CN111260003A - Full-life intelligent management method and system for fire-fighting equipment - Google Patents
Full-life intelligent management method and system for fire-fighting equipment Download PDFInfo
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Abstract
The method utilizes an RFID handset to detect an RFID label of the fire fighting equipment, utilizes a biological identification module to collect information of personnel entering or leaving a warehouse, utilizes RFID to read access control to read the information of the fire fighting equipment entering or leaving the warehouse, and utilizes a life management information platform to record service records and life information of the fire fighting equipment. The method can rapidly identify fire fighters and fire fighting equipment, and can also record the use, maintenance, service life and the like of the fire fighting equipment through the service life management information platform, so that the regular maintenance and service life monitoring are realized.
Description
Technical Field
The application relates to the technical field of fire fighting, in particular to a full-life intelligent management method and system for fire fighting equipment.
Background
The fire safety is an important component in the national disaster prevention system and the social public safety, and is an important work concerning the life and property safety of people and the social stability, and the fire fighting equipment is used as a core material resource in the fire safety system, and the importance of the fire fighting equipment is also self-evident. The efficient management and reasonable use of the fire-fighting equipment are the prerequisite guarantee for the fire fighters to successfully carry out the fire-fighting rescue task and are the key for reducing casualties and disaster losses to the maximum extent.
With the rapid development of the scientific and technological level and the economic level at the present stage, a plurality of new technologies can be applied to the development and the production of fire-fighting equipment, so that the variety and the number of the fire-fighting equipment in China are greatly improved. At present, fire-fighting equipment equipped in all levels of fire-fighting departments in China is not more than hundreds of equipment, and the fire-fighting equipment with various types and huge quantity is also a great problem in the aspects of effective management and reasonable maintenance. Currently, most fire-fighting units have more or less the following problems in fire-fighting equipment management:
1. the storage equipment management is dispersed, the equipment data cannot be shared, and the inventory checking cost is high;
2. the service life cycle management of the equipment is not available, the use record and the maintenance record of the equipment cannot be timely and dynamically acquired, and potential safety hazards exist;
3. the management and supervision are not in place, only spot check and overhaul can be realized, and the equipment is overdue or cannot be supervised in time when the equipment needs to be checked.
In view of the above, it is very necessary to design an intelligent management method for the whole life of fire fighting equipment, which can perform quick checking, regular maintenance and life management on the fire fighting equipment.
Disclosure of Invention
An object of the embodiment of the present application is to provide an improved method and system for intelligently managing the life of a fire fighting device, so as to solve the technical problem of inconvenient management of the fire fighting device mentioned in the above background art.
In a first aspect, the embodiment of the application provides a method for intelligently managing the service life of fire fighting equipment, the method utilizes an RFID handset to detect an RFID tag of the fire fighting equipment, utilizes a biological identification module to collect information of personnel entering or leaving a warehouse, utilizes RFID to read information of the fire fighting equipment entering or leaving the warehouse by an entrance guard, and utilizes a service life management information platform to record service records and service life information of the fire fighting equipment.
Further, the method further comprises:
and (4) ex-warehouse step: when the biological identification module and the RFID read access control simultaneously acquire information of personnel and fire-fighting equipment leaving the warehouse, the life management information platform modifies the state of the fire-fighting equipment into a warehouse-out state and registers the acquired personnel as a retriever of the fire-fighting equipment which is taken out of the warehouse.
Further, the method further comprises:
warehousing: when the biological identification module and the RFID read access control simultaneously acquire information of personnel entering a warehouse and fire-fighting equipment, the life management information platform modifies the state of the fire-fighting equipment into a warehousing state, checks whether the acquired personnel is a retriever of the warehoused fire-fighting equipment, and meanwhile, updates the service record and the life information of the fire-fighting equipment.
Further, the method further comprises:
and (3) overhauling: when one or more parameters in the service record and the service life information of the fire fighting equipment reach a threshold value, the service life management information platform sends equipment maintenance reminding information to the display module, and updates the maintenance record and the service life information of the fire fighting equipment after the maintenance of the fire fighting equipment is completed.
Further, the method further comprises:
and (3) identity authority importing step: and importing the identity information and the receiving authority of the fire fighting equipment into the biological identification module.
