CN104008679A - Method, device and system for simulation manipulation of nuclear power plant spreading fire disaster - Google Patents

Abstract

The invention discloses a method for simulation manipulation of a nuclear power plant spreading fire disaster. The method includes the steps that a device for simulation manipulation of the nuclear power plant spreading fire disaster judges initial positional information of the simulated fire disaster according to obtained simulated fire fault signals and a first alarm signal of a fire disaster detection probe in the initial position is triggered; a main simulator submits first status information of a fire fighting system in the initial position according to the first alarm signal; the device for simulation manipulation of the nuclear power plant spreading fire disaster judges whether the fire fighting system can suppress the simulated fire disaster or not according to the first status information; if the fire fighting system can not suppress the simulated fire disaster, the device for simulation manipulation of the nuclear power plant spreading fire disaster obtains sub region position information of the spreading simulated fire disaster according to a fire disaster spreading route set in advance; a second alarm signal of the fire disaster detection probe in a sub region is triggered. The multipoint fire disaster manipulation technology of simulation manipulation of the spreading fire disaster is achieved. In addition, the invention provides the device and system for simulation manipulation of the nuclear power plant spreading fire disaster.

Description

A kind of nuclear power station working fire simulation process method, Apparatus and system

Technical field

The invention belongs to nuclear power technology field, be specifically related to a kind of nuclear power station working fire simulation process method, Apparatus and system.

Background technology

Nuclear power station combustible kind is many, and not only kind is many for burning things which may cause a fire disaster, amount is large, and the distribution of fire-prone point is wide, makes fire multiple, and nuclear power station fire causes losing huge, so the fire risk of nuclear power station is very large.According to statistics, the reason that nuclear power plant's accident is maximum is that fire causes.Therefore, nuclear power station must be considered in detail will carry out detailed fire hazard analysis by fire hazard in design on the one hand, comprises the quantity of combustible, combustion characteristics, fire extinguishing measure etc.; On the other hand, once breaking out of fire, operator should take effective, safe measure to solve fire problem fast, therefore operator is carried out to the training of nuclear power station fire disaster emergency and simulation is necessary.

In nuclear power station, Full scope simulator is that operator trains the indispensable means with examination on duty.In order to reach result of training true to nature, full scope simulator of nuclear power station requires process system and the instrument control system of Dui Quan factory to carry out comprehensive and deep simulation.Early stage full scope simulator of nuclear power station, due to fire is processed the attention of training inadequate, the fire detecting system of nuclear power station and fire scenario are not simulated, cause cannot realizing in Full scope simulator to the training aspect fire processing.Along with external nuclear power station breaking out of fire accident causes after heavy losses, the safety problem pay attention to day by day of government and society to nuclear power station, under the requirement of nuclear facility mechanism, the simulation of detection and processing has also been put among the simulation context of Full scope simulator.

In the simulation of detection and processing, except to the simulation of fire detection and alarm system itself, also need to realize the scene of fire is simulated, after needing simulated field fire to occur, the response of fire detection and alarm system itself, and the impact of fire on power plant system and equipment, for operator's processing provides environment true to nature.In the simulation of fire scenario, be mainly the simulation of single-point fire, but in practice, the fire of single-point tend to development and also spread to other place, therefore in Full scope simulator, also need to realize the simulation to fire spread scene, the phenomenon occurring with realistic simulation fire.How, in full scope simulator of nuclear power station, realizing the simulation process of the fire spread scene from single-point fire to working fire, is problem demanding prompt solution.

Summary of the invention

The object of the invention is to: in nuclear power station fire disaster simulation, provide a kind of simulation process technology that can realize the fire spread scene from single-point fire to working fire.

