CN115511393B - Coal mine production environment monitoring method and device - Google Patents

Abstract

The application provides a method and a device for monitoring a coal mine production environment, wherein the method comprises the following steps: generating and sending a corresponding task worksheet containing a plurality of monitoring object identifiers and monitoring items related to each monitoring object identifier to the first terminal equipment according to the monitoring configuration information; when the distance between the first position of the first terminal equipment and the second position of the second terminal equipment associated with any monitoring object identifier is smaller than a first threshold value, the monitoring object identifier corresponding to any second position is sent to the first terminal equipment; and receiving an inspection report of the inspection item associated with the inspection object identifier corresponding to any second position, which is sent by the first terminal equipment. Therefore, the server sends the task work order generated according to the monitoring configuration information and the monitoring object identifier corresponding to the second terminal equipment of which the distance from the first terminal equipment is smaller than the threshold value to the first terminal equipment, and the first terminal equipment accurately and comprehensively displays the monitoring items of the second terminal equipment. The reliability of coal mine production environment monitoring is improved.

Description

Coal mine production environment monitoring method and device

Technical Field

The disclosure relates to the technical field of coal mines, in particular to a coal mine production environment monitoring method and device.

Background

In order to ensure the safe generation of the coal mine, safety monitoring personnel need to monitor the production environment of the coal mine, discover potential risks in time and avoid safety accidents.

However, due to the complex environment of the mine, numerous devices, fast updating of the devices, limited professional knowledge reserves of the safety monitoring personnel, potential safety hazards may be omitted by the safety monitoring personnel, and safety accidents may occur.

Disclosure of Invention

The disclosure provides a coal mine production environment monitoring method and a coal mine production environment monitoring device. The specific scheme is as follows:

an embodiment of the disclosure provides a coal mine production environment monitoring method, which is executed by a server and comprises the following steps:

generating and sending a task work order corresponding to the first terminal device according to preset supervision configuration information, wherein the task work order is generated according to the preset supervision configuration information and comprises a plurality of supervision object identifiers and at least one supervision item associated with each supervision object identifier;

acquiring a first position of first terminal equipment and a second position of second terminal equipment associated with each monitoring object identifier;

in response to the fact that the distance between the first position and any one second position is smaller than a first threshold value, sending a monitoring object identifier corresponding to any one second position to the first terminal equipment;

and receiving an inspection report of the inspection items associated with the inspection object identifier corresponding to any second position sent by the first terminal equipment.

Another embodiment of the present disclosure provides a method for monitoring a coal mine production environment, which is executed by a first terminal device, and the method includes:

receiving and displaying a task work order sent by a server in a display interface, wherein the task work order is generated by the server according to preset monitoring configuration information and comprises a plurality of first monitoring object identifiers and at least one monitoring item associated with each first monitoring object identifier;

receiving a second monitoring object identifier sent by the server;

acquiring and displaying the monitoring items related to the second monitoring object identifier in response to the fact that the second monitoring object identifier is the same as any one of the first monitoring object identifiers;

responding to the triggering of a first control in a display interface, and acquiring feedback information of the monitoring items associated with a second monitoring object identifier in an editing control in the display interface;

and responding to the acquired feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to the server.

An embodiment of another aspect of the present disclosure provides a monitoring device for a coal mine production environment, where the monitoring device is applied to a server, and includes:

the generating module is used for generating and sending a task work order corresponding to the first terminal device according to preset supervision configuration information, wherein the task work order is generated according to the preset supervision configuration information, and the task work order comprises a plurality of supervision object identifiers and at least one supervision item associated with each supervision object identifier;

the acquisition module is used for acquiring a first position of the first terminal equipment and a second position of the second terminal equipment associated with each monitoring object identifier;

the sending module is used for responding that the distance between the first position and any second position is smaller than a first threshold value, and sending the monitoring object identifier corresponding to any second position to the first terminal equipment;

and the receiving module is used for receiving a supervision report of supervision matters associated with the supervision object identifier corresponding to any second position, which is sent by the first terminal equipment.

An embodiment of another aspect of the present disclosure provides a monitoring apparatus for a coal mine production environment, where the apparatus is applied to a first terminal device, and includes:

the system comprises a receiving module, a processing module and a display module, wherein the receiving module is used for receiving and displaying a task work order sent by a server in a display interface, the task work order is generated by the server according to preset monitoring configuration information, and the task work order comprises a plurality of first monitoring object identifiers and at least one monitoring item associated with each first monitoring object identifier;

the receiving module is configured to receive a second monitoring object identifier sent by the server;

the acquisition module is used for responding to the fact that the second monitoring object identifier is the same as any first monitoring object identifier, and acquiring and displaying monitoring items related to the second monitoring object identifier;

the obtaining module is configured to obtain feedback information of a monitoring item associated with a second monitoring object identifier in an editing control in the display interface in response to the first control in the display interface being triggered;

and the generating module is used for responding to the acquired feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to the server.

Another embodiment of the present disclosure provides a computer device, comprising a processor and a memory;

wherein the processor runs a program corresponding to the executable program code by reading the executable program code stored in the memory for implementing the method as the above embodiment.

Another embodiment of the present disclosure provides a computer-readable storage medium, on which a computer program is stored, wherein the computer program is configured to implement the method according to the above embodiment when executed by a processor.

Additional aspects and advantages of the disclosure will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the disclosure.

