CN107703876A - Mine emergency rescue exercise tunnel intelligentized control method and drilling system - Google Patents
Mine emergency rescue exercise tunnel intelligentized control method and drilling system Download PDFInfo
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- CN107703876A CN107703876A CN201711097995.8A CN201711097995A CN107703876A CN 107703876 A CN107703876 A CN 107703876A CN 201711097995 A CN201711097995 A CN 201711097995A CN 107703876 A CN107703876 A CN 107703876A
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- 238000005553 drilling Methods 0.000 title claims abstract description 34
- 238000000034 method Methods 0.000 title claims abstract description 31
- 239000000779 smoke Substances 0.000 claims abstract description 103
- 238000012544 monitoring process Methods 0.000 claims abstract description 58
- 230000005540 biological transmission Effects 0.000 claims abstract description 16
- 235000019504 cigarettes Nutrition 0.000 claims description 41
- 238000010438 heat treatment Methods 0.000 claims description 30
- 101000629937 Homo sapiens Translocon-associated protein subunit alpha Proteins 0.000 claims description 12
- 101000629913 Homo sapiens Translocon-associated protein subunit beta Proteins 0.000 claims description 12
- 102100026231 Translocon-associated protein subunit alpha Human genes 0.000 claims description 12
- 102100026229 Translocon-associated protein subunit beta Human genes 0.000 claims description 12
- 238000005286 illumination Methods 0.000 claims description 11
- 239000003517 fume Substances 0.000 claims description 4
- 101100088247 Picea mariana RPL13A gene Proteins 0.000 claims description 3
- 101100146536 Picea mariana RPS15 gene Proteins 0.000 claims description 3
- 101100315260 Picea mariana SB09 gene Proteins 0.000 claims description 3
- 230000011218 segmentation Effects 0.000 description 46
- 238000012549 training Methods 0.000 description 8
- 238000009826 distribution Methods 0.000 description 7
- 238000004088 simulation Methods 0.000 description 7
- 238000005516 engineering process Methods 0.000 description 6
- 239000003245 coal Substances 0.000 description 4
- 239000004509 smoke generator Substances 0.000 description 4
- 230000000694 effects Effects 0.000 description 3
- 230000015572 biosynthetic process Effects 0.000 description 2
- 230000007613 environmental effect Effects 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 238000003860 storage Methods 0.000 description 2
- 238000009423 ventilation Methods 0.000 description 2
- 238000004804 winding Methods 0.000 description 2
- 238000007792 addition Methods 0.000 description 1
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000002485 combustion reaction Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 238000005485 electric heating Methods 0.000 description 1
- 239000003673 groundwater Substances 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000010354 integration Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 229910052760 oxygen Inorganic materials 0.000 description 1
- 239000001301 oxygen Substances 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 238000003786 synthesis reaction Methods 0.000 description 1
Classifications
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/05—Programmable logic controllers, e.g. simulating logic interconnections of signals according to ladder diagrams or function charts
- G05B19/058—Safety, monitoring
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B9/00—Simulators for teaching or training purposes
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/10—Plc systems
- G05B2219/14—Plc safety
- G05B2219/14006—Safety, monitoring in general
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Abstract
Mine emergency rescue exercise tunnel intelligentized control method and drilling system.The present invention relates to a kind of mine emergency rescue exercise tunnel intelligentized control method and drilling system.Mine rescue drilling system includes comprehensive monitor system, data handling system and tunnel control system;Comprehensive monitor system includes tunnel smoke monitoring, tunnel temperature monitoring, video monitoring monitoring and vital sign monitoring;Tunnel control system includes tunnel smog control, tunnel temperature control, the control of tunnel video, tunnel Broadcasting Control, tunnel audio frequency control and tunnel air draft and controlled;Tunnel control system includes console, in real time monitoring, data sheet and information management, console, in real time monitoring, data sheet and information management and video monitoring equipment two-way transmission signals, in real time console, monitoring, data sheet and information management and audio control system two-way transmission signals.The present invention is used for mine emergency rescue exercise tunnel intelligentized control method and drilling system.
Description
Technical field:
The present invention relates to a kind of mine emergency rescue exercise tunnel intelligentized control method and drilling system.
Background technology:
According to《Mine rescue code》It is required that to make mine rescue crew adapt to catastrophe period underground coal mine high temperature, dense smoke etc.
Severe disaster environment, it is necessary to carry out simulating actual combat manoeuvre.Simulating actual combat manoeuvre has to comply with needs under battle conditions, formulates manoeuvre training
Plan.Mine rescue crew must monthly carry out the individual event manoeuvre training of once pendant positive pressure oxygen respirator.Quarterly carry out high
The manoeuvre training of temperature, dense smoke, emergency ventilation etc..
At present, many mine rescue constructions of base groundwater simulation tunnel, but lack high temperature dense smoke actual disaster environment
Simulation system, and effective mine emergency ventilation drilling system.Even if having built high temperature dense smoke simulation facility, there is also a lot
Problems demand improves.Subject matter is shown as:High temperature, the creation mean of smoky condition are original, and effect is poor, such as some rescues
Base is in order to improve combat training effect, in the built-in combustion furnace of underground passage, manual operation, by the burning of coal, timber come
Raise temperature and produce smoke simulation high temperature smoky condition.Not only body of heater takes lane space in itself, prepares and operating process is numerous
It is trivial, pollute environment.(2) simulation tunnel environment can not be controlled according to drill program, rescue team member is unable to reach sense on the spot in person
Feel, be unable to reach simulating actual combat purpose.(3) rescue team's high temperature dense smoke manoeuvre can not be monitored in real time to be in progress, it is unreliable in safety,
Manoeuvre DeGrain.(4) during high temperature manoeuvre, headquarter can not communicate mutually with being engaged in high temperature manoeuvre mine rescue troop
Dynamic, training examination is ineffective.(5) temperature and smokescope state modulator are difficult, and environment heating is easy, and temperature control is difficult;At present
The precision of smokescope sensor can not meet that control is required, it is necessary to improve precision.(6) individual soldier monitors training effect imperfection.
