CN112765164A - Intelligent fire fighting detection evaluation method and system - Google Patents

Abstract

The invention discloses an intelligent fire-fighting detection evaluation method, which comprises the following steps: step S1, obtaining the position in the set target building and the floor number in the building, inputting the positions and the floor number into a database and generating a table; the invention also provides a system of the intelligent fire-fighting detection evaluation method, which comprises a central control module, a simulation module, a data storage module, a data processing module, a power supply and a display module, wherein the central control module is electrically connected with the simulation module, the data storage module, the data processing module, the power supply and the display module. The invention can evaluate the simulated intelligent fire-fighting system and simulate the optimal fire-fighting system arrangement before the construction of the intelligent fire-fighting equipment, thereby being capable of setting a reasonable intelligent fire-fighting system, reducing the material consumption and the problem of poor fire-fighting effect, being more intuitive and understandable and solving the problem of relatively few employees of the anti-facility maintenance detection mechanism to a certain extent.

Description

Intelligent fire fighting detection evaluation method and system

Technical Field

The invention relates to the technical field of intelligent fire protection detection, in particular to an intelligent fire protection detection evaluation method and an intelligent fire protection detection evaluation system.

Background

Along with the continuous improvement of the living standard of residents, the continuous acceleration of industrial standardization construction and the continuous promotion of urbanization process, the fire safety awareness and the management level of people are also advancing with time.

In order to greatly improve the service level of detection enterprises, the state organizes the qualification test of fire-fighting engineers, reform fire-fighting management, transfer the rights of design examination and acceptance management of fire fighting from the original ministry of public security to the ministry of housing and urban and rural construction, and implement the responsibility of fire-fighting supervision management to the ministry of emergency management. How to improve the detection level and standardize the detection behavior is a problem which needs to be solved urgently by industry enterprises.

At present, the arrangement of intelligent fire-fighting equipment needs to be evaluated by a fire-fighting safety evaluation mechanism, but the following disadvantages exist, and because the number of employees of the fire-fighting equipment maintenance detection mechanism is relatively small, three disadvantages exist:

1. and (4) when the user walks through the field walking mode, the user walks for one circle on the engineering project and then provides a detection report.

2. In the detection process, misjudgment detection is caused due to reasons of immature specifications, uncertain detection standards, incomplete comprehension and the like, and the level of detection personnel is to be improved.

3. And issuing a detection report without detection.

Therefore, the intelligent fire fighting equipment starts to be constructed, although fire protection guarantee can be provided to a certain extent, the problems of material consumption and poor fire protection effect exist, and therefore an intelligent fire protection detection evaluation method and an intelligent fire protection detection evaluation system are designed.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an intelligent fire protection detection and evaluation method and an intelligent fire protection detection and evaluation system, which can simulate the optimal fire protection system arrangement before the construction of intelligent fire protection equipment, so that a reasonable intelligent fire protection system can be set, the material consumption is reduced, the fire protection effect is poor, and meanwhile, the intelligent fire protection system is more intuitive and understandable, and the problem that workers of a preventive maintenance detection mechanism are relatively few is solved to a certain extent.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent fire fighting detection evaluation method comprises the following steps:

step S1, obtaining the position in the set target building and the floor number in the building, inputting the positions and the floor number into a database and generating a table;

step S2, inputting the target value and information of the intelligent fire fighting equipment in each floor into a table and corresponding to the floor where the intelligent fire fighting equipment is located;

step S3, drawing a proportional structure diagram of each floor, accurately indicating the position of the intelligent fire fighting equipment, and inserting the proportional structure diagram into a table and corresponding to the corresponding floor;

step S4, making the proportion structure chart into a simulation animation;

step S5, analyzing the type, the quantity and the position of the intelligent fire fighting equipment according to the simulation animation, and inputting the simulated data into the equipment corresponding to each floor respectively;

and step S6, comparing the simulated data with the target value of the firefighting equipment, determining to evaluate the intelligent firefighting equipment according to the ratio of the simulated data to the target data, and displaying the evaluated intelligent firefighting equipment on a display.

Preferably, the floor in step S1 takes one of floors 1 to 5 to make a proportional structural diagram, and takes one of floors 5 to make a proportional structural diagram.

Preferably, the intelligent fire-fighting equipment in step S2 includes any one or any combination of fire automatic alarm system equipment, fire-fighting linkage control system equipment, electrical fire monitoring system equipment, combustible gas detection alarm system equipment, fire-fighting water supply system equipment, fire-proof door and fire-proof rolling shutter system equipment, mechanical smoke and smoke prevention system equipment, fire elevator equipment, fire emergency broadcast equipment, fire emergency lighting equipment, evacuation indication system equipment and fire power supply equipment.

