CN111079583B - Intelligent management terminal for fire-fighting combustible - Google Patents

Abstract

The invention relates to the technical field of fire control management, in particular to a fire control combustible intelligent management terminal which comprises a two-dimension code identification and picture processing unit, a core database, a combustible core processing unit, a man-machine interaction unit, an external interface unit, a network management unit, a file processing unit, a timing management unit and an operation mode unit, wherein the two-dimension code identification and picture processing unit is used for identifying a fire control combustible; and the combustible substance core processing unit is used for receiving the fire-fighting combustible substance information sent by the two-dimensional code recognition and picture processing unit, and combining the fire-fighting combustible substance information with the data in the core database to judge whether the corresponding combustible substance meets the management requirement in the patrol instrument mode. The intelligent and quantitative management system for the combustible materials in the fire-fighting field can realize intelligent and quantitative management of the combustible materials in the fire-fighting field, can be used as an intelligent management terminal for supporting accurate management of permanent combustible materials and temporary combustible materials, migration-in and migration-out management, fireproof partition state evaluation and the like, can be used for off-line operation, and can be used as a daily patrol instrument for supervising the state of the temporary combustible materials.

Description

Intelligent management terminal for fire-fighting combustible

Technical Field

The invention relates to the technical field of fire control management, in particular to an intelligent management terminal for fire control combustible materials.

Background

The management of fire-fighting combustible materials is indispensable in engineering fire-fighting design and daily operation management of fire protection, is also an important means for preventing fire occurrence, is generally carried out in regions according to fire protection grades, each fire protection region is generally divided by a fire protection barrier with a certain fire resistance limit so as to prevent fire spread and hazard expansion, the management of the combustible materials is generally carried out in rough classification management according to the type and the danger grade of the combustible materials in the past, and due to the lack of an effective calculation method and a combustible material data acquisition device, quantitative and accurate management is rarely carried out on the combustible materials, so that whether the quantity of the combustible materials in the fire protection region exceeds the standard or not cannot be accurately judged, detailed storage information of the combustible materials in the region cannot be clearly confirmed, and the like, so that the management of the combustible materials is disordered, and a certain fire hazard exists. Meanwhile, due to the lack of a combustible material inspection instrument, the workload of inspection personnel is large, and the inspection quality is unstable.

Disclosure of Invention

Aiming at the problems existing in the prior art, the invention provides the intelligent management terminal for the firefighting combustible, which not only can support intelligent management of the combustible, but also can be used as a daily firefighting inspection instrument, so that different requirements in practical application are met to the maximum extent, and the management of the firefighting combustible is pushed to be quantized and intelligent.

The technical scheme adopted for solving the technical problems is as follows: an intelligent management terminal for fire-fighting combustible substances comprises

The camera unit is used for acquiring a two-dimensional code identification chart of the combustible material and a combustible material image, and comprises an internal camera and an external camera;

the two-dimensional code identification and picture processing unit is connected with the camera unit and the mobile equipment and is used for identifying the two-dimensional code identification map to acquire fire-fighting combustible information and processing the combustible image to acquire combustible file data;

the external interface unit is used for being connected with the camera unit, the mobile equipment and the two-dimensional code identification and picture processing unit;

the file processing unit is interactively connected with the external interface unit and is used for processing the combustible file data and providing an interface for data import and export of a core database and input operation of basic information;

the core database is interactively connected with the file processing unit and is used for storing various basic information data and calculation analysis data, including a local database and a remote database;

the network management unit is interactively connected with the core database and is used for connecting the core database with a remote server;

