processing speed and good portability. The database mainly comprises a user table, an operation ticket table, a switch cabinet door lock table, an authority table, an operation record table, a time zone table, an abnormal condition table and the like. Through APP at the switch cabinet server side, various data tables can be directly accessed, inquired, edited, modified, deleted and updated, and management of various data is achieved.

The switch cabinet server is accessed to the Internet, and the mobile phone client APP accesses the Web browser to communicate with the switch cabinet server through an Http protocol. And a Web switch cabinet server built in the switch cabinet server monitors the service request of the browser, processes the user request and returns required data after receiving the request of the mobile phone client. The main process comprises the registration of a mobile phone client user, the updating of data (user end data) related to the user in a database, the response to the request of the user for remotely controlling the switch cabinet door lock controller and the like.

The switch cabinet server communicates with a switch cabinet controller at a switch cabinet end through a short message in a specific format by utilizing a GSM communication function built in a mobile phone, so that the functions of remote control (opening of a switch cabinet door), state access, password modification and the like of the switch cabinet controller are realized. The switch cabinet server sets different authorities for different users, and the mobile phone client can only remotely control the switch cabinet door lock in the authority of the operation ticket, so that the remote authority control of the switch cabinet server to the mobile phone client is realized. Because the mobile phone client APP accesses the switch cabinet server to carry out operation request, the control password and the SIM card number which directly control the switch cabinet controller are stored at the switch cabinet server, the leakage of the control password from the mobile phone client is effectively avoided, and the safety control of the switch cabinet is realized.

As shown in fig. 4, the switch cabinet server determines whether to receive the operator health index data, the operation ticket application, and the control request of the mobile phone client after starting the I-jetty service. Once it is determined that the operator health index data, the operation ticket application, and the control request have been received, the SQlite database is accessed, and the client's rights are analyzed, audited, and verified. And judging whether the client operation is allowed according to the auditing and verifying results. And if the judgment result is that the operation of the customer is allowed, accessing the SQlite database, automatically generating a short message with a specified format according to the switch cabinet and door lock number requested by the customer, and sending the short message with the specified format to the corresponding switch cabinet door lock controller. And after receiving the short message fed back from the switch cabinet controller, the switch cabinet door lock server analyzes the short message, simultaneously records the operation result into the SQlite database, and feeds back the operation result to the mobile phone client.

Based on the specific structure of the switch cabinet door lock controller provided by the invention, the specific implementation process of the safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet provided by the invention is explained.

As shown in fig. 5, the controller for the switch cabinet door lock of the present invention includes a minimum system of a single chip, a GSM module with a SIM card, a power module, and an output module. The switch cabinet door lock controller takes an STC89S52 singlechip as a core to form a minimum singlechip system, and is connected with a GSM communication TC35 module through a serial port of the singlechip. The power supply module provides different working voltages for the single chip microcomputer, the GSM module and the output control module so as to ensure that the switch cabinet door lock controller system works normally. The output module is connected with a corresponding P port of the single chip microcomputer, 4-channel switching value output is respectively used as the output module to carry out corresponding operation, four relays of the output module are respectively connected with P1.1, P1.2, P1.3 and P1.4 pins of the single chip microcomputer and are grounded, and when the P0.1, P0.2, P0.3 and P0.4 pins of the single chip microcomputer are in high level, the corresponding relays of the output module act to control the state of the switch cabinet door lock.

The switch cabinet door lock controller adopts a 4-channel relay to be connected into a door lock power supply control loop of an electromagnetic lock type, and the control of a corresponding switch cabinet door lock is completed through the action of a normally open and normally closed contact of the relay. After the GSM module TC35 with a communication SIM card of the switch cabinet door lock controller works normally, when receiving a short message with a specified format sent by a remote control end through a mobile base station, the short message with the specified format is transmitted to the single chip microcomputer through a serial port. The single chip microcomputer control program analyzes whether the information of the short message is correct or not, whether the short message code conforms to the control instruction format or not, if the short message code conforms to the specification, the relay is controlled to make corresponding action, the corresponding switch cabinet door lock opening action is completed, and after the operation is successful, the feedback short message is fed back to the switch cabinet server of the remote control end through the GSM.

For example: the switch cabinet server of the remote control end sends a short message format to the SIM card of the switch cabinet door lock controller:

"002211K 3H", wherein "002211" is the control password of the controller, "K" is the door opening command, and "3" is the port number of the controller. After the single chip program analyzes the format and the password of the short message to be correct, the No. 3 relay is actuated, and after the operation is successful, the operation success is sent to the remote controller! "short message.