Situations such as trainer's vital sign can not be collected.
For problem above, to improve rescue team's training quality, lifting rescue team member adapts to underground coal mine high temperature, dense smoke
Disaster assistance disposing capacity under the ability of environment, winding shaft, have developed a set of mine emergency rescue exercise tunnel intelligentized control method
And drilling system, system is established can environmental information and can monitoring personnel vital sign and human behavior attitude information under monitoring well
Intelligent expansible monitoring system.Video monitoring system that system is realized, vital sign monitoring technology, personnel positioning technology
The important component that will develop as Digital Mine, to the production of mine down-hole personal security, emergency management and rescue work etc.
Have great importance.
The content of the invention:
It is an object of the invention to provide a kind of mine emergency rescue exercise tunnel intelligentized control method and drilling system, to improve
Rescue team's training quality, lifting rescue team member adapt to disaster assistance under underground coal mine high temperature, the ability of smoky condition, winding shaft
Disposing capacity, have developed a set of mine emergency rescue exercise tunnel intelligentized control method and drilling system, and system is established and can monitored
The intelligent expansible monitoring system of subsurface environment information and can monitoring personnel vital sign and human behavior attitude information.System
To develop as Digital Mine one of video monitoring system, vital sign monitoring technology, the personnel positioning technology realized
Important component, have great importance to the production of mine down-hole personal security, emergency management and rescue work etc..
Above-mentioned purpose is realized by following technical scheme:
A kind of mine emergency rescue exercise tunnel intelligentized control method and drilling system, mine rescue drilling system include synthesis
Monitoring system, data handling system and tunnel control system;
Described comprehensive monitor system includes tunnel smoke monitoring, tunnel temperature monitoring, video monitoring monitoring and life entity
Sign monitoring;
Described tunnel control system includes tunnel smog control, tunnel temperature control, the control of tunnel video, tunnel broadcast
Control, tunnel audio frequency control and tunnel air draft control;
Described tunnel control system includes console 1, in real time monitoring, data sheet and information management, described control
Platform 1, in real time monitoring, data sheet and information management and video monitoring equipment two-way transmission signals, it is described console 1, real-time
Monitoring, data sheet and information management and audio control system two-way transmission signals, described video monitoring equipment is to giant-screen
Monitor transmission video signal;
Described console 1, in real time monitoring, data sheet and information management and PLC two-way transmission signals, described PLC
The live signal of field instrument is also received, control signal is transmitted to heating apparatus, raw cigarette device and filled with smoke evacuation by described PLC
Put, described PLC and operation display two-way transmission signals.
Described mine emergency rescue exercise tunnel intelligentized control method and drilling system, described tunnel control system include
Control cabinet, described control cabinet interior access 24KZ- lines, 24KZ+ lines and N lines, described 24KZ- lines connection ZST01 lamps, ZST02
Lamp, ZST03 lamps, ZST04 lamps, ZST05 lamps, ZST06 lamps, ZST07 lamps, ZST08 lamps, ZST09 lamps, ZST10 lamps, ZST11 lamps,
ZST12 lamps, ZST13 lamps, ZST14 lamps, ZST15 lamps, ZST16 lamps, ZST17 lamps, ZST18 lamps, ZST19 lamps, ZST20 lamps, ZST23
Lamp, ZST24 lamps, solid-state relay SSR1 one end and solid-state relay SSR2 one end;
Described 24KZ+ lines connection smoke power knob SB01, smoke power knob SB02, smoke power knob SB03,
Smoke power knob SB04, smoke power knob SB05, smoke power knob SB06, smoke control button SB07, smoke control
Button SB08, smoke control button SB09, smoke control button SB10, smoke control button SB11, smoke control button SB12,
Computer heating control button SB13, computer heating control button SB14, smoke evacuation variable frequency starting SB15, smoke evacuation power frequency startup SB16, standby control
SB17, standby control SB18, operating desk power knob SB19, mains lighting supply button SB20, manual/auto power knob SB21,
Discharge fume rotating button SB22, standby control button SB23, one end for cancelling alarm button SB24, PLCDOc5, PLCDOc7
One end, operation instruction switch KM1-1, indicating fault switch FR1-1, operation instruction switch KM2-1 and indicating fault switch FR2-
1;
The described PLCDOc5 other end connection solid-state relay SSR1 other end, the described PLCDOc7 other end
Connect the solid-state relay SSR2 other end;
Described N lines connection fuse FR1 one end and fuse FR2 one end, the described fuse FR1 other end
Connecting valve dry-reed relay KR71, described fuse FR2 other end connecting valve dry-reed relay KR72.
Described mine emergency rescue exercise tunnel intelligentized control method and drilling system, described field instrument include illumination
Sensor and humidity sensor, described illuminance transducer include illuminance transducer ZD01, illuminance transducer ZD02, illumination sensing
Device ZD03, illuminance transducer ZD0 and illuminance transducer ZD05, described humidity sensor WS01, humidity sensor WS02, humidity
Sensor WS03, humidity sensor WS04, humidity sensor WS05 and humidity sensor WS06, described illuminance transducer
ZD01, illuminance transducer ZD02, illuminance transducer ZD03, illuminance transducer ZD0, illuminance transducer ZD05, humidity sensor
WS01, humidity sensor WS02, humidity sensor WS03, humidity sensor WS04, humidity sensor WS05 and humidity sensor
WS06 one end connects 24YB+ and Tx/B2 respectively,
Described illuminance transducer ZD01, illuminance transducer ZD02, illuminance transducer ZD03, illuminance transducer ZD0, illumination
Sensor ZD05, humidity sensor WS01, humidity sensor WS02, humidity sensor WS03, humidity sensor WS04, humidity pass
Sensor WS05 is connected 24YB- and Rx/B2 respectively with the humidity sensor WS06 other end.
