CN109559031B - Intelligent fire control management system - Google Patents

Abstract

The invention discloses an intelligent fire-fighting management system, which comprises: the system comprises a handheld reader, a background server and an equipment tag; wherein, handheld reader includes: the tag reading and writing module, the equipment recording module and the equipment checking module are in communication connection with the background server; the label reading and writing module is used for reading and writing information of the equipment label according to an operation instruction input by an operator; the equipment entry module is used for receiving equipment information corresponding to the equipment label and entered by an operator; and the equipment checking module is used for displaying corresponding equipment checking information according to the read label information and receiving equipment checking records and signatures input by operators.

Description

Intelligent fire control management system

Technical Field

The invention belongs to the technical field of fire fighting, and particularly relates to an intelligent fire fighting management system.

Background

At present, in the fire fighting management process, a paper record filling or patrol mode is adopted, the maintenance and maintenance of a fire fighting facility has the phenomenon of 'passing through the field', part of the maintenance and maintenance is even in an out-of-control leakage pipe state, the intact state of the fire fighting facility is not truly reflected, and the whole building fire fighting process management cannot be realized. The fire safety work is at ordinary times, the traditional fire management mode is delayed day by day, the traditional fire patrol and maintenance work can not be systematically, normatively and intelligently guided, the state of fire-fighting facilities can not be monitored in real time, the fire prevention and monitoring can not play a substantial role, the probability of fire occurrence is finally improved, and the inestimable loss is caused.

Disclosure of Invention

In order to solve the problems in the existing fire fighting management process, the invention aims to provide an intelligent fire fighting management system. The intelligent fire protection management system is developed, the value maximization of civil defense and technical defense measures is realized, the fire protection patrol steps are standardized, the fire protection patrol quality is supervised, the fire protection patrol data is analyzed, the 'non-working' and 'non-checking' behaviors of part of fire protection patrol personnel are solved by means of technical means, data support is provided for scientific fire risk assessment, and a basis is provided for scientific decision making of managers.

The technical scheme adopted by the invention is as follows:

an intelligent fire management system, comprising: the system comprises a handheld reader, a background server and an equipment tag; wherein, handheld reader includes: the tag reading and writing module, the equipment recording module and the equipment checking module are in communication connection with the background server; the tag reading and writing module is used for reading and writing information of the equipment tag according to an operation instruction input by an operator; the equipment entry module is used for receiving equipment information corresponding to the equipment label and entered by an operator; and the equipment checking module is used for displaying corresponding equipment checking information according to the read label information and receiving equipment checking records and signatures input by operators.

The invention has the beneficial effects that:

the intelligent fire-fighting management system provided by the invention performs fire-fighting management work by using the RFID technology, provides the functions of checking key points and key point prompt, and can effectively avoid the situation that a user manager changes as long as the operation is performed according to the prompt, the former equipment condition is unknown, the experience values of workers on duty are different, the fire-fighting equipment checking standards are not uniform, and the problems of deviation caused by subjective judgment and non-speciality exist. Moreover, through the collected equipment information, fire risk assessment can be carried out, and corresponding responsible persons are prompted to carry out fire prevention in time.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent fire management system according to an embodiment of the present invention.

FIG. 2 is a schematic diagram of a handheld reader according to an embodiment of the present invention.

Fig. 3 to 29 are schematic views of operation interfaces according to an embodiment of the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

As shown in fig. 1, the structure of the intelligent fire management system of the embodiment is schematically illustrated. The system comprises: the system comprises a handheld reader 11, a background server 12 and a device tag 13; wherein,

the device tag may be an RFID tag, an NFC tag, or other readable or readable and writable tag and a two-dimensional code, which is not limited in the present application, and functional tags capable of implementing the functions of the present application are all within the protection scope of the present application.

As shown in fig. 2, the handheld reader 11 includes: the tag reading and writing module 111, the device entry module 112 and the device checking module 113 are in communication connection with the background server 12;

the tag reading and writing module 111 is used for reading and writing information of the equipment tag 13 according to an operation instruction input by an operator;

the equipment entry module 112 is used for receiving equipment information corresponding to the equipment label 13 and entered by an operator;

and the equipment checking module 113 is configured to display corresponding equipment checking information according to the read tag information, and receive an equipment checking record and a signature entered by an operator.

