CN109060867A - Study deep-well causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more - Google Patents

Abstract

The present invention provides a kind of research deep-well and calamity source is caused to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, is related to mine safety field of engineering technology.The simulating table includes that stope structure simulation system, methane gas gush out control system, heating control system, ventilated control system, Deep Shaft Mine in China control pressurer system, data information acquisition and analysis system and central general control system；Stope structure simulation system is used to simulate the space structure of stope；Methane gas is gushed out control system and is gushed out for control gas；Heating control system is for simulating stope underground heat and heating to Residual coal in goaf；Ventilated control system is used to provide for simulation stope distinguished and admirable；Deep Shaft Mine in China control pressurer system is for simulating goaf top plate pressure；Research deep-well provided by the invention causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, and the spontaneous combustion in goaf process and truth degree of conformity of simulation are high, and research conclusion and real result are reliable.

Description

Study deep-well causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more

Technical field

The present invention relates to mine safety field of engineering technology more particularly to a kind of research deep-wells to cause the effect of calamity source is lower to lose coal more Ignition quality multifunction emulation experimental bench.

Background technique

The mine of deep mining gradually increases in China and the world at present, and deep mining is also coal mine Future Development It is inevitable, it exploits popularization and Mechanization Level improves and accelerates the process that mine develops to deep again.Currently, China has had Over one hundred a mine enters the deep mining stage, and the mine for entering deep mining in the future can be more and more.Mine fire is One of the major casualty of Safety of Coal Mine Production is threatened, wherein again with mine self caused fire, i.e., based on spontaneous combustionof coal, in mine fire 90% the above are mine self caused fires.It is again maximum with goaf coal freely burning fire proportion in mine self caused fire, so The main contents that goaf coal spontaneous combustion and prevention and treatment become research mine fire have in China's State owned coal mine according to statistics There is the mine of spontaneous fire danger to account for about 51.3%.Deep Mine Coal Spontaneous Combustion Characteristics and superficial part have larger difference, in order to Deep spontaneous combustionof coal is efficiently controlled, more thoroughgoing and painstaking research has been carried out to Deep Mine Coal Spontaneous Combustion Characteristics It is extremely urgent.

With the increase of mining depth, the factor for influencing spontaneous combustion in goaf increases, and each factor is to spontaneous combustion of remaining coal Influence degree, influence mode can be very different compared with superficial part.Such as: with the increase of mining depth, the stress of primary rock Characteristic changes, coal seam gas-bearing capacity and pressure increased, rock stratum is increased by ground heat affecting temperature, mine resistance and Air quantity increasing etc., these can all be such that deep spontaneous combustion of remaining coal characteristic will be different with superficial part.These influence factors simultaneously are such as high Crustal stress, High-geotemperature etc. itself are exactly the cause calamity source of deep mining.If high-ground stress can cause stress high concentration, formed Bump etc.；High-geotemperature can bring hot evil to mine, influence work task efficiency and health etc..Therefore, deep is opened The characteristic for adopting spontaneous combustionof coal is to be caused the coupling of calamity source to be influenced by more.

Two methods are mainly used at present to the research of Coal Spontaneous Combustion Characteristics, i.e. numerical simulation and experiment is studied.It is testing Mostly in research is that coal is placed in closed container, is then ventilated, loaded, heated to container, to coal in container Oxidation temperature-rise period be monitored, gas in container ingredient be monitored, finally obtain coal spontaneous combustion period, oxidation The parameters such as heating rate, oxygen consumption intensity, gas marker.These experimental provisions are mainly to carry out to the spontaneous combustion oxidation characteristic of coal Research, and it is then helpless to coal research of spontaneous significance in goaf is lost.

The experimental study of spontaneous combustion in goaf characteristic when for deep mining, existing technology be primarily present it is following not Foot: (1) current experimental provision mainly studies coal oxidation temperature-raising characteristic, and can get some relevant parameters, but cannot be right Spontaneous combustion in goaf rule is studied, as the danger zone of spontaneous combustion in goaf and movement law, Residual coal in goaf from Fire in temperature field and changing rule, goaf each field (temperature field, infiltration in the division of " three band of spontaneous combustion " and changing rule, goaf Flow field, stress field, concentration field) Mutual Influence Law etc..(2) seldom consider in the experiment simulation process for carrying out spontaneous combustionof coal Influence of the mine pressure to it, consideration is also only to load according to the characteristics of superficial part mine pressure to coal, is not accounted for The characteristics of foundation deeps mines pressure is loaded, and (compared with superficial part mine pressure, not only pressure adds deeps mines pressure Big problem).In addition when considering influence of the pressure to spontaneous combustionof coal, coal under different pressures during loading can only also be studied The permeability and temperature-rise period of charcoal are the influence under a pressure, a kind of permeability to coal temperature-rise period at a certain moment, and In practical recovery process, pressure, the permeability of goaf different location are different, and various permeabilities are to something lost coal temperature-rise period Exist influence, different permeabilities again presence influences each other, i.e., be in goaf at a certain moment multiple pressure power, more permeabilities simultaneously Influence oxidization of remained coal temperature-rise period.(3) existing imitative experimental appliance seldom considers influence of the gas to spontaneous combustionof coal, consideration Also it is only to inject methane gas in experimental provision, studies influence of the gas bearing capacity to coal oxidation temperature-rise period, can not grind Study carefully goaf gas to gush out and influence (goaf air leaking influence spontaneous combustion of remaining coal) of the gas pressure to goaf air leaking, goaf watt The influence etc. of the influence, oxidization of remained coal heating of this flowing and concentration distribution to something lost coal temperature-rise period to gas migration rule.In addition, There is also larger impact, voidage and goaf gas to the gas migration rule in goaf for the voidage of erecting dense individual props rock The current experimental provision of relationship between body migration is also difficult to be studied.(4) environment temperature is not accounted for coal heating, mine The influence of mountain pressure.(5) air supply of working face amount, the shadow for wind pressure to goaf air leaking amount, spontaneous combustion of remaining coal characteristic are not accounted for Ring etc..

Summary of the invention

The technical problem to be solved by the present invention is in view of the above shortcomings of the prior art, provide one kind to cause deep-well more The Multi-functional analog experimental bench that spontaneous combustion in goaf characteristic is studied under the coupling of calamity source, it is more scientific, accurate to realize The spontaneous significance grasped deep-well and lose coal, to be significantly more efficient prevention and control carried out to it theoretical foundation are provided.

