CN114662951A

CN114662951A - Fire-fighting engineering evaluation system based on cycle quality

Info

Publication number: CN114662951A
Application number: CN202210328864.0A
Authority: CN
Inventors: 陈金华
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-30
Filing date: 2022-03-30
Publication date: 2022-06-24

Abstract

The invention discloses a fire-fighting project evaluation system based on periodic quality, which comprises a fire-fighting information input module, a fire-fighting information integration module and a fire-fighting evaluation system feedback module, wherein the fire-fighting information input module is used for inputting basic fire-fighting safety information of each community, the fire-fighting information integration module is used for integrating and analyzing the fire-fighting information input by each community, the fire-fighting evaluation system feedback module is used for adjusting and feeding back the fire-fighting project grades of different communities, the fire-fighting information input module and the fire-fighting information integration module are connected with the fire-fighting evaluation system feedback module through a network, the basic information input system of each community can be input by the fire-fighting information input module, the fire-fighting information integration module and the fire-fighting evaluation system feedback module, the cognition of each community on fire-fighting safety can be obtained through sampling investigation and historical record, therefore, scoring is carried out, and the method has the characteristics of reducing fire-fighting hidden dangers and improving fire-fighting consciousness.

Description

Fire engineering evaluation system based on cycle quality

Technical Field

The invention relates to the technical field of fire-fighting engineering, in particular to a fire-fighting engineering evaluation system based on cycle quality.

Background

The building fire-fighting equipment refers to a general name of equipment and facilities for preventing and extinguishing a fire of a building (structure) such as an automatic fire alarm system, an automatic water spraying fire extinguishing system and a fire hydrant system which are arranged in the building (structure). The fire-fighting safety protection device is an important facility for ensuring the fire-fighting safety and the personnel evacuation safety of a building, and is an important component of a modern building. Plays an important role in protecting buildings, and effectively protects the life safety of citizens and the safety of national property. Among the various disasters, fire is one of the main disasters that threaten public safety and social development most often and most generally. In recent years, various disaster-causing factors are increased remarkably, and the scale of disasters is also expanding. With the increase of safety awareness of people, fire safety has also become popular among more and more people.

However, a plurality of old communities still exist at present, great fire-fighting hidden dangers exist, as the living crowds of the old communities are aged and the fire-fighting safety awareness is thin, in order to bring convenience to the drawing, a simple shed is built in a green belt in front of and behind a building for placing vehicles or sundries, the simple shed is covered in an illegal way, and a color steel plate room and a simple room are arranged on the top of the building; generally, old communities are long in age, a matched fire-fighting facility is lacked, and a part of buildings provided with the fire-fighting facility are often aged and lagged due to poor maintenance, so that once a fire disaster occurs, the safety guarantee can be set; various high-power household appliances such as air conditioners, color televisions, refrigerators and the like are necessities of daily life of residents, but due to the fact that line interfaces left during decoration for many years are insufficient, a lot of residents can use purchased sockets and electric wires to be connected manually, and in addition, the phenomenon of electric vehicle flying charging is serious; the residential area of the old community is small, the storage space is limited, a lot of people can store idle articles in the house or park bicycles and electric vehicles by using the corridor as a storage room of the old community, and once a fire disaster happens, the old community not only can help the fire disaster to spread, but also can break a unique 'life passage'; because earlier planning can not keep up with the development of the times, the situations of insufficient parking spaces exist in many communities and the like, private cars are easy to occupy and block fire fighting channels, and the rescue opportunity can be delayed to a certain extent. Therefore, it is necessary to design a fire fighting project evaluation system based on cycle quality to reduce the fire fighting hidden danger and improve the fire fighting consciousness.

Disclosure of Invention

The invention aims to provide a fire-fighting engineering evaluation system based on cycle quality, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a fire-fighting engineering evaluation system based on cycle quality, includes fire-fighting information input module, fire-fighting information integration module and fire-fighting evaluation system feedback module, fire-fighting information input module is used for typing in the basic fire safety information of each community, fire-fighting information integration module is used for carrying out the integration analysis with the fire-fighting information of typing in of each community, fire-fighting evaluation system feedback module is used for adjusting the feedback to the fire-fighting engineering grade of different communities, fire-fighting information input module and fire-fighting information integration module all with fire-fighting evaluation system feedback module internet access.