The invention depends on APP software of the smart phone to send an operation request to the switch cabinet server through a wide area network, after the switch cabinet server judges the operation request, the mobile base station is used for sending GSM signals to the switch cabinet door lock controller at the front end of the switch cabinet, the switch cabinet door lock controller realizes door opening operation, and a plurality of door locks of a plurality of switch cabinets in an operation ticket and the same area can be controlled simultaneously. The operation that the staff utilized smart mobile phone control cubical switchboard lock, no card to open the door has been realized. The phenomenon that a new IC card needs to be taken back and forth or a maintenance person waits for rush repair due to the switch cabinet system is avoided. The labor cost and the vehicle cost are reduced, the efficiency of operating the switch cabinet is improved, and the intelligence of the Internet of things of the switch cabinet system is realized.

Corresponding to the safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet, the invention also provides a safety operation control method based on the man-machine bidirectional intelligent identification switch cabinet, as shown in fig. 6, the safety operation control method comprises the following steps:

step 100: health index data and operation tickets are obtained. The health index data includes: electrocardiographic monitoring, heart rate monitoring, blood pressure monitoring, blood oxygen monitoring, fatigue monitoring and HRV health index.

Step 101: and generating a control request according to the health index data and the operation ticket.

Step 102: and generating a control instruction according to the control request.

Step 103: and controlling the opening and closing of the switch cabinet door lock according to the control instruction.

Further, in order to improve the safety of users, the safety operation control method based on the man-machine bidirectional intelligent identification switch cabinet provided by the invention preferably further comprises the following steps:

user registration information of an operator is acquired. The user registration information includes: user identity information, a user login account and a user login password.

And performing information authentication on the operator according to the user registration information.

The safety operation control method comprises the following specific implementation processes:

the user accesses the switch cabinet server from the mobile phone client through the Internet to send a control request to the switch cabinet server by using the health index detection data and the operation ticket in the intelligent bracelet, receives feedback information from the switch cabinet server, carries out voice prompt on the content and steps in the operation ticket, and confirms the completion condition of each link.

The switch cabinet server accesses the internal database after receiving the control request sent by the user, and sends a control instruction to the switch cabinet door lock controller through GSM after making the judgment of the request authority state.

And the switch cabinet door lock controller controls the corresponding switch cabinet door lock after receiving the control instruction sent by the switch cabinet server, and sends feedback information to the switch cabinet server after completing the corresponding operation.

Further when the user uses, the safety operation control method based on the man-machine bidirectional intelligent identification switch cabinet preferably further comprises the following steps:

the user registers at the mobile phone client through the mobile phone number.

And the switch cabinet server manually checks the information and feeds back a registration result.

And after the successful registration is confirmed, the user enters an operation interface after inputting the password.

Further, the safety operation control method based on the man-machine bidirectional intelligent identification switch cabinet preferably further comprises the step that a user carries out remote monitoring on the opening and closing state of the switch cabinet door lock in the authority limit from a mobile phone client.

Further, the safety operation control method based on the man-machine bidirectional intelligent identification switch cabinet preferably further comprises the step that the switch cabinet server updates the mobile phone user end data in the database.

In summary, compared with the prior art, the safety operation control system and method based on the man-machine bidirectional intelligent identification switch cabinet provided by the invention have the following advantages:

1. the switch cabinet door lock controller takes a GSM network as a data transmission network, can realize the control of the switch cabinet door lock by only one short message, does not need to use a specific fussy switch cabinet door lock system, and is convenient for workers to use. The GSM short message system is used for wireless communication, so that the bidirectional data transmission function is realized, the performance is stable, and the remote control of the switch cabinet door lock is realized.

2. An operator can remotely monitor the opening and closing state of the switch cabinet door lock in the operation ticket authority through the mobile phone client.

3. Compared with the switch cabinet system used at present, the switch cabinet system reduces the devices such as card readers, zone controllers, complex protection mechanisms and the like, is simple in field wiring, low in cost, less affected by the environment and high in economical practicability.

4. The mobile phone client side mobile phone APP is registered through the mobile phone number, the mobile phone client side APP can only obtain corresponding lists of the switch cabinet and the door lock for controlling the authority given by the switch cabinet server in the operation ticket, and the switch cabinet server achieves authority management and limitation on the switch cabinet door lock.

5. The control password and the SIM card number of the switch cabinet controller are stored in the switch cabinet server, so that the safety management of the switch cabinet control is realized.