Preferably, the software for creating the simulation animation in step S4 is ANIMO or 3 DMAX.

Preferably, the type, number and position in step S5 are determined according to whether the devices in the floor are suitable for water valve fire extinguishing, whether the number of water valves in the floor can fully cover the whole floor, and whether the position setting of the water valves is reasonable.

Preferably, the data obtained in step S6 is obtained according to the settings in step S5, whether the type is reasonable or not, whether serious consequences are caused or not, whether the number of the water valves is large or small, and whether the positions and the number of the water valves are too large to achieve full coverage or not are unreasonable, and the positions can be reasonably set to reduce the use of the water valves.

Preferably, the smaller the ratio of the simulation data to the target data in the step S6, the better the intelligent fire fighting arrangement.

The invention also provides a system of the intelligent fire-fighting detection evaluation method, which comprises a central control module, a simulation module, a data storage module, a data processing module, a power supply and a display module, wherein the central control module is electrically connected with the simulation module, the data storage module, the data processing module, the power supply and the display module; the simulation module is used for animation simulation; the data storage module is used for storing data and can be a hard disk or a U disk; and the data processing module is used for processing the simulation data and the data of the intelligent fire fighting equipment in the floor.

Preferably, the display module is a touch liquid crystal display screen.

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

the intelligent fire fighting equipment protection system can simulate the optimal fire fighting system arrangement before the construction of the intelligent fire fighting equipment, so that a reasonable intelligent fire fighting system can be set, the problems of material consumption and poor fire fighting effect are reduced, meanwhile, the intelligent fire fighting equipment protection system is more intuitive and understandable, and the problem that fewer employees are required to prevent a facility maintenance and protection detection mechanism is solved to a certain extent.

Drawings

Fig. 1 is a block diagram of a system of an intelligent fire detection and evaluation method according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1, an intelligent fire fighting detection evaluation method includes the following steps:

step S1, obtaining the position in the set target building and the floor number in the building, inputting the positions and the floor number into a database and generating a table;

step S2, inputting the target value and information of the intelligent fire fighting equipment in each floor into a table and corresponding to the floor where the intelligent fire fighting equipment is located;

step S3, drawing a proportional structure diagram of each floor, accurately indicating the position of the intelligent fire fighting equipment, and inserting the proportional structure diagram into a table and corresponding to the corresponding floor;

step S4, making the proportion structure chart into a simulation animation;

step S5, analyzing the type, the quantity and the position of the intelligent fire fighting equipment according to the simulation animation, and inputting the simulated data into the equipment corresponding to each floor respectively;

and step S6, comparing the simulated data with the target value of the firefighting equipment, determining to evaluate the intelligent firefighting equipment according to the ratio of the simulated data to the target data, and displaying the evaluated intelligent firefighting equipment on a display.

In the present invention, the floor in step S1 is a proportional structure diagram created by taking one of 1-5 floors and a proportional structure diagram created by taking one of 5-high floors.

In the present invention, the intelligent fire prevention device in step S2 includes any one or any combination of an automatic fire alarm system device, a fire-fighting linkage control system device, an electrical fire monitoring system device, a combustible gas detection alarm system device, a fire-fighting water supply system device, a fire-proof door and fire-proof roller shutter system device, a mechanical smoke-proof system device, a fire-fighting elevator device, a fire-fighting emergency broadcast device, a fire-fighting emergency lighting device, an evacuation indication system device, and a fire-fighting power supply device.

In the present invention, the software for creating the simulation animation in step S4 is ANIMO or 3 DMAX.

In the invention, the type, the number and the position in the step S5 are respectively determined according to whether the equipment in the floor is suitable for the water valve to spray water for fire extinguishing, whether the number of the water valves in the floor can fully cover the whole floor and whether the position setting of the water valve is reasonable.

In the invention, the data obtained in the step S6 is obtained according to the settings in the step S5, whether the type is reasonable or not, whether serious consequences are caused or not, whether the number of the water valves to be set is large or small, and whether the set positions and the number of the water valves are too large to realize full coverage or not are unreasonable, and the use of the water valves can be reduced by reasonably setting the positions.

In the present invention, the smaller the ratio of the simulation data to the target data in the step S6, the better the intelligent fire fighting arrangement.