According to the technical scheme, the fire fighting information input module comprises a fire fighting evaluation database submodule, a community personnel information calling submodule and a hardware facility subentry detection submodule, wherein the fire fighting evaluation database submodule is used for storing evaluation scores obtained after periodic investigation so as to facilitate comprehensive analysis, the community personnel information calling submodule is used for extracting basic fire fighting information of each community personnel, the hardware facility subentry detection submodule is used for calling detected basic condition information of the hardware fire fighting facilities of each community, and the community personnel information calling submodule and the hardware facility subentry detection submodule are both in network connection with the fire fighting evaluation database submodule.

According to the technical scheme, the fire fighting information integration module comprises a comprehensive scoring calculation and analysis module and a fire fighting project grading submodule, the comprehensive scoring calculation module is used for comprehensively evaluating and calculating the input fire fighting information, the fire fighting project grading submodule is used for judging and grading the analyzed and calculated result, and the comprehensive scoring calculation and analysis module is in network connection with the fire fighting project grading submodule.

According to the technical scheme, the fire protection evaluation system feedback module comprises a hardware facility rectification submodule, a community resident rectification submodule and a potential hidden danger detection submodule, wherein the hardware facility rectification submodule is used for feeding back hardware facilities in a community with fire protection hidden dangers, the community resident rectification submodule is used for feeding back community residents with unqualified behaviors and fire protection consciousness which affect fire protection safety, and the potential hidden danger detection submodule is used for feeding back communities which are relatively safe at present but still have fire protection potential hidden dangers.

According to the technical scheme, the operation method of the fire-fighting information entry module mainly comprises the following steps:

step S1: establishing a fire fighting evaluation database for storing basic fire fighting safety information of community personnel and safety information of hardware fire fighting facilities in the community;

step S2: the fire-fighting project evaluation system records the basic information condition of corresponding community residents in a mode of sampling investigation and acquiring historical input data, wherein the related information comprises the age range of community personnel, the education degree and the knowledge and application of each resident on fire-fighting knowledge, and is used as a subsequent grading basis, synchronized to the fire-fighting information integration module, and evaluated and analyzed by a supervision department;

step S3: each community regularly organizes and arranges behavior detection that whether fire fighting safety is influenced by fire fighters on specific residence areas of residents in each community, scores the behaviors according to actual damage conditions, and synchronizes the behaviors to a fire fighting information integration module for subsequent comprehensive scoring;

step S4: the method comprises the steps that professional firefighters regularly detect and analyze hardware fire-fighting facilities of all communities, the hardware facilities comprise fire-fighting facilities, fire-fighting channels, road planning and circuit equipment which affects fire safety, analysis results are synchronized to a fire-fighting information integration module, information in steps S2 and S3 is integrated, and comprehensive evaluation is conducted on fire-fighting projects of all communities.

According to the technical scheme, the operation method of the fire fighting information integration module mainly comprises the following steps:

step A1: acquiring evaluation analysis information input by an input module, and transmitting data to a comprehensive grading calculation analysis module;

step A2: the comprehensive analysis calculation submodule integrates and calculates the scores according to a preset formula;

step A3: and dividing the fire-fighting project grades in the periodic detection according to the comprehensive calculation result, and specifically dividing the fire-fighting project grades into a qualified first grade, a qualified second grade and an unqualified first grade.