Study deep-well causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench, including stope structure simulation system more System, methane gas gush out control system, heating control system, ventilated control system, Deep Shaft Mine in China control pressurer system, data letter Breath acquisition and analysis system and central general control system；The stope structure simulation system is used to simulate the space structure of stope； The methane gas gushes out control system for controlling the Gas of stope coal wall, goaf and adjacent layer, by everybody The control of place's gas emission is set, realizes the simulation to the various Gas situations of stope；The heating control system is used for mould Intend stope underground heat and Residual coal in goaf is heated, heating control system is right to the distinguished and admirable carry out computer heating control for simulating stope Simulation coal wall, simulation bottom plate, simulation wall and the simulation coal column for simulating stope carry out computer heating control, to simulation Residual coal in goaf Oxidation temperature-rise period carry out computer heating control；The ventilated control system is distinguished and admirable for providing to simulation stope, according to simulation bar Part is adjusted distinguished and admirable size；The Deep Shaft Mine in China control pressurer system for simulating goaf top plate pressure, pressure it is big Small, distribution and loading method, and be adjusted according to simulated conditions；The data information acquisition is with analysis system for adopting Collect the various data during simulated experiment, and acquired data are analyzed；Central general control system is for controlling simulation The general supply of experimental bench, the data for storing other each systems, and Conjoint Analysis is carried out to the data of each system；The methane gas Gush out control system, heating control system, ventilated control system, Deep Shaft Mine in China control pressurer system, data information acquisition and divides Analysis system is based on stope structure simulation system, and the subelement in this system is mounted on stope structure mould by each system Corresponding position in quasi- system, each system is mutually indepedent, respectively individually control, each system can isolated operation one can also start shipment Row, each system are attached with central general control system by power supply line and data line, and the power supply of each system is total by center Control system obtains, and respective obtained experimental data is transferred to central general control system by data line by each system.

Preferably, the stope structure simulation system uses U-shaped retrusive stope structure, including simulation tunnel, simulation to adopt Coal working face, simulation goaf and simulation bottom plate；The simulation tunnel is built using cement mortar material according to the likelihood ratio, Its section is the straight tunnel of rectangle；The section of the simulation coal working face is also rectangle, and vertical with simulation tunnel；It is described It simulates for simulation coal body and simulation coal working face coal wall in front of working face, rear is simulation goaf, is simulated inside working face Increase simulation working face windage for simulating the supporting of working face equipped with column；The simulation goaf with whole caving methods at Reason goaf is analog basis, and the front is adjacent with simulation working face, the left and right sides is simulation coal column；Simulation is filled inside goaf It fills out and loses coal and caving rock, the something lost coal amount and the regularity of distribution of the filling are determined according to requirement of experiment or on-site actual situations；Institute Stating caving rock is collection in worksite or to be formed using concrete for making, and partial size is gradually increased from bottom to top when filling, or according to existing Field actual conditions filling；The simulation bottom plate is located at the bottom of stope structure simulation system, simulation tunnel, simulation coal work Face, simulation goaf are respectively positioned on its top, and simulation bottom plate includes upper layer and lower layer, and upper layer is that cement mortar pours layer, and lower layer is iron Plate layer, for improving the stability and anti-pressure ability of analog platform.

Preferably, it includes methane gas source, methane gas liberation port, gas flow that the methane gas, which gushes out control system, Meter and methane gas discharge total control box；The methane gas source is the liquid gas of 95% or more concentration, is stored in gas bottle In, the gas bottle bottleneck is equipped with pressure loading valve, for controlling the outburst amount of gas in bottle and gushing out pressure, the pressure loading valve Outlet side is connect with sebific duct；The methane gas liberation port includes simulation coal wall Gas liberation port, simulation goaf gas Gush out liberation port and simulation three parts of Gas Emissions of Adjacent Layers liberation port；The simulation coal wall Gas liberation port is used for mould The Gas of quasi- coal working face coal wall, liberation port by a row in column in a manner of be embedded in simulation coal wall, adjacent two liberation port Centre distance is 5cm, and outlet side is towards simulation coal working face and equal with coal wall is simulated, and inlet end and gas bottle sebific duct join It connects；According to the length of simulation coal working face, at most it is divided into ten for coal wall Gas liberation port is simulated along simulation coal wall direction Section, the Gas liberation port in same section shares a gas supply sebific duct and the gas amount of each liberation port release is identical, different sections The gas emission of liberation port is different；The simulation goaf gas is gushed out liberation port and is gushed out for simulating goaf gas, releases Put mouth by a row in column in a manner of be embedded in simulation bottom plate, the centre distance of adjacent two liberation port is 5cm, the outlet of liberation port End is equal with simulation bottom plate, and inlet end couples with gas bottle sebific duct.According to the length in simulation goaf, along simulation coal working face Simulation goaf gas is gushed out liberation port and is at most divided into ten sections by direction of propulsion, and the Gas liberation port in same section shares one The gas amount that a gas supply sebific duct and each liberation port discharge is identical, and the gas emission of different section liberation ports is different；The simulation is adjacent Nearly layer Gas liberation port is gushed out for simulating the next layer gas to simulation goaf, liberation port by a row in column in a manner of cloth It being placed at the top of simulation goaf, the centre distance of adjacent two liberation port is 5cm, and the outlet side of liberation port is in the same plane, Inlet end is connect with gas bottle sebific duct；According to actual conditions to any grouping of each liberation port progress, with each liberation port in organizing and together The connection of one sebific duct, and the gas burst size of each liberation port is identical, and the general gas burst size of liberation port of difference group is different, each group Gas burst size can arbitrarily adjust according to the actual situation；The gas flowmeter is used for real-time monitoring gas bottle and each liberation port Gas emission, gas flowmeter is installed at the sebific duct of gas bottleneck and each Gas liberation port；The methane gas Release total control box are used to control the Gas of multifunction emulation experimental bench, including gas emission display, simulation coal wall Gas control module, simulation goaf gas gush out control module and simulation Gas Emissions of Adjacent Layers control module；It is described Gas emission display is connected with each gas flowmeter, obtain after the numerical value of each gas flowmeter by its in graph form into Row display；The simulation coal wall Gas control module includes flow control valve I and flow control platform I；The flow control Valve I is installed at the sebific duct of simulation each section of Gas liberation port of coal wall, for controlling the gas flow of each section of sebific duct；The stream Amount console I is used to set the segments of simulation coal wall Gas and the real-time gas emission of every section of simulation coal wall, stream Amount console I is connected with flow control valve I, and the real-time gas emission of every section of simulation coal wall according to setting is to flow control Valve I is controlled, to achieve the purpose that control simulation coal wall gas emission as required；The simulation real-time gas emission of coal wall is set Periodically, it is determined with coal wall exposure duration in negative exponential function relationship according to coal wall gas emission；The simulation goaf Gas control module includes flow control valve II and flow control platform II；It is mined out that the flow control valve II is installed on simulation At the sebific duct of each section of Gas liberation port in area, for controlling the gas flow of each section of sebific duct；The flow control platform II is used for The real-time gas emission of segments and every section of simulation goaf that setting simulation goaf gas is gushed out, flow control platform II Be connected with flow control valve II, and according to the real-time gas emission in every section of setting simulation goaf to flow control valve II into Row control, to achieve the purpose that control simulation Gas Outflow From Worked-out Area as required；The simulation real-time gas emission in goaf is set It periodically, is in that negative exponential function relationship is determined with coal exposure duration is lost according to Gas Outflow From Worked-out Area；The simulation is neighbouring Layer Gas control module includes flow control valve III and flow control platform III；The flow control valve III is installed on respectively At the sebific duct of group simulation Gas Emissions of Adjacent Layers liberation port, for controlling the gas flow of each group sebific duct；The flow control platform III is used to set real-time watt of the packet count and every group of simulation Gas Emissions of Adjacent Layers liberation port of simulating Gas Emissions of Adjacent Layers This outburst amount, flow control platform III are connected with flow control valve III, and every group of simulation Gas Emissions of Adjacent Layers according to setting The real-time gas emission of liberation port controls flow control valve III, to reach control simulation the next layer gas as required The purpose of outburst amount.