Further, the step of ex-warehouse also comprises:
emergency ex-warehouse step: all the fire-fighting equipment is set to be in an emergency receiving state through the processing module, receiving permission of all receiving personnel is removed, and when the camera monitoring module and the RFID reading access control simultaneously acquire fire-fighting equipment receiving videos and fire-fighting equipment delivery information, the service life management information platform modifies the state of the fire-fighting equipment into a delivery state.
Furthermore, when the RFID reading access control and biological identification module detects illegal warehouse-out equipment and illegal personnel, the alarm module and the display module perform sound-light alarm reminding.
Furthermore, when the RFID handset carries out daily maintenance scanning on the fire-fighting equipment, the service record and the maintenance record of the fire-fighting equipment are counted by the service life management information platform, and the service life information is calculated.
In a second aspect, the application provides a life-cycle intelligent management system for fire-fighting equipment, which comprises an intelligent storage module, a camera monitoring module, a biological identification module, a warehouse management module, an RFID management module, a processing module, an alarm module, a display module and a life management information platform.
Further, intelligence storing module includes temperature sensor, temperature regulator, humidity transducer, dry regulator, capacity sensor, communication unit and electrical unit, sets up and is used for depositing in batches and life-span management precision fire control instrument.
Furthermore, the camera monitoring module is used for monitoring abnormal personnel in the warehouse and acquiring personnel receiving videos in an emergency warehouse-out state.
Further, the biometric module includes one or more of face recognition, iris recognition, and fingerprint recognition, and is configured to collect information about persons entering or leaving the warehouse.
Further, warehouse management module includes temperature sensor, humidity transducer, smoke transducer, carbon monoxide sensor and carbon dioxide sensor, sets up and is used for carrying out whole environmental monitoring to the warehouse.
Further, the RFID management module comprises an RFID label, an RFID reading access control device and an RFID handheld device, the RFID label is arranged and used for recording the service life information of the fire-fighting equipment, the RFID handheld device is arranged and used for detecting the RFID label of the fire-fighting equipment, and the RFID reading access control device is arranged and used for reading the information of the fire-fighting equipment entering or leaving the warehouse.
Further, the alarm module is arranged for audible and visual alarm reminding.
Further, the display module comprises a fixed display screen and a mobile terminal, and is used for displaying the use record, the overhaul record and the service life information of the fire fighting equipment.
And further, a service life management information platform is arranged for recording and calculating the use record, the overhaul record and the service life information of the fire fighting equipment.
Further, the system also comprises a wireless communication module and/or a wired communication module which are used for information transmission among the modules.
Further, the communication unit of the intelligent storage module comprises one or more of NB-iot, 2G, 3G, an ad hoc network lora and a zigbee combination.
The method utilizes an RFID handheld machine to detect an RFID label of the fire fighting equipment, utilizes a biological identification module to collect information of personnel entering or leaving a warehouse, utilizes RFID to read access control to read the information of the fire fighting equipment entering or leaving the warehouse, and utilizes a life management information platform to record service records and life information of the fire fighting equipment. The method can rapidly identify fire fighters and fire fighting equipment, and can also record the use, maintenance, service life and the like of the fire fighting equipment through the service life management information platform, so that the regular maintenance and service life monitoring are realized.
Drawings
Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:
FIG. 1 is a flow diagram of one embodiment of a method for intelligent management of the life span of fire fighting equipment according to the present application;
FIG. 2 is a flow diagram of another embodiment of a method for intelligent management of the life span of fire fighting equipment according to the present application;
fig. 3 is a circuit connection diagram of an intelligent power on/off management system of a portable device according to the present application.
Detailed Description
The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the related invention are shown in the drawings.
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.
Fig. 1 shows a flowchart 100 of an embodiment of a method for intelligent life-span management of fire fighting equipment according to the present application, specifically comprising the following steps:
and 101, detecting the RFID label of the fire fighting equipment by using an RFID handset.
The biometric module is used to collect information about the person entering or leaving the warehouse, step 102.
And 103, reading information of fire fighting equipment entering or leaving the warehouse by using the RFID reading entrance guard.