Drawings

The foregoing and/or additional aspects and advantages of the present disclosure will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic flow chart of a method for monitoring a coal mine production environment according to an embodiment of the present disclosure;

FIG. 2 is a schematic flow chart of another coal mine production environment monitoring method provided by the embodiment of the disclosure;

FIG. 3 is a schematic flow chart of another coal mine production environment monitoring method provided by the embodiment of the disclosure;

FIG. 4 is a schematic flow chart of another coal mine production environment monitoring method provided by the embodiment of the disclosure;

FIG. 5 is a schematic flow chart of another coal mine production environment monitoring method provided by the embodiment of the disclosure;

FIG. 6 is a schematic flow chart of another coal mine production environment monitoring method provided by the embodiment of the disclosure;

fig. 7 is a schematic structural diagram of a monitoring device for a coal mine production environment according to an embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of another monitoring device for a coal mine production environment according to an embodiment of the present disclosure.

Detailed Description

Reference will now be made in detail to the embodiments of the present disclosure, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be illustrative of the present disclosure, and should not be construed as limiting the present disclosure.

Monitoring the coal mine production environment is an important mode for guaranteeing the safety production of the coal mine. Safety monitoring personnel perform related law enforcement activities in a manual inquiry mode on site, and the law enforcement personnel are required to have higher professional knowledge. Because the environment of the mine is complicated, the equipment is numerous, the equipment is updated quickly, and safety monitoring personnel easily omit potential safety hazards, resulting in the occurrence of safety accidents.

According to the method and the system, the server sends a task worksheet which is generated according to the monitoring configuration information and contains a plurality of monitoring object identifiers and at least one monitoring item associated with each monitoring object identifier to the first terminal device, and then when the distance between the first terminal device and the second terminal device associated with any monitoring object identifier is smaller than a threshold value, any monitoring object identifier is sent to the first terminal device, and the first terminal device can accurately and comprehensively display the monitoring items. Thereby avoiding missing potential safety hazards and improving the reliability of coal mine production environment supervision.

The method for monitoring a coal mine production environment according to the embodiment of the present disclosure is described below with reference to the drawings.

Fig. 1 is a schematic flow chart of a coal mine production environment monitoring method according to an embodiment of the present disclosure.

The coal mine production environment monitoring method provided by the embodiment of the disclosure is executed by a coal mine production environment monitoring device (hereinafter referred to as a monitoring device for short) provided by the embodiment of the disclosure, and the device can be configured in computer equipment and terminal equipment to monitor the coal mine production environment and improve the reliability of coal mine production environment monitoring.

As shown in fig. 1, the monitoring method for the coal mine production environment is executed by a server, and comprises the following steps:

step 101, generating and sending a task work order corresponding to the first terminal device according to preset supervision configuration information, wherein the task work order is generated according to the preset supervision configuration information, and the task work order comprises a plurality of supervision object identifiers and at least one supervision item associated with each supervision object identifier.

The first terminal device is a terminal device corresponding to a safety monitoring person. The monitoring configuration information may include information such as an association relationship between each monitored object identifier and a safety monitoring person, and a time for generating a task work order corresponding to each safety monitoring person. The monitoring object can be anything in a coal mine, such as equipment in the coal mine, or a coal seam at a certain position, and the like. The identifier of the surveillance object may be any information that can uniquely determine the surveillance object, and the present disclosure does not limit this.

In the system, the monitoring items corresponding to all monitoring objects in the coal mine production environment can be stored. When the time of generating the task work order corresponding to each safety supervisor arrives, the system can determine a plurality of supervisory object identifiers corresponding to the safety supervisors according to the association relationship between each supervisory object identifier and the safety supervisor in the supervisory configuration information, and acquire at least one supervisory item associated with each supervisory object identifier. And then, generating a task work order corresponding to the safety monitoring personnel according to the plurality of monitoring object identifiers corresponding to the safety monitoring personnel and at least one monitoring item associated with each monitoring object identifier, and sending the task work order to the first terminal equipment corresponding to the safety monitoring personnel. Therefore, safety monitoring personnel can verify the monitoring items corresponding to each monitoring object one by one according to the task work order so as to avoid omission of the monitoring items and improve the reliability of coal mine production environment monitoring.

In addition, when the monitoring object changes in the coal mine production environment or the monitoring items corresponding to the monitoring object change, the monitoring items corresponding to the monitoring objects stored in the system can be updated in time, so that the omission of the monitoring items is avoided, and the reliability of coal mine production environment monitoring is improved.

Optionally, the task work order further includes a target location associated with each inspection object identifier. The position of the monitoring object is indicated, and the monitoring object can be conveniently and quickly positioned by safety monitoring personnel.

Step 102, a first position of the first terminal device and a second position of the second terminal device associated with each monitoring object identifier are obtained.

The second terminal device is a terminal device corresponding to a production person or a safety technician.

In the disclosure, the production personnel and the safety technical personnel at the front line of the underground coal mine have the most intuitive judgment on the safety hidden trouble of the coal mine. Therefore, the security supervisor can be guided to inquire about the supervision matters of the supervision object familiar to the production personnel or the security technician, and the reliability of supervision can be improved.

In this disclosure, in the process of security monitoring by security personnel, the system may obtain the first position of the first terminal device and the second position of the second terminal device associated with each monitored object identifier in real time, so that when the security monitoring personnel encounter a production personnel or a security technician corresponding to any monitored object, the monitored object identifier corresponding to the production personnel or the security technician is sent to the first terminal device.

And 103, in response to that the distance between the first position and any second position is smaller than a first threshold value, sending the monitoring object identifier corresponding to any second position to the first terminal device.

In the present disclosure, when the distance between the first location and any one of the second locations is smaller than the first threshold, it indicates that the safety monitoring person approaches the production person or the safety technician corresponding to the second location. At this time, the monitoring object identifier associated with the second terminal device corresponding to the second position may be sent to the first terminal device. And then, the first terminal device can display the monitoring item corresponding to the monitoring object identifier. Therefore, the safety supervision personnel can accurately inquire the supervision items familiar to the production personnel or the safety technical personnel, thereby improving the reliability of the supervision of the coal mine production environment.

And 104, receiving a supervision report of supervision matters associated with the supervision object identifier corresponding to any second position sent by the first terminal equipment.

