CN114419752A - Fire-fighting equipment patrol system, method, computer equipment and storage medium - Google Patents

Abstract

The invention provides a fire-fighting equipment patrol system, a fire-fighting equipment patrol method, computer equipment and a storage medium, wherein the system comprises a server and at least one patrol terminal equipment connected with the server; the patrol terminal equipment is provided with a patrol APP, the patrol APP is associated with the server, and the patrol terminal equipment comprises a positioning module, a patrol instruction receiving module, an information acquisition module, a sending module and a state switching module; the server comprises a data server and an APP (application) server, wherein an area patrol map is loaded in the data server, and fire-fighting facility points and position coordinates of fire-fighting equipment are marked on the area patrol map; the APP server is used for sending a patrol instruction to the patrol APP application so as to control state switching of the patrol terminal equipment through the patrol APP application. The invention has the functions of fire-fighting equipment inspection, fire self-rescue knowledge, fire-fighting equipment self-checking, personal equipment, self-checking record and the like.

Description

Fire-fighting equipment patrol system, method, computer equipment and storage medium

Technical Field

The application relates to the technical field of safety management, in particular to a fire fighting equipment patrol system, a fire fighting equipment patrol method, computer equipment and a storage medium.

Background

The fire-fighting facility is one of rescue facilities for dealing with fire, and can be allocated in time to deal with the fire when the fire occurs. The fire-fighting facilities generally include automatic fire alarm systems, automatic fire extinguishing systems, fire hydrant systems, smoke and smoke prevention systems, emergency broadcasting and emergency lighting, safety evacuation facilities, and the like, and in order to ensure the safety and reliability of the fire-fighting facilities, the fire-fighting facilities need to be patrolled and maintained at intervals.

However, in the current patrol mode of the fire-fighting equipment, fire-fighting security personnel usually record patrol information by paper and the like, so that the problems of inconvenience in reporting of query results, long time consumption, incapability of determining whether the patrol personnel can check in place and the like exist. Especially, the intelligent management system for the fire fighting equipment is lacked aiming at the patrol of the fire fighting equipment, and the patrol fire fighting equipment cannot be effectively managed when the fire fighting equipment is patrolled.

Disclosure of Invention

In view of the above problems, an object of the present application is to provide a fire fighting equipment patrol system, a fire fighting equipment patrol method, a computer device and a storage medium, so as to achieve intelligent management of fire fighting equipment.

The purpose of the application is realized by adopting the following technical scheme:

in a first aspect, the application provides a fire fighting equipment patrol system, which comprises a server and at least one patrol terminal device connected with the server;

the patrol terminal equipment is provided with a patrol APP, the patrol APP is associated with the server, and the patrol terminal equipment comprises a positioning module, a patrol instruction receiving module, an information acquisition module, a sending module and a state switching module;

the positioning module is used for positioning the position of the patrol terminal equipment; the patrol instruction receiving module is used for receiving the patrol instruction sent by the server after the patrol terminal equipment is in the specified range area of the fire-fighting facility; the information acquisition module is used for scanning and identifying identification information on the fire fighting equipment; the transmitting module is used for uploading the identification information on the fire-fighting equipment, which is acquired by the patrol terminal equipment, to a server; the state switching module is used for switching the state of the patrol terminal equipment after the patrol terminal equipment enters a specified range area of a fire-fighting facility and the patrol terminal equipment finishes uploading of collected information;

the server comprises a data server and an APP server, wherein a region inspection map is loaded in the data server, fire-fighting facility points and position coordinates of fire-fighting equipment are marked on the region inspection map, and the data server is used for receiving and storing identification information uploaded by the inspection terminal equipment; the APP server is used for sending a patrol instruction to the patrol APP application according to the received patrol terminal device position information, and controlling state switching of the patrol terminal device through the patrol APP application.