In order to realize foregoing invention object, the invention provides a kind of nuclear power station working fire simulation process method, described method comprises:

Nuclear power station fire disaster simulation treating apparatus is according to the initial position message of the simulated fire fault-signal judgement simulated fire obtaining;

Nuclear power station fire disaster simulation treating apparatus triggers the first alerting signal of the detection probe of initial position;

Main analog machine is reported and submitted the first status information of the fire-fighting system of described initial position according to described the first alerting signal;

Nuclear power station fire disaster simulation treating apparatus judges that according to described the first status information can described fire-fighting system suppress described simulated fire;

If described fire-fighting system can not suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus, according to the fire spread path setting in advance, obtains the sub-window position information that simulated fire spreads;

According to described sub-window position information, trigger the second alerting signal of the detection probe of described subregion.

As a kind of improvement of a kind of nuclear power station working fire of the present invention simulation process method, described method also comprises:

If described fire-fighting system can suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus sends fire extinguishing instruction to described main analog machine.

As a kind of improvement of a kind of nuclear power station working fire of the present invention simulation process method, described method also comprises:

Main analog machine is reported and submitted the second status information of the fire-fighting system of described subregion according to described the second alerting signal.

As a kind of a kind of improvement of nuclear power station working fire simulation process method, described method also comprises:

Nuclear power station fire disaster simulation treating apparatus judges that according to described the second status information can described fire-fighting system suppress described simulated fire.

As a kind of a kind of improvement of nuclear power station working fire simulation process method, described method also comprises:

If described fire-fighting system can not suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus is according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads, and trigger the 3rd alerting signal of the detection probe of described next subregion.

As a kind of a kind of improvement of nuclear power station working fire simulation process method, described method also comprises:

Nuclear power station fire disaster simulation treating apparatus is according to the fire size class of the simulated fire fault-signal judgement simulated fire obtaining.

As a kind of a kind of improvement of nuclear power station working fire simulation process method, can the described fire-fighting system of described judgement suppress described simulated fire, comprising:

By to the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

As a kind of a kind of improvement of nuclear power station working fire simulation process method, described method also comprises:

According to the air through-current capability of all subregion, determine that simulated fire is in the path of spreading of all subregion.

As a kind of a kind of improvement of nuclear power station working fire simulation process method, described in the fire spread path that sets in advance, comprising:

According to the initial position message of simulated fire and simulated fire, in the path of spreading of all subregion, the path of spreading of described simulated fire is set.

In order to realize foregoing invention object, the present invention also provides a kind of nuclear power station working fire analog processing device, and this device comprises:

Position acquisition unit, for judging the initial position message of simulated fire according to the simulated fire fault-signal obtaining;

Trigger element, for triggering the first alerting signal of the detection probe of initial position;

Receiving element, for receiving the first status information of the described initial position fire-fighting system that main analog machine reports and submits according to described the first alerting signal;

Judging unit, for judging that according to described the first status information can described fire-fighting system suppress described simulated fire;

If described fire-fighting system can not suppress described simulated fire, described position acquisition unit, according to the fire spread path setting in advance, obtains the sub-window position information that simulated fire spreads;

Described trigger element triggers the second alerting signal of the detection probe of described subregion according to described sub-window position information.

As a kind of a kind of improvement of nuclear power station working fire analog processing device, described device also comprises:

Transmitting element, if judge that for described judging unit described fire-fighting system can suppress described simulated fire, sends fire extinguishing instruction to described main analog machine.

As a kind of a kind of improvement of nuclear power station working fire analog processing device, described receiving element also for:

Receive main analog machine and according to described the second alerting signal, report and submit the second status information of described subregion fire-fighting system.

As a kind of a kind of improvement of nuclear power station working fire analog processing device, described judging unit also for:

According to described the second status information, judge that can described fire-fighting system suppress described simulated fire.

As a kind of a kind of improvement of nuclear power station working fire analog processing device, described position acquisition unit also for:

If described fire-fighting system can not suppress described simulated fire, according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads.

As a kind of a kind of improvement of nuclear power station working fire analog processing device, described trigger element also for:

Trigger the 3rd alerting signal of the detection probe of described next subregion.

As a kind of a kind of improvement of nuclear power station working fire analog processing device, described judging unit also for:

According to the fire size class of the simulated fire fault-signal judgement simulated fire obtaining.