Described mine emergency rescue exercise tunnel intelligentized control method and drilling system, No. 001 of described console 1BX
Terminal is connected control power supply with No. 002 terminal,
Described console 1BX No. 003 terminal is connected smoke power knob one with No. 004 terminal,
Described console 1BX No. 005 terminal is connected smoke control button one with No. 006 terminal,
Described console 1BX No. 007 terminal is connected smoke power knob two with No. 008 terminal,
Described console 1BX No. 009 terminal is connected smoke control button two with No. 010 terminal,
Described console 1BX No. 011 terminal is connected smoke power knob three with No. 012 terminal,
Described console 1BX No. 013 terminal is connected smoke control button three with No. 014 terminal,
Described console 1BX No. 015 terminal is connected smoke power knob four with No. 016 terminal,
Described console 1BX No. 017 terminal is connected smoke control button four with No. 018 terminal,
Described console 1BX No. 019 terminal is connected smoke power knob five with No. 020 terminal,
Described console 1BX No. 021 terminal is connected smoke control button five with No. 022 terminal,
Described console 1BX No. 023 terminal is connected smoke power knob six with No. 024 terminal,
Described console 1BX No. 025 terminal is connected smoke control button six with No. 026 terminal,
Described console 1BX No. 027 terminal is connected computer heating control button one with No. 028 terminal,
Described console 1BX No. 029 terminal is connected computer heating control button two with No. 030 terminal,
Described console 1BX No. 031 terminal is connected smoke evacuation variable frequency starting button with No. 032 terminal,
Described console 1BX No. 033 terminal is connected smoke evacuation power frequency startup button with No. 034 terminal,
Described console 1BX No. 035 terminal is connected emergency button with No. 036 terminal,
Described console 1BX No. 037 terminal is connected emergency button with No. 038 terminal,
Described console 1BX No. 039 terminal and No. 040 terminal connection operation platform power knob,
Described console 1BX No. 041 terminal is connected mains lighting supply button with No. 042 terminal,
Described console 1BX No. 043 terminal is connected manual control knobs with No. 044 terminal,
Described console 1BX No. 045 terminal is connected with No. 046 terminal automatically controls knob,
Described console 1BX No. 047 terminal is connected smoke evacuation rotating button with No. 048 terminal,
Described console 1BX No. 049 terminal is connected standby control with No. 050 terminal,
Described console 1BX No. 051 terminal is connected standby control with No. 052 terminal,
Described console 1BX No. 053 terminal is connected with No. 054 terminal cancels alarm button,
Described console 1BX No. 055 terminal is connected controlling alarm with No. 056 terminal,
Described console 1BX No. 059 terminal and No. 060 terminal connection operation platform power outlet,
Described console 1BX No. 061 terminal and No. 062 terminal connection operation platform power outlet.
Described mine emergency rescue exercise tunnel intelligentized control method and drilling system, No. 001 of described console 1CX
Terminal, No. 002 terminal are connected heating blower MG01 with No. 003 terminal,
Described console 1CX No. 004 terminal, No. 005 terminal is connected heater MG02 with No. 006 terminal,
Described console 1CX No. 007 terminal, No. 008 terminal is connected heating blower MG03 with No. 009 terminal,
Described console 1CX No. 010 terminal, No. 011 terminal is connected heater MG04 with No. 012 terminal,
Described console 1CX No. 013 terminal, No. 014 terminal is connected induced-draft fan MG05 with No. 015 terminal.
Described mine emergency rescue exercise tunnel intelligentized control method and drilling system, No. 003 of described console 1AX
Terminal is connected raw cigarette electromechanical source MG06 with No. 004 terminal,
Described console 1AX No. 005 terminal is connected raw cigarette machine control MG06 with No. 006 terminal,
Described console 1AX No. 007 terminal is connected raw cigarette electromechanical source MG07 with No. 008 terminal,
Described console 1AX No. 009 terminal is connected raw cigarette machine control MG07 with No. 010 terminal,
Described console 1AX No. 011 terminal is connected raw cigarette electromechanical source MG08 with No. 012 terminal,
Described console 1AX No. 013 terminal is connected raw cigarette machine control MG08 with No. 014 terminal,
Described console 1AX No. 015 terminal is connected raw cigarette electromechanical source MG09 with No. 016 terminal,
Described console 1AX No. 017 terminal is connected raw cigarette machine control MG09 with No. 018 terminal,
Described console 1AX No. 019 terminal is connected raw cigarette electromechanical source MG010 with No. 020 terminal,
Described console 1AX No. 021 terminal is connected raw cigarette machine control MG10 with No. 022 terminal,
Described console 1AX No. 023 terminal is connected raw cigarette electromechanical source MG11 with No. 024 terminal,
Described console 1AX No. 025 terminal is connected raw cigarette machine control MG11 with No. 026 terminal,
Described console 1AX No. 027 terminal and No. 028 terminal are standby end,
Described console 1AX No. 029 terminal and No. 030 terminal are standby end,
Described console 1AX No. 031 terminal is connected illumination field power supply with No. 032 terminal,
Described console 1AX No. 035 terminal is connected monitoring power supply with No. 036 terminal,
Described console 1AX No. 037 terminal is connected instrument stand-by power supply one with No. 038 terminal,
Described console 1AX No. 039 terminal and No. 040 terminal connection table stand-by power supply two,
Described console 1AX No. 041 terminal, No. 042 terminal, No. 043 terminal is connected sensor with No. 044 terminal.
Beneficial effect:
1. the life cigarette of the present invention automatically controls, set by smoke time and smoke interval time, temporally process is indirect
Control live smokescope.
2. the automatic record of the present invention, detects and records the detected value such as air themperature and illumination, institute in manoeuvre cigarette lane in real time
There are detection data history records and related data true and reliable.
3. the present invention's is easy to inquire about, the information according to manual entry and system monitoring can be inquired about at any time, is automatically generated
Containing the manoeuvre date, manoeuvre time section, manoeuvre place, leader of a group of people commander's name, participate in manoeuvre personnel name and personnel amount,
The list of the information such as curve of temperature change during the content of manoeuvre, manoeuvre.