According to the fire-fighting equipment patrol system provided by the invention, the position relation between the patrol terminal equipment and the fire-fighting equipment is marked by utilizing the positioning information according to the operation mode of remote interactive patrol control between the server and the patrol terminal equipment, the state of the patrol terminal equipment is switched when the patrol terminal equipment reaches the range of the specified area where the fire-fighting equipment is located, so that patrol instructions are received, the patrol operation of the fire-fighting equipment, the acquisition and uploading operation of patrol information are completed, and the state is switched after the patrol is completed, so that the power consumption of the patrol terminal equipment in the acquisition process is reduced, the fire-fighting equipment patrol operation based on real-time monitoring of the regional patrol map is realized, the patrol route of a patrol worker is conveniently tracked in real time, and the condition that the patrol worker is missed in inspection or false is avoided.

In some optional embodiments, the positioning module includes a Beidou communication unit, a network communication unit and a GPS positioning unit, which are connected with the patrol terminal device, wherein the Beidou communication unit is used for connecting the patrol terminal device with the remote operation platform at the server background in a Beidou satellite communication link manner; the network communication unit is used for connecting the patrol terminal equipment with a remote operation platform of the server background in a communication link mode of a 4G or 5G network; and the GPS positioning unit is used for navigating and positioning the patrol terminal equipment in a GPS mode.

In the fire-fighting equipment patrol work of the patrol terminal equipment, the patrol terminal equipment is conveniently connected with a remote operation platform at a server background through a Beidou satellite, a 4G or a 5G network in a communication link mode, the position of the patrol terminal equipment is positioned in real time, and the position of the patrol terminal equipment is fed back to a region patrol map loaded by the server to provide navigation information for the patrol terminal equipment to go to an appointed fire-fighting equipment point and the fire-fighting equipment.

In some optional embodiments, the identification information on the fire fighting equipment is pre-recorded equipment information of the fire fighting equipment and location point information of the fire fighting equipment, and the identification information is stored in patrol tags arranged on the fire fighting equipment and the fire fighting equipment; the patrol tag is a two-dimensional code tag or an RFID tag arranged on a fire-fighting facility point and fire-fighting equipment; the patrol terminal equipment is provided with a camera for identifying the two-dimensional code label or an RFID reader for identifying the RFID label.

When the fire-fighting equipment is patrolled, the patrolling information is collected by scanning and identifying the fire-fighting equipment points and the patrolling labels on the fire-fighting equipment through the patrolling terminal equipment.

In some optional embodiments, the state switching module is configured to switch the state of the patrol terminal device, where the patrol terminal device includes an operating state and a dormant state, and when the patrol terminal device enters a specified range area of a fire protection facility, the patrol terminal device is switched to the operating state, and the patrol instruction receiving module receives a patrol instruction sent by the server to perform a patrol operation of the fire protection facility; after the patrol terminal equipment finishes uploading the collected information, the patrol terminal equipment is switched to a dormant state so as to reduce the power consumption of the patrol terminal equipment in the collection process.

In some optional embodiments, the data server further includes a database, and the database is used for storing and reading patrol information and data, and pre-entered equipment information of the fire-fighting equipment, location point information of the fire-fighting equipment, and collected patrol information are stored in the database of the data server, so that the data is convenient to store and call.

In some optional embodiments, the database of the data server further includes fire self-rescue knowledge, and the fire self-rescue knowledge can be looked up at the first time by looking up, calling and searching through a patrol APP application installed on the patrol terminal device.

In some optional embodiments, the database of the data server is further used for recording self-checking information of self-checking of the fire fighting equipment and self-checking information of self-checking of the personal equipment, wherein the self-checking information comprises equipment information of the fire fighting equipment and the personal equipment, self-checking result information, rectification data information and self-checking date information.

In a second aspect, in another embodiment provided by the present invention, there is provided a fire fighting equipment patrol method based on the fire fighting equipment patrol system described above, including the steps of:

a positioning module in the patrol terminal equipment provided with the patrol APP is used for positioning the position of the patrol terminal equipment, positioning information is loaded in a regional patrol map of a data service area in real time, and navigation information of the patrol terminal equipment reaching a target fire-fighting facility is automatically generated;

switching to a working state after the patrol terminal equipment is in a specified range area of the fire-fighting equipment, receiving a patrol instruction sent by the server to scan and identify the identification information on the fire-fighting equipment, and uploading the identification information on the fire-fighting equipment, which is acquired by the patrol terminal equipment, to the server;

switching the inspection terminal equipment to a dormant state after the inspection terminal equipment finishes uploading the acquired information; the patrol APP application installed in the patrol terminal equipment is used for looking up fire self-rescue knowledge, self-checking information and patrol information stored in the server.