In another embodiment, the handheld reader 11 further comprises: the system comprises a task module 114, a hidden danger rectification and review module 115, an equipment maintenance module 116, an offline module 117, a storage module 118, a communication module 119 and a personal information module 1110; wherein,

the task module 114 is configured to receive and display task information sent by the background server 12;

the hidden danger rectification and reconstruction review module 115 is used for displaying equipment to be rectified and reconstructed of the building according to the building selected by the operator, and receiving rectification records and signatures of the operator;

the equipment maintenance module 116 is used for keeping records and signatures according to equipment corresponding to the equipment tag 13 input by an operator;

an offline module 117, configured to enable the handheld reader 11 to enter an offline mode operating state;

the storage module 118 is configured to store task information sent by the background server 12 and operation information of an operator on the handheld reader 11;

the communication module 119 is used for enabling the handheld reader 11 to keep communication connection with the background server 12 and receiving or sending data;

and a personal information module 1110, configured to receive and store the personal information input by the user.

In actual hardware design, the screen of the handheld reader 11 is a touchable screen, and is used for receiving an operation instruction and input information of an operator, displaying corresponding equipment inspection information, and receiving equipment inspection records and signatures input by the operator.

For a clearer explanation of the above intelligent fire management system, the following description is provided with a specific embodiment, however, it should be noted that the embodiment is only for better explaining the present invention and should not be construed as an undue limitation to the present invention.

As shown in fig. 3, the screen shot of login by the handheld reader 11 is a screen shot, and a user name and a password can be input to login to a home page. Typically, the online mode is default to an open state, and the functionality may also be changed in the settings as needed.

As shown in fig. 4, the screenshot is a home page screenshot and includes options of a user name, my task, hidden danger rectification and review, equipment inspection, equipment entry, equipment maintenance, offline submission, offline mode entry, online mode entry, and the like. Meanwhile, when the login page is opened, automatic searching and updating can be performed, meanwhile, manual clicking can be performed to check updating, and installation can be selected after updating.

Referring to fig. 5, a personal information interface specifically operates as follows: and clicking the head portrait at the upper left corner of the home page to enter the personal information page. After the corresponding information is edited, the 'save' button needs to be clicked to complete the modification of the personal information page.

The functions of the device comprise: editing the head portrait: the head portrait can be changed by taking a picture or selecting the picture in the photo album; editing the nickname: any character can be input; editing gender: the male or female can be selected; editing the year and month of birth: a selectable date; editing the mobile phone number: an 11-bit number can be input; editing the micro signal: any character can be input; e, editing the E-mail: any character can be input; editing the signature: after adding the signature, handwriting input and storage are carried out, and meanwhile, the existing signature can be deleted and set as a default signature.

Referring to fig. 6-9, screen shots of a device entry interface are shown that may enable the entry functionality of the device.

The method specifically comprises the following steps: as shown in FIG. 6, an interface is selected for the building; directly selecting in a building list or selecting after inputting a building name in a search bar; building list shows content directly perceived, and the operating personnel of being convenient for carries out direct operation, through sliding interface, can get into the sub-interface of this building according to the selection, simultaneously, still can show the remark information of this building on the building list, for example: test building 2, which is a common civil building, with 7 total floors.

As shown in fig. 7, an interface is entered for a floor number floor; the floor number is default to 01, or two digits are filled after the floor number is selected to be manually input, the floor is selected as a drop-down list, and a scanning button can be clicked to scan the label of the equipment after the floor number is selected;

after scanning, as shown in fig. 8, the interfaces for number entry of fire partitions, entry of room numbers or channel numbers, and entry of equipment are provided; by inputting two digits as fire-proof partition numbers, inputting 4 digits as room numbers and channel numbers as 4 digits at the beginning of 8, when the equipment is input, the equipment is selected to input and the equipment category and the equipment name are selected and then stored, and the input work can be finished; specifically, after scanning, the UID of the device tag may be displayed, a fireproof partition number, a room number, or a channel number may be input correspondingly, and according to the input information, a coordinate position may be generated correspondingly, for example: according to the fire protection zone number 01, the room number or the channel number 0708, the corresponding coordinate position is 7 layers of 01 zone 0708 rooms. Further, the device type and device name can be selected and stored.