As a kind of a kind of improvement of nuclear power station working fire analog processing device, described judging unit judges that can described fire-fighting system suppress described simulated fire, comprising:

By to the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

In order to realize foregoing invention object, the present invention also provides a kind of nuclear power station working fire analog processing system, and system comprises:

Nuclear power station fire disaster simulation treating apparatus, for judge the initial position message of simulated fire according to the simulated fire fault-signal obtaining, trigger the first alerting signal of the detection probe of initial position, the first status information of the fire-fighting system of the described initial position of reporting and submitting according to main analog machine judges that can described fire-fighting system suppress described simulated fire, if described fire-fighting system can not suppress described simulated fire, according to the fire spread path setting in advance, obtain the sub-window position information that simulated fire spreads, and trigger the second alerting signal of the detection probe of described subregion,

Described main analog machine, for reporting and submitting the first status information of the fire-fighting system of described initial position to described nuclear power station fire disaster simulation treating apparatus according to described the first alerting signal.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described nuclear power station fire disaster simulation treating apparatus also for:

If described fire-fighting system can suppress described simulated fire, to described main analog machine, send fire extinguishing instruction.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described main analog machine also for:

According to described the second alerting signal, report and submit the second status information of the fire-fighting system of described subregion.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described nuclear power station fire disaster simulation treating apparatus also for:

According to described the second status information, judge that can described fire-fighting system suppress described simulated fire.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described nuclear power station fire disaster simulation treating apparatus also for:

If described fire-fighting system can not suppress described simulated fire, according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads, and trigger the 3rd alerting signal of the detection probe of described next subregion.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described nuclear power station fire disaster simulation treating apparatus also for:

According to the fire size class of the simulated fire fault-signal judgement simulated fire obtaining.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described nuclear power station fire disaster simulation treating apparatus judges that can described fire-fighting system suppress described simulated fire, comprising:

By to the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described nuclear power station fire disaster simulation treating apparatus also for:

According to the air through-current capability of all subregion, determine that simulated fire is in the path of spreading of all subregion.

As a kind of improvement of a kind of nuclear power station working fire of the present invention analog processing system, described system also comprises:

Described fire-fighting system, suppresses for the simulated fire in region.

Compared with prior art, nuclear power station working fire simulation process method of the present invention, equipment and system have following useful technique effect: by the fire spread path setting in advance, obtain the positional information that simulated fire spreads, according to positional information, obtain the inhibition fire ability of fire spread fire system of quarters and process.Having realized single-point fire spread uses to the analogue technique of the fire spread scene of multiple spot fire; Meanwhile, due to the realistic simulation of realizing real fire, greatly improved the Ability of emergency management that nuclear power station operator tackles fire, the security that has improved nuclear power station, and implementation method is simple, obtains good technique effect.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, a kind of nuclear power station working fire of the present invention simulation process method, equipment and system are elaborated, wherein:

Fig. 1 provides an a kind of example flow chart of nuclear power station working fire simulation process method.

Fig. 2 provides an a kind of example schematic of nuclear power station working fire analog processing device.

Fig. 3 provides an a kind of example schematic of nuclear power station working fire analog processing system.

Embodiment

In order to make goal of the invention of the present invention, technical scheme and useful technique effect thereof more clear, below in conjunction with the drawings and specific embodiments, the present invention is further elaborated.It should be emphasized that, the embodiment of describing in this instructions is only used to explain the present invention, is not intended to limit use occasion of the present invention.

Incorporated by reference to referring to Fig. 1, Fig. 1 provides a kind of nuclear power station working fire simulation process method.Before implementing the method, can carry out following work

Concrete, trainer clicks error listing button on operation interface, ejects one and comprises the out of order second-level menu that Full scope simulator can be realized, and wherein one is " fire fault "; Click after " fire fault " button the list that ejection is comprised to whole fire faults, the information such as the title that list comprises fire fault, position; After selected a certain fire fault click, to eject the penal menu of a fault activation, can on the penal menu, set the time of activationary time, the order of severity and the required order of severity of arrival of fault, complete after setting, click " insertion " button, fault will be triggered; After triggering, the fault-signal state in internal memory will change.The variation of fault-signal state in bitcom real time scan internal memory, once the state of certain fault-signal be detected, change, bitcom is about to the relevant information of fault, comprises fault title, fault degree, form packing according to certain, then sends to analogue means by network.