In a third aspect, in a further embodiment provided by the present invention, there is provided a computer device comprising a memory storing a computer program and a processor performing the corresponding steps of the fire fighting equipment patrol system according to the first aspect.

In a fourth aspect, in a further embodiment of the present invention, a storage medium is provided, wherein at least one executable instruction is stored in the storage medium, and the executable instruction causes a processor to execute the corresponding steps of the fire-fighting equipment patrol system according to the first aspect.

Compared with the prior art, the invention has the beneficial effects that:

the fire-fighting equipment patrol system, the fire-fighting equipment patrol method, the computer equipment and the storage medium provided by the invention follow the operation mode of remote interactive patrol control between the server and the patrol terminal equipment, utilize the positioning information to mark the position relation between the patrol terminal equipment and the fire-fighting equipment, switch the state of the patrol terminal equipment when the patrol terminal equipment reaches the specified area range of the fire-fighting equipment, so as to receive patrol instructions, complete patrol, patrol information acquisition and uploading operation of the fire-fighting equipment, and switch the state after the patrol is completed, thereby reducing the power consumption of the patrol terminal equipment in the acquisition process, realizing the fire-fighting equipment patrol operation based on real-time monitoring of an area patrol map, conveniently tracking the patrol route of the patrol personnel in real time, avoiding the conditions of missing inspection or false inspection of the patrol personnel, and having the knowledge of fire-fighting equipment patrol, fire self-rescue, fire hazard self-saving, and self-saving, The fire fighting equipment has the functions of self-checking, personal equipment, self-checking recording and the like.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a block diagram of a fire-fighting equipment patrol system provided in an embodiment of the present application;

fig. 2 is a system block diagram of a fire fighting equipment patrol system provided in an embodiment of the present application;

fig. 3 is a system block diagram of a positioning module in a fire fighting equipment patrol system according to an embodiment of the present application;

fig. 4 is a block diagram of a computer device according to an embodiment of the present application.

Detailed Description

The present application is further described with reference to the accompanying drawings and the detailed description, and it should be noted that, in the present application, the embodiments or technical features described below may be arbitrarily combined to form a new embodiment without conflict.

The technical solutions in the exemplary embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the exemplary embodiments of the present invention, and it is apparent that the described exemplary 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 conventional patrol mode of the fire-fighting equipment usually records patrol information by fire-fighting security personnel by adopting paper and the like, so that the problems of inconvenience in reporting of query results, long time consumption, incapability of determining whether the patrol personnel can check in place and the like exist. The intelligent management system for the fire fighting equipment is lacked aiming at the patrol of the fire fighting equipment, and the patrol fire fighting equipment cannot be effectively managed when the fire fighting equipment is patrolled.

In order to solve the above problems, embodiments of the present invention provide a fire-fighting equipment patrol system, a fire-fighting equipment patrol method, a computer device, and a storage medium, where a server and at least one patrol terminal device connected to the server are used to patrol each fire-fighting equipment point and the fire-fighting equipment, and when the terminal device arrives in a specified area range, the patrol terminal device in a dormant state is enabled to enter a working state by receiving an instruction to perform data acquisition, and when the data acquisition is completed, the data is uploaded to the server, and after the transmission is stopped, the terminal device enters the dormant state without a new instruction, so as to achieve intelligent management of the fire-fighting equipment.

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Fig. 1 is a system block diagram of a fire fighting equipment patrol system provided by the present invention.

Referring to fig. 1, an embodiment of the present invention provides a fire fighting equipment patrol system including a server 100 and at least one patrol terminal device 200 connected to the server 100. In this embodiment, the patrol terminal device 200 is installed with a patrol APP application, and the patrol APP application is associated with the server 100 and is used for being in communication connection with the server 100 to receive a patrol instruction sent by the server 100, and the patrol terminal device 200 operates the patrol APP application to complete corresponding fire-fighting equipment patrol work.