Preferably, the heating control system includes distinguished and admirable prewarming control system, simulation stope heating control system and something lost Oxidation of coal heating heating control system；The distinguished and admirable prewarming control system for heating mine air, including computer heating control platform I, Heating net, gas passage and gas temperature sensor；The computer heating control platform I is for setting heating net temperature and display method of Mine Ventilation Flow temperature；The heating net is woven by resistance wire, and is connected with computer heating control platform I, is arranged in gas passage, according to gas Body needs the temperature arranging multiplayer heated；The gas passage shape is hollow square prism, by clear hard plastic plate system At inlet end is connected with atmosphere, and outlet side is connected with simulation tunnel inlet side or ventilation blower；The gas temperature sensor is used for The gas temperature in gas passage after heating is measured, and will test data transfer and shown to computer heating control platform I, computer heating control Platform I is adjusted according to temperature of the surveyed gas temperature to heating net；The simulation stope heating control system includes heating control Platform II, heating sheet and temperature sensor I processed；The computer heating control platform II for control heating sheet temperature and display simulation bottom plate, Simulate coal column, simulation wall and the temperature for simulating coal wall；The heating sheet tiling is embedded in simulation bottom plate, simulation coal column, simulation In the concrete of wall and simulation coal wall, and it is connected with computer heating control platform II, for simulating stope geothermal system；Heating sheet point Parallel three layers are embedded, and the spacing of adjacent two layers is 2cm, and the temperature of each layer heating sheet individually controls；The temperature sensor I is buried In simulation bottom plate, simulation coal column, simulation wall and simulation coal face, for measuring surface temperature everywhere, and number will be measured Value is transferred to computer heating control platform II and is shown, computer heating control platform II is adjusted according to temperature of the temperature everywhere to heating sheet It is whole；The oxidization of remained coal heating heating control system is used to heat something lost coal, and the oxidation heating rate of coal is lost in control, shortens Lose spontaneous combustion period and the experimental period of coal, including computer heating control platform III, heater and temperature sensor II；The heating control Platform III processed is for controlling the temperature of heater and the maximum temperature of displays temperature sensor II；The heater is used for simulation Residual coal in goaf heating, is placed in lose and coal bottom and connect with computer heating control platform III, according to live oxidization of remained coal temperature-raising characteristic and Goaf area is simulated, heater is divided into multiple groups and is arranged, and every group of temperature is individually controlled by computer heating control platform III；Temperature Degree sensor II by a row in column in a manner of be embedded in point two layers and to lose in coal and connect with computer heating control platform III, according to heating control The maximum temperature for each temperature sensor II that platform III processed is shown is adjusted to coal heater is lost, and loses coal heating to reach control The purpose of rate.

Preferably, the ventilating system includes ventilating system console, ventilation blower, regulation wind window, air velocity transducer and wind Flow temperature sensor；The ventilating system console is used to control the air quantity of ventilation blower and shows the performance parameter and mould of ventilation blower Air quantity, wind speed, airflow temperature, distinguished and admirable dynamic pressure and static pressure in quasi- tunnel；The ventilation blower is that the axial-flow type that can be freely disassembled is led to Blower is arranged in simulation tunnel inlet side or return side, for simulating the pull-out type of mine, forced and compound ventilation；It is logical Blower is connect with ventilating system console, and wind pressure, air quantity, power, revolving speed, the efficiency parameters of ventilation blower are transferred to ventilating system control Platform processed simultaneously shows that ventilating system console is adjusted the operating condition of ventilation blower according to the performance parameter of ventilation blower；The adjusting Air regulator is made of rectangle iron plate, and one rectangular window of centre cutting, window is equipped with slideway up and down, is equipped on slideway transparent Tempered glass is slided on slideway using tempered glass and increaseds or decreases window area, is reached and is adjusted tunnel air quantity and ventilation resistance The purpose of power；In simulation tunnel inlet side respectively set with return side together with regulation wind window, while use or exclusive use；Regulation wind window It is connect with Ventilation Control platform, Ventilation Control platform carries out automatically controlling adjustment to the opening area of air regulator as needed；The wind speed Sensor is used to measure the wind speed in simulation tunnel, and obtains the air quantity in simulation tunnel, wind speed sensing according to the wind speed measured Distinguished and admirable more stable region in simulation tunnel is arranged in device, to reduce influence of the turbulent flow to anemometry；According to simulation tunnel The size of section respectively arranges that 5-10 air velocity transducer, each wind speed pass in simulation tunnel inlet side and the same section of return side Distance of the sensor away from simulation tunnel central point is different, the wind speed in each air velocity transducer measurement simulation tunnel at different location, according to The mean wind speed of certain section in simulation tunnel is calculated according to the wind speed that each air velocity transducer measures, acquires mould using mean wind speed The air quantity of quasi- tunnel section and dynamic pressure；Each air velocity transducer is connect with ventilating system console, and ventilating system console will It is inlet side and the air quantity of return side, highest wind velocity after received each air velocity transducer data processing and to simulation tunnel, minimum Wind speed, mean wind speed and dynamic pressure are shown；The airflow temperature sensor is for measuring airflow temperature in simulation tunnel, cloth The quantity and mode set are identical as air velocity transducer, and each airflow temperature sensor is connect with ventilating system console, ventage Inlet side and return side after console of uniting handles received each airflow temperature sensing data and to simulation tunnel is distinguished and admirable Maximum temperature, minimum temperature and mean temperature are shown.