As shown in fig. 9, an area entry interface; and when the input is the area, selecting the area to input, selecting the area category and the area name to store, and finishing the input work.

Referring to fig. 10-16, there are screen shots of my task operations interface that may enable patrol work for various tasks while task handoff may be performed for tasks that have not begun.

As shown in FIG. 10, is a My tasks List interface; the completion degree of the task and the current state of the task can be checked; in the figure, the current account has two tasks, the completion degree of the task 1 is 33%, the task condition can be checked by clicking and checking, and the task 2 is in a handover application.

As shown in FIG. 11, the interface is viewed for the task; the task information can be displayed, timing is started after clicking 'start task', and a 'transfer task' is handed over to the background for processing after clicking 'transfer task'; in the figure, the operators have names: zhang Jixing, the category of his personnel is the patrol personnel, the information of task scope, number, time, period, required time, etc.

In addition, a handover task may also be selected; after the transfer, the task is displayed in a 'transfer application', if the background audit is passed, the task disappears and is subjected to patrol by a receiver, and if the background audit is rejected, the task is in a checking state and is still subjected to patrol by the original transfer;

as shown in fig. 12, to start a task interface; after the task is started, counting time by countdown, and displaying an unfinished equipment list and the number of the remaining equipment; the scanning can continue to patrol the equipment; in the interface, information such as the number of completed tasks, the number of remaining tasks, reference countdown, patrol scope, start time, unfinished equipment and the like is displayed, and a patrol key point interface can be accessed after a scanning button is clicked.

As shown in fig. 13, is a patrol gist interface; "yes" or "no" may be selected and then saved; the patrol key points are recorded by selecting 'yes' or 'no' according to patrol key points which are preset by corresponding equipment, such as basic requirements of a fireproof staircase, including whether lighting light of a region where the light-storage evacuation indication mark is arranged is normal or not, whether the light-storage evacuation indication mark is intact or not, and the like.

A 'bell icon' is arranged in front of each patrol key point, and after the bell icon is clicked, the patrol key points can be displayed as shown in FIG. 14, and the prompt can be turned off after the patrol key points are confirmed; the prompt contents displayed in the table are obtained through summary of work experience.

As shown in fig. 15, when "no" is selected, a small window is popped up to fill in specific fault information, and the specific fault information can be returned after determination; for example, the interface includes three parts, namely fault description information, on-site processing conditions and repair conditions, and an operator can actually fill and store the fault description information, the on-site processing conditions and the repair conditions according to the conditions.

FIG. 16 illustrates a task signing interface; the edited signature can be selected, and the task flow can be finished after the determination.

Referring to fig. 17-20, screenshots of hidden danger rectification review interfaces are shown, and inspection personnel can perform hidden danger rectification and rectification.

As shown in fig. 17, an interface is selected for the building; directly selecting in a building list or selecting after inputting a building name in a search bar; the function of this interface is similar to that of fig. 6.

As shown in fig. 18, it is a hidden danger device list interface; selecting equipment to be rectified, clicking the code scanning and checking, and reading the equipment; in the figure, the Dongan door training center building has three hidden danger devices, and operators can scan codes to check specific conditions according to conditions.

As shown in fig. 19, an interface is modified for hidden trouble equipment; selecting the hidden danger category needing rectification, and clicking to start rectification, namely recording; in the figure, an operator checks the hidden danger rectification of a fire alarm controller or a fire alarm controller (linkage type), and can select a corresponding hidden danger category to start rectification. A bell icon is arranged in front of the hidden danger category, and the icon can be clicked as required to obtain a prompt.

As shown in fig. 20, the signature interface is reviewed for hidden trouble correction: and selecting the edited signature to determine.

Referring to fig. 21-25, screenshots of the device inspection interface are shown, and the inspector can perform device inspection and entry.

As shown in fig. 21, an interface is selected for the building; directly selecting in a building list or selecting after inputting a building name in a search bar; the function of this interface is similar to that of fig. 6.

As shown in FIG. 22, for the inspection gist interface; the operator can judge the actual measurement condition according to the actual condition in the actual measurement record, and select yes or no, and save after the completion of filling.

Before each actual measurement record, a bell icon is arranged, and when the bell icon is clicked, as shown in FIG. 23, a patrol key point can be displayed, and the prompt can be turned off after the patrol key point is determined.