In this embodiment, referring to fig. 1 and fig. 2, the patrol terminal device 200 includes a positioning module 210, a patrol instruction receiving module 220, an information collecting module 230, a sending module 240, and a state switching module 250.

Referring to fig. 3, the positioning module 210 is configured to locate the position of the patrol terminal device 200. In this embodiment, the positioning module 210 includes a beidou communication unit 2101, a network communication unit 2102 and a GPS positioning unit 2103 connected to the patrol terminal device 200.

The Beidou communication unit 2101 is configured to connect the patrol terminal device 200 with the remote operation platform 300 at the background of the server 100 in a Beidou satellite communication link manner; the network communication unit 2102 is configured to connect the patrol terminal device 200 with the remote operation platform 300 in the background of the server 100 in a communication link manner of a 4G or 5G network; the GPS positioning unit 2103 is configured to navigate and position the patrol terminal device 200 in a GPS manner.

In the fire-fighting equipment patrol work of the patrol terminal equipment 200, the patrol terminal equipment 200 is conveniently connected with the remote operation platform 300 at the background of the server 100 in a communication link mode through a Beidou satellite, a 4G or a 5G network, the position of the patrol terminal equipment 200 is positioned in real time, the position of the patrol terminal equipment 200 is fed back to the region patrol map loaded by the server 100, and the patrol terminal equipment 200 moves to an appointed fire-fighting equipment point and provides navigation information for the fire-fighting equipment.

The patrol instruction receiving module 220 is configured to receive a patrol instruction sent by the server 100 after the patrol terminal device 200 is in a specified range area of a fire fighting facility. Before the patrol instruction is received, the patrol terminal device 200 reaches a designated fire-fighting facility point and the area range of the fire-fighting device, after the state switching module 250 switches the state of the patrol terminal device 200, the patrol instruction receiving module 220 is in a controlled state to receive the patrol instruction sent by the server 100, the patrol operation of the fire-fighting facility can be completed under the real-time monitoring of the area patrol map, the patrol route of the patrol personnel can be tracked in real time, and the condition that the patrol personnel fails to check or falsify is avoided.

The information collection module 230 is used to scan and identify identification information located on the fire fighting equipment.

In this embodiment, the identification information on the fire fighting equipment is pre-recorded equipment information of the fire fighting equipment and location point information of the fire fighting equipment, and the identification information is stored in patrol tags set at the fire fighting equipment point and the fire fighting equipment; the patrol tag is a two-dimensional code tag or an RFID tag arranged on a fire-fighting facility point and fire-fighting equipment; the patrol terminal device 200 is provided with a camera for identifying the two-dimensional code tag or an RFID reader for identifying the RFID tag.

In patrolling the fire-fighting equipment, patrol information is collected by scanning and recognizing a fire-fighting equipment site and a patrol tag on the fire-fighting equipment through the patrol terminal device 200.

The sending module 240 is configured to upload the identification information on the fire fighting equipment, which is collected by the patrol terminal device 200, to the server 100; in this embodiment, the sending module 240 may upload the collected identification information on the fire fighting equipment to the server 100 in real time, or may upload the identification information to the server 100 in a unified manner in a packaging manner after the patrol of the current fire fighting equipment or fire fighting equipment is completed.

The state switching module 250 is configured to switch the state of the patrol terminal device 200 after the patrol terminal device 200 enters the specified range area of the fire fighting equipment and the patrol terminal device 200 finishes uploading the collected information.

The state switching module 250 is configured to switch the state of the patrol terminal device 200, where the patrol terminal device 200 includes a working state and a dormant state, and when the patrol terminal device 200 enters a specified range area of a fire protection facility, the patrol terminal device 200 is switched to the working state, and the patrol instruction receiving module 220 receives a patrol instruction sent by the server 100 to perform a patrol operation of the fire protection facility; after the patrol terminal device 200 finishes uploading the collected information, the patrol terminal device 200 is switched to a dormant state to reduce the power consumption of the patrol terminal device 200 in the collection process.

In the present embodiment, the server 100 includes a data server 110 and an APP server 120. The data server 110 is loaded with an area patrol map, the area patrol map is marked with fire-fighting equipment points and position coordinates of fire-fighting equipment, and the data server 110 is used for receiving and storing identification information uploaded by the patrol terminal equipment 200; the APP server 120 is configured to send a patrol instruction to the patrol APP application according to the received position information of the patrol terminal device 200, so as to control the state switching of the patrol terminal device 200 through the patrol APP application.