6. Through intelligent bracelet detection, lead to cell-phone client with operating personnel's health index and send the cubical switchboard server, the health index that can real-time supervision personnel has avoided operating personnel because of maloperation, the missed operation that the not good result in of mental state.

7. The system adds operation steps and content voice prompt in the operation ticket and confirmation work after completion of each link, thereby not only playing a role in prompting the action and content of each link of an operator, but also playing a role in supervising the completion condition of each link, further well avoiding misoperation, misoperation and operation omission and playing a good role in safety protection of personnel and equipment.

8. The operation ticket can be handled on the mobile phone client, is audited on the switch cabinet server, is standardized to be filled, optimizes the application and approval process of the operation ticket, greatly saves the application and approval time of personnel, realizes green office and improves the handling efficiency.

9. The invention realizes the monitoring of the whole process of the operation ticket, the closed-loop control of the opening and closing control of the door lock of the switch cabinet, the real-time monitoring of the state of the switch cabinet door and the full-closed-loop control of the operation process of the on-duty responsible person monitoring the field operation personnel in the whole process, thereby effectively avoiding the occurrence of safety accidents of personnel and equipment.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The method disclosed by the embodiment corresponds to the system disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the description of the method part.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (9)

1. The utility model provides a safe operation control system based on two-way intelligent recognition cubical switchboard of man-machine which characterized in that includes:

the intelligent bracelet is used for detecting health index data of field operators;

the mobile phone client is in wireless connection with the intelligent bracelet, is used for acquiring the health index data, generating an operation ticket and generating a control request according to the health index data and the operation ticket;

the switch cabinet server is connected with the mobile phone client through a network, is used for providing operation order information, generating a control instruction according to the control request and generating an alarm signal when standard exceeding data exists in the health index data; the operation ticket information includes: the method comprises the steps of obtaining working time information of an operator, location information of the operator and SIM (subscriber identity module) information of the operator;

and the switch cabinet door lock controller is wirelessly connected with the switch cabinet server, is used for controlling the switch cabinet door lock to be opened and closed according to the control instruction, and is also used for sending feedback information to the switch cabinet server after the switch cabinet door lock is opened and closed.

2. The safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet according to claim 1, wherein the mobile phone client is a smart phone based on an Android intelligent operating system.

3. The system of claim 1, wherein the switch cabinet server comprises:

the internal database is used for storing one or more of a user table, health index data, an operation ticket, a switch cabinet table, a switch cabinet door lock table, an authority table, an operation record table, a time zone table and an abnormal condition table;

and the examination and approval platform is in network connection with the internal database and the mobile phone client and is used for generating a control instruction according to the control request.

4. The human-machine bi-directional intelligent recognition switch cabinet based safety operation control system of claim 3, wherein the internal database is a SQlite database.

5. The safety operation control system based on the man-machine bidirectional intelligent identification switch cabinet as claimed in claim 1, wherein the switch cabinet door lock controller comprises: the device comprises a singlechip, a GSM module, a power supply module and an output module;

the single chip microcomputer is connected with the GSM module through a serial port; the power supply module respectively provides electric energy for the singlechip, the GSM module and the output module; the output module is electrically connected with the single chip microcomputer.

6. The safety operation control system based on the human-machine bidirectional intelligent identification switch cabinet as claimed in claim 5, wherein the single chip microcomputer is STC89S52 single chip microcomputer.

7. The system for controlling safe operation based on the man-machine bidirectional intelligent identification switch cabinet is characterized in that the GSM module is a GSM communication TC35 module.

8. A safe operation control method based on a man-machine bidirectional intelligent identification switch cabinet is characterized by being applied to the safe operation control system based on the man-machine bidirectional intelligent identification switch cabinet as claimed in any one of claims 1 to 7; the safety operation control method includes:

acquiring health index data and an operation ticket; the health index data includes: electrocardiographic monitoring, heart rate monitoring, blood pressure monitoring, blood oxygen monitoring, fatigue monitoring and HRV health index;

generating a control request according to the health index data and the operation ticket;

generating a control instruction according to the control request;

and controlling the opening and closing of the switch cabinet door lock according to the control instruction.

9. The safety operation control method based on the man-machine bidirectional intelligent identification switch cabinet according to claim 8, characterized by further comprising:

acquiring user registration information of an operator; the user registration information includes: user identity information, a user login account and a user login password;

and performing information authentication on the operator according to the user registration information.

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