As shown in fig. 24, when "no" is selected, a small window is popped up to fill in specific failure information, and the determination can be made to return. When the interface is opened, three parts are in the dialog box, namely fault description, on-site processing situation and repair situation.

FIG. 25 illustrates a check signature interface; and selecting the edited signature and determining.

Referring to fig. 26-28, screenshots of the equipment maintenance interface are presented to allow for equipment maintenance and entry by the inspector.

As shown in fig. 26, select for the building: directly selecting in a building list or selecting after inputting a building name search in a search bar; the function of this interface is similar to that of fig. 6.

As shown in fig. 27, in order to obtain the maintenance description interface, the operator may fill in the maintenance description and save the maintenance description according to the situation.

As shown in fig. 28, the signature interface is maintained; and selecting the edited signature and determining.

In the system, the background server comprises: the system comprises a task allocation module, a storage module and a fire risk evaluation module; wherein,

the task distribution module is used for issuing the tasks to the handheld readers corresponding to the task receiving personnel according to the instructions of the distributing personnel;

the storage module is used for storing building information, personnel information, equipment information and equipment inspection records;

and the fire risk evaluation module is used for calculating and obtaining the risk index of the building through a fire risk evaluation algorithm according to the collected names and the collected numbers of the building equipment, and displaying the names and the numbers of the fire fighting equipment needing to be supplemented. As shown in fig. 29, after the fire risk assessment in beijing, four, the assessment score of the building was obtained, and it was concluded that 10 or more wet alarm valves, 5 or more fire hydrants, and 8 or more fire detectors were still missing.

The modules described in the embodiments of the present invention may be implemented by software, or may be implemented by hardware. The described modules may also be provided in a processor, which may be described as: a processor comprises a task allocation module, a storage module and a fire risk assessment module. The names of the units do not form a limitation to the units themselves in some cases, for example, the task allocation module may also be described as "sending task information to corresponding devices according to allocation instructions".

The intelligent fire-fighting management system provided by the invention performs fire-fighting management work by using the RFID technology, provides the functions of checking key points and key point prompt, and can effectively avoid the situation that a user manager changes as long as the operation is performed according to the prompt, the former equipment condition is unknown, the experience values of workers on duty are different, the fire-fighting equipment checking standards are not uniform, and the problems of deviation caused by subjective judgment and non-speciality exist. Moreover, through the collected equipment information, fire risk assessment can be carried out, and corresponding responsible persons are prompted to carry out fire prevention in time.

The invention is not limited to the above alternative embodiments, and any other various products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, all of which fall within the scope of the claims of the present invention, fall within the protection scope of the present invention.

Claims (5)

1. An intelligent fire management system, comprising: the system comprises a handheld reader, a background server and an equipment tag; wherein,

the hand-held reader includes: the tag reading and writing module, the equipment recording module and the equipment checking module are in communication connection with the background server;

the label reading and writing module is used for reading and writing information of the equipment label according to an operation instruction input by an operator;

the equipment entry module is used for receiving equipment information corresponding to the equipment label and entered by an operator;

the equipment inspection module is used for displaying corresponding equipment inspection information according to the read label information and receiving equipment inspection records and signatures input by operators;

the handheld reader further comprises: the system comprises a task module, a hidden danger rectification and review module, an equipment maintenance module, an off-line module, a storage module and a communication module; wherein,

the task module is used for receiving and displaying task information sent by the background server;

the hidden danger rectification and reconstruction rechecking module is used for displaying equipment to be rectified and reconstructed of the building according to the building selected by the operator and receiving rectification records and signatures of the operator;

the equipment maintenance module is used for recording and signing the equipment maintenance record corresponding to the equipment label according to the input of an operator;

the off-line module is used for enabling the handheld reader to enter an off-line mode working state;

the storage module is used for storing task information sent by the background server and operation information of an operator on the handheld reader;

the communication module is used for enabling the handheld reader to be in communication connection with the background server and receiving or sending data;

the device inspection module includes:

a building selection unit for displaying a building list, and selecting the building list by directly selecting the building list or inputting a building name in a search bar for searching;

the inspection key point unit is used for displaying inspection key points and actual measurement records and storing selection results; when the actual measurement record is selected to be negative, popping up a small window, receiving and storing the filled specific fault information;