In the present disclosure, after receiving the identifier of the monitored object sent by the server, the first terminal device may obtain and display the monitored item corresponding to the identifier of the monitored object. And then, the safety monitoring personnel edit the feedback information corresponding to the monitoring item in an editing control in the display interface of the first terminal equipment. After the safety monitor finishes editing the feedback information, the safety monitor can click and trigger a storage control in the display interface. When the first terminal device monitors that the saving control is triggered, the feedback information of the monitoring item in the editing control can be obtained. And then, according to a preset format, generating a monitoring report of the monitoring item according to the feedback information of the monitoring item and the monitoring object identifier corresponding to the monitoring item, and sending the monitoring report to a server. Therefore, the server can receive the supervision report of the supervision matters related to the supervision object identifier corresponding to any second position sent by the first terminal equipment.

According to the method, after a task worksheet which is corresponding to a first terminal device and comprises a plurality of monitoring object identifiers and at least one monitoring item related to each monitoring object identifier is generated and sent to the first terminal device according to preset monitoring configuration information, a first position of the first terminal device and a second position of a second terminal device related to each monitoring object identifier are obtained, the monitoring object identifier corresponding to any second position is sent to the first terminal device under the condition that the distance between the first position and any second position is smaller than a first threshold value, and then a monitoring report of the monitoring item related to the monitoring object identifier corresponding to any second position sent by the first terminal device can be received. Therefore, the server sends the task work order generated according to the monitoring configuration information and the monitoring object identifier corresponding to the second terminal equipment of which the distance from the first terminal equipment is smaller than the threshold value to the first terminal equipment, and the first terminal equipment can accurately and comprehensively display the monitoring items corresponding to the second terminal equipment. Thereby avoiding missing potential safety hazards and improving the reliability of coal mine production environment supervision.

Fig. 2 is a schematic flow chart of a method for monitoring a coal mine production environment according to an embodiment of the present disclosure.

As shown in fig. 2, the monitoring method for the coal mine production environment is executed by a server, and the method comprises the following steps:

step 201, generating and sending a task work order corresponding to the first terminal device according to the preset supervision configuration information, wherein the task work order is generated according to the preset supervision configuration information, and the task work order comprises a plurality of supervision object identifiers and at least one supervision item associated with each supervision object identifier.

Step 202, a first position of the first terminal device and a second position of the second terminal device associated with each monitored object identifier are obtained.

Step 203, in response to that the distance between the first position and any one of the second positions is smaller than the first threshold, sending the monitoring object identifier corresponding to any one of the second positions to the first terminal device.

Step 204, receiving the supervision report of the supervision matters associated with the supervision object identifier corresponding to any one of the second locations sent by the first terminal device.

In the present disclosure, the specific implementation process of steps 201 to 204 may refer to the detailed description of any embodiment of the present disclosure, and is not described herein again.

Step 205, in response to that the distance between the first position and the target position associated with any monitoring object identifier is smaller than the second threshold and the monitoring report of the monitoring item associated with any monitoring object identifier is not received, sending any monitoring object identifier to the first terminal device.

In this disclosure, when the distance between the first position and the target position associated with any monitoring object identifier is smaller than the second threshold value and the monitoring report of the monitoring item associated with any monitoring object identifier is not received, it indicates that the safety monitoring staff reaches the target position of the monitoring object, but does not complete monitoring of the monitoring object. At this time, the identifier of the monitored object can be automatically sent to the first terminal device. And then, the first terminal equipment can acquire and display the monitoring items associated with the monitoring object identifier, so that the safety monitoring personnel can complete monitoring on the monitoring object. Therefore, the efficiency of coal mine production environment monitoring is improved.

Step 206, receiving the supervision report of the supervision matters associated with any supervision object identifier sent by the first terminal device.

In the present disclosure, the specific implementation process of step 206 may refer to the detailed description of any embodiment of the present disclosure, and is not described herein again.

According to the method and the system, the server sends the task work order generated according to the monitoring configuration information and the monitoring object identifier corresponding to the second terminal equipment of which the distance from the first terminal equipment is smaller than the threshold value to the first terminal equipment, and the first terminal equipment can accurately and comprehensively display the monitoring items corresponding to the second terminal equipment. Thereby avoiding missing potential safety hazards and improving the reliability of coal mine production environment supervision.

Fig. 3 is a schematic flow chart of a method for monitoring a coal mine production environment according to an embodiment of the present disclosure.

As shown in fig. 3, the monitoring of the coal mine production environment is performed by a first terminal device, and the method comprises the following steps:

step 301, receiving and displaying a task work order sent by a server in a display interface, wherein the task work order is generated by the server according to preset supervision configuration information, and the task work order comprises a plurality of first supervision object identifiers and at least one supervision item associated with each first supervision object identifier.

The first terminal device is a terminal device corresponding to a safety monitoring person. The monitoring configuration information may include information such as an association relationship between each monitored object identifier and a safety monitoring person, and a time for generating a task work order corresponding to each safety monitoring person. The monitoring object can be anything in a coal mine, such as equipment in the coal mine, or a coal seam at a certain position, and the like. The monitoring object identifier may be any information that can uniquely determine the monitoring object, and the present disclosure does not limit this.

In the present disclosure, the server may store the monitoring items corresponding to each monitored object in the coal mine production environment. When the time for generating the task work order corresponding to each safety supervisor arrives, the server may determine a plurality of first supervisor identifiers corresponding to the safety supervisors according to the association relationship between each supervisor identifier and the safety supervisor in the supervision configuration information, and obtain at least one supervision item associated with each first supervisor identifier. Then, the server may generate a task work order corresponding to the security supervisor according to the plurality of first supervisor object identifiers and at least one supervisor item associated with each first supervisor object identifier, and send the task work order to the first terminal device corresponding to the security supervisor. Therefore, the first terminal device can receive the task work order sent by the server and display the task work order in the display interface. The safety monitoring personnel can check the monitoring items respectively corresponding to each first monitoring object identifier one by one according to the task work order so as to avoid omission of the monitoring items and improve the reliability of coal mine production environment monitoring.