In this embodiment, the data server 110 further includes a database 1101, where the database 1101 is used for storing and reading patrol information and data, and pre-entered equipment information of the fire protection facility, location point information of the fire protection facility, and collected patrol information are stored in the database 1101 of the data server 110, so as to facilitate storage and invocation of the data.

The database 1101 of the data server 110 further includes fire self-rescue knowledge, and the fire self-rescue knowledge can be searched for in the first time by looking up, calling and searching the patrol APP application installed on the patrol terminal device 200.

The database 1101 of the data server 110 is further configured to record self-inspection information of self-inspection of fire-fighting equipment and self-inspection of personal equipment, where the self-inspection information includes equipment information of fire-fighting equipment and personal equipment, self-inspection result information, modification data information, and self-inspection date information.

According to the fire-fighting equipment patrol system provided by the invention, according to the operation mode of remote interactive patrol control between the server 100 and the patrol terminal equipment 200, the position relation between the patrol terminal equipment 200 and the fire-fighting equipment is marked by using the positioning information, the state of the patrol terminal equipment 200 is switched when the patrol terminal equipment 200 reaches the specified area range of the fire-fighting equipment, so that patrol instructions are received, the patrol, acquisition and uploading operation of patrol information of the fire-fighting equipment are completed, and the state is switched after the patrol is completed, so that the power consumption of the patrol terminal equipment 200 in the acquisition process is reduced, the fire-fighting equipment patrol operation based on real-time monitoring of an area patrol map is realized, the patrol route of a patrol worker is conveniently tracked in real time, and the condition that the patrol worker fails to check or falsify is avoided.

The embodiment of the application also provides a fire fighting equipment patrol method, based on the fire fighting equipment patrol system of the embodiment, the fire fighting equipment patrol method comprises the following steps:

step 1), a positioning module 210 in the patrol terminal device 200 provided with the patrol APP locates the position of the patrol terminal device 200, and positioning information is loaded in a regional patrol map of a data service area in real time to automatically generate navigation information when the patrol terminal device 200 reaches a target fire-fighting facility;

step 2), after the patrol terminal device 200 is in the specified range area of the fire-fighting equipment, switching to a working state and receiving a patrol instruction sent by the server 100 so as to scan and identify the identification information on the fire-fighting equipment, and uploading the identification information on the fire-fighting equipment collected by the patrol terminal device 200 to the server 100;

step 3), switching the patrol terminal device 200 to a dormant state after the patrol terminal device 200 finishes uploading the acquired information;

the patrol APP installed in the patrol terminal device 200 is used for looking up fire self-rescue knowledge, self-checking information and patrol information stored in the server 100.

In this embodiment, the patrol terminal device 200 may be a mobile phone, and the patrol APP application may obtain information of a SIM card of the mobile phone, access the APP server 120 through a TCP/IP interface, and transmit the obtained information of the SIM card to the APP server 120.

The fire fighting equipment patrol method provided by the embodiment of the application is used for implementing the fire fighting equipment patrol system described in the embodiment, the specific implementation manner of the fire fighting equipment patrol method is consistent with the implementation manner and the achieved technical effect described in the embodiment of the fire fighting equipment patrol system, and details are not repeated.

It should be understood that although the steps are described above in a certain order, the steps are not necessarily performed in the order described. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, some steps of the present embodiment may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of performing the steps or stages is not necessarily sequential, but may be performed alternately or in turns with other steps or at least a part of the steps or stages in other steps.