the combustible substance core processing unit is connected with the two-dimensional code recognition and picture processing unit and is in interactive connection with the core database, and is used for receiving the fire-fighting combustible substance information sent by the two-dimensional code recognition and picture processing unit, and combining the fire-fighting combustible substance information with data in the core database to judge whether the corresponding combustible substance meets the management requirement or not in a patrol instrument mode; comparing the fire-fighting combustible information with the data in the core database in an intelligent terminal mode to finish the migration judgment of the combustible, recalculating the combustion information of all the combustible in the fireproof partition according to the fire-fighting combustible information in the corresponding fireproof partition, and comparing the combustion information of all the combustible in the fireproof partition with the fire resistance limit of the fireproof partition to obtain the fire resistance limit allowance of the fireproof partition;

the man-machine interaction unit is in interactive connection with the combustible core processing unit and is used for displaying the processing result of the combustible core processing unit and inputting external instructions;

and the operation mode management unit is connected with the core database and is used for selecting a patrol instrument mode or an intelligent terminal mode through a mode change-over switch.

Preferably, the fire-fighting combustible information includes a combustible identification code, a combustible species, a combustible name, a combustible combustion heat value, a combustible unit, a combustible quantity, a combustible danger level, a combustible migration time, and a combustible shelf life.

Preferably, in the intelligent terminal mode, if the combustible object identification code acquired by the combustible object core processing unit does not exist in the core database, the operation is the migration operation of the new combustible object, the man-machine interaction unit pops up an interface for the user to confirm, and after the user confirms, the core database stores the corresponding fire-fighting combustible object information; if the combustible object identification code acquired by the combustible object core processing unit exists in the core database, the operation is the migration operation of the original combustible object, the man-machine interaction unit pops up an interface for the user to confirm, and after the user confirms, the core database deletes the corresponding fire-fighting combustible object information.

Preferably, the combustion information includes actual combustion time, equivalent fire duration, fire load, and fire resistance status.

Preferably, the combustion information of the combustible is calculated by an equivalent area calculation method.

Preferably, the man-machine interaction unit comprises a touch type liquid crystal display screen, an external mouse and a keyboard.

Preferably, the external interface unit includes a USB interface, an RJ45 ethernet interface, an HDMI interface, and a WLAN interface.

Preferably, the core database is provided with a basic information class table, a fireproof partition table, a partition combustible information table and an alarm information table.

Preferably, the method also comprises the following steps of,

the timing management unit is connected with the core database and the man-machine interaction unit and is used for scanning the alarm information table in the core database at regular time to trigger reminding information and displaying the reminding information through the man-machine interaction unit.

Preferably, the timing management unit also informs the user of the reminding information through mail.

Advantageous effects

The intelligent and quantitative management system for the combustible materials in the fire-fighting field can realize intelligent and quantitative management of the combustible materials in the fire-fighting field, can be used as an intelligent management terminal for supporting accurate management of permanent combustible materials and temporary combustible materials, migration-in and migration-out management, fireproof partition state evaluation and the like, can be used for off-line operation, and can be used as a daily patrol instrument for supervising the state of the temporary combustible materials.

Drawings

Fig. 1 is a block diagram of a fire-fighting combustible intelligent management terminal.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in FIG. 1, the intelligent management terminal for the fire-fighting combustible comprises a camera shooting unit, mobile equipment, a two-dimension code recognition and picture processing unit, an external interface unit, a file processing unit, a core database, a network management unit, a combustible core processing unit, a man-machine interaction unit and an operation mode management unit.

The camera unit and the mobile device are used for acquiring a two-dimensional code identification chart of the combustible material and a combustible material image, and the camera unit comprises an internal camera and an external camera.

The two-dimensional code identification and picture processing unit is connected with the camera unit and the mobile equipment and is used for identifying the two-dimensional code identification map to acquire fire-fighting combustible information and processing the combustible image to acquire combustible file data. The fire fighting combustible information includes a combustible identification code, a combustible species, a combustible name, a combustible combustion heat value, a combustible unit, a combustible quantity, a combustible danger level, a combustible migration time and a combustible storage period.