In addition, when the monitoring object changes in the coal mine production environment or the monitoring items corresponding to the monitoring object change, the monitoring items corresponding to the monitoring objects stored in the system can be updated in time, so that the omission of the monitoring items is avoided, and the reliability of coal mine production environment monitoring is improved.

Optionally, the task work order further includes a target location associated with each first inspection object identifier. The position of the monitoring object is indicated, and the monitoring object can be conveniently and quickly positioned by safety monitoring personnel.

Optionally, because the underground environment of the mine is complex, safety inspectors who are unfamiliar with the underground environment are difficult to quickly find the objects to be inspected. The safety monitoring personnel can trigger a fifth control in the display interface of the first terminal device by clicking. And then, when the first terminal device monitors that the fifth control is triggered, generating and displaying route guide information in real time according to each target position and the current position of the first terminal device. The safety monitoring personnel are indicated to quickly position each monitoring object, and the monitoring efficiency is improved. And the fifth control is used for triggering generation of the route guide information. The current position of the first terminal equipment can be obtained in real time through a positioning device in the first terminal equipment.

Step 302, receiving the second monitoring object identifier sent by the server.

In the disclosure, the production personnel and the safety technical personnel at the front line of the underground coal mine have the most intuitive judgment on the safety hidden trouble of the coal mine. Therefore, the security supervisor can be guided to inquire about the supervision matters of the supervision object familiar to the production personnel or the security technician, and the reliability of supervision can be improved.

In the disclosure, when security personnel perform security monitoring, the server may obtain, in real time, a first position of the first terminal device and a second position of the second terminal device associated with each monitoring object identifier, where a distance between the first position and any one of the second positions is smaller than a first threshold, and the server sends the monitoring object identifier corresponding to any one of the second positions to the first terminal device. Thus, the first terminal device can receive the second monitoring object identifier sent by the server. The second terminal device is a terminal device corresponding to a production person or a safety technician.

Optionally, when the server monitors that the distance between the first position and the target position associated with any monitoring object identifier is smaller than the second threshold and does not receive the monitoring report of the monitoring item associated with any monitoring object identifier, it indicates that the security monitoring person reaches the target position of the monitoring object, but does not complete monitoring of the monitoring object. At this time, the server may automatically send any one of the monitored object identifiers to the first terminal device. Thus, the first terminal device can receive the second monitoring object identifier sent by the server.

And 303, in response to that the second monitored object identifier is the same as any one of the first monitored object identifiers, acquiring and displaying the monitored item associated with the second monitored object identifier.

In this disclosure, first terminal equipment can compare second surveillance object sign with every first surveillance object sign respectively, and when second surveillance object sign is the same with arbitrary first surveillance object sign, can obtain and show the surveillance item that second surveillance object sign is relevant to guide safety monitoring personnel to accomplish the surveillance to this surveillance object. Therefore, omission of supervision items is avoided, and the reliability of coal mine production environment supervision is improved.

And 304, in response to the triggering of the first control in the display interface, acquiring feedback information of the monitoring item associated with the second monitoring object identifier in the editing control in the display interface.

The first control is a storage control for the feedback information of the monitoring item.

In this disclosure, the security inspector may edit the feedback information corresponding to the inspection item in the editing control in the display interface of the first terminal device. After the safety monitor finishes editing the feedback information, a first control in the display interface can be triggered by clicking. When the first terminal device monitors that the first control is triggered, feedback information of monitoring items in the editing control can be obtained.

And 305, in response to the feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to a server.

In this disclosure, after obtaining the feedback information of the monitoring item associated with each first monitoring object identifier, the first terminal device may generate a monitoring report according to the preset format and the feedback information of the monitoring item associated with each first monitoring object identifier, and send the monitoring report to the server.

Or, each time the first terminal device acquires the monitoring item corresponding to any first monitoring object identifier, the first terminal device may generate, according to a preset format, a monitoring report corresponding to any first monitoring object identifier according to the feedback information of the monitoring item associated with any first monitoring object identifier, and send the monitoring report to the server.

According to the monitoring method and the monitoring system, after a task work order which is sent by a server and contains a plurality of first monitoring object identifiers and at least one monitoring item related to each first monitoring object identifier is received and displayed in a display interface, a second monitoring object identifier sent by the server can be received, then the monitoring item related to the second monitoring object identifier is obtained and displayed when the second monitoring object identifier is the same as any one of the first monitoring object identifiers, feedback information of the monitoring item related to the second monitoring object identifier in an editing control in the display interface is obtained under the condition that the first control in the display interface is triggered, and under the condition that the feedback information of the monitoring item related to each first monitoring object identifier is obtained, a monitoring report is generated according to the feedback information of the monitoring item related to each first monitoring object identifier and is sent to the server. Therefore, the receiving server can accurately and comprehensively display the monitoring items related to the second monitoring object identifier according to the task work order and the second monitoring object identifier generated by the monitoring configuration information. Thereby safety monitoring personnel can monitor the coal mine production environment comprehensively and accurately, avoid omitting potential safety hazards, and improve the reliability of coal mine production environment monitoring.

Fig. 4 is a schematic flow chart of a coal mine production environment monitoring method according to an embodiment of the present disclosure.

As shown in fig. 4, the monitoring of the coal mine production environment is performed by a first terminal device, and the method includes:

step 401, receiving and displaying a task work order sent by a server in a display interface, wherein the task work order is generated by the server according to preset supervision configuration information, and the task work order comprises a plurality of first supervision object identifiers and at least one supervision item associated with each first supervision object identifier.

