CN201820375U

CN201820375U - Mine fire disaster simulation training and drilling system

Info

Publication number: CN201820375U
Application number: CN 201020542939
Authority: CN
Inventors: 胡千庭; 赵善扬; 李孝揆; 刘林; 杨俊燕; 张锐睿; 唐述明; 张广勋; 王波; 陈迪
Original assignee: Chongqing Institute of China Coal Research Institute
Current assignee: CCTEG Chongqing Research Institute Co Ltd
Priority date: 2010-09-26
Filing date: 2010-09-26
Publication date: 2011-05-04
Anticipated expiration: 2020-09-26

Abstract

The utility model relates to the technical field of mine safety, in particular to a fire disaster simulation training and drilling system for mine workers and rescue personnel, which can enable people to feel self participation, achieve man-machine interaction and evaluate drilling results. The aim of the utility model is achieved in the following manner: the mine fire disaster simulation training and drilling system comprises a main control computer, a 3D (three dimensional) circular-screen projection subsystem, a man-machine interaction subsystem, a synchronous interaction subsystem, a human body action detection subsystem and a human body physiology monitoring subsystem, wherein, the 3D circular-screen projection subsystem, the man-machine interaction subsystem, the synchronous interaction subsystem, the human body action detection subsystem and the human body physiology monitoring subsystem are respectively and electrically connected with the main control computer.

Description

Mine fire disaster analogue simulation training exercise system

Technical field

The utility model relates to the mine safety technical field, is specifically related to a kind of fire disaster simulation training drilling system at mine workman and rescue team member.

Background technology

Mine working environment complexity, the disaster pilosity, coal under the coal mine and gas all are fire goods, when running into thermal source, spontaneous combustion when gathering heat, also can take place in breaking out of fire easily.Coal-mine fire may cause casualties, resources loss, environmental disruption, equipment or job facilities damage and the serious threat ordinary production.

Gas is the general name of various toxic and harmfuls under the coal mine, wherein based on methane, accounts for more than 80%.The density of methane is 0.716kg/m3, is 0.554 times of atmospheric density, is gas colourless, tasteless, that can burn and explode.It is similar to nitrogen to the influence that the people breathes, and the people is suffocated; Simultaneously be different from nitrogen again, it has combustibility and explosivity.Gas is mainly reflected in four aspects to people's harm: explode, give prominence to, suffocate and burn.

Publication number is to disclose a kind of mine natural disaster simulating system in the Chinese utility application prospectus of CN1821548A, it is arranged in discarded tunnel or the tunnel model, in order to the disaster under the simulation mine, but it is not the virtual reality emulation environment, but in real tunnel, arrange simulation system, arrange that difficulty is bigger, affected by environment bigger, and it is the simulating nature disaster, after the shooting picture signal being spread out of the confession people watches, can not allow the people on the spot in person, can not accomplish man-machine interaction and interaction, can not estimate the rehearsal result.

The utility model content

In view of this,, the utility model proposes a kind of mine fire disaster analogue simulation training exercise system in order to address the above problem, can simulated fire disaster situation, make the people on the spot in person, and can realize man-machine interaction and interaction, also can estimate the rehearsal result.

The purpose of this utility model is achieved in that mine fire disaster analogue simulation training exercise system, comprise main control computer, 3D ring curtain projection subsystem, man-machine interaction subsystem, synchronization interactive subsystem, human body behavior detection subsystem and Human Physiology monitoring subsystem, described 3D ring curtain projection subsystem, man-machine interaction subsystem, synchronization interactive subsystem, human body behavior detection subsystem and Human Physiology monitoring subsystem electrically connect with main control computer respectively, and described synchronization interactive subsystem comprises major light, high temperature generating means and dense smoke generating means.

Further, described 3D ring curtain projection subsystem is polarization 3D ring curtain projection subsystem;

Further, a described polarization 3D ring curtain projection subsystem is made up of 120 ° of annular screens and 4 projector equipments, and per 2 projector equipments are one group, and two groups of projector equipments are oppositely arranged with the left and right side of 120 ° of annular screens respectively;

Further, described man-machine interaction subsystem is made up of electronics topic plate and earphone-microphone;

Further, described human body behavior detection subsystem comprises camera head and at least one photoelectric sensing apparatus that distributes and be provided with;

Further, described Human Physiology monitoring subsystem comprises pre ure tra ducer, pulse transducer and respiratory frequen;

Further, described Human Physiology monitoring subsystem also comprises wireless transmitter, and described wireless transmitter and main control computer electrically connect.

Advantage of the present utility model is: adopt computing machine 3D analog simulation, new technologies such as virtual reality, can to coal mine worker, rescue team member's awareness of safety, to the sign anticipation of fire disaster accident, when disaster takes place psychology and dispose technical ability and give training, and provide corresponding evaluation.At colliery underground fire disaster omen, the 3D of environment scene simulation after generating process and the calamity, produce disaster dynamic environment such as the light synchronous, high temperature, dense smoke synchronously with fire burning scene, monitoring is by instruction personnel's mutual-action behavior, thereby arrive being passed judgment on by instruction personnel's act of disposition, and monitoring human physiological parameters, so that quilt instruction person psychology and physiological situation are estimated.