The external interface unit is used for being connected with the camera shooting unit, the mobile equipment and the two-dimensional code recognition and picture processing unit. The external interface unit comprises a USB interface, an RJ45 Ethernet interface, an HDMI interface and a WLAN interface. And transmitting the combustible file data acquired from the two-dimensional code recognition and picture processing unit to the file processing unit, and transmitting the data acquired from the file processing unit to external equipment through various interfaces to complete data interaction of an external camera, a mobile storage device, an external display device, a mouse keyboard and an upstream server. The external interface unit supports HDMI, USB, RJ Ethernet, WLAN and other interfaces, can be used for expanding an external display, supporting a USB camera and mobile storage, is used for importing and exporting data, and RJ45 and WLAN wireless Ethernet interfaces are used for supporting equipment networking work and mobile portable work.

The file processing unit is interactively connected with the external interface unit and is used for processing the combustible file data and providing an interface for data import and export of the core database and input operation of basic information.

The core database is interactively connected with the file processing unit and is used for storing various basic information data and calculation analysis data, including a local database and a remote database. The system supports multi-terminal access, and supports functions of classified inquiry, keyword retrieval and the like. The device must operate in a networked manner when operating in the intelligent terminal mode, with data exchange via the network and the core database of the remote server. When the equipment works in the patrol instrument mode, the remote database is preferentially used, and if the equipment cannot be networked, the equipment is in an offline working mode and can work by using the local database. The local database and the remote database are provided with a unidirectional synchronization mechanism, and data in the remote database can be synchronized to the local database in a unidirectional way or manually.

The network management unit is interactively connected with the core database and is used for connecting the core database with a remote server.

The combustible substance core processing unit is connected with the two-dimensional code recognition and picture processing unit and is in interactive connection with the core database, and is used for receiving the fire-fighting combustible substance information sent by the two-dimensional code recognition and picture processing unit, and combining the fire-fighting combustible substance information with data in the core database to judge whether the corresponding combustible substance meets the management requirement or not in a patrol instrument mode; and in the intelligent terminal mode, comparing the fire-fighting combustible information with the data in the core database to finish the migration judgment of the combustible, recalculating the combustion information of all the combustible in the fireproof partition according to the fire-fighting combustible information in the corresponding fireproof partition, and comparing the combustion information of all the combustible in the fireproof partition with the fire resistance limit of the fireproof partition to obtain the fire resistance limit allowance of the fireproof partition.

When the terminal equipment is in the patrol instrument mode, the combustible core processing unit compares the obtained fire-fighting combustible information with the related information of the core database, and the patrol function is completed. When the equipment is in an intelligent terminal mode, the combustible core processing unit compares the obtained fire-fighting combustible information with the data of the core database to finish the logic judgment of the migration of the combustible, then performs the calculation and analysis of the combustible, evaluates the state of the combustible in the fireproof partition, displays the result through the man-machine interaction unit, transmits the result to the core database through the network management unit, and stores the result in the remote server.

In the intelligent terminal mode, if the combustible identification code acquired by the combustible core processing unit does not exist in the core database, the operation is the migration operation of the new combustible, the man-machine interaction unit pops up an interface for a user to confirm, and after the user confirms, the core database stores corresponding fire-fighting combustible information; if the combustible object identification code acquired by the combustible object core processing unit exists in the core database, the operation is the migration operation of the original combustible object, the man-machine interaction unit pops up an interface for the user to confirm, and after the user confirms, the core database deletes the corresponding fire-fighting combustible object information. The combustion information includes actual combustion time, equivalent fire duration, fire load, and fire resistance status. And calculating the combustion information of the combustible through an equivalent area calculation method.