Step 101, nuclear power station fire disaster simulation treating apparatus is according to the initial position message of the simulated fire fault-signal judgement simulated fire obtaining.

Concrete, nuclear power station fire disaster simulation treating apparatus receives simulated fire fault-signal, and according to the initial position message of this signal judgement simulated fire.

Or, nuclear power station fire disaster simulation treating apparatus receives after the packing data of bitcom transmission, to its work of unpacking, then according to the failure message obtaining after unpacking, by searching corresponding table, analyze region, the order of severity of judging fire and occurring and the position of popping one's head in from a nearest fire alarm of fire.

Optionally, the bitcom of nuclear power station fire disaster simulation treating apparatus has detected after warning message, and then information package is transferred in warning device, comprises warning panel HeDCS operator station.

Step 103, nuclear power station fire disaster simulation treating apparatus triggers the first alerting signal of the detection probe of initial position.

Nuclear power station fire disaster simulation treating apparatus triggers the first alerting signal of the detection probe of initial position according to fire fault-signal.The bitcom that is nuclear power station fire disaster simulation treating apparatus has detected after warning message, and then information package is transferred in warning device, comprises warning panel and dcs (Distributed Control System, DCS) operator station.

Step 105, main analog machine is reported and submitted the first status information of the fire-fighting system of described initial position according to described the first alerting signal.

Concrete, main analog machine bitcom sends the status information of fire-fighting system to nuclear power station fire disaster simulation treating apparatus, such as the flow of the running status of fire extinguishing pump, the on off state of applicator and fire water etc.

Step 107, nuclear power station fire disaster simulation treating apparatus judges that according to described the first status information can described fire-fighting system suppress described simulated fire.

Concrete, nuclear power station fire disaster simulation treating apparatus receives the status information of the transmission fire-fighting system sending over from main analog machine, such as flow of the running status of fire extinguishing pump, the on off state of applicator and fire water etc., in conjunction with the order of severity of fire, calculate the inhibition of fire-fighting system to fire.

Further, nuclear power station fire disaster simulation treating apparatus judgement fire-fighting system does not have effectively start, or after starting, fail to form the effective inhibition to fire, according to predefined fire spread path, automatically calculate the next subregion of fire spread, then search the fire alarm probe of this sub regions, activate the alerting signal of this probe, by communication program, be sent to corresponding warning device.

Step 109, if described fire-fighting system can not suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus, according to the fire spread path setting in advance, obtains the sub-window position information that simulated fire spreads.

Optionally, if described fire-fighting system can suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus sends fire extinguishing instruction to described main analog machine.

Concrete, nuclear power station fire disaster simulation treating apparatus is according to the fire size class of the simulated fire fault-signal judgement simulated fire obtaining.

Further, by the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

Wherein, the fire spread path according to setting in advance, comprising: according to the air through-current capability of all subregion, determine that simulated fire is in the path of spreading of all subregion.Optionally, can also comprise: according to the initial position message of simulated fire and simulated fire, in the path of spreading of all subregion, the path of spreading of described simulated fire is set.

Step 111, triggers the second alerting signal of the detection probe of described subregion according to described sub-window position information.

Further, main analog machine is reported and submitted the second status information of the fire-fighting system of described subregion according to described the second alerting signal.

Further, nuclear power station fire disaster simulation treating apparatus judges that according to described the second status information can described fire-fighting system suppress described simulated fire.If described fire-fighting system can not suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus is according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads, and trigger the 3rd alerting signal of the detection probe of described next subregion.

Further, if after execution step 111, still there is region to fail to process, return to execution step 107 to step 111, until all regions are all disposed.

The embodiment of the present invention, by the fire spread path setting in advance, obtains the positional information that simulated fire spreads, and according to positional information, obtains the inhibition fire ability of fire spread fire system of quarters and processes.Having realized single-point fire spread uses to the analogue technique of the fire spread scene of multiple spot fire; Meanwhile, due to the realistic simulation of realizing real fire.