And 402, receiving a second monitoring object identifier sent by the server.

And step 403, acquiring the monitoring items associated with the second monitoring object identifier in response to that the second monitoring object identifier is the same as any one of the first monitoring object identifiers.

In the present disclosure, the specific implementation process of steps 401 to 403 may refer to the detailed description of any embodiment of the present disclosure, and is not described herein again.

Step 404, obtaining the three-dimensional model associated with the second monitoring object identifier, and the corresponding relationship between each monitoring item associated with the second monitoring object identifier and each component in the three-dimensional model.

In the present disclosure, the corresponding monitoring content of different monitoring items may be different. For example, the supervision item 1 of the power box is to determine whether the explosion-proof certificate number is expired, and the supervision item 2 of the power box is to determine whether the safety mark certificate is expired. In order to facilitate the safety supervision personnel to quickly complete each supervision item, a three-dimensional model of the supervision object can be constructed, and the position corresponding to each supervision item is marked in the three-dimensional model so as to indicate the safety supervision personnel to quickly find the position in the supervision object corresponding to the supervision item.

In the present disclosure, a three-dimensional model of each monitored object may be constructed in advance, and the three-dimensional model and the corresponding first monitored object identifier may be stored in association. And the corresponding relation between each monitoring item and each part in the three-dimensional model is preset in the system. So as to conveniently display each component in the three-dimensional model and the supervision matters in a related mode.

Optionally, the three-dimensional model associated with the second monitoring object identifier may also be sent to the first terminal device by the server. The corresponding relation between each monitoring item associated with the second monitoring object identifier and each component in the three-dimensional model can also be sent to the first terminal equipment by the server.

And 405, generating a second control corresponding to the supervision matters at each part position in the three-dimensional model according to the corresponding relation.

In the disclosure, according to the corresponding relationship between each monitoring item associated with the second monitoring object identifier and each component in the three-dimensional model, the second control corresponding to the monitoring item can be generated at each component position in the three-dimensional model, so that the safety monitoring personnel can conveniently check the monitoring items corresponding to each component of the monitoring object.

And 406, displaying the three-dimensional model and the second control in the display interface.

Step 407, in response to any second control being triggered, acquiring and displaying the monitoring item associated with any second control.

In the present disclosure, when the security monitor can click and trigger any second control in the display interface of the first terminal device, and when the first terminal device monitors that any second control is triggered, the monitoring item associated with any second control can be obtained and displayed. The efficiency of the supervision of colliery production environment has been improved.

And step 408, in response to the triggering of the first control in the display interface, obtaining feedback information of the monitoring item associated with the second monitoring object identifier in the editing control in the display interface.

Step 409, in response to the feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to the server.

In the present disclosure, the specific implementation process of steps 408 to 409 may refer to the detailed description of any embodiment of the present disclosure, and is not described herein again.

According to the monitoring method and the monitoring system, the task work order and the second monitoring object identifier generated by the server according to the monitoring configuration information are received, and the monitoring items related to the monitoring object identifiers can be accurately and comprehensively displayed. Therefore, safety monitoring personnel can comprehensively and accurately monitor the coal mine production environment, potential safety hazards are avoided being omitted, and the reliability of monitoring the coal mine production environment is improved.

Fig. 5 is a schematic flow chart of a method for monitoring a coal mine production environment according to an embodiment of the present disclosure.

As shown in fig. 5, the monitoring of the coal mine production environment is performed by a first terminal device, and the method comprises the following steps:

step 501, receiving and displaying a task work order sent by a server in a display interface, wherein the task work order is generated by the server according to preset supervision configuration information and comprises a plurality of first supervision object identifiers and at least one supervision item associated with each first supervision object identifier.

And 502, receiving a second monitoring object identifier sent by the server.

Step 503, in response to that the second supervised object identifier is the same as any of the first supervised object identifiers, acquiring the supervised items associated with the second supervised object identifier.

And step 504, responding to the triggering of the first control in the display interface, and acquiring feedback information of the monitoring item associated with the second monitoring object identifier in the editing control in the display interface.

In the present disclosure, the specific implementation process of step 501 to step 504 may refer to the detailed description of any embodiment of the present disclosure, and is not described herein again.

And 505, in response to the third control in the display interface being triggered, generating and displaying a fourth control corresponding to each first monitored object identifier.

The third control is used for triggering generation of a fourth control corresponding to each monitoring object identifier.

In the disclosure, the safety monitoring personnel are familiar with the underground environment and do not need to monitor the monitoring items displayed in the display interface one by one when being familiar with the monitoring items. In order to improve the monitoring efficiency, the safety monitoring personnel may edit the feedback information corresponding to each monitoring item after completing monitoring on a plurality of monitoring objects at the same time. At this time, after the safety monitoring personnel complete monitoring of the plurality of monitoring objects, the safety monitoring personnel can click a third control in the trigger display interface. And then, after monitoring that the third control is triggered, the first terminal device may generate a corresponding fourth control for each first monitored object identifier in the task work order, and display the fourth control corresponding to each first monitored object identifier in a display interface. So that the safety monitoring personnel can select the monitoring object.

Step 506, in response to any fourth control being triggered, acquiring and displaying the monitoring item associated with any fourth control.

In the present disclosure, the security inspector may click and trigger the fourth control corresponding to the identifier of the inspected object to be selected. And after monitoring that the fourth control is triggered, the first terminal device can acquire and display the monitoring item associated with the fourth control.

Step 507, in response to the first control in the display interface being triggered, obtaining feedback information of the monitoring item associated with any fourth control in the editing controls in the display interface.

And step 508, in response to the feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to a server.

In the present disclosure, the specific implementation process of steps 507 to 509 may refer to the detailed description of any implementation example in the present disclosure, and is not repeated herein.