4. the present invention combines mine rescue rehearsal environmental control system, video monitoring system, rescue vital sign monitoring system
System, personnel positioning gyroscope, set up mine disaster rescue drilling system, and design disaster assistance script realizes that mine rescue simulation is drilled
Practice.
5. the flexible warning function of the present invention, in display prompts temperature alarming etc. during overtemperature.
6. present system superiority, system architecture is clear, Highgrade integration, installation operation are simple, makes using with all kinds of
With environment, operation interface takes into full account customer personalized demand, and system run all right is good
7. inventive sensor gathers:Using advanced bus form.
8. complete accurate flexibly storage print function, the time point automatic recording-related information of setting, formation of the invention are looked into
Ask, storage and print data record.
9. present system expandability is strong, it can arbitrarily increase control point within the specific limits.
10. the present invention realizes heating and energy saving by the isothermal holding to high-temperature region.
11. temperature automatic control of the present invention, the discrete control modes of manoeuvre tunnel heating apparatus solid-state relay PID, use
380V electric heating equipment is heated, and warming-up device general power is controlled within 30KW, and device can be in 30min by tunnel
Temperature rises to 55 DEG C by 20 DEG C, and by temperature be automatically held in needed within the scope of, control accuracy is within 1 DEG C, while by lane
The temperature of road Nei Ge monitoring points is labeled on simulation laneway display such as figure, and during manoeuvre, setup parameter can be by reality
Demand is changed, and is started at the same time it can also manual operation and is closed air-heater.
It is attached as illustrated:
The attached structural representation if Fig. 1 is the present invention is such as schemed.
The attached system frame if Fig. 2 is the present invention is such as schemed.
The attached control principle if Fig. 3 is the present invention is such as schemed.
The attached auxiliary reclay distribution if Fig. 4 is the present invention is such as schemed.
The attached switch board distribution major loop if Fig. 5 is the present invention is such as schemed.
It is attached as Fig. 6 be the present invention instrument, PLC distributions such as scheme A.
It is attached as Fig. 7 be the present invention instrument, PLC distributions such as scheme B.
It is attached as Fig. 8 be the present invention switch board and operating desk terminal distribution such as scheme A.
The attached switch board terminal distribution if Fig. 9 is the present invention such as schemes B.
It is attached as Figure 10 be the present invention tunnel in device distribution signal as scheme.
Embodiment:
Embodiment 1
A kind of mine emergency rescue exercise tunnel intelligentized control method and drilling system, it is characterized in that:Mine rescue rehearsal system
System includes comprehensive monitor system, data handling system and tunnel control system;
Described comprehensive monitor system includes tunnel smoke monitoring, tunnel temperature monitoring, video monitoring monitoring and life entity
Sign monitoring;
Described tunnel control system includes tunnel smog control, tunnel temperature control, the control of tunnel video, tunnel broadcast
Control, tunnel audio frequency control and tunnel air draft control;
Tunnel control system as described in Figure 2 includes console 1, in real time monitoring, data sheet and information management, described
Console 1, in real time monitoring, data sheet and information management and video monitoring equipment two-way transmission signals, described console 1,
Monitoring, data sheet and information management and audio control system two-way transmission signals in real time, described video monitoring equipment is to big
Screen monitor transmission video signal;
Described console 1, in real time monitoring, data sheet and information management and PLC two-way transmission signals, described PLC
The live signal of field instrument is also received, described PLC transmits control signal to heating apparatus, raw cigarette device and fume extractor
The model of device is needed, described PLC needs the model two-way transmission signals of device with operation display.
Embodiment 2
Mine emergency rescue exercise tunnel intelligentized control method and drilling system described in embodiment 1, the control of described tunnel
System includes control cabinet, and 24KZ- lines, 24KZ+ lines and N lines, described 24KZ- lines connection ZST01 are accessed in described control cabinet
Lamp, ZST02 lamps, ZST03 lamps, ZST04 lamps, ZST05 lamps, ZST06 lamps, ZST07 lamps, ZST08 lamps, ZST09 lamps, ZST10 lamps,
ZST11 lamps, ZST12 lamps, ZST13 lamps, ZST14 lamps, ZST15 lamps, ZST16 lamps, ZST17 lamps, ZST18 lamps, ZST19 lamps, ZST20
Lamp, ZST23 lamps, ZST24 lamps, solid-state relay SSR1 one end and solid-state relay SSR2 one end;
Described 24KZ+ lines connection smoke power knob SB01, smoke power knob SB02, smoke power knob SB03,
Smoke power knob SB04, smoke power knob SB05, smoke power knob SB06, smoke control button SB07, smoke control
Button SB08, smoke control button SB09, smoke control button SB10, smoke control button SB11, smoke control button SB12,
Computer heating control button SB13, computer heating control button SB14, smoke evacuation variable frequency starting SB15, smoke evacuation power frequency startup SB16, standby control
SB17, standby control SB18, operating desk power knob SB19, mains lighting supply button SB20, manual/auto power knob SB21,
Discharge fume rotating button SB22, standby control button SB23, one end for cancelling alarm button SB24, PLCDOc5, PLCDOc7
One end, operation instruction switch KM1-1, indicating fault switch FR1-1, operation instruction switch KM2-1 and indicating fault switch FR2-
1;
The described PLCDOc5 other end connection solid-state relay SSR1 other end, the described PLCDOc7 other end
Connect the solid-state relay SSR2 other end;
Described N lines connection fuse FR1 one end and fuse FR2 one end, the described fuse FR1 other end
Connecting valve dry-reed relay KR71, described fuse FR2 other end connecting valve dry-reed relay KR72.