Incorporated by reference to Fig. 2, Fig. 2 provides an a kind of embodiment of nuclear power station working fire analog processing device.This device comprises: position acquisition unit 201, for judge the initial position message of simulated fire according to the simulated fire fault-signal obtaining;

Trigger element 203, for triggering the first alerting signal of the detection probe of initial position;

Receiving element 205, for receiving the first status information of the described initial position fire-fighting system that main analog machine reports and submits according to described the first alerting signal;

Judging unit 207, for judging that according to described the first status information can described fire-fighting system suppress described simulated fire;

Further, if described fire-fighting system can not suppress described simulated fire, position acquisition unit 201, according to the fire spread path setting in advance, obtains the sub-window position information that simulated fire spreads;

Further, trigger element 203 triggers the second alerting signal of the detection probe of described subregion according to described sub-window position information.

Optionally, this device can also comprise: transmitting element, if judge that for described judging unit described fire-fighting system can suppress described simulated fire, sends fire extinguishing instruction to described main analog machine.

Further, receiving element 205 is is also reported and submitted the second status information of described subregion fire-fighting system for receiving main analog machine according to described the second alerting signal.

Further, judging unit 207 is also for judging that according to described the second status information can described fire-fighting system suppress described simulated fire.

Further, if position acquisition unit 201 also can not suppress described simulated fire for described fire-fighting system, according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads.

Further, trigger element 203 is also for triggering the 3rd alerting signal of the detection probe of described next subregion, and the fire size class that judges simulated fire according to the simulated fire fault-signal obtaining.

Concrete, can the described fire-fighting system of judging unit 207 judgement suppress described simulated fire, comprise: by the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

The embodiment of the present invention, by the fire spread path setting in advance, obtains the positional information that simulated fire spreads, and according to positional information, obtains the inhibition fire ability of fire spread fire system of quarters and processes.Having realized single-point fire spread uses to the analogue technique of the fire spread scene of multiple spot fire; Meanwhile, due to the realistic simulation of realizing real fire, greatly improved the Ability of emergency management that nuclear power station operator tackles fire, the security that has improved nuclear power station, and implementation method is simple, obtains good technique effect.

Incorporated by reference to referring to Fig. 3, Fig. 3 provides the schematic diagram of an a kind of embodiment of nuclear power station working fire analog processing system.Comprise: nuclear power station fire disaster simulation treating apparatus 301 and main analog machine 303.

Nuclear power station fire disaster simulation treating apparatus 301, for judge the initial position message of simulated fire according to the simulated fire fault-signal obtaining, trigger the first alerting signal of the detection probe of initial position, the first status information of the fire-fighting system of the described initial position of reporting and submitting according to main analog machine 303 judges that can described fire-fighting system suppress described simulated fire, if described fire-fighting system can not suppress described simulated fire, according to the fire spread path setting in advance, obtain the sub-window position information that simulated fire spreads, and trigger the second alerting signal of the detection probe of described subregion,

Main analog machine 303, for according to described the first alerting signal to nuclear power station fire disaster simulation treating apparatus report and submit 301 the first status informations of stating the fire-fighting system of initial position.

Further, if described fire-fighting system can suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus 301 is also for sending fire extinguishing instruction to described main analog machine.

Further, main analog machine 303 is also for reporting and submitting the second status information of the fire-fighting system of described subregion according to described the second alerting signal.

Further, nuclear power station fire disaster simulation treating apparatus 301 is also for judging that according to described the second status information can described fire-fighting system suppress described simulated fire.

If nuclear power station fire disaster simulation treating apparatus 301 also can not suppress described simulated fire for described fire-fighting system, according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads, and trigger the 3rd alerting signal of the detection probe of described next subregion.Nuclear power station fire disaster simulation treating apparatus 301 is also for judging the fire size class of simulated fire according to the simulated fire fault-signal obtaining.