Preferably, the Deep Shaft Mine in China control pressurer system includes mine pressure loading system and pressure monitor system；Institute Mine pressure loading system is stated for simulating the mechanism that mine pressure loads erecting dense individual props rock, including pressure Console, load hydraulic system, load plate, plastic grains plate and loading fixed frame；The pressure console is for controlling load The dynamic pressure loading procedure and static pressure on-load pressure size of hydraulic system；The load hydraulic system is for adding load plate It carries, simulates mine pressure, the linearity and non-linearity loading procedure of dynamic pressure is completed in the order according to pressure console and static pressure adds Load process；There are four the load hydraulic system is total, positioned at the center line of load plate, the direction of propulsion along working face is successively arranged The load size of column, each load hydraulic system individually controls；The load plate is iron plate, according to on-load pressure and live top plate The characteristics of, with a thickness of 5cm-10cm, for the pressure for loading hydraulic system to be passed to the caving rock in simulation goaf；Institute It states plastic grains plate and is put in load plate and mould for adjusting the distribution of simulation erecting dense individual props rock pressure, plastic grains plate Between quasi- erecting dense individual props rock；Plastic grains plate is made of plastic plate and plastic grains two parts, and the plastic plate is rectangle, Thickness 5cm or so is on one side plane, and another side is connect with plastic grains, plane side downward, with simulation erecting dense individual props rock Contact, side is connect with plastic grains upward, is contacted with load plate；The plastic grains include the fixation on plastic grains plate Grain and free particle；Plastic grains are circular platform type structure, and a semi-hollow half is solid, and hollow side is covered in solid side, plastic cement Between particle realize socket, by each plastic grains in plastic plate particle-surface side be socketed particle number come adjust simulation it is mined out The distribution of area's caving rock pressure；Socket plastic grains are more, and it is bigger that this puts born pressure；Adjacent two plastic grains Between socket plastic grains number difference it is more, the pressure change of adjacent point-to-point transmission is bigger；The loading fixed frame is for fixed load Hydraulic system is welded by I-steel；The pressure monitor system is used to monitor the on-load pressure size of hydraulic loading system And loading procedure, erecting dense individual props rock bear pressure size and distribution, including pressure monitoring platform and pressure sensor；Institute State on-load pressure size and change procedure, erecting dense individual props of the pressure monitoring platform for real-time recording and displaying hydraulic loading system The regularity of distribution and change procedure of rock receiving pressure；The pressure sensor is each in simulation erecting dense individual props rock for incuding Pressure value at position, pressure sensor, which divides two layers, to be embedded in simulation erecting dense individual props rock, and first layer is located at range simulation The distance of gob floor be simulate goaf height one third at, the second layer be located at range simulation gob floor away from At 2/3rds to simulate goaf height；Pressure sensor in every layer by it is equidistant, in a row in column in a manner of arrange, phase The spacing of adjacent two pressure sensors is 30cm-80cm, and pressure sensor is connect by data line with pressure monitoring platform, will be sensed Pressure real-time Transmission give pressure monitoring platform, pressure monitoring platform is handled, analyzed and is shown to data are received.

Preferably, the data information acquisition and analysis system include simulation stope gas concentration and component monitoring and analysis System, simulation goaf temperature monitoring and analysis system, simulation goaf air leaking air monitoring and analysis system, simulation goaf Inleakage monitoring and analysis system；The simulation stope gas concentration and component monitoring and analysis system include gas concentration and at Divide monitoring and analysis console and each gas concentration sensor；The gas concentration and component monitoring and analysis console for pair Monitoring system is controlled, analyzes related data and shows analysis result；Each gas concentration sensor is mined out for monitoring simulation Each gas concentration in area, simulation tunnel and simulation working face；Simulate goaf in each gas concentration sensor to be layered, in a row Mode in column arranges, simulates tunnel and simulates in working face each gas concentration sensor in the arrangement and wind of a certain section Fast sensor is identical, the position of section, number and is determined including which kind of gas sensor according to requirement of experiment；Each gas concentration passes Sensor is connect with gas concentration and component monitoring with analysis console, after monitoring will receive Data Management Analysis with analysis console It is shown；The simulation goaf temperature monitoring and analysis system lose coal, simulation goaf gas temperature and right for monitoring Temperature Distribution, changing rule are analyzed, including simulation goaf temperature monitoring and analysis console and simulation goaf temperature Sensor；The simulation goaf temperature monitoring and analysis console are used to control each temperature sensor, and to simulation goaf Temperature sensor institute measured data is shown after carrying out processing analysis；The simulation goaf temperature sensor includes losing coal temperature sensing Device and simulation goaf gas temperature sensor；The something lost coal temperature sensor loses coal temperature for measuring, and loses coal temperature sensing Device to be layered, in a row in column in a manner of be embedded in lose coal in, specific hierarchy number and lose coal sensor total number according to lose coal amount and Coal characteristic distributions are lost to be determined；The simulation goaf gas temperature sensor simulates goaf gas temperature for measuring, Simulate goaf gas temperature sensor to be layered, in a row in column in a manner of be embedded in simulation Residual coal in goaf above caving rock In, it is arranged in juxtaposition with the simulation each gas concentration sensor in goaf；Simulate goaf temperature sensor and simulation goaf temperature Monitoring is connect with analysis console, after console analyzes the processing of received simulation goaf temperature data, to simulation goaf The regularity of distribution of temperature, changing rule are shown.

Preferably, the simulation goaf air leaking air monitoring and analysis system are used to monitor each point in simulation goaf Wind speed, and processing analysis is carried out to surveyed wind speed numerical value, system includes simulation goaf air leaking air monitoring and analysis console With simulation goaf temperature-sensitive wind speed inductor；The simulation goaf air leaking air monitoring and analysis console are for controlling simulation Goaf temperature-sensitive wind speed inductor, and shown after carrying out processing analysis to simulation goaf temperature-sensitive wind speed inductor institute measured data； The simulation goaf temperature-sensitive wind speed inductor simulates goaf temperature-sensitive wind for wind speed at each measuring point in monitoring simulation goaf Fast inductor to be layered, in a row in column in a manner of be embedded in simulation Residual coal in goaf and top caving rock in, with simulate it is mined out Each temperature sensor in area is arranged in juxtaposition；Simulate goaf temperature-sensitive wind speed inductor and simulation goaf air leaking air monitoring and analysis Console connection, console analyze the processing of received simulation goaf air leaking air speed data, to simulation goaf air leaking wind speed Distribution and changing rule carry out it is aobvious not.