FIG. 4 shows a block diagram of a computer device, according to an embodiment of the invention. The foregoing embodiment describes the function and structure of the patrol terminal device 200 and the server 100 connected in wireless communication in the fire fighting equipment patrol system for fire fighting equipment patrol, and in one possible design, the communication function and structure of the fire fighting equipment patrol system may be implemented as a computer device. As shown in fig. 4, in an embodiment of the invention, a computer device 400 is provided, the computer device 400 comprising a memory 401 and a processor 402, the memory 401 having stored therein a computer program, the processor 402 being configured for executing the computer program stored in said memory 401. The memory 401 is configured to store one or more computer instructions, wherein the one or more computer instructions are executed by the processor 402 to implement the steps of the above-described method embodiments:

a positioning module 210 in the patrol terminal device 200 provided with the patrol APP locates the position of the patrol terminal device 200, and positioning information is loaded in an area patrol map of a data service area in real time to automatically generate navigation information when the patrol terminal device 200 reaches a target fire-fighting facility;

after the patrol terminal device 200 is in the specified range area of the fire-fighting equipment, switching to a working state and receiving a patrol instruction sent by the server 100 to scan and identify the identification information on the fire-fighting equipment, and uploading the identification information on the fire-fighting equipment collected by the patrol terminal device 200 to the server 100;

after the patrol terminal device 200 finishes uploading the collected information, switching the patrol terminal device 200 to a dormant state; the patrol APP installed in the patrol terminal device 200 is used for looking up fire self-rescue knowledge, self-checking information and patrol information stored in the server 100.

The embodiment of the present application further provides a storage medium, which is used for storing a computer program, and when the computer program is executed, the following steps of the fire fighting equipment patrol system in the embodiment of the present application are implemented:

a positioning module 210 in the patrol terminal device 200 provided with the patrol APP locates the position of the patrol terminal device 200, and positioning information is loaded in an area patrol map of a data service area in real time to automatically generate navigation information when the patrol terminal device 200 reaches a target fire-fighting facility;

after the patrol terminal device 200 is in the specified range area of the fire-fighting equipment, switching to a working state and receiving a patrol instruction sent by the server 100 to scan and identify the identification information on the fire-fighting equipment, and uploading the identification information on the fire-fighting equipment collected by the patrol terminal device 200 to the server 100;

after the patrol terminal device 200 finishes uploading the collected information, switching the patrol terminal device 200 to a dormant state; the patrol APP installed in the patrol terminal device 200 is used for looking up fire self-rescue knowledge, self-checking information and patrol information stored in the server 100.

It should be noted that, a specific implementation manner of the computer program stored in the storage medium is consistent with the implementation manner and the achieved technical effect described in the embodiment of the fire fighting equipment patrol system, and details of the implementation manner and the achieved technical effect are not repeated.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory.

In summary, the technical scheme provided by the invention has the following advantages:

the fire-fighting equipment patrol system, the fire-fighting equipment patrol method, the computer equipment and the storage medium provided by the invention follow the operation mode of remote interactive patrol control between the server 100 and the patrol terminal equipment 200, utilize the positioning information to mark the position relation between the patrol terminal equipment 200 and the fire-fighting equipment, switch the state of the patrol terminal equipment 200 when the patrol terminal equipment 200 reaches the specified region range of the fire-fighting equipment, so as to receive patrol instructions, complete the patrol, the acquisition and the uploading operation of the fire-fighting equipment and switch the state after the patrol is completed, thereby reducing the power consumption of the patrol terminal equipment 200 in the acquisition process, realizing the fire-fighting equipment patrol operation based on the real-time monitoring of the region patrol map, conveniently tracking the patrol route of the patrol personnel in real time, avoiding the condition that the patrol personnel fails or falsely makes mistakes, and having the functions of fire-fighting equipment patrol, and the method, The fire disaster self-rescue knowledge, the self-checking of fire-fighting equipment, personal equipment, the self-checking record and the like.

While the present application is described in terms of various aspects, including exemplary embodiments, the principles of the invention should not be limited to the disclosed embodiments, but are also intended to cover various modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A fire-fighting equipment patrol system is characterized by comprising a server and at least one patrol terminal device connected with the server;

the patrol terminal equipment is provided with a patrol APP, the patrol APP is associated with the server, and the patrol terminal equipment comprises a positioning module, a patrol instruction receiving module, an information acquisition module, a sending module and a state switching module;