According to the monitoring method and the monitoring system, the task work order and the second monitoring object identifier generated by the server according to the monitoring configuration information are received, and the monitoring items related to the monitoring object identifiers can be accurately and comprehensively displayed. Therefore, safety monitoring personnel can comprehensively and accurately monitor the coal mine production environment, potential safety hazards are avoided being omitted, and the reliability of monitoring the coal mine production environment is improved.

Fig. 6 is a schematic flow chart of a method for monitoring a coal mine production environment according to an embodiment of the present disclosure.

As shown in fig. 6, the monitoring of the coal mine production environment is performed by a first terminal device, and the method includes:

step 601, receiving and displaying a task work order sent by a server in a display interface, wherein the task work order is generated by the server according to preset supervision configuration information, and the task work order comprises a plurality of first supervision object identifiers and at least one supervision item associated with each first supervision object identifier.

Step 602, receiving the second monitoring object identifier sent by the server.

Step 603, in response to that the second monitored object identifier is the same as any one of the first monitored object identifiers, acquiring the monitored item associated with the second monitored object identifier.

Step 604, in response to the first control in the display interface being triggered, obtaining feedback information of the monitoring item associated with the second monitoring object identifier in the editing control in the display interface.

In the present disclosure, the detailed implementation process of steps 601 to 604 may refer to the detailed description of any embodiment of the present disclosure, and is not repeated herein.

Step 605, obtain a voice command.

In the present disclosure, when the safety monitoring personnel need to monitor other monitoring objects, the safety monitoring personnel can input voice to indicate the selected monitoring object. Therefore, the first terminal equipment can acquire the voice instruction recorded by the safety monitoring personnel.

Step 606, performing voice recognition on the voice command to determine the keywords contained in the voice command.

In the disclosure, the first terminal device identifies the voice command by using a preset voice recognition model, and obtains a keyword output by the voice recognition model.

Step 607, matching the keyword with each first surveillance object identifier to determine the matching degree of the keyword and each first surveillance object identifier.

In the disclosure, the fuzzy matching can be performed on the keyword and each first surveillance object identifier according to a preset fuzzy matching model, so as to obtain the matching degree between the keyword output by the fuzzy matching model and each first surveillance object identifier.

Step 608, in response to that the matching degree between the keyword and any first supervised object identifier is greater than the third threshold, acquiring and displaying the supervised item associated with any first supervised object identifier.

In this disclosure, when the matching degree between the keyword and any one of the first monitored object identifiers is greater than the third threshold, it is described that the first monitored object identifier is a monitored object identifier that may be selected by the security supervisor. At this time, the monitoring items associated with any first monitoring object identifier can be acquired and displayed. So that the safety monitoring personnel can conveniently monitor.

Step 609, in response to the first control in the display interface being triggered, obtaining feedback information of the monitoring item associated with any first monitoring object identifier in the editing control in the display interface.

Step 610, in response to obtaining the feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to the server.

In the present disclosure, the specific implementation process of step 609 to step 610 may refer to the detailed description of any embodiment of the present disclosure, and is not described herein again.

According to the monitoring method and the monitoring system, the task work order and the second monitoring object identifier generated by the server according to the monitoring configuration information are received, and the monitoring items related to the monitoring object identifiers can be accurately and comprehensively displayed. Therefore, safety monitoring personnel can comprehensively and accurately monitor the coal mine production environment, potential safety hazards are avoided being omitted, and the reliability of monitoring the coal mine production environment is improved.

In order to realize the embodiment, the embodiment of the disclosure further provides a monitoring device for the coal mine production environment. Fig. 7 is a schematic structural diagram of a monitoring device for a coal mine production environment, which is applied to a server according to an embodiment of the present disclosure.

As shown in fig. 7, the monitoring apparatus 700 for a coal mine production environment includes:

the generating module 710 is configured to generate and send a task work order corresponding to the first terminal device according to preset monitoring configuration information, where the task work order is generated according to the preset monitoring configuration information, and the task work order includes multiple monitoring object identifiers and at least one monitoring item associated with each monitoring object identifier;

an obtaining module 720, configured to obtain a first location of a first terminal device and a second location of a second terminal device associated with each monitored object identifier;

a sending module 730, configured to send, to the first terminal device, an identifier of the monitored object corresponding to any one of the second locations in response to that a distance between the first location and any one of the second locations is smaller than a first threshold;

the receiving module 740 is configured to receive a monitoring report of the monitoring item associated with the monitoring object identifier corresponding to any second location sent by the first terminal device.

In a possible implementation manner of this embodiment of the present disclosure, the task work order further includes a target location associated with each monitoring object identifier, and the sending module 730 is further configured to:

in response to the fact that the distance between the first position and the target position associated with any monitoring object identifier is smaller than a second threshold value and the monitoring report of the monitoring item associated with any monitoring object identifier is not received, any monitoring object identifier is sent to the first terminal equipment;

the receiving module 740 is configured to receive an audit report of audit items associated with any audit object identifier sent by the first terminal device.

It should be noted that the above explanation of the embodiment of the method for monitoring a coal mine production environment performed by a server is also applicable to the monitoring device for a coal mine production environment of the embodiment, and therefore, no further description is given here.

According to the method, after a task worksheet which is corresponding to a first terminal device and comprises a plurality of monitoring object identifiers and at least one monitoring item related to each monitoring object identifier is generated and sent to the first terminal device according to preset monitoring configuration information, a first position of the first terminal device and a second position of a second terminal device related to each monitoring object identifier are obtained, the monitoring object identifier corresponding to any second position is sent to the first terminal device under the condition that the distance between the first position and any second position is smaller than a first threshold value, and then a monitoring report of the monitoring item related to the monitoring object identifier corresponding to any second position sent by the first terminal device can be received. Therefore, the server sends the task work order generated according to the monitoring configuration information and the monitoring object identifier corresponding to the second terminal equipment of which the distance from the first terminal equipment is smaller than the threshold value to the first terminal equipment, and the first terminal equipment can accurately and comprehensively display the monitoring items corresponding to the second terminal equipment. Therefore, potential safety hazards can be avoided from being omitted, and the reliability of coal mine production environment monitoring is improved.