Preferably, simulation goaf air leaking amount monitoring and analysis system are for monitoring the goaf air leaking amount and right simulated The changing rule of simulation goaf air leaking amount is analyzed, including the monitoring of simulation goaf air leaking amount with analysis console and be used for The air velocity transducer of monitoring simulation goaf air leaking amount；The simulation goaf air leaking amount monitoring is with analysis console for controlling Monitoring simulation goaf air leaking amount air velocity transducer, to monitoring simulation goaf air leaking amount air velocity transducer institute's measured data into Row processing analysis, obtains the changing rule of simulation goaf air leaking amount and display；The wind of the monitoring simulation goaf air leaking amount Fast sensor is used to measure the wind speed in simulation working face, and five sections of selection carry out anemometry, mould in simulation working face Quasi- working face air inlet and return air inlet respectively set a measurement section, determine that three measurements are disconnected by equidistant between air inlet and return air inlet Face；According to the size of simulation working face section, 5-10 air velocity transducer, each wind speed are arranged in the simulation same section of working face Distance of the sensor away from simulation center of working face point is different, the wind in each air velocity transducer measurement simulation working face at different location Speed, the wind speed measured according to each air velocity transducer are calculated the mean wind speed of each section in simulation working face, utilize average wind Speed acquires air quantity and the dynamic pressure of simulation each section of working face；Simulation is pushed away to obtain according to the air quantity variation between each section in simulation working face The variation of goaf air leaking amount；The air velocity transducer of goaf air leaking amount is simulated in monitoring and simulation goaf air leaking amount monitors and divides Console connection is analysed, institute's measured data is carried out processing analysis by console, changing rule and simulation to simulation goaf air leaking amount The dynamic pressure of each section of working face is shown.

Preferably, the central general control system includes central control system cabinet, control power supply, data storage, number According to processor and data display equipment；The power supply that the control power supply passes through other each systems in power supply line traffic control simulating table； The data storage is for storing multifunction emulation experimental bench data；The console of each subsystem is to respective in simulating table After sensor institute measured data is handled, central control system is transferred data to by data line, central control system utilizes Data storage stores each data；The data processor is used to handle the data in data storage, obtains each number Relationship between；The data display equipment is used for the analysis result of display data processor.The control power supply, data storage Device, data processor and data display equipment are both placed in central control system cabinet.

The beneficial effects of adopting the technical scheme are that research deep-well provided by the invention causes the effect of calamity source more Lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench, the whole knot being made of simulation tunnel, simulation working face and simulation goaf Structure type is similar compared with the practical stope space structure in scene, and is provided with methane gas in a device and gushes out system, underground heat Simulation system, face-airing system and mine pressure simulation system make the simulated environment of the present apparatus and true spontaneous combustion of remaining coal ring Border is similar.Therefore, high using the spontaneous combustion in goaf process and truth degree of conformity of present apparatus simulation, research conclusion and knot Fruit is true and reliable, more being capable of science, the production of accurate Guiding Practice.In addition, simulating spontaneous combustion in goaf using the present apparatus When process, filling each system parameter centered can arbitrarily be adjusted, can make the present apparatus meet various environment and under the conditions of adopt The analog study of dead zone spontaneous combustion of remaining coal process.A large amount of data monitoring device is provided in the present apparatus, these monitoring devices can It is measured and records with the various data to simulation spontaneous combustion in goaf process, this is between theoretical each data of analysis Relationship and the rule of spontaneous combustion of remaining coal etc. provide the foundation guarantee, can analyze such as goaf high-temperature area shifting according to these data Dynamic rule, goaf " spontaneous combustion three with " distribution and with the change of the relationship of roof pressure, oxidization of remained coal temperature and goaf concentration field The problems such as relationship of change, and these problems can not be studied in current other experimental provisions, can only by numerical simulation into Row analysis.The present apparatus, which is also provided with, automatically analyzes function, can automatically analyze to institute's measured data, finally with line chart or cloud atlas Form provide analysis as a result, conventional efficient can be improved in this way and guarantee precision of analysis and objectivity, reduce real It tests the working strength of researcher and shortens experimental period.The device is easy to operate convenient for manufacturing, practical.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of stope structure simulation system provided in an embodiment of the present invention, wherein (a) is top view； (b) main view；

Fig. 2 is that methane gas provided in an embodiment of the present invention gushes out control system architecture schematic diagram；

Fig. 3 is the structural schematic diagram of distinguished and admirable prewarming control system provided in an embodiment of the present invention；

Fig. 4 is heating net structural schematic diagram provided in an embodiment of the present invention；

Fig. 5 is gas temperature sensor arrangement schematic diagram provided in an embodiment of the present invention；

Fig. 6 is the structural schematic diagram of simulation stope heating control system provided in an embodiment of the present invention, wherein based on (a) View (b) is sectional view；

Fig. 7 is the sectional view of oxidization of remained coal provided in an embodiment of the present invention heating control system；

Fig. 8 is that oxidization of remained coal provided in an embodiment of the present invention heating control system heater arranges top view；

Fig. 9 is that oxidization of remained coal provided in an embodiment of the present invention heating control system temperature sensor arranges top view；

Figure 10 is the structural schematic diagram of ventilating system provided in an embodiment of the present invention；

Figure 11 is the structural schematic diagram of regulation wind window provided in an embodiment of the present invention；

Figure 12 is the structural schematic diagram of Deep Shaft Mine in China control pressurer system provided in an embodiment of the present invention, wherein (a) is side View (b) is top view；

Figure 13 is the structural schematic diagram of plastic grains plate provided in an embodiment of the present invention, wherein (a) is top view, (b) is Side view；

Figure 14 is the structural schematic diagram of pressure monitor system provided in an embodiment of the present invention；

Figure 15 is the side view of simulation goaf gas concentration sensor arrangement provided in an embodiment of the present invention；

Figure 16 is simulation goaf temperature sensor provided in an embodiment of the present invention or the air velocity transducer arrangement that leaks out Side view；

Figure 17 is the structural schematic diagram of simulation goaf air leaking amount monitoring and analysis system provided in an embodiment of the present invention；

Figure 18 is the structural schematic diagram of central control system provided in an embodiment of the present invention；

Figure 19 is that research deep-well provided in an embodiment of the present invention causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation more The three-dimensional structure diagram of experimental bench.