And step 104, recording the service record and the service life information of the fire fighting equipment by using the service life management information platform.
With continued reference to FIG. 2, a flow diagram 200 of another embodiment of a method for intelligent management of the life span of fire fighting equipment according to the present application is shown.
And step 202, the service life management information platform modifies the state of the fire fighting equipment into a warehouse-out state.
And step 203, the life management information platform registers the collected personnel as the retriever of the fire fighting equipment taken out of the warehouse.
In some optional implementations of this embodiment, the step of ex-warehouse further includes:
emergency ex-warehouse step: all the fire-fighting equipment is set to be in an emergency receiving state through the processing module, receiving permission of all receiving personnel is removed, and when the camera monitoring module and the RFID reading access control simultaneously acquire fire-fighting equipment receiving videos and fire-fighting equipment delivery information, the service life management information platform modifies the state of the fire-fighting equipment into a delivery state.
Step 204 and step 207 are the steps of warehousing the fire-fighting equipment, which specifically comprise:
and step 204, the biological identification module and the RFID reading entrance guard simultaneously acquire information of personnel and fire fighting equipment entering the warehouse.
And step 205, the life management information platform modifies the state of the fire fighting equipment into a warehousing state.
And step 206, checking whether the collected personnel is a retriever of the fire-fighting equipment which is warehoused.
And step 207, updating the service record and the service life information of the fire fighting equipment by the service life management information platform.
Step 208-210 is a fire-fighting equipment maintenance step of the method, which specifically comprises the following steps:
at step 208, one or more parameters of the usage record and the life information of the fire fighting equipment reach a threshold value.
And step 209, the service life management information platform sends equipment maintenance reminding information to the display module.
And step 210, updating the overhaul records and the service life information of the fire fighting equipment by the service life management information platform after the fire fighting equipment is overhauled.
In some optional implementations of this embodiment, the method further includes an identity right importing step 200: and importing the identity information and the receiving authority of the fire fighting equipment into the biological recognition module.
In some optional implementations of this embodiment, the method further includes: when the RFID reading access control and biological identification module detects illegal warehouse-out equipment and illegal personnel, the alarm module and the display module perform sound-light alarm reminding.
In some optional implementations of this embodiment, the method further includes: when the RFID handset carries out daily maintenance scanning on the fire-fighting equipment, the service record and the maintenance record of the fire-fighting equipment are counted by the service life management information platform, and the service life information is calculated.
With continued reference to FIG. 3, a circuit connection diagram 300 of a life-cycle intelligent management system for firefighting equipment according to the present application is shown.
As shown in fig. 3, the circuit connection diagram 300 includes a smart stock module 301, a camera monitoring module 302, a biometric module 303, a warehouse management module 304, an RFID management module 305, a processing module 306, an alarm module 307, a display module 308, and a life management information platform 309.
In some optional implementations of this embodiment, the intelligent storage module 301 includes a temperature sensor, a temperature regulator, a humidity sensor, a drying regulator, a capacity sensor, a communication unit, and a power supply unit, and is configured to store and manage the life of the precise fire fighting equipment in batches. Meanwhile, the intelligent storage module 301 and the RFID management module 305 complement each other, RFID management is adopted in the use of large equipment and daily instruments, and the precise instruments and small fire-fighting equipment are generally collected and managed uniformly through the intelligent storage module 301 due to the large number of instruments or difficulty in sticking RFID tags, such as human body detectors, fire gloves, fire-fighting rescue clothing, and the like. And the temperature sensor, the temperature regulator, the humidity sensor, the drying regulator and the capacity sensor which are arranged in the intelligent storage module 301 are mainly used for sensing the environment and the capacity parameters in the intelligent storage module 301, and can also be automatically regulated and controlled to be suitable for the environment for storing fire-fighting instruments. The communication unit transmits the related data to the life management information platform 309, keeps real-time synchronization, and displays the data of the intelligent storage module 301 on the display module 308.