Other advantage of the present utility model, target, to set forth in the following description to a certain extent with feature, and to a certain extent, based on being conspicuous to those skilled in the art, perhaps can from practice of the present utility model, obtain instruction to investigating hereinafter.Target of the present utility model and other advantage can be passed through following instructions, claims, and the specifically noted structure realizes and obtains in the accompanying drawing.

Description of drawings

Fig. 1 shows the structural representation of mine fire disaster analogue simulation training exercise system.

Embodiment

Below with reference to accompanying drawing, embodiment of the present utility model is described.

Referring to Fig. 1, mine fire disaster analogue simulation training exercise system, comprise main control computer, 3D ring curtain projection subsystem, man-machine interaction subsystem, synchronization interactive subsystem, human body behavior detection subsystem and Human Physiology monitoring subsystem, described 3D ring curtain projection subsystem, man-machine interaction subsystem, synchronization interactive subsystem, human body behavior detection subsystem and Human Physiology monitoring subsystem electrically connect with main control computer respectively.

A described 3D ring curtain projection subsystem is selected a polarization 3D ring curtain projection subsystem for use, is made up of 120 ° of annular screens and 4 projector equipments, and per 2 projector equipments are one group, and two groups of projector equipments are oppositely arranged with the left and right side of 120 ° of annular screens respectively.

Described man-machine interaction subsystem is made up of electronics topic plate and earphone-microphone, can carry out human-computer interaction, disaster on-site parameters and situation are transferred to by instruction person by electronics topic plate and/or earphone-microphone, also can be inscribed plate and earphone-microphone answer relevant issues by instruction person, to determine its judgement to the disaster omen by electronics;

Described synchronization interactive subsystem comprises major light, high temperature generating means and dense smoke generating means, in order to disaster dynamic environment such as the synchronous light of synchronous generation and simulated combustion scene, high temperature, dense smokes, experiences to strengthen; Described major light when blast appears in screen, during scenes such as fire, by the unlatching of control system gating pulse xenon lamp, produces the high light effect for producing the pulse xenon lamp of high light synchronously;

Loudspeaker.Described high temperature generating means is made up of the electrical heating infrared emittance, and when fire scenario appearred in screen, control system mainly allowed with radiation mode and experienced high temperature by instruction person according to burning size control heating element temperature height.Described dense smoke generating means can adopt the stage machine of being fuming, and when screen fire occurred and smoulders scene, main control computer was controlled it and is fuming, and requires the size of the control amount of being fuming according to visibility.

Described human body behavior detection subsystem comprises camera head and photoelectric sensing apparatus, described photoelectric sensing apparatus is the correlation infrared sensor, the distributed training exercise scene that is installed in, when human body moves, people's cognition obstructs the light, thereby detects moving of human body, by the human body mobile data in the image of image recognition analysis camera head acquisition, and the human body mobile data of comprehensive photoelectric sensing apparatus acquisition, make judge.

Described Human Physiology monitoring subsystem comprises pre ure tra ducer, pulse transducer, respiratory frequen and wireless transmitter, the data that pre ure tra ducer, pulse transducer and respiratory frequen obtain are transmitted into main control computer by wireless transmitter, and main control computer can be assessed quilt instruction person's physiology and psychologic status by these data.

The above is a preferred embodiment of the present utility model only, is not limited to the utility model, and obviously, those skilled in the art can carry out various changes and modification and not break away from spirit and scope of the present utility model the utility model.Like this, if of the present utility model these are revised and modification belongs within the scope of the utility model claim and equivalent technologies thereof, then the utility model also is intended to comprise these changes and modification interior.

Claims

1. mine fire disaster analogue simulation training exercise system, it is characterized in that: comprise main control computer, 3D ring curtain projection subsystem, man-machine interaction subsystem, synchronization interactive subsystem, human body behavior detection subsystem and Human Physiology monitoring subsystem, described 3D ring curtain projection subsystem, man-machine interaction subsystem, synchronization interactive subsystem, human body behavior detection subsystem and Human Physiology monitoring subsystem electrically connect with main control computer respectively, and described synchronization interactive subsystem comprises major light, high temperature generating means and dense smoke generating means.

2. mine fire disaster analogue simulation training exercise as claimed in claim 1 system is characterized in that: a described 3D ring curtain projection subsystem is a polarization 3D ring curtain projection subsystem.

3. mine fire disaster analogue simulation training exercise as claimed in claim 2 system, it is characterized in that: described polarization 3D ring curtain projection subsystem is made up of 120 ° of annular screens and 4 projector equipments, per 2 projector equipments are one group, and two groups of projector equipments are oppositely arranged with the left and right side of 120 ° of annular screens respectively.

4. mine fire disaster analogue simulation training exercise as claimed in claim 1 system is characterized in that: described man-machine interaction subsystem is made up of electronics topic plate and earphone-microphone.

5. use mine fire disaster analogue simulation training exercise as claimed in claim 1 system, it is characterized in that: described human body behavior detection subsystem comprises camera head and at least one photoelectric sensing apparatus that distributes and be provided with.

6. mine fire disaster analogue simulation training exercise as claimed in claim 6 system, it is characterized in that: described Human Physiology monitoring subsystem comprises pre ure tra ducer, pulse transducer and respiratory frequen.

7. mine fire disaster analogue simulation training exercise as claimed in claim 7 system, it is characterized in that: described Human Physiology monitoring subsystem also comprises wireless transmitter, and described wireless launcher and main control computer electrically connect.