Wherein, 1, simulation tunnel；2, simulation tunnel goes out air intake vent；3, coal body is simulated；4, simulate coal working face coal wall 5, Simulate wall bar；6, coal column is simulated；7, goaf is simulated；8, bottom plate is simulated；9, methane gas discharges total control box；10, Gas emission display；11, flow control platform I；12, flow control platform II；13, flow control platform III；14, data line； 15, gob floor is simulated；16, at the top of simulation goaf；17,18,19- methane gas gushes out liberation port；20, pressure loading valve； 21, methane gas flowmeter；22, methane gas steel cylinder；23, flow control valve I；24, flow control valve II；, 25, flow control Valve III；26, gas bottle sebific duct；27, computer heating control platform I；28, heating net；29, gas passage；30, gas temperature sensor； 31, ventilation blower；32, computer heating control platform II；33, heating sheet；34, temperature sensor I；35, bottom plate or simulation coal column, simulation are simulated Wall, simulation coal wall；36, computer heating control platform III；37, heater；38, temperature sensor II；39, Residual coal in goaf is simulated； 40, erecting dense individual props rock is simulated；41, ventilating system console；42, regulation wind window；43, air velocity transducer；44, airflow temperature Sensor；45, iron plate；46, tempered glass；47, pressure console；48, loading system telescoping cylinder；49, loading system stationary cylinder； 50, loading system fixing seat；51, load plate；52, plastic grains plate；53, loading fixed frame；54, pressure monitoring platform；55, pressure Sensor；56, plastic plate；57, plastic grains；58, gas concentration and component monitoring and analysis console；59, gas concentration passes Sensor；60, goaf temperature monitoring and analysis console or simulation goaf air leaking air monitoring and analysis console are simulated； 61, goaf gas temperature sensor or simulation goaf temperature-sensitive wind speed inductor are simulated；62, simulation Residual coal in goaf temperature passes Sensor or simulation goaf temperature-sensitive wind speed inductor；63, the monitoring of simulation goaf air leaking amount and analysis console；64, simulation is adopted Dead zone inleakage air velocity transducer；65, central control system cabinet；66, power supply is controlled；67, data storage；68, at data Manage device；69, data display equipment；70, power supply line；71, data line.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.Implement below Example is not intended to limit the scope of the invention for illustrating the present invention.

The present embodiment is caused under the effect of calamity source more by taking certain spontaneous combustion in goaf process as an example, using research deep-well of the invention Spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench carries out emulation experiment to it.

It is a kind of to cause the multi-functional mould that spontaneous combustion in goaf characteristic is studied under the coupling of calamity source to deep-well more Draft experiment platform, including stope structure simulation system, methane gas gush out control system, heating control system, ventilated control system, Deep Shaft Mine in China control pressurer system, data information acquisition and analysis system and central general control system；The stope structure simulation System is used to simulate the space structure of stope；The methane gas gush out control system for control stope coal wall, goaf and The Gas of adjacent layer is realized by the control to position gas emission to the various Gas situations of stope Simulation；The heating control system is for simulating stope underground heat and heating to Residual coal in goaf, and heating control system is to mould The distinguished and admirable carry out computer heating control of quasi- stope, to the simulation coal wall of simulation stope, simulation bottom plate, simulation wall and simulation coal column into Row computer heating control carries out computer heating control to the oxidation temperature-rise period of simulation Residual coal in goaf；The ventilated control system is for giving It is distinguished and admirable to simulate stope offer, distinguished and admirable size is adjusted according to simulated conditions；The Deep Shaft Mine in China control pressurer system is used for Goaf top plate pressure, size, distribution and the loading method of pressure are simulated, and is adjusted according to simulated conditions；It is described Data information acquisition and analysis system are used to acquire the various data during simulated experiment, such as gas concentration, gas temperature, wind Speed, air quantity etc.；And acquired data are analyzed, such as Gas concentration distribution rule, gas temperature changing rule；It is central total Control system is carried out for controlling the general supply of simulated experiment platform, storing the data of other each systems, and to the data of each system Conjoint Analysis, such as the variation of pressure and relationship, the relationship of heating temperature and goaf " three bands " of goaf Gas concentration distribution Deng；The methane gas gushes out control system, heating control system, ventilated control system, Deep Shaft Mine in China control pressurer system, number It is based on stope structure simulation system according to information collection and analysis system, each system pacifies the subelement in this system Corresponding position in stope structure simulation system, each system is mutually indepedent, and respectively individually control, each system can be transported individually Row can also be run together, and each system is attached with central general control system by power supply line and data line, the electricity of each system Source passes through central general control system and obtains, and respective obtained experimental data is transferred to central master control system by data line by each system System.

Stope structure simulation system is as shown in Figure 1, based on U-shaped retrusive stope structure, including simulation tunnel, simulation Coal working face, simulation goaf and simulation bottom plate.Simulation tunnel 1 is distinguished and admirable circulation passage, using cement mortar material foundation The likelihood ratio is built, and section is the straight tunnel of rectangle, distinguished and admirable to be flowed in or out by going out air intake vent 2.Simulate coal work The section in face is also rectangle, and tunnel is vertical connect with simulation, and front is simulation coal body 3, simulation coal working face coal wall 4, Rear is simulation goaf 7.It simulates and is equipped with column 5 inside working face, for simulating face timbering, increase working face windage. Using whole caving methods processing goaf as analog basis, the front is adjacent with simulation working face, controls two in the simulation goaf 7 Side is simulation coal column 6.It simulates filling inside goaf and loses coal and caving rock, the something lost coal amount and the regularity of distribution of filling are according to experiment It is required that or on-site actual situations determination.The caving rock is collection in worksite or to be formed using concrete for making, when filling under Upward partial size is gradually increased, or is filled according to on-site actual situations.Simulation bottom plate 8 is located at stope structure simulation system bottom, mould Quasi- tunnel, simulation coal working face, simulation goaf are respectively positioned on its top.Simulating bottom plate 8 includes upper layer and lower layer, and upper layer is cement Mortar pours layer, and lower layer is iron plate layer, for improving the stability and anti-pressure ability of analog platform.