the prompting unit is used for displaying the checking key points according to the instruction of clicking the bell icon;

the checking signature unit is used for displaying the edited signature and storing the signature according to the determined instruction;

the task module comprises:

the task list display unit is used for displaying the completion degree of the task and the current state of the task;

the task viewing unit is used for displaying task information, starting timing after receiving a task starting instruction, and sending a handover task instruction to the background server for processing after receiving the handover task instruction;

the task handing-over unit is used for displaying a task handing-over application list after receiving a task handing-over instruction, and if the background server passes the examination, the task is handed over to a handover person for inspection; if the background is checked and rejected, the task state is a checking state and is still patrolled by the original transfer person;

the task starting unit counts time by countdown, displays an uncompleted equipment list and the number of the remaining equipment, and scans and continues to patrol the equipment;

the inspection key point unit is used for displaying inspection key points and actual measurement records and storing selection results; when the actual measurement record is selected to be negative, popping up a small window, receiving and storing the filled specific fault information;

the prompting unit is used for displaying patrol key points according to the instruction of clicking the bell icon;

the patrol signature unit is used for displaying the edited signature and storing the signature according to the determined instruction;

hidden danger rectification review module includes:

a building selection unit for displaying a building list, and selecting the building list by directly selecting the building list or inputting a building name in a search bar for searching;

the hidden danger equipment list display unit is used for displaying hidden danger equipment, clicking the equipment to be rectified and modified to read the equipment after code scanning and checking;

the hidden danger equipment rectification unit is used for receiving and recording a rectification starting instruction according to the selected hidden danger category needing rectification;

the hidden danger rectification and rechecking signature unit is used for displaying the edited signature and storing the signature according to the determined instruction;

the background server comprises: the system comprises a task allocation module, a storage module and a fire risk evaluation module; wherein,

the task distribution module is used for issuing the tasks to the handheld readers corresponding to the task receiving personnel according to the instructions of the distributing personnel;

the storage module is used for storing building information, personnel information, equipment information and equipment inspection records;

and the fire risk evaluation module is used for calculating and obtaining the risk index of the building through a fire risk evaluation algorithm according to the collected names and the collected numbers of the building equipment, and displaying the names and the numbers of the fire fighting equipment needing to be supplemented.

2. The intelligent fire management system of claim 1, wherein the handheld reader further comprises: the personal information module is used for receiving and storing personal information input by a user;

the personal information module includes:

the head portrait editing unit is used for photographing or selecting pictures in the photo album to change the head portrait;

the nickname editing unit is used for inputting any character editing nickname;

a sex editing unit for selecting a male or a female;

a birth date editing unit for selecting a date;

the mobile phone number editing unit is used for inputting 11 digits;

the micro signal editing unit is used for inputting any character editing micro signal;

the electronic mail editing unit is used for inputting any character editing mailbox;

and the signature editing unit is used for adding the signature, inputting by handwriting, storing, deleting the existing signature and setting as a default signature.

3. The intelligent fire management system of claim 1, wherein the equipment entry module comprises:

a building selection unit for displaying a building list, and selecting the building list by directly selecting the building list or inputting a building name in a search bar for searching;

the floor number and floor entry unit is used for entering a floor number and the floor number is default to 01, or two digits are filled after the floor number is selected and manually input, the floor number is selected for a drop-down list, and point scanning is performed after the floor number is selected;

the fireproof subarea number recording unit is used for inputting two digits as fireproof subarea numbers;

a room number channel number recording unit for inputting 4 digits as a room number or inputting 4 digits at the beginning of 8 as a channel number;

the equipment entry unit is used for selecting equipment to enter and selecting equipment types and equipment names to store when the equipment is entered, and completing equipment entry;

and the area input unit is used for selecting area input and selecting the area type and the area name for storage when the input is the area, and finishing the area input.

4. The intelligent fire management system of claim 1, wherein the equipment maintenance module comprises:

a building selection unit for displaying a building list, and selecting the building list by directly selecting the building list or inputting a building name in a search bar for searching;

a maintenance description filling unit for filling and recording maintenance description;

and the maintenance signature unit is used for displaying the edited signature and storing the signature according to the determined instruction.

5. The intelligent fire management system of claim 1, wherein the device tags are RFID tags.

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