The combustible core processing unit receives the fire-fighting combustible information from the two-dimensional code recognition and picture processing unit, and in the intelligent terminal mode, the judgment of the migration in and migration out states of the combustible is completed through screening and comparing the combustible identification codes with the data in the core database. If the identification code of the combustible is not in the core database, the operation is the migration operation of the new combustible, the pop-up interface is used for the user to confirm, new combustible information is stored in the core database after the user confirms, if the identification code of the combustible is already in the core database, the operation is the migration operation of the original combustible, the pop-up interface is used for the user to confirm, after the user confirms, the subtraction operation is carried out on the quantity of the combustible in the core database, if the quantity of the combustible is more than 0, the quantity information of the combustible in the core database is updated if the quantity of the combustible in the same category is stored in the fireproof subarea in part, if the number of the combustible substances is equal to 0, the original combustible substances are completely migrated, then the combustible substances in the fireproof partition are calculated and evaluated by using a special equivalent area method, information such as actual burning time, equivalent fire duration, fire load, fire resistance state and the like of the combustible substances in the fireproof partition is given, a calculation result is compared with the fire resistance limit of the fireproof partition, whether the fire resistance limit allowance situation or the fire resistance limit of the fireproof partition is broken through is obtained, an overall state evaluation suggestion is given, the overall state evaluation suggestion is displayed through a human-computer interaction unit, a basis is provided for decision making of staff, and a compensation measure suggestion is given for the broken fire resistance limit, wherein the method comprises the following steps: a mobile fire extinguishing apparatus, etc. is provided. In the inspection instrument mode, the received combustible information is compared with the information in the core database, whether the storage position, the type, the storage period and the like of the scanned combustible meet the management requirements or not is judged, and the scanned combustible is displayed through a pop-up interface and can be used for temporary combustible management.

The core database is provided with a basic information list, a fireproof partition list, a partition combustible information list and an alarm information list. The device also comprises a timing management unit, wherein the timing management unit is connected with the core database and the man-machine interaction unit and is used for regularly scanning the alarm information table in the core database to trigger reminding information and displaying the reminding information through the man-machine interaction unit. The timing management unit also informs the reminding information to the user through mail. The timing management unit regularly refreshes the alarm information of the core database through setting the period, displays the alarm information through the man-machine interaction unit and supports the mail notification reminding function. The fire partition information table contains fire partition names, numbers, areas, machine group numbers, comprehensive hazard levels, fire resistance limits, combustible information, fire resistance state information and the like, and the common combustible information table comprises types, names and combustion heat values. The core database is used for storing data related to combustible matters, supporting search and query of various data, can be developed based on a commercial database, comprises a basic information class table, a fireproof partition table, a partition combustible matter information table, an alarm information table and other data tables, and the fireproof partition table is the basis for constructing the whole core database.

The man-machine interaction unit is in interaction connection with the combustible core processing unit and is used for displaying the processing result of the combustible core processing unit and inputting external instructions. The man-machine interaction unit comprises a touch type liquid crystal display screen, an external mouse and a keyboard. The man-machine interaction unit adopts a large-size color liquid crystal screen, supports touch operation and external mouse and keyboard operation, completes display of various information, and receives external instructions.

The operation mode management unit is connected with the core database and is used for selecting a patrol instrument mode or an intelligent terminal mode through a mode change-over switch. The operation mode unit can set the working mode of the equipment to be that through a mode change-over switch: the patrol instrument or the intelligent terminal displays the working mode information through a display screen. When the equipment is in the inspection instrument, the equipment can be used for on-site fire-fighting inspection, and the information such as whether the storage position and type of the combustible meet the requirements or not, whether the storage time is within the effective storage time limit or not is judged by scanning the two-dimensional code on the on-site combustible storage license. And when the equipment is in the intelligent terminal mode, the equipment is used for state evaluation of combustible materials, state evaluation of fireproof subareas and management of combustible material migration and migration.

The above examples are only illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical scheme of the present invention will fall within the protection scope of the present invention without departing from the design concept of the present invention, and the technical content of the present invention is fully described in the claims.