Embodiment 3
Mine emergency rescue exercise tunnel intelligentized control method and drilling system described in embodiment 1, described field instrument
Including illuminance transducer and humidity sensor, described illuminance transducer include illuminance transducer ZD01, illuminance transducer ZD02,
Illuminance transducer ZD03, illuminance transducer ZD0 and illuminance transducer ZD05, described humidity sensor WS01, humidity sensor
WS02, humidity sensor WS03, humidity sensor WS04, humidity sensor WS05 and humidity sensor WS06, described illumination
Sensor ZD01, illuminance transducer ZD02, illuminance transducer ZD03, illuminance transducer ZD0, illuminance transducer ZD05, humidity pass
Sensor WS01, humidity sensor WS02, humidity sensor WS03, humidity sensor WS04, humidity sensor WS05 and humidity pass
Sensor WS06 one end connects 24YB+ and Tx/B2 respectively,
Described illuminance transducer ZD01, illuminance transducer ZD02, illuminance transducer ZD03, illuminance transducer ZD0, illumination
Sensor ZD05, humidity sensor WS01, humidity sensor WS02, humidity sensor WS03, humidity sensor WS04, humidity pass
Sensor WS05 is connected 24YB- and Rx/B2 respectively with the humidity sensor WS06 other end.
Embodiment 4
Mine emergency rescue exercise tunnel intelligentized control method and drilling system described in embodiment 1, described console 1BX
No. 001 terminal be connected with No. 002 terminal control power supply,
Described console 1BX No. 003 terminal is connected smoke power knob one with No. 004 terminal,
Described console 1BX No. 005 terminal is connected smoke control button one with No. 006 terminal,
Described console 1BX No. 007 terminal is connected smoke power knob two with No. 008 terminal,
Described console 1BX No. 009 terminal is connected smoke control button two with No. 010 terminal,
Described console 1BX No. 011 terminal is connected smoke power knob three with No. 012 terminal,
Described console 1BX No. 013 terminal is connected smoke control button three with No. 014 terminal,
Described console 1BX No. 015 terminal is connected smoke power knob four with No. 016 terminal,
Described console 1BX No. 017 terminal is connected smoke control button four with No. 018 terminal,
Described console 1BX No. 019 terminal is connected smoke power knob five with No. 020 terminal,
Described console 1BX No. 021 terminal is connected smoke control button five with No. 022 terminal,
Described console 1BX No. 023 terminal is connected smoke power knob six with No. 024 terminal,
Described console 1BX No. 025 terminal is connected smoke control button six with No. 026 terminal,
Described console 1BX No. 027 terminal is connected computer heating control button one with No. 028 terminal,
Described console 1BX No. 029 terminal is connected computer heating control button two with No. 030 terminal,
Described console 1BX No. 031 terminal is connected smoke evacuation variable frequency starting button with No. 032 terminal,
Described console 1BX No. 033 terminal is connected smoke evacuation power frequency startup button with No. 034 terminal,
Described console 1BX No. 035 terminal is connected emergency button with No. 036 terminal,
Described console 1BX No. 037 terminal is connected emergency button with No. 038 terminal,
Described console 1BX No. 039 terminal and No. 040 terminal connection operation platform power knob,
Described console 1BX No. 041 terminal is connected mains lighting supply button with No. 042 terminal,
Described console 1BX No. 043 terminal is connected manual control knobs with No. 044 terminal,
Described console 1BX No. 045 terminal is connected with No. 046 terminal automatically controls knob,
Described console 1BX No. 047 terminal is connected smoke evacuation rotating button with No. 048 terminal,
Described console 1BX No. 049 terminal is connected standby control with No. 050 terminal,
Described console 1BX No. 051 terminal is connected standby control with No. 052 terminal,
Described console 1BX No. 053 terminal is connected with No. 054 terminal cancels alarm button,
Described console 1BX No. 055 terminal is connected controlling alarm with No. 056 terminal,
Described console 1BX No. 059 terminal and No. 060 terminal connection operation platform power outlet,
Described console 1BX No. 061 terminal and No. 062 terminal connection operation platform power outlet.
Embodiment 5
Mine emergency rescue exercise tunnel intelligentized control method and drilling system described in embodiment 3, described console 1CX
No. 001 terminal, No. 002 terminal be connected heating blower MG01 with No. 003 terminal,
Described console 1CX No. 004 terminal, No. 005 terminal is connected heater MG02 with No. 006 terminal,
Described console 1CX No. 007 terminal, No. 008 terminal is connected heating blower MG03 with No. 009 terminal,
Described console 1CX No. 010 terminal, No. 011 terminal is connected heater MG04 with No. 012 terminal,
Described console 1CX No. 013 terminal, No. 014 terminal is connected induced-draft fan MG05 with No. 015 terminal.
Embodiment 6
Mine emergency rescue exercise tunnel intelligentized control method and drilling system described in embodiment 3, described console 1AX
No. 003 terminal raw cigarette electromechanical source MG06 is connected with No. 004 terminal,
Described console 1AX No. 005 terminal is connected raw cigarette machine control MG06 with No. 006 terminal,
Described console 1AX No. 007 terminal is connected raw cigarette electromechanical source MG07 with No. 008 terminal,
Described console 1AX No. 009 terminal is connected raw cigarette machine control MG07 with No. 010 terminal,
Described console 1AX No. 011 terminal is connected raw cigarette electromechanical source MG08 with No. 012 terminal,
Described console 1AX No. 013 terminal is connected raw cigarette machine control MG08 with No. 014 terminal,
Described console 1AX No. 015 terminal is connected raw cigarette electromechanical source MG09 with No. 016 terminal,
Described console 1AX No. 017 terminal is connected raw cigarette machine control MG09 with No. 018 terminal,
Described console 1AX No. 019 terminal is connected raw cigarette electromechanical source MG010 with No. 020 terminal,
Described console 1AX No. 021 terminal is connected raw cigarette machine control MG10 with No. 022 terminal,
Described console 1AX No. 023 terminal is connected raw cigarette electromechanical source MG11 with No. 024 terminal,
Described console 1AX No. 025 terminal is connected raw cigarette machine control MG11 with No. 026 terminal,
Described console 1AX No. 027 terminal and No. 028 terminal are standby end,
Described console 1AX No. 029 terminal and No. 030 terminal are standby end,
Described console 1AX No. 031 terminal is connected illumination field power supply with No. 032 terminal,
Described console 1AX No. 035 terminal is connected monitoring power supply with No. 036 terminal,
Described console 1AX No. 037 terminal is connected instrument stand-by power supply one with No. 038 terminal,
Described console 1AX No. 039 terminal and No. 040 terminal connection table stand-by power supply two,
Described console 1AX No. 041 terminal, No. 042 terminal, No. 043 terminal is connected sensor with No. 044 terminal.