According to the above technical solution, the calculating step of step a2 further includes:

step A21: setting a fire-fighting project evaluation system full score Q, calculating and analyzing according to a preset formula to obtain a score value W, and dividing the grade within the detection time with the period n into grades

The first qualified batch is a first batch which meets the qualified standard, namely, the potential safety hazard can not be detected in the predictable range of the fire engineering evaluation system, the second qualified batch is a second batch which meets the qualified standard, namely, the first qualified batch meets the qualified standard in the detection period of the fire engineering evaluation system, but has a certain potential safety hazard in the predictable range, and the second unqualified batch meets the first qualified batch, namely, the potential safety hazard is detected in the detection period of the fire engineering evaluation system and needs to be fed back immediately;

step A22: calculating the hidden trouble time T when the grade is qualified two according to a formula,

and k is a control parameter and is influenced by human factors and environmental changes, and the hidden danger time in the formula is the difference between the current value and the unqualified critical value divided by the control parameter and the detection period.

According to the technical scheme, the operation method of the fire fighting evaluation system feedback module mainly comprises the following steps:

step B1: when the fire fighting evaluation system feedback module receives that the fire fighting project evaluation level is qualified, actions do not need to be arranged;

step B2: when the evaluation level is unqualified, the monitoring platform immediately informs nearby fire department personnel to overhaul and investigate the unqualified community;

step B3: and when the evaluation grade is qualified two, marking the identification code, and in the calculated predicted potential safety hazard period T, automatically identifying the identification code according to the marked identification code by the fire fighter in the detection period without detection until the predicted potential safety hazard time is reached, and informing the fire fighter of arranging nearby to overhaul the community.

According to the above technical solution, the step B2 further includes:

step B21: after receiving the instruction, the nearby fire department personnel immediately arrange the professional personnel to check the unqualified community on two aspects of community personnel and hardware equipment;

step B22: for the fire fighting awareness of community personnel is insufficient or related behaviors exist to influence fire fighting safety, the fire fighting personnel can carry out fire fighting safety education on the community personnel, carry out fire fighting propaganda, enhance the safety awareness and strengthen the fire fighting propaganda work;

step B23: and arranging professional personnel to overhaul the community hardware facilities which do not meet the fire safety standard.

According to the technical scheme, in the step S1, a fire protection evaluation database in the fire protection project evaluation system records the grading condition of the whole evaluation system, displays the evaluation level, and synchronizes the data to a fire protection department and safety departments of various communities by using a monitoring platform.

Compared with the prior art, the invention has the following beneficial effects: the invention is provided with a fire-fighting information input module, a fire-fighting information integration module and a fire-fighting evaluation system feedback module, can input the basic information of each community personnel into the system, acquire the knowledge of each community personnel on fire safety through sampling investigation and historical records, thereby carrying out grading, simultaneously carrying out grading on detection set by fire fighting hardware of each community by fire fighters, finally carrying out comprehensive analysis and calculation grading to grade the specific fire fighting project to a fire fighting evaluation system, simultaneously synchronizing data to a fire fighting department and safety departments of each community by a monitoring platform, therefore, personnel are arranged nearby according to the classification to further prevent and correct the fire safety of each community, the fire-fighting hidden danger of each community is reduced, the fire engineering information is managed visually, finely, integrally and intelligently, and the real-time performance, the accuracy and the foresight performance of the evaluation system are guaranteed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of the system module composition of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described 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.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a fire-fighting engineering evaluation system based on cycle quality, includes fire information input module, fire information integration module and fire evaluation system feedback module, its characterized in that: the fire fighting information input module is used for inputting basic fire fighting safety information of each community, the fire fighting information integration module is used for integrating and analyzing the fire fighting information input by each community, the fire fighting evaluation system feedback module is used for adjusting and feeding back fire fighting project grades of different communities, the fire fighting information input module and the fire fighting information integration module are both connected with the fire fighting evaluation system feedback module through a network, through the arrangement of the fire fighting information input module, the fire fighting information integration module and the fire fighting evaluation system feedback module, personnel basic information input system of each community can be obtained through sampling investigation and historical record so as to carry out grading, meanwhile, the fire fighters grade detection of fire fighting hardware setting of each community, finally, comprehensively analyze, calculate and grade, and grade the fire fighting project to the fire fighting evaluation system, meanwhile, the monitoring platform synchronizes data to the fire department and the security departments of all communities, so that personnel are arranged nearby according to the classification level to further prevent and modify the fire safety of all communities, the fire-fighting hidden danger of all communities is reduced, the fire engineering information is visualized, refined, integrated and intelligently managed, and the real-time performance, the accuracy and the foresight performance of the evaluation system are guaranteed.