In order to realize the embodiment, the embodiment of the disclosure also provides another monitoring device for the coal mine production environment. Fig. 8 is a schematic structural diagram of a monitoring device for a coal mine production environment, which is applied to a server according to an embodiment of the present disclosure.

As shown in fig. 8, the monitoring apparatus 800 for a coal mine production environment includes:

the receiving module 810 is configured to receive and display a task work order sent by a server in a display interface, where the task work order is generated by the server according to preset monitoring configuration information, and the task work order includes a plurality of first monitoring object identifiers and at least one monitoring item associated with each first monitoring object identifier;

the receiving module 810 is configured to receive a second inspection object identifier sent by the server;

the display module 820 is used for acquiring and displaying the monitoring items associated with the second monitoring object identifier in response to that the second monitoring object identifier is the same as any one of the first monitoring object identifiers;

the obtaining module 830 is configured to obtain feedback information of the monitoring item associated with the second monitoring object identifier in the editing control in the display interface in response to the first control in the display interface being triggered;

the generating module 840 is configured to, in response to obtaining the feedback information of the monitoring item associated with each first monitoring object identifier, generate a monitoring report according to the feedback information of the monitoring item associated with each first monitoring object identifier, and send the monitoring report to the server.

In a possible implementation manner of the embodiment of the present disclosure, the task work order further includes a target location associated with each first inspection object identifier.

In a possible implementation manner of the embodiment of the present disclosure, the display module 820 is configured to:

acquiring a three-dimensional model associated with the second monitoring object identifier, and corresponding relations between each monitoring item associated with the second monitoring object identifier and each component in the three-dimensional model;

generating a second control corresponding to the supervision items at each part position in the three-dimensional model according to the corresponding relation;

displaying the three-dimensional model and the second control in a display interface;

and acquiring and displaying the monitoring item associated with any second control in response to the triggering of any second control.

In a possible implementation manner of the embodiment of the present disclosure, the apparatus further includes a selection module, configured to:

responding to the triggering of the third control in the display interface, and generating and displaying a fourth control corresponding to each first monitoring object identifier;

responding to the triggering of any fourth control, and acquiring and displaying the monitoring item associated with any fourth control;

and responding to the triggering of the first control in the display interface, and acquiring feedback information of the supervision matters associated with any fourth control in the editing controls in the display interface.

In a possible implementation manner of the embodiment of the present disclosure, the selecting module is further configured to:

acquiring a voice instruction;

performing voice recognition on the voice instruction to determine a keyword contained in the voice instruction;

matching the keyword with each first supervised object identifier to determine the matching degree of the keyword and each first supervised object identifier;

in response to the fact that the matching degree of the key words and any first monitoring object identifier is larger than a third threshold value, acquiring and displaying monitoring items related to any first monitoring object identifier;

and responding to the triggering of the first control in the display interface, and acquiring feedback information of the monitoring items associated with any first monitoring object identifier in the editing control in the display interface.

In a possible implementation manner of the embodiment of the present disclosure, the method further includes:

and the guiding module is used for responding to the triggering of a fifth control in the display interface, and generating and displaying route guiding information according to each target position and the current position of the first terminal equipment.

It should be noted that the above explanation of the embodiment of the monitoring method for monitoring the coal mine production environment performed by the first terminal device is also applicable to the monitoring device for the coal mine production environment of the embodiment, and therefore, no further description is given here.

According to the monitoring method and the monitoring system, after a task work order which is sent by a server and contains a plurality of first monitoring object identifiers and at least one monitoring item related to each first monitoring object identifier is received and displayed in a display interface, a second monitoring object identifier sent by the server can be received, then the monitoring item related to the second monitoring object identifier is obtained and displayed when the second monitoring object identifier is the same as any one of the first monitoring object identifiers, feedback information of the monitoring item related to the second monitoring object identifier in an editing control in the display interface is obtained under the condition that the first control in the display interface is triggered, and under the condition that the feedback information of the monitoring item related to each first monitoring object identifier is obtained, a monitoring report is generated according to the feedback information of the monitoring item related to each first monitoring object identifier and is sent to the server. Therefore, the receiving server can accurately and comprehensively display the monitoring items related to the second monitoring object identifier through the task work order and the second monitoring object identifier generated according to the monitoring configuration information. Therefore, safety monitoring personnel can comprehensively and accurately monitor the coal mine production environment, potential safety hazards are avoided being omitted, and the reliability of monitoring the coal mine production environment is improved.

In order to implement the foregoing embodiments, the embodiments of the present disclosure further provide a computer device, including a processor and a memory;

the processor reads the executable program codes stored in the memory to run programs corresponding to the executable program codes, so as to realize the monitoring method of the coal mine production environment according to the embodiment.

In order to implement the foregoing embodiment, an embodiment of the present disclosure further provides a computer-readable storage medium, on which a computer program is stored, where the computer program is executed by a processor to implement the monitoring method for a coal mine production environment according to the foregoing embodiment.

Although embodiments of the present disclosure have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present disclosure, and that changes, modifications, substitutions and alterations may be made to the above embodiments by those of ordinary skill in the art within the scope of the present disclosure.