The invention also provides a system of the intelligent fire-fighting detection evaluation method, which comprises a central control module, a simulation module, a data storage module, a data processing module, a power supply and a display module, wherein the central control module is electrically connected with the simulation module, the data storage module, the data processing module, the power supply and the display module; the simulation module is used for animation simulation; the data storage module is used for storing data and can be a hard disk or a U disk; and the data processing module is used for processing the simulation data and the data of the intelligent fire fighting equipment in the floor.

In the invention, the display module is a touch liquid crystal display screen.

Further explaining, data are input into the data storage module, the central control module transmits the data to the data processing module, the data are processed through the data processing module, simulation animation is made through the simulation module and the data are transmitted to the central control module, the data are transmitted to the data processing module and processed through the central control module, finally the data are stored in a table in the data storage module and displayed on the data redisplay module;

and finally, the central control module controls the simulation module to manufacture reasonable intelligent fire-fighting equipment layout simulation animations.

The invention can evaluate the simulated intelligent fire-fighting system, and can simulate the optimal fire-fighting system arrangement before the construction of the intelligent fire-fighting equipment, thereby being capable of setting a reasonable intelligent fire-fighting system, reducing the material consumption and the problem of poor fire-fighting effect, being more visual and understandable, and solving the problem of relatively few employees of the anti-facility maintenance detection mechanism to a certain extent.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (9)

1. An intelligent fire fighting detection evaluation method is characterized by comprising the following steps:

step S1, obtaining the position in the set target building and the floor number in the building, inputting the positions and the floor number into a database and generating a table;

step S2, inputting the target value and information of the intelligent fire fighting equipment in each floor into a table and corresponding to the floor where the intelligent fire fighting equipment is located;

step S3, drawing a proportional structure diagram of each floor, accurately indicating the position of the intelligent fire fighting equipment, and inserting the proportional structure diagram into a table and corresponding to the corresponding floor;

step S4, making the proportion structure chart into a simulation animation;

step S5, analyzing the type, the quantity and the position of the intelligent fire fighting equipment according to the simulation animation, and inputting the simulated data into the equipment corresponding to each floor respectively;

and step S6, comparing the simulated data with the target value of the firefighting equipment, determining to evaluate the intelligent firefighting equipment according to the ratio of the simulated data to the target data, and displaying the evaluated intelligent firefighting equipment on a display.

2. The intelligent fire detection and assessment method according to claim 1, wherein the floor in step S1 is a floor of 1-5 floors, and is a floor of 5-high floors.

3. The intelligent fire detection and assessment method according to claim 1, wherein the intelligent fire prevention equipment in step S2 comprises any one or any combination of fire automatic alarm system equipment, fire control linkage control system equipment, electrical fire monitoring system equipment, combustible gas detection alarm system equipment, fire water supply system equipment, fire door and fire curtain system equipment, mechanical smoke prevention and discharge system equipment, fire elevator equipment, fire emergency broadcast equipment, fire emergency lighting equipment, evacuation indication system equipment and fire power supply equipment.

4. The intelligent fire detection and assessment method according to claim 1, wherein the software for creating simulation animation in step S4 is ANIMO or 3 DMAX.

5. The intelligent fire detection and assessment method according to claim 1, wherein the type, number and position in step S5 are determined according to whether the devices in the floor are suitable for water valve fire extinguishing, whether the number of water valves in the floor can fully cover the whole floor, and whether the position of the water valve is reasonable.

6. The intelligent fire detection and assessment method according to claim 1, wherein the data obtained in step S6 is obtained according to the settings in step S5, whether the type is reasonable, whether serious consequences are caused, whether a situation that the number of water valves is large or small occurs, and whether the positions and the number of the set water valves are too large to achieve full coverage, but the positions are not reasonable, and the use of the water valves can be reduced by reasonably setting the positions.

7. The intelligent fire detection and assessment method according to claim 1, wherein the smaller the ratio of simulation data to target data in said step S6, the better the intelligent fire protection arrangement.

8. The system of the intelligent fire-fighting detection and evaluation method is characterized by comprising a central control module, a simulation module, a data storage module, a data processing module, a power supply and a display module, wherein the central control module is electrically connected with the simulation module, the data storage module, the data processing module, the power supply and the display module; the simulation module is used for animation simulation; the data storage module is used for storing data and can be a hard disk or a U disk; and the data processing module is used for processing the simulation data and the data of the intelligent fire fighting equipment in the floor.

9. The system of claim 8, wherein the display module is a touch-sensitive lcd.

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