Concrete, can the described fire-fighting system of nuclear power station fire disaster simulation treating apparatus 301 judgement suppress described simulated fire, comprise: by the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

Nuclear power station fire disaster simulation treating apparatus 301 also, for according to the air through-current capability of all subregion, determines that simulated fire is in the path of spreading of all subregion.

Optionally, this system can also comprise fire-fighting system, for the simulated fire in region, suppresses.

The implementation method of system and flow process can, referring to the embodiment of the method for introducing in previous embodiment, repeat no more herein.

In conjunction with above detailed description of the present invention, can find out, with respect to prior art, the present invention at least has following useful technique effect: by the fire spread path setting in advance, obtain the positional information that simulated fire spreads, according to positional information, obtain the inhibition fire ability of fire spread fire system of quarters and process.Having realized single-point fire spread uses to the analogue technique of the fire spread scene of multiple spot fire; Meanwhile, due to the realistic simulation of realizing real fire, greatly improved the Ability of emergency management that nuclear power station operator tackles fire, the security that has improved nuclear power station, and implementation method is simple, obtains good technique effect.

According to above-mentioned principle, the present invention can also carry out suitable change and modification to above-mentioned embodiment.Therefore, the present invention is not limited to embodiment disclosed and described above, to modifications and changes more of the present invention, also should fall in the protection domain of claim of the present invention.In addition,, although used some specific terms in this instructions, these terms just for convenience of description, do not form any restriction to the present invention.

Claims (26)

1. a nuclear power station working fire simulation process method, is characterized in that, described method comprises:

Nuclear power station fire disaster simulation treating apparatus is according to the initial position message of the simulated fire fault-signal judgement simulated fire obtaining;

Nuclear power station fire disaster simulation treating apparatus triggers the first alerting signal of the detection probe of initial position;

Main analog machine is reported and submitted the first status information of the fire-fighting system of described initial position according to described the first alerting signal;

Nuclear power station fire disaster simulation treating apparatus judges that according to described the first status information can described fire-fighting system suppress described simulated fire;

If described fire-fighting system can not suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus, according to the fire spread path setting in advance, obtains the sub-window position information that simulated fire spreads;

According to described sub-window position information, trigger the second alerting signal of the detection probe of described subregion.

2. the method for claim 1, is characterized in that, described method also comprises:

If described fire-fighting system can suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus sends fire extinguishing instruction to described main analog machine.

3. the method for claim 1, is characterized in that, described method also comprises:

Main analog machine is reported and submitted the second status information of the fire-fighting system of described subregion according to described the second alerting signal.

4. method as claimed in claim 3, is characterized in that, described method also comprises:

Nuclear power station fire disaster simulation treating apparatus judges that according to described the second status information can described fire-fighting system suppress described simulated fire.

5. method as claimed in claim 4, is characterized in that, described method also comprises:

If described fire-fighting system can not suppress described simulated fire, nuclear power station fire disaster simulation treating apparatus is according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads, and trigger the 3rd alerting signal of the detection probe of described next subregion.

6. method as claimed in claim 5, is characterized in that, described method also comprises:

Nuclear power station fire disaster simulation treating apparatus is according to the fire size class of the simulated fire fault-signal judgement simulated fire obtaining.

7. method as claimed in claim 6, is characterized in that, can the described fire-fighting system of described judgement suppress described simulated fire, comprising:

By to the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

8. the either method as described in claim 1-7, is characterized in that, described method also comprises:

According to the air through-current capability of all subregion, determine that simulated fire is in the path of spreading of all subregion.

9. method as claimed in claim 8, is characterized in that, described in the fire spread path that sets in advance, comprising:

According to the initial position message of simulated fire and simulated fire, in the path of spreading of all subregion, the path of spreading of described simulated fire is set.

10. a nuclear power station working fire analog processing device, is characterized in that, described device comprises:

Position acquisition unit, for judging the initial position message of simulated fire according to the simulated fire fault-signal obtaining;

Trigger element, for triggering the first alerting signal of the detection probe of initial position;

Receiving element, for receiving the first status information of the described initial position fire-fighting system that main analog machine reports and submits according to described the first alerting signal;

Judging unit, for judging that according to described the first status information can described fire-fighting system suppress described simulated fire;

If described fire-fighting system can not suppress described simulated fire, described position acquisition unit, according to the fire spread path setting in advance, obtains the sub-window position information that simulated fire spreads;

Described trigger element triggers the second alerting signal of the detection probe of described subregion according to described sub-window position information.