the positioning module is used for positioning the position of the patrol terminal equipment; the patrol instruction receiving module is used for receiving the patrol instruction sent by the server after the patrol terminal equipment is in the specified range area of the fire-fighting facility; the information acquisition module is used for scanning and identifying identification information on the fire fighting equipment; the transmitting module is used for uploading the identification information on the fire-fighting equipment, which is acquired by the patrol terminal equipment, to a server; the state switching module is used for switching the state of the patrol terminal equipment after the patrol terminal equipment enters a specified range area of a fire-fighting facility and the patrol terminal equipment finishes uploading of collected information;

the server comprises a data server and an APP server, wherein a region inspection map is loaded in the data server, fire-fighting facility points and position coordinates of fire-fighting equipment are marked on the region inspection map, and the data server is used for receiving and storing identification information uploaded by the inspection terminal equipment; the APP server is used for sending a patrol instruction to the patrol APP application according to the received patrol terminal device position information, and controlling state switching of the patrol terminal device through the patrol APP application.

2. A fire protection equipment patrol system according to claim 1, wherein the positioning module comprises a beidou communication unit, a network communication unit and a GPS positioning unit connected to the patrol terminal device;

the Beidou communication unit is used for connecting the patrol terminal equipment with a remote operation platform of the server background in a communication link mode of a Beidou satellite;

the network communication unit is used for connecting the patrol terminal equipment with a remote operation platform of the server background in a communication link mode of a 4G or 5G network;

and the GPS positioning unit is used for navigating and positioning the patrol terminal equipment in a GPS mode.

3. The fire fighting equipment patrol system according to claim 2, wherein the identification information on the fire fighting equipment is equipment information of the fire fighting equipment and location point information of the fire fighting equipment, which are previously entered, and the identification information is stored in patrol tags provided on the fire fighting equipment points and the fire fighting equipment;

the patrol tag is a two-dimensional code tag or an RFID tag arranged on a fire-fighting facility point and fire-fighting equipment; the patrol terminal equipment is provided with a camera for identifying the two-dimensional code label or an RFID reader for identifying the RFID label.

4. The fire protection equipment patrol system according to claim 3, wherein the state switching module is configured to switch the state of the patrol terminal device, and the patrol terminal device includes an operating state and a dormant state; when the patrol terminal equipment enters a specified range area of a fire-fighting facility, the patrol terminal equipment is switched to a working state, and a patrol instruction receiving module receives a patrol instruction sent by the server; and after the inspection terminal equipment finishes uploading the acquired information, the inspection terminal equipment is switched to a dormant state.

5. A fire protection equipment patrol system according to claim 4, wherein the data server further comprises a database for storing and reading patrol information and data, and pre-entered equipment information of the fire protection equipment, location point information of the fire protection equipment and collected patrol information are stored in the database of the data server.

6. A fire protection facility patrol system as claimed in claim 5, wherein the database of the data server further comprises fire self-rescue knowledge, which is consulted, invoked and searched by a patrol APP installed on the patrol terminal device.

7. A fire protection equipment patrol system as claimed in claim 6, wherein said database of said data server is further adapted to record self-check information of fire protection equipment self-check and personal equipment self-check, said self-check information including fire protection equipment, equipment information of personal equipment, self-check result information, modification data information, and self-check date information.

8. A fire fighting equipment patrol method based on the fire fighting equipment patrol system according to claim 7, comprising the steps of:

a positioning module in the patrol terminal equipment provided with the patrol APP is used for positioning the position of the patrol terminal equipment, positioning information is loaded in a regional patrol map of a data service area in real time, and navigation information of the patrol terminal equipment reaching a target fire-fighting facility is automatically generated;

switching to a working state after the patrol terminal equipment is in a specified range area of the fire-fighting equipment, receiving a patrol instruction sent by the server to scan and identify the identification information on the fire-fighting equipment, and uploading the identification information on the fire-fighting equipment, which is acquired by the patrol terminal equipment, to the server;

switching the inspection terminal equipment to a dormant state after the inspection terminal equipment finishes uploading the acquired information; the patrol APP application installed in the patrol terminal equipment is used for looking up fire self-rescue knowledge, self-checking information and patrol information stored in the server.

9. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor when executing the computer program implements the steps of the data acquisition method of claim 8.

10. A storage medium, characterized in that the storage medium stores a computer program which, when being executed by a processor, carries out the steps of the data acquisition method as claimed in claim 8.

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