Embodiment 7
Mine emergency rescue exercise tunnel intelligentized control method and drilling system described in embodiment 2, control as described in Figure 4
Platform 1 controls the power on/off of switch board, and general supply U lines, general supply V lines and general supply W lines are accessed in described switch board, described
General supply U lines connection threephase switch QF1 first end, threephase switch QF2 first end, threephase switch QF3 first end, three-phase
Switch QF4 first end, threephase switch QF5 first end, single-way switch QF6 and single-way switch QF7, described threephase switch
QF1 first end connection KM1 first end, described connection KM1 first end connection fuse FR1 first end are described
The first end of fuse FR1 first end connection heating blower I, the first of described threephase switch QF3 first end connection KM2
End, described connection KM2 first end connection fuse FR2 first end, described fuse FR2 first end connection heating
The first end of blower fan II, the connection solid-state relay SSR1 of described threephase switch QF2 first end first end, described consolidates
The first end of state relay SSR1 first end connection heater I, the connection solid-state of described threephase switch QF4 first end after
Electrical equipment SSR2 first end, the first end of described solid-state relay SSR2 first end connection heater II, described three-phase
Switch the connection SINAMICS V20 of QF5 first end first end, described SINAMICS V20 first end connection smoke evacuation
The first end of machine;
Described general supply V lines connection threephase switch QF1 the second end, threephase switch QF2 the second end, threephase switch
QF3 the second end, threephase switch QF4 the second end, threephase switch QF5 the second end, single-way switch QF8 and single-way switch QF9,
Described threephase switch QF1 the second end connection KM1 the second end, described connection KM1 the second end connection fuse FR1's
Second end, the second end of described fuse FR1 the second end connection heating blower I, described threephase switch QF3 the second end
KM2 the second end is connected, described connection KM2 the second end connects fuse FR2 the second end, described fuse FR2's
Second end connects the second end of heating blower II, the connection solid-state relay SSR1's at described threephase switch QF2 the second end
Second end, the second end of described solid-state relay SSR1 the second end connection heater I, the of described threephase switch QF4
The connection solid-state relay SSR2 at two ends the second end, the of described solid-state relay SSR2 the second end connection heater II
Two ends, the connection SINAMICS V20 at described threephase switch QF5 the second end the second end, described SINAMICS V20's
Second end connects the second end of induced-draft fan;
Described general supply W lines connection threephase switch QF1 the 3rd end, threephase switch QF2 the 3rd end, threephase switch
QF3 the 3rd end, threephase switch QF4 the 3rd end, threephase switch QF5 the 3rd end, single-way switch QF10, single-way switch
QF11, single-way switch QF12, single-way switch QF13, single-way switch QF14, single-way switch QF15, with single-way switch QF16, it is described
Threephase switch QF1 three-terminal link KM1 the 3rd end, the 3rd of described connection KM1 three-terminal link fuse FR1 the
End, the 3rd end of described fuse FR1 three-terminal link heating blower I, described threephase switch QF3 three-terminal link
KM2 the 3rd end, described connection KM2 three-terminal link fuse FR2 the 3rd end, the 3rd of described fuse FR2 the
3rd end of end connection heating blower II, the 3rd of the connection solid-state relay SSR1 at described threephase switch QF2 the 3rd end the
End, the 3rd end of described solid-state relay SSR1 three-terminal link heater I, described threephase switch QF4 the 3rd end
Connection solid-state relay SSR2 the 3rd end, the 3rd of described solid-state relay SSR2 three-terminal link heater II the
End, the connection SINAMICS V20 at described threephase switch QF5 the 3rd end the 3rd end, the of described SINAMICS V20
3rd end of three-terminal link induced-draft fan.