11. devices as claimed in claim 10, is characterized in that, described device also comprises:

Transmitting element, if judge that for described judging unit described fire-fighting system can suppress described simulated fire, sends fire extinguishing instruction to described main analog machine.

12. devices as claimed in claim 11, is characterized in that, described receiving element also for:

Receive main analog machine and according to described the second alerting signal, report and submit the second status information of described subregion fire-fighting system.

13. devices as claimed in claim 12, is characterized in that, described judging unit also for:

According to described the second status information, judge that can described fire-fighting system suppress described simulated fire.

14. devices as claimed in claim 13, is characterized in that, described position acquisition unit also for:

If described fire-fighting system can not suppress described simulated fire, according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads.

15. devices as claimed in claim 14, is characterized in that, described trigger element also for:

Trigger the 3rd alerting signal of the detection probe of described next subregion.

16. devices as claimed in claim 15, is characterized in that, described judging unit also for:

According to the fire size class of the simulated fire fault-signal judgement simulated fire obtaining.

17. devices as claimed in claim 16, is characterized in that, described judging unit judges that can described fire-fighting system suppress described simulated fire, comprising:

By to the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

18. 1 kinds of nuclear power station working fire analog processing system, is characterized in that, described system comprises:

Nuclear power station fire disaster simulation treating apparatus, for judge the initial position message of simulated fire according to the simulated fire fault-signal obtaining, trigger the first alerting signal of the detection probe of initial position, the first status information of the fire-fighting system of the described initial position of reporting and submitting according to main analog machine judges that can described fire-fighting system suppress described simulated fire, if described fire-fighting system can not suppress described simulated fire, according to the fire spread path setting in advance, obtain the sub-window position information that simulated fire spreads, and trigger the second alerting signal of the detection probe of described subregion,

Described main analog machine, for reporting and submitting the first status information of the fire-fighting system of described initial position to described nuclear power station fire disaster simulation treating apparatus according to described the first alerting signal.

19. systems as claimed in claim 18, is characterized in that, described nuclear power station fire disaster simulation treating apparatus also for:

If described fire-fighting system can suppress described simulated fire, to described main analog machine, send fire extinguishing instruction.

20. systems as claimed in claim 18, is characterized in that, described main analog machine also for:

According to described the second alerting signal, report and submit the second status information of the fire-fighting system of described subregion.

21. systems as claimed in claim 20, is characterized in that, described nuclear power station fire disaster simulation treating apparatus also for:

According to described the second status information, judge that can described fire-fighting system suppress described simulated fire.

22. systems as claimed in claim 21, is characterized in that, described nuclear power station fire disaster simulation treating apparatus also for:

If described fire-fighting system can not suppress described simulated fire, according to the fire spread path setting in advance, obtain the next sub-window position information that simulated fire spreads, and trigger the 3rd alerting signal of the detection probe of described next subregion.

23. the system as claimed in claim 22, is characterized in that, described nuclear power station fire disaster simulation treating apparatus also for:

According to the fire size class of the simulated fire fault-signal judgement simulated fire obtaining.

24. systems as claimed in claim 23, is characterized in that, described nuclear power station fire disaster simulation treating apparatus judges that can described fire-fighting system suppress described simulated fire, comprising:

By to the equipment state of described fire-fighting system and fire water flow, judge whether effectively to suppress the simulated fire of current fire size class.

25. systems as claimed in claim 24, is characterized in that, described nuclear power station fire disaster simulation treating apparatus also for:

According to the air through-current capability of all subregion, determine that simulated fire is in the path of spreading of all subregion.

26. systems as claimed in claim 24, is characterized in that, described system also comprises:

Described fire-fighting system, suppresses for the simulated fire in region.