Methane gas gushes out control system as shown in Fig. 2, including methane gas source, multiple methane gas liberation ports, multiple Gas flowmeter 21 and methane gas discharge total control box 9.Methane gas source is the liquid gas of 95% or more concentration, is stored in In methane gas steel cylinder 22,22 bottleneck of methane gas steel cylinder is equipped with pressure loading valve 20, for control in bottle the outburst amount of gas and Gush out pressure.20 outlet side of pressure loading valve is connect with gas bottle sebific duct 26.Multiple methane gas liberation ports are respectively to simulate coal wall Gas liberation port 17, simulation goaf gas gush out liberation port 18 and simulation Gas Emissions of Adjacent Layers liberation port 19.Simulation Coal wall Gas liberation port 17 be used for simulate coal wall exposure after Gas, liberation port by a row in column in a manner of be embedded in mould In quasi- coal wall 4, adjacent two liberation ports centre distance is 5cm, outlet side towards simulation coal working face and with simulation 4 phase of coal wall Flat, inlet end is connect with sebific duct 26.Simulation goaf gas is gushed out liberation port 18 and is gushed out for simulating goaf gas, liberation port 18 by a row in column in a manner of be embedded in goaf simulation bottom plate 15, the centre distance of adjacent two liberation port is 5cm, liberation port Outlet side and goaf simulation bottom plate 15 it is equal, inlet end is connect with gas bottle sebific duct 26.Simulation Gas Emissions of Adjacent Layers is released Mouth 19 is put to gush out for simulating the next layer gas to simulation goaf, liberation port 19 by a row in column in a manner of be arranged in simulation and adopt 16 at the top of dead zone, the centre distance of adjacent two liberation port is 5cm, and the outlet side of liberation port is in the same plane, inlet end with Gas bottle sebific duct 26 connects.According to the length in simulation goaf, goaf watt will be simulated along simulation coal working face direction of propulsion This is gushed out liberation port and is at most divided into ten sections, and the Gas liberation port in same section shares a gas supply sebific duct and each liberation port is released The gas amount put is identical, and the gas emission of different section liberation ports is different；Simulation Gas Emissions of Adjacent Layers liberation port is for simulating The next layer gas to simulation goaf gush out, liberation port by a row in column in a manner of be arranged in simulation goaf at the top of, adjacent two The centre distance of liberation port is 5cm, and the outlet side of liberation port is in the same plane, and inlet end is connect with gas bottle sebific duct；According to Any grouping is carried out to each liberation port according to actual conditions, is connect with each liberation port in organizing with same sebific duct, and each liberation port Gas burst size is identical, and the general gas burst size of liberation port of difference group is different, and the gas burst size of each group can be according to practical feelings Condition arbitrarily adjusts；Gas flowmeter 21 is installed on the sebific duct that the bottleneck of methane gas steel cylinder 22 is connected with each Gas liberation port The gas emission of methane gas steel cylinder 22 and each liberation port is stored at place for real-time monitoring.Methane gas discharges total control box 9 Including gas emission display 10, simulation coal wall Gas control module, simulation goaf gas gush out control module and Gas Emissions of Adjacent Layers control module is simulated, for controlling the Gas of simulated experiment platform.Gas emission display 10 with Each gas flowmeter 21 is connected, and shows it in graph form after obtaining the numerical value of each gas flowmeter 21.Simulate coal Wall Gas control module includes that flow control valve I23 and flow control platform I11, flow control valve I23 are installed on simulation coal At the sebific duct that the Gas liberation port 17 of wall 4 connects, for controlling the gas flow of each section of sebific duct.Flow control platform I11 with Flow control valve I23 is connected, for setting the segments of simulation coal wall Gas and the real-time gas of every section of simulation coal wall Outburst amount, and the real-time gas emission of every section of simulation coal wall according to setting controls flow control valve I23, to reach The purpose of control simulation coal wall gas emission as required.When the real-time gas emission of simulation coal wall is set, according to coal wall gas Outburst amount is determined with coal wall exposure duration in negative exponential function relationship.It includes stream that simulation goaf gas, which gushes out control module, Control valve II24, flow control platform II12, flow control valve II24 are installed on simulation each section of goaf Gas liberation port At 18 sebific duct, for controlling the gas flow of each section of sebific duct.Flow control platform II12 is connected with flow control valve II24, is used for The real-time gas emission of segments and every section of simulation goaf that setting simulation goaf gas is gushed out, and according to setting The real-time gas emission in every section of simulation goaf controls flow control valve II24, is adopted with reaching control simulation as required The purpose of dead zone gas emission.Simulating Gas Emissions of Adjacent Layers control module includes flow control valve III25, flow control platform III13.Flow control valve III25 is installed at total sebific duct of each group simulation Gas Emissions of Adjacent Layers liberation port 19, for controlling The gas flow of each group sebific duct.Flow control platform III13 is connected with flow control valve III25, for setting simulation adjacent layer watt The real-time gas emission of this packet count gushed out and every group of simulation Gas Emissions of Adjacent Layers liberation port, and simultaneously according to setting The real-time gas emission of every group of simulation Gas Emissions of Adjacent Layers liberation port controls flow control valve III25, to reach The purpose of control simulation Gas Emissions of Adjacent Layers amount as required.

Heating control system include distinguished and admirable prewarming control system, simulation stope heating control system, oxidization of remained coal heating plus Thermal control system.

Distinguished and admirable prewarming control system is for heating mine air, as shown in figure 3, including computer heating control platform I27, heating net 28, gas passage 29, gas temperature sensor 30.Computer heating control platform I27 is used to set the temperature and display mine of heating net 28 Airflow temperature；Heating net 28 is arranged in gas as shown in figure 4, woven by resistance wire, and be connected with computer heating control platform I27 In channel 29, and the temperature arranging multiplayer for needing to heat according to gas.29 shape of gas passage is hollow square prism, by saturating Bright hard plastic board is made, and inlet end is connected with atmosphere, and outlet side is connected with simulation tunnel inlet side or ventilation blower 31, ventilation blower 31 other ends are connected with simulation tunnel 1.Gas temperature sensor 30 is used to measure the gas temperature in gas passage 29 after heating, And it will test data transfer and shown that computer heating control platform I27 is according to surveyed gas temperature to heating net to computer heating control platform I27 28 temperature is adjusted.Five gas temperature sensors 30 are arranged in a section, as shown in figure 5, gas passage center Arrangement one, four walls nearby each arrangement one, and each gas temperature sensor 30 at a distance from gas passage wall not It is equal.

Stope heating control system is simulated as shown in fig. 6, including computer heating control platform II32, heating sheet 33 and temperature sensor I34.Computer heating control platform II32 is for controlling the temperature of heating sheet 33 and the temperature of displays temperature sensor I34；The heating sheet 33 tiling is embedded in simulation bottom plate 35 (or simulation coal column, simulation wall, simulation coal wall) concrete in, and with computer heating control platform II32 is connected, for simulating stope geothermal system.Heating sheet 33 divides parallel three layers embedded, and the spacing of adjacent two layers is 2cm, respectively The temperature of layer heating sheet individually controls.The temperature sensor I34 be embedded in simulation bottom plate 35 or simulation coal column, simulation wall, The surface for simulating coal wall for measuring surface temperature everywhere, and will measure data transfer and show to computer heating control platform II32, Computer heating control platform II32 is adjusted according to temperature of the temperature everywhere to heating sheet 33.