Each device model such as table one:
Table 1
Embodiment 8
Mine emergency rescue exercise tunnel intelligentized control method and drilling system described in embodiment 1, described tunnel audio
Control realizes that described tunnel video control is realized by video camera 2, described video camera 2 and sound pick-up 1 by sound pick-up 1
Pairing occurs,
Segmentation block is set in tunnel, and described segmentation block includes segmentation block I 3, segmentation block II 4, segmentation block III 5, segmentation block
IV 6, block V 7, segmentation block VI 8, segmentation block VII 9 and segmentation block VIII 10 are split,
Described segmentation block I 3 be arranged in parallel with segmentation block II 4, in being formed between described segmentation block I 3 and segmentation block II 4
Between passage 1,
Described segmentation block III 5 be arranged in parallel with segmentation block IV 6, is formed between described segmentation block III 5 and segmentation block IV 6
Center-aisle 2 12,
Described segmentation block V 7 be arranged in parallel with segmentation block VI 8, is formed between described segmentation block V 7 and segmentation block VI 8
Center-aisle 3 13,
Described segmentation block VII 9 be arranged in parallel with segmentation block VIII 10, shape between described segmentation block VII 9 and segmentation block VIII 10
Into center-aisle 4 14,
Described segmentation block I 3, segmentation block III 5, segmentation block V 7 and segmentation block VII 9 is set point-blank, and middle
Passageway 1 is set respectively,
Described segmentation block II 4, segmentation block IV 6, segmentation block VI 8 and segmentation block VIII 10 is set point-blank, and in
Between passageway 2 16 is set respectively, described passageway 1 communicates with passageway 2 16;
Described passageway 1, passageway 2 16 connect with passage 1, passage 2 12, passage 3 13 with passage 4 14,
Described tunnel inwall forms passage 5 17 with segmentation block I 3, segmentation block III 5, segmentation block V 7, segmentation block VII 9,
Described tunnel inwall forms passage 6 18 with segmentation block I 3, segmentation block III 5, segmentation block V 7, segmentation block VIII 9,
Each described tunnel side wall sets three groups of video cameras 2 and sound pick-up 1 respectively, and three groups of video cameras 2 divide with sound pick-up 1
It is not arranged on passage 1, passage 4 14, passage 5 17 and passage 6 18, the centre of described passage 5 17 and passage 6 18
Position sets two groups of video cameras 2 and sound pick-up 1 respectively,
The left side of described passage 5 17 with setting smoke generator 19, described tunnel right side side respectively on the left of the side of passage 6 18
Wall passage 5 17 sets exhaust outlet 20, and temperature sensor 21 is set in described passage 1, and described passage 6 18, which is set, to be shone
Sensor 22 is spent, described illuminance transducer 22 is separately positioned on the both sides of segmentation block II 4 with temperature sensor 21,
Temperature display 26 is set on described passageway 2 16, and the right side of described passage 5 17 sets temperature sensor
21,
Described passage 2 12 is high-temperature region, and described temperature sensor 21 is arranged on the right side of smoke generator 19, described
Smoke generator 19 is arranged on the left side of passage 2 12, and the right side of described temperature sensor 21 sets illuminance transducer 22, described
Illuminance transducer 22 and 21 alternate setting of temperature sensor, the passageway 1 between described segmentation block III 5 and segmentation block V 7 are set
Air-heater 23, smoke generator 19 and interchanger 24 are put,
Described tunnel Broadcasting Control realizes that described passage 6 18 sets one close to the position of segmentation block by sound equipment 25
Group sound equipment 25, described passage five are also provided with one group of sound equipment 25 close to the position of segmentation block, described passage one with passage four
Sound equipment 25 is also set respectively.
Certainly, described above is not limitation of the present invention, and the present invention is also not limited to the example above, this technology neck
The variations, modifications, additions or substitutions that the technical staff in domain is made in the essential scope of the present invention, it should also belong to the present invention's
Protection domain.
Claims (6)
1. a kind of mine emergency rescue exercise tunnel intelligentized control method and drilling system, it is characterized in that:Mine rescue drilling system
Including comprehensive monitor system, data handling system and tunnel control system;
Described comprehensive monitor system includes tunnel smoke monitoring, tunnel temperature monitoring, video monitoring monitoring and vital sign prison
Survey;
Described tunnel control system includes tunnel smog control, tunnel temperature control, the control of tunnel video, tunnel broadcast control
System, tunnel audio frequency control and tunnel air draft control;
Described tunnel control system includes console, in real time monitoring, data sheet and information management, described console, reality
When monitoring, data sheet and information management and video monitoring equipment two-way transmission signals, it is described console, in real time monitoring, several
According to form and information management and audio control system two-way transmission signals, described video monitoring equipment passes to large-screen monitor
Defeated vision signal;
Described console, monitoring, data sheet and information management and PLC two-way transmission signals, described PLC are also received in real time
The live signal of field instrument, described PLC transmits control signal to heating apparatus, raw cigarette device and fume extractor, described
PLC with operation display two-way transmission signals.
2. mine emergency rescue exercise tunnel intelligentized control method according to claim 1 and drilling system, it is characterized in that:Institute
The tunnel control system stated includes control cabinet, and 24KZ- lines, 24KZ+ lines and N lines, described 24KZ- are accessed in described control cabinet
Line connection ZST01 lamps, ZST02 lamps, ZST03 lamps, ZST04 lamps, ZST05 lamps, ZST06 lamps, ZST07 lamps, ZST08 lamps, ZST09
Lamp, ZST10 lamps, ZST11 lamps, ZST12 lamps, ZST13 lamps, ZST14 lamps, ZST15 lamps, ZST16 lamps, ZST17 lamps, ZST18 lamps,
ZST19 lamps, ZST20 lamps, ZST23 lamps, ZST24 lamps, solid-state relay SSR1 one end and solid-state relay SSR2 one end;
Described 24KZ+ lines connect smoke power knob SB01, smoke power knob SB02, smoke power knob SB03, smoke
Power knob SB04, smoke power knob SB05, smoke power knob SB06, smoke control button SB07, smoke control button
SB08, smoke control button SB09, smoke control button SB10, smoke control button SB11, smoke control button SB12, heating
Control button SB13, computer heating control button SB14, smoke evacuation variable frequency starting SB15, smoke evacuation power frequency startup SB16, standby control SB17,
Standby control SB18, operating desk power knob SB19, mains lighting supply button SB20, manual/auto power knob SB21, smoke evacuation are just
Invert button SB22, standby control button SB23, the one end for cancelling alarm button SB24, PLCDOc5, PLCDOc7 one end, fortune
Row instruction switch KM1-1, indicating fault switch FR1-1, operation instruction switch KM2-1 and indicating fault switch FR2-1;
The described PLCDOc5 other end connection solid-state relay SSR1 other end, described PLCDOc7 other end connection
The solid-state relay SSR2 other end;
Described N lines connection fuse FR1 one end and fuse FR2 one end, described fuse FR1 other end connection
Switch dry-reed relay KR71, described fuse FR2 other end connecting valve dry-reed relay KR72.