In some optional implementation manners of this embodiment, the intelligent storage module 301 may perform intelligent transformation and upgrade on a large-scale warehouse, so as to implement a stereoscopic storage warehouse, and implement storage management informatization, standardization, visualization, intellectualization, and automation by using an existing informatization platform, adding hardware facilities, and deepening information scheduling according to actual needs. The intelligent management and operation of the warehouse are achieved by taking the information system platform hardware facilities as supports and realizing intelligent three-dimensional access of equipment in unified categories. Preferably, the intelligent storage module 301 adopts a turnover box storage and transportation mode with uniform specification and size, so as to improve the efficiency of emergency rapid batch transportation of the war supplies.
In some optional implementation manners of this embodiment, the camera monitoring module 302 is configured to monitor abnormal personnel in the warehouse and acquire a video for personnel to receive in an emergency warehouse-out state.
In some optional implementations of the embodiment, the biometric module 303 includes one or more of face recognition, iris recognition, and fingerprint recognition, and is configured to collect information of persons entering or leaving the warehouse.
In some optional implementations of this embodiment, the warehouse management module 304 includes a temperature sensor, a humidity sensor, a smoke sensor, a carbon monoxide sensor, and a carbon dioxide sensor, which are configured to perform overall environmental monitoring on the warehouse.
In some optional implementations of this embodiment, the RFID management module 305 includes an RFID tag, an RFID reading access control, and an RFID handset, the RFID tag is configured to record life information of the fire fighting equipment, the RFID handset is configured to detect the RFID tag of the fire fighting equipment, perform remote group reading and fast inventory, and the RFID reading access control is configured to read information of the fire fighting equipment entering or leaving the warehouse.
In some optional implementations of the present embodiment, the alarm module 307 is configured to provide an audible and visual alarm.
In some optional implementations of this embodiment, the display module 308 includes a fixed display screen and a mobile terminal, and is configured to display usage records, maintenance records, and life information of the fire fighting equipment.
In some optional implementations of this embodiment, the life management information platform 309 is configured to record and calculate usage records, maintenance records, and life information of the fire fighting equipment, and meanwhile, data of the platform may also provide a basis for purchase and distribution of later equipment.
In some optional implementations of this embodiment, the system further includes a wireless communication module and/or a wired communication module configured to transmit information between the modules.
In some optional implementations of this embodiment, the communication unit of the smart storage module 301 includes one or more combinations of NB-iot, 2G, 3G, ad hoc network lora, and zigbee. When the warehouse is too large or the storage is too much, the communication unit of the intelligent storage module 301 can realize quick searching, taking and placing. Preferably, a fixed number can be additionally added to the intelligent storage module 301, and the region is divided and sorted by the fixed number.
The method provided by the embodiment of the application utilizes the RFID handset to detect the RFID tag of the fire fighting equipment, utilizes the biological identification module 303 to collect the information of personnel entering or leaving the warehouse, utilizes the RFID reading entrance guard to read the information of the fire fighting equipment entering or leaving the warehouse, and utilizes the life management information platform 309 to record the service record and the life information of the fire fighting equipment. According to the method, while fire fighters and fire fighting equipment are rapidly identified, the service life management information platform 309 can be used for carrying out usage record, maintenance record, service life record and the like on the fire fighting equipment, so that regular maintenance and service life monitoring are realized.
The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the spirit of the invention. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.
Claims (8)
1. A life-span intelligent management method of fire fighting equipment is characterized in that an RFID label of the fire fighting equipment is detected by an RFID handset, information of personnel entering or leaving a warehouse is collected by a biological identification module, information of the fire fighting equipment entering or leaving the warehouse is read by an RFID reading entrance guard, and a service record and life-span information of the fire fighting equipment are recorded by a life-span management information platform, and the method also comprises the following steps:
and (4) ex-warehouse step: when the biological identification module and the RFID read access control simultaneously acquire information of personnel and fire-fighting equipment which leave a warehouse, the life management information platform modifies the state of the fire-fighting equipment into a warehouse-out state and registers the acquired personnel as a retriever of the fire-fighting equipment which is taken out of the warehouse;
warehousing: when the biological identification module and the RFID read access control simultaneously acquire information of personnel entering a warehouse and fire-fighting equipment, the life management information platform modifies the state of the fire-fighting equipment into a warehousing state, checks whether the acquired personnel is a retriever of the warehoused fire-fighting equipment, and meanwhile updates the service record and the life information of the fire-fighting equipment;
and (3) overhauling: when one or more parameters in the service record and the service life information of the fire fighting equipment reach a threshold value, the service life management information platform sends equipment maintenance reminding information to the display module, and updates the maintenance record and the service life information of the fire fighting equipment after the maintenance of the fire fighting equipment is finished. And the service life management information platform updates the overhaul records and the service lives of the fire-fighting equipment after the fire-fighting equipment is overhauled.