The fire fighting information input module comprises a fire fighting evaluation database submodule, a community personnel information retrieval submodule and a hardware facility subentry detection submodule, wherein the fire fighting evaluation database submodule is used for storing evaluation scores obtained after periodic investigation so as to be convenient for comprehensive analysis, the community personnel information retrieval submodule is used for extracting basic fire fighting information of all community personnel, the basic fire fighting information comprises basic age, education degree, fire fighting safety awareness and behaviors influencing fire fighting safety, the hardware facility subentry detection submodule is used for retrieving the basic condition information of the detected hardware fire fighting facilities of all communities, and the community personnel information retrieval submodule and the hardware facility subentry detection submodule are connected with the fire fighting evaluation database submodule through a network.

The fire fighting information integration module comprises a comprehensive scoring calculation and analysis module and a fire fighting project grading submodule, the comprehensive scoring calculation module is used for comprehensively evaluating and calculating the entered fire fighting information, the fire fighting project grading submodule is used for judging and grading the result after analysis and calculation, and the comprehensive scoring calculation and analysis module is connected with the fire fighting project grading submodule through a network.

The fire fighting evaluation system feedback module comprises a hardware facility rectification submodule, a community resident improvement submodule and a potential hidden danger detection submodule, wherein the hardware facility rectification submodule is used for feeding back hardware facilities in a community with fire fighting hidden dangers so as to arrange professional rectification and restoration, the community resident improvement submodule is used for feeding back community residents with unqualified fire fighting behaviors and fire fighting consciousness, which affect fire fighting safety, so as to educate and improve people of the same type, and the potential hidden danger detection submodule is used for feeding back communities which are relatively safe at present but still have the fire fighting potential hidden dangers so as to mark the communities for subsequent processing.

The operation method of the fire-fighting information entry module mainly comprises the following steps:

step S3: each community regularly organizes and arranges behavior detection that whether fire fighting safety is influenced by fire fighters on specific residence places of residents in each community, wherein the behavior detection comprises conditions of illegal construction, illegal stacking for occupying fire fighting channels, illegal wiring circuits, overload power consumption, waste combustible stacking and the like, the behaviors of the community are scored according to actual damage conditions and synchronized to a fire fighting information integration module for subsequent comprehensive scoring;

step S4: regularly carry out the detection and analysis to the hardware fire control facility of each community through professional fire fighter, the hardware facility includes fire control facility, fire control passageway, road planning and the circuit equipment who influences fire control safety, in recent years, city construction speed clearly improves, old city transformation dynamics constantly increases, most engineering has passed through fire control design and has examined and accept the procedure, but the inside fire control that does not examine and authorize the construction, change service function, change fire control facility, cause the community to leave new hidden danger, occupy the fire control passageway, occupy the fire prevention interval, the phenomenon of using flammable, combustible material fitment is more general, synchronize the analysis result to fire control information integration module, integrate with step S2, S3' S information, carry out the comprehensive evaluation to the fire control engineering of each community.

The operation method of the fire-fighting information integration module mainly comprises the following steps:

step A2: the comprehensive analysis calculation submodule integrates and calculates the scores according to a preset formula, wherein the preset formula is comprehensive calculation given by a worker according to the standard of historical evaluation and the change of environmental factors;

step A3: the fire-fighting engineering grades in the periodic detection are divided according to the comprehensive calculation result, and are specifically divided into a qualified first grade, a qualified second grade and an unqualified third grade, so that corresponding solution preventive measures can be formulated according to different grades, system arrangement is pertinently performed, the working intensity of workers is reduced, the working efficiency is guaranteed, and the fire-fighting engineering of each community is more perfect and safe.