3. mine emergency rescue exercise tunnel intelligentized control method according to claim 1 and drilling system, it is characterized in that:Institute
The field instrument stated includes illuminance transducer and humidity sensor, and described illuminance transducer includes illuminance transducer ZD01, shone
Spend sensor ZD02, illuminance transducer ZD03, illuminance transducer ZD0 and illuminance transducer ZD05, described humidity sensor
WS01, humidity sensor WS02, humidity sensor WS03, humidity sensor WS04, humidity sensor WS05 and humidity sensor
WS06, described illuminance transducer ZD01, illuminance transducer ZD02, illuminance transducer ZD03, illuminance transducer ZD0, illumination pass
Sensor ZD05, humidity sensor WS01, humidity sensor WS02, humidity sensor WS03, humidity sensor WS04, humidity sensor
Device WS05 is connected 24YB+ and Tx/B2 respectively with humidity sensor WS06 one end,
Described illuminance transducer ZD01, illuminance transducer ZD02, illuminance transducer ZD03, illuminance transducer ZD0, illumination sensing
Device ZD05, humidity sensor WS01, humidity sensor WS02, humidity sensor WS03, humidity sensor WS04, humidity sensor
WS05 is connected 24YB- and Rx/B2 respectively with the humidity sensor WS06 other end.
4. mine emergency rescue exercise tunnel intelligentized control method according to claim 1 and drilling system, it is characterized in that:Institute
The console BX stated No. 001 terminal is connected control power supply with No. 002 terminal,
Described console BX No. 003 terminal is connected smoke power knob one with No. 004 terminal,
Described console BX No. 005 terminal is connected smoke control button one with No. 006 terminal,
Described console BX No. 007 terminal is connected smoke power knob two with No. 008 terminal,
Described console BX No. 009 terminal is connected smoke control button two with No. 010 terminal,
Described console BX No. 011 terminal is connected smoke power knob three with No. 012 terminal,
Described console BX No. 013 terminal is connected smoke control button three with No. 014 terminal,
Described console BX No. 015 terminal is connected smoke power knob four with No. 016 terminal,
Described console BX No. 017 terminal is connected smoke control button four with No. 018 terminal,
Described console BX No. 019 terminal is connected smoke power knob five with No. 020 terminal,
Described console BX No. 021 terminal is connected smoke control button five with No. 022 terminal,
Described console BX No. 023 terminal is connected smoke power knob six with No. 024 terminal,
Described console BX No. 025 terminal is connected smoke control button six with No. 026 terminal,
Described console BX No. 027 terminal is connected computer heating control button one with No. 028 terminal,
Described console BX No. 029 terminal is connected computer heating control button two with No. 030 terminal,
Described console BX No. 031 terminal is connected smoke evacuation variable frequency starting button with No. 032 terminal,
Described console BX No. 033 terminal is connected smoke evacuation power frequency startup button with No. 034 terminal,
Described console BX No. 035 terminal is connected emergency button with No. 036 terminal,
Described console BX No. 037 terminal is connected emergency button with No. 038 terminal,
Described console BX No. 039 terminal and No. 040 terminal connection operation platform power knob,
Described console BX No. 041 terminal is connected mains lighting supply button with No. 042 terminal,
Described console BX No. 043 terminal is connected manual control knobs with No. 044 terminal,
Described console BX No. 045 terminal is connected with No. 046 terminal automatically controls knob,
Described console BX No. 047 terminal is connected smoke evacuation rotating button with No. 048 terminal,
Described console BX No. 049 terminal is connected standby control with No. 050 terminal,
Described console BX No. 051 terminal is connected standby control with No. 052 terminal,
Described console BX No. 053 terminal is connected with No. 054 terminal cancels alarm button,
Described console BX No. 055 terminal is connected controlling alarm with No. 056 terminal,
Described console BX No. 059 terminal and No. 060 terminal connection operation platform power outlet,
Described console BX No. 061 terminal and No. 062 terminal connection operation platform power outlet.
5. mine emergency rescue exercise tunnel intelligentized control method according to claim 3 and drilling system, it is characterized in that:Institute
The console CX stated No. 001 terminal, No. 002 terminal is connected heating blower MG01 with No. 003 terminal,
Described console CX No. 004 terminal, No. 005 terminal is connected heater MG02 with No. 006 terminal,
Described console CX No. 007 terminal, No. 008 terminal is connected heating blower MG03 with No. 009 terminal,
Described console CX No. 010 terminal, No. 011 terminal is connected heater MG04 with No. 012 terminal,
Described console CX No. 013 terminal, No. 014 terminal is connected induced-draft fan MG05 with No. 015 terminal.
6. mine emergency rescue exercise tunnel intelligentized control method according to claim 3 and drilling system, it is characterized in that:Institute
The console AX stated No. 003 terminal is connected raw cigarette electromechanical source MG06 with No. 004 terminal,
Described console AX No. 005 terminal is connected raw cigarette machine control MG06 with No. 006 terminal,
Described console AX No. 007 terminal is connected raw cigarette electromechanical source MG07 with No. 008 terminal,
Described console AX No. 009 terminal is connected raw cigarette machine control MG07 with No. 010 terminal,
Described console AX No. 011 terminal is connected raw cigarette electromechanical source MG08 with No. 012 terminal,
Described console AX No. 013 terminal is connected raw cigarette machine control MG08 with No. 014 terminal,
Described console AX No. 015 terminal is connected raw cigarette electromechanical source MG09 with No. 016 terminal,
Described console AX No. 017 terminal is connected raw cigarette machine control MG09 with No. 018 terminal,
Described console AX No. 019 terminal is connected raw cigarette electromechanical source MG010 with No. 020 terminal,
Described console AX No. 021 terminal is connected raw cigarette machine control MG10 with No. 022 terminal,
Described console AX No. 023 terminal is connected raw cigarette electromechanical source MG11 with No. 024 terminal,
Described console AX No. 025 terminal is connected raw cigarette machine control MG11 with No. 026 terminal,
Described console AX No. 027 terminal and No. 028 terminal are standby end,
Described console AX No. 029 terminal and No. 030 terminal are standby end,
Described console AX No. 031 terminal is connected illumination field power supply with No. 032 terminal,
Described console AX No. 035 terminal is connected monitoring power supply with No. 036 terminal,
Described console AX No. 037 terminal is connected instrument stand-by power supply one with No. 038 terminal,
Described console AX No. 039 terminal and No. 040 terminal connection table stand-by power supply two,
Described console AX No. 041 terminal, No. 042 terminal, No. 043 terminal is connected sensor with No. 044 terminal.
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