Claims (9)

1. A method of monitoring a coal mine production environment, performed by a first terminal device, the method comprising:

receiving and displaying a task work order sent by a server in a display interface, wherein the task work order is generated by the server according to preset monitoring configuration information and comprises a plurality of first monitoring object identifiers and at least one monitoring item associated with each first monitoring object identifier;

receiving a second monitoring object identifier which is sent by the server and corresponds to a second terminal device when the distance between a first position of the second terminal device and a second position of the first terminal device is smaller than a first threshold value, wherein the second terminal device is associated with at least one object to be monitored;

responding to the fact that the second monitoring object identification is the same as any first monitoring object identification, obtaining a three-dimensional model associated with the second monitoring object identification and corresponding relations between each monitoring item and each component in the three-dimensional model, generating a second control corresponding to each monitoring item at each component position in the three-dimensional model according to the corresponding relations, displaying the three-dimensional model and the second control in the display interface, and if the second control is triggered, obtaining and displaying the monitoring items associated with the second monitoring object identification;

responding to the triggering of a first control in the display interface, and acquiring feedback information of the monitoring items associated with the second monitoring object identifier in the editing control in the display interface;

and responding to the obtained feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to the server.

2. The method of claim 1, wherein the task work order further comprises each of the first inspection object identifications associated target locations.

3. The method of claim 1 or 2, wherein prior to said generating an audit report based on feedback information for each of said first audit trail identification associated audit transaction, further comprising:

responding to the triggering of a third control element in the display interface, and generating and displaying a fourth control element corresponding to each first monitoring object identifier;

responding to any fourth control to be triggered, and acquiring and displaying the monitoring item associated with any fourth control;

and responding to the triggering of the first control in the display interface, and acquiring feedback information of the monitoring item associated with any fourth control in the editing controls in the display interface.

4. The method of claim 1 or 2, wherein prior to said generating an audit report based on feedback information for each of said first audit trail identification associated audit transaction, further comprising:

acquiring a voice instruction;

performing voice recognition on the voice instruction to determine a keyword contained in the voice instruction;

matching the keyword with each first monitoring object identifier to determine the matching degree of the keyword and each first monitoring object identifier;

responding to the fact that the matching degree of the key words and any first monitoring object identifier is larger than a third threshold value, and acquiring and displaying monitoring items related to any first monitoring object identifier;

and responding to the triggering of the first control in the display interface, and acquiring feedback information of the monitoring item associated with any first monitoring object identifier in the editing control in the display interface.

5. The method of claim 2, further comprising:

and responding to the triggering of a fifth control in the display interface, and generating and displaying route guide information according to each target position and the first position.

6. A method of auditing a coal mine production environment, performed by a server, the method comprising:

generating and sending a task work order corresponding to a first terminal device to the first terminal device according to preset supervision configuration information, wherein the task work order is generated according to the preset supervision configuration information, and the task work order comprises a plurality of supervision object identifiers and at least one supervision item associated with each supervision object identifier;

acquiring a first position of the first terminal equipment and a second position of second terminal equipment associated with each monitoring object identifier;

in response to that the distance between the first position and any second position is smaller than a first threshold value, sending a monitoring object identifier corresponding to any second position to the first terminal equipment;

the audit report according to any of claims 1-5 for receiving the audit item associated with the audit object id corresponding to any of the second locations sent by the first terminal device.

7. The method of claim 6, wherein the task work order further comprises each of the inspection object identification associated target locations, the method further comprising:

in response to that the distance between the first position and a target position associated with any monitored object identifier is smaller than a second threshold value and a monitoring report of monitoring items associated with any monitored object identifier is not received, sending any monitored object identifier to the first terminal equipment;

and receiving an inspection report of the inspection items associated with any inspection object identifier sent by the first terminal equipment.

8. The monitoring device of the coal mine production environment is characterized in that the device is applied to a server and comprises:

the generating module is used for generating and sending a task work order corresponding to the first terminal device according to preset supervision configuration information, wherein the task work order is generated according to the preset supervision configuration information, and the task work order comprises a plurality of supervision object identifiers and at least one supervision item associated with each supervision object identifier;

an obtaining module, configured to obtain a first location of the first terminal device and a second location of a second terminal device associated with each monitored object identifier;

a sending module, configured to send, to the first terminal device, an identifier of an inspection object corresponding to any one of the second locations in response to that a distance between the first location and the any one of the second locations is smaller than a first threshold;

a receiving module, configured to receive the audit report according to any one of claims 1 to 5 of the audit item associated with the audit object identifier corresponding to any one of the second locations sent by the first terminal device.

9. The monitoring device for the coal mine production environment is applied to a first terminal device and comprises:

the system comprises a receiving module and a processing module, wherein the receiving module is used for receiving and displaying a task work order sent by a server in a display interface, the task work order is generated by the server according to preset monitoring configuration information, and the task work order comprises a plurality of first monitoring object identifiers and at least one monitoring item associated with each first monitoring object identifier;

the receiving module is configured to receive a second monitored object identifier corresponding to a second terminal device, which is sent by the server when a distance between a first position of the second terminal device and a second position of the first terminal device is smaller than a first threshold, where the second terminal device is associated with at least one object to be monitored;

an obtaining module, configured to obtain, in response to that the second monitoring object identifier is the same as any one of the first monitoring object identifiers, a three-dimensional model associated with the second monitoring object identifier and a corresponding relationship between each monitoring item and each component in the three-dimensional model, generate a second control corresponding to the monitoring item at each component position in the three-dimensional model according to the corresponding relationship, display the three-dimensional model and the second control in the display interface, and if the second control is triggered, obtain and display the monitoring item associated with the second monitoring object identifier;

the obtaining module is configured to obtain feedback information of the monitoring item associated with the second monitoring object identifier in the editing control in the display interface in response to the triggering of the first control in the display interface;

and the generating module is used for responding to the acquired feedback information of the monitoring items associated with each first monitoring object identifier, generating a monitoring report according to the feedback information of the monitoring items associated with each first monitoring object identifier, and sending the monitoring report to the server.

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