The calculating step of step a2 further comprises:

The first qualified batch is a first qualified batch, namely the potential safety hazard can not be detected in the predictable range of the fire engineering evaluation system, the second qualified batch is a second qualified batch, namely the first qualified batch reaches the qualified standard in the detection period of the fire engineering evaluation system, but a certain potential safety hazard exists in the predictable range, the unqualified batch is that the potential safety hazard exists in the detection period range of the fire engineering evaluation system and needs to be fed back immediately, the fire engineering can detect a larger range, but the detection accuracy is reduced along with the larger time range span exceeding the detection period, in order to ensure the higher detection accuracy, the period range can be shortened, so that the detection period range is far smaller than the predictive range, when the grade is two, namely the system has a certain potential safety hazard in prediction, the minimum value of the predictive range can be taken, and the time needed to be overhauled can be fed back to each department, the safety of the fire-fighting project is ensured to the maximum extent.

and k is a control parameter and is influenced by human factors and environmental changes, and the hidden danger time in the formula is the difference between the current value and the unqualified critical value divided by the control parameter and the detection period, so that the specific time in the grade or the fire-fighting hidden danger is obtained, a nearby fire department can be timely informed to overhaul, repeated detection for many times is avoided, and resources such as manpower, material resources and the like are saved.

The operation method of the feedback module of the fire fighting evaluation system mainly comprises the following steps:

step B2: when the evaluation level is unqualified, the monitoring platform immediately informs nearby fire department personnel to overhaul and investigate unqualified communities, educates and publicizes community personnel with unqualified fire protection safety, strictly prevents the action of destroying fire protection safety, arranges professional fire fighters for equipment overhaul in the communities with unqualified fire protection facilities, and minimizes fire protection hidden danger;

step B3: and when the evaluation grade is qualified two, marking the identification code and pasting the identification code, and in the predicted potential safety hazard period T obtained by calculation, automatically identifying the fire fighter in the detection period according to the marked identification code when detecting without detecting until the predicted potential safety hazard time is reached, and informing the nearby fire fighter to overhaul the community.

Step B2 further includes:

step B22: for the fire protection safety that is affected by insufficient fire protection consciousness or related behaviors of community personnel, the fire protection safety is educated by the fire protection personnel, fire protection publicity is developed, safety consciousness is enhanced, fire protection publicity work is enhanced, fire protection knowledge enters the community, residents in the community master basic fire protection knowledge, basic fire protection skills and basic fire scene escape methods, fire protection damage behaviors are strictly prohibited and regularly checked, a fixed bright-colored fire protection publicity column can be arranged at a proper position of the community for centralized publicity, fire protection items which need to be noticed in daily life of the residents are reminded, various skills of fire protection and evacuation escape are taught, the fire protection safety consciousness is enhanced, and the residents in the community can also be reminded to cares about fire protection by inserting fire protection publicity warning words or fire protection public service advertisement signs through the existing electronic advertisement screen in the community;

step B23: if the community hardware facilities cannot reach the fire safety standard, arranging professionals to overhaul, tamping the community fire-fighting facilities, improving the community fire-fighting environment, establishing a television monitoring alarm system for the conditional community, enabling monitoring center operators to monitor the appearance conditions of streets and buildings in the community comprehensively through a television screen, installing an alarm telephone by relying on a community police station, configuring a fire-fighting equipment box, configuring small handcart type fire-fighting and rescue equipment, placing a water hose, a water gun, a fire extinguisher, a combat uniform and the like in a handcart, configuring the fire extinguisher in a residential building, and receiving help of resident groups at any time.

In the step S1, a fire protection evaluation database in the fire protection project evaluation system records the grading condition of the whole evaluation system, displays the evaluation level, synchronizes the data to the fire protection department and the security departments of various communities by the monitoring platform, and performs visualization, refinement, integration and intelligent management on the fire protection project information to ensure the real-time performance, accuracy and foresight of the evaluation system.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a fire engineering evaluation system based on cycle quality, includes fire control information entry module, fire control information integration module and fire control evaluation system feedback module, its characterized in that: the fire protection information input module is used for inputting basic fire protection safety information of all communities, the fire protection information integration module is used for integrating and analyzing the fire protection information input by all communities, the fire protection evaluation system feedback module is used for adjusting and feeding back fire protection project levels of different communities, and the fire protection information input module and the fire protection information integration module are connected with the fire protection evaluation system feedback module through a network.