2. The method for intelligent management of the life span of fire equipment of claim 1, further comprising:
and (3) identity authority importing step: and importing the identity information and the receiving authority of the fire fighting equipment into the biological recognition module.
3. The method for intelligent management of the life span of fire fighting equipment of claim 1, wherein the step of ex-warehouse further comprises:
emergency ex-warehouse step: the service life management information platform is used for setting all fire-fighting equipment into an emergency receiving state through the processing module and removing receiving permission of all receiving personnel, and when the camera monitoring module and the RFID reading access control simultaneously acquire fire-fighting equipment receiving videos and fire-fighting equipment delivery information, the service life management information platform modifies the state of the fire-fighting equipment into a delivery state.
4. The intelligent management method for the whole life of fire fighting equipment according to claim 1, characterized in that when the RFID reading access control and the biological recognition module detect illegal warehouse-out equipment and illegal personnel, the alarm module and the display module perform sound and light alarm reminding.
5. The intelligent management method for the whole service life of the fire fighting equipment according to claim 1, wherein when the RFID handset carries out daily maintenance scanning on the fire fighting equipment, the service life management information platform counts the use records and maintenance records of the fire fighting equipment and calculates service life information.
6. The system is characterized by comprising an intelligent storage module, a camera monitoring module, a biological identification module, a warehouse management module, an RFID management module, a processing module, an alarm module, a display module and a service life management information platform;
the RFID management module comprises an RFID tag, an RFID reading access control and an RFID handset, wherein the RFID tag is used for recording the service life information of fire-fighting equipment, the RFID handset is used for detecting the RFID tag of the fire-fighting equipment, and the RFID reading access control is used for reading the information of the fire-fighting equipment entering or leaving a warehouse;
the intelligent storage module comprises a temperature sensor, a temperature regulator, a humidity sensor, a drying regulator, a capacity sensor, a communication unit and a power supply unit, and is used for storing and managing the service life of the precise fire fighting instruments in batches;
the camera monitoring module is used for monitoring abnormal personnel in the warehouse and acquiring personnel receiving videos in an emergency ex-warehouse state;
the biological recognition module comprises one or more combinations of face recognition, iris recognition and fingerprint recognition and is used for collecting information of personnel entering or leaving the warehouse;
the warehouse management module comprises a temperature sensor, a humidity sensor, a smoke sensor, a carbon monoxide sensor and a carbon dioxide sensor and is used for monitoring the overall environment of the warehouse;
the alarm module is used for audible and visual alarm reminding;
the display module comprises a fixed display screen and a mobile terminal and is used for displaying the use record, the overhaul record and the service life information of the fire fighting equipment;
and the service life management information platform is used for recording and calculating the use record, the overhaul record and the service life information of the fire fighting equipment.
7. The system of claim 6, further comprising a wireless communication module and/or a wired communication module configured for communication of information between the modules.
8. The system of claim 6, wherein the communication unit of the intelligent storage module comprises one or more of NB-iot, 2G, 3G, an ad hoc network lora, and a zigbee.
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| CN114492688A (en) * | 2022-01-18 | 2022-05-13 | 苏州深维纵横数据科技有限公司 | Factory article management system and method based on NFC label |
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| CN108549919A (en) * | 2018-04-19 | 2018-09-18 | 安徽车安科技有限公司 | Fire-fighting equipment equipment supervisory systems based on RFID technique |
| CN209674391U (en) * | 2019-01-24 | 2019-11-22 | 江苏中科智睿物联网科技有限公司 | A kind of whole-life cycle fee system of special type fire control equipment |
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| CN113822624A (en) * | 2021-08-24 | 2021-12-21 | 国网重庆市电力公司南川供电分公司 | Intelligent management system for electric energy metering two-stage storehouse |
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Application publication date: 20200609 |