Claims (8)

1. An intelligent management terminal for fire-fighting combustible materials, which is characterized in that: comprising

The camera unit is used for acquiring a two-dimensional code identification chart of the combustible material and a combustible material image, and comprises an internal camera and an external camera;

the two-dimensional code identification and picture processing unit is connected with the camera unit and the mobile equipment and is used for identifying the two-dimensional code identification map to acquire fire-fighting combustible information and processing the combustible image to acquire combustible file data; the fire-fighting combustible information comprises a combustible identification code, a combustible species, a combustible name, a combustible combustion heat value, a combustible unit, a combustible quantity, a combustible danger level, a combustible migration time and a combustible storage period;

the external interface unit is used for being connected with the camera unit, the mobile equipment and the two-dimensional code identification and picture processing unit;

the file processing unit is interactively connected with the external interface unit and is used for processing the combustible file data and providing an interface for data import and export of a core database and input operation of basic information;

the core database is interactively connected with the file processing unit and is used for storing various basic information data and calculation analysis data, including a local database and a remote database;

the network management unit is interactively connected with the core database and is used for connecting the core database with a remote server;

the combustible substance core processing unit is connected with the two-dimensional code recognition and picture processing unit and is in interactive connection with the core database, and is used for receiving the fire-fighting combustible substance information sent by the two-dimensional code recognition and picture processing unit, and combining the fire-fighting combustible substance information with data in the core database to judge whether the corresponding combustible substance meets the management requirement or not in a patrol instrument mode; comparing the fire-fighting combustible information with the data in the core database in an intelligent terminal mode to finish the migration judgment of the combustible, recalculating the combustion information of all the combustible in the fireproof partition according to the fire-fighting combustible information in the corresponding fireproof partition, and comparing the combustion information of all the combustible in the fireproof partition with the fire resistance limit of the fireproof partition to obtain the fire resistance limit allowance of the fireproof partition; in the intelligent terminal mode, if the combustible identification code acquired by the combustible core processing unit does not exist in the core database, the operation is the migration operation of the new combustible, the man-machine interaction unit pops up an interface for a user to confirm, and after the user confirms, the core database stores corresponding fire-fighting combustible information; if the combustible object identification code acquired by the combustible object core processing unit exists in the core database, the operation is the migration operation of the original combustible object, the man-machine interaction unit pops up an interface for the user to confirm, and after the user confirms, the core database deletes the corresponding fire-fighting combustible object information;

the man-machine interaction unit is in interactive connection with the combustible core processing unit and is used for displaying the processing result of the combustible core processing unit and inputting external instructions;

and the operation mode management unit is connected with the core database and is used for selecting a patrol instrument mode or an intelligent terminal mode through a mode change-over switch.

2. The intelligent management terminal for fire-fighting combustibles according to claim 1, wherein: the combustion information includes actual combustion time, equivalent fire duration, fire load, and fire resistance status.

3. The intelligent management terminal for fire-fighting combustibles according to claim 2, wherein: and calculating the combustion information of the combustible through an equivalent area calculation method.

4. The intelligent management terminal for fire-fighting combustibles according to claim 1, wherein: the man-machine interaction unit comprises a touch type liquid crystal display screen, an external mouse and a keyboard.

5. The intelligent management terminal for fire-fighting combustibles according to claim 1, wherein: the external interface unit comprises a USB interface, an RJ45 Ethernet interface, an HDMI interface and a WLAN interface.

6. The intelligent management terminal for fire-fighting combustibles according to claim 1, wherein: the core database is provided with a basic information list, a fireproof partition list, a partition combustible information list and an alarm information list.

7. The intelligent management terminal for fire-fighting combustibles according to claim 6, wherein: also included is a method of manufacturing a semiconductor device,

the timing management unit is connected with the core database and the man-machine interaction unit and is used for scanning the alarm information table in the core database at regular time to trigger reminding information and displaying the reminding information through the man-machine interaction unit.

8. The intelligent management terminal for fire-fighting combustibles according to claim 7, wherein: the timing management unit also informs the reminding information to the user through mail.