2. A fire engineering evaluation system based on cycle quality as recited in claim 1, wherein: the fire fighting information input module comprises a fire fighting evaluation database submodule, a community personnel information retrieval submodule and a hardware facility subentry detection submodule, wherein the fire fighting evaluation database submodule is used for storing evaluation scores obtained after periodic investigation so as to facilitate comprehensive analysis, the community personnel information retrieval submodule is used for extracting basic fire fighting information of personnel in each community, the hardware facility subentry detection submodule is used for retrieving detected basic condition information of hardware fire fighting facilities in each community, and the community personnel information retrieval submodule and the hardware facility subentry detection submodule are both in network connection with the fire fighting evaluation database submodule.

3. A fire engineering evaluation system based on cycle quality as claimed in claim 2, wherein: the fire fighting information integration module comprises a comprehensive scoring calculation and analysis module and a fire fighting project grading submodule, the comprehensive scoring calculation module is used for comprehensively evaluating and calculating the entered fire fighting information, the fire fighting project grading submodule is used for judging and grading the result after analysis and calculation, and the comprehensive scoring calculation and analysis module is connected with the fire fighting project grading submodule through a network.

4. A fire engineering assessment system based on cycle quality as claimed in claim 3, wherein: the fire fighting evaluation system feedback module comprises a hardware facility rectification submodule, a community resident improvement submodule and a potential hidden danger detection submodule, wherein the hardware facility rectification submodule is used for feeding back hardware facilities in a community with fire fighting hidden dangers, the community resident improvement submodule is used for feeding back community residents who influence fire fighting safety and do not reach the standard of fire fighting consciousness, and the potential hidden danger detection submodule is used for feeding back the community which is relatively safe at present but still has the potential fire fighting hidden dangers.

5. A fire engineering assessment system based on cycle quality as defined in claim 4, wherein: the operation method of the fire protection information entry module mainly comprises the following steps:

step S1: establishing a fire protection evaluation database for storing basic fire protection safety information of community personnel and safety information of hardware fire protection facilities in a community;

step S2: the fire engineering evaluation system records the basic information condition of corresponding community residents in a mode of sampling survey and acquiring historical input data, wherein the related information comprises community personnel age groups, education degrees and knowledge and application of each resident on fire fighting knowledge, and is used as a subsequent grading basis, synchronized to the fire information integration module, and evaluated and analyzed by a supervision department;

step S4: and (3) detecting and analyzing hardware fire-fighting facilities of each community regularly by professional fire fighters, wherein the hardware facilities comprise fire-fighting facilities, fire-fighting channels, road planning and circuit equipment influencing fire-fighting safety, synchronizing the analysis result to a fire-fighting information integration module, integrating the analysis result with the information of the steps S2 and S3, and performing comprehensive evaluation on the fire-fighting projects of each community.

6. A fire engineering evaluation system based on cycle quality as recited in claim 5, wherein: the operation method of the fire fighting information integration module mainly comprises the following steps:

7. A fire engineering assessment system based on cycle quality as defined in claim 6, wherein: the calculating step of step a2 further comprises:

8. A fire engineering evaluation system based on cycle quality as recited in claim 7, wherein: the operation method of the fire fighting evaluation system feedback module mainly comprises the following steps:

9. A fire engineering evaluation system based on cycle quality as recited in claim 8, wherein: the step B2 further includes:

step B21: after receiving the instruction, the nearby fire department immediately arranges professional personnel to check the unqualified community on two aspects of community personnel and hardware equipment;

step B23: and arranging professional personnel to overhaul the community hardware facilities which do not reach the fire safety standard.

10. A fire engineering assessment system based on cycle quality as claimed in claim 9, wherein: in the step S1, the fire protection evaluation database in the fire protection engineering evaluation system records the rating of the overall evaluation system, displays the evaluation level, and synchronizes the data to the fire protection department and the security departments of the communities.