For oxidization of remained coal heating heating control system as shown in fig. 7, for heating to something lost coal, the oxidation liter of coal is lost in control Warm rate shortens the spontaneous combustion period for losing coal and experimental period, including computer heating control platform III36, heater 37, temperature sensor II38.The computer heating control platform III36 is for controlling the temperature of heater 37 and the maximum temperature of displays temperature sensor II38. The heater 37 is used to heat simulation Residual coal in goaf 39, is placed in and loses 39 bottom of coal and connect with computer heating control platform III36 It connects, divides 16 groups to be arranged according to live oxidization of remained coal temperature-raising characteristic and simulation goaf area, heater 37 as shown in Figure 8, Every group of temperature is individually controlled by computer heating control platform III36.Temperature sensor II38 as shown in Figure 9 by a row in column in a manner of Divide two layers and be embedded in something lost coal 39 and connect with computer heating control platform III36, is passed according to each temperature that computer heating control platform III36 is shown The maximum temperature of sensor II is adjusted to coal heater 37 is lost, to achieve the purpose that coal heating rate is lost in control.

Ventilating system is as shown in Figure 10, including ventilating system console 41, ventilation blower 31, regulation wind window 42, wind speed sensing Device 43 and airflow temperature sensor 44.The ventilating system console 41 is used to control the air quantity of ventilation blower 31 and shows ventilation blower Air quantity, wind speed, airflow temperature, distinguished and admirable dynamic pressure and static pressure in 31 performance parameter and simulation tunnel 1.Ventilation blower is freely to tear open The axial ventilator unloaded is arranged in simulation tunnel inlet side or return side, for simulating the pull-out type, forced and mixed of mine Box-like ventilation.Ventilation blower 31 is connect with ventilating system console 41, the wind pressure of ventilation blower 31, air quantity, power, revolving speed, efficiency ginseng Number is transferred to ventilating system console 41 and shows, ventilating system console 41 is according to the performance parameter of ventilation blower 31 to ventilation blower 31 operating condition is adjusted；Regulation wind window 42 as shown in figure 11, is made of rectangle iron plate 45, one rectangular window of centre cutting Mouthful, window is equipped with slideway up and down, and transparent toughened glass 46 is equipped on slideway, slides increasing on slideway using tempered glass 46 Add deduct wicket area, achievees the purpose that adjust simulation 1 air quantity of tunnel and ventilation resistance.It simulates the inlet side in tunnel 1, return Wind side respectively sets one of regulation wind window 42, can be used simultaneously and also can be used alone.Regulation wind window 42 is connect with Ventilation Control platform 41, is led to Wind console 41 is as needed automatically adjusted the opening area of regulation wind window 42.Air velocity transducer 43 is for measuring simulation Wind speed in tunnel 1, and the air quantity in simulation tunnel 1 is obtained according to the wind speed measured, the setting of air velocity transducer 43 is in simulation lane Distinguished and admirable more stable region in road, to reduce influence of the turbulent flow to anemometry.According to the size of simulation drift section, in mould 5-10 air velocity transducer is respectively arranged in quasi- tunnel inlet side and the same section of return side, each air velocity transducer is away from simulation tunnel The distance of heart point is different, and the wind speed in each air velocity transducer measurement simulation tunnel at different location is surveyed according to each air velocity transducer The mean wind speed of certain section in simulation tunnel is calculated in the wind speed obtained, and the wind of simulation tunnel section is acquired using mean wind speed Amount and dynamic pressure；Each air velocity transducer is connect with ventilating system console, and ventilating system console senses received each wind speed Inlet side and the air quantity of return side, highest wind velocity, minimum wind speed, mean wind speed after device data processing and to simulation tunnel and dynamic Pressure is shown.Airflow temperature sensor 44 for measure simulation tunnel 1 in airflow temperature, each airflow temperature sensor 44 with Ventilating system console 41 connect, ventilating system console 41 by after the data processing of received each airflow temperature sensor 44 simultaneously Maximum temperature, minimum temperature and the mean temperature distinguished and admirable to the inlet side and return side of simulating tunnel is shown.Wind speed sensing Device 43 and airflow temperature sensor 44 respectively arrange one group in simulation tunnel inlet side and return side, the sensor arrangement side in every group Formula is identical as the arrangement of gas temperature sensor 30 in Fig. 6.

Deep Shaft Mine in China control pressurer system is as shown in figure 12, including mine pressure loading system, pressure monitor system.

Mine pressure loading system is wrapped for simulating the mechanism that mine pressure loads erecting dense individual props rock Include pressure console 47, load hydraulic system, load plate 51, plastic grains plate 52, loading fixed frame 53.Pressure console 47 is used In the dynamic pressure loading procedure and static pressure on-load pressure size of control load hydraulic system.Loading hydraulic system includes that loading system is stretched Contracting cylinder 48, loading system stationary cylinder 49 and loading system fixing seat 50.It loads hydraulic system and passes through the big of 48 overhang of telescoping cylinder The small size to control on-load pressure, load hydraulic system is for loading load plate 51.Load hydraulic system for pair Load plate is loaded, and mine pressure is simulated, and the linearity and non-linearity that dynamic pressure is completed in the order according to pressure console loaded Journey and static pressure loading procedure.There are four load hydraulic system is total, positioned at the center line of load plate 51, along the propulsion side of working face To being arranged successively, the load size of each load hydraulic system is individually controlled.Load plate 51 is iron plate, according to on-load pressure and now The characteristics of field top plate, with a thickness of 5cm-10cm, for the pressure for loading hydraulic system to be passed to the inbreak in simulation goaf Rock.Plastic grains plate 52 is as shown in figure 13, for adjusting the distribution of simulation 40 pressure of erecting dense individual props rock, plastic cement Grain plate 52 is put between load plate 51 and simulation erecting dense individual props rock 40.Plastic grains plate 52 includes plastic plate 56 and plastic cement 57 two parts of grain.Plastic plate 56 is on one side plane with a thickness of 5cm for rectangle, and another side is connect with plastic grains 57, plane one Side downward, contacts with simulation erecting dense individual props rock 40, connect side upward with plastic grains 57, contact with load plate 51.Modeling Glue particle 57 includes fixation particle and free particle on plastic grains plate；Plastic grains 57 are circular platform type structure, a semi-hollow One semisolid, hollow side is covered can be socketed between solid side, plastic grains 57, the socket plastic cement of each plastic grains 57 Grain number can be different, by each plastic grains 57 in 56 particle-surface side of plastic plate be socketed particle number it is mined out to adjust simulation The distribution of 40 pressure of area's caving rock.Each socket of plastic grains 57 plastic grains are more, the pressure that this plastic grains is born Power is bigger；It is socketed the number of plastic grains 57 between adjacent two plastic grains 57 and differs more, the pressure that adjacent two plastic grains are born Change bigger.Loading fixed frame 53 is welded for fixing loading system telescoping cylinder 48 by I-steel.

Pressure monitor system is as shown in figure 14, for monitor hydraulic loading system on-load pressure size and loading procedure, Erecting dense individual props rock 40 bears pressure size and distribution, including pressure monitoring platform 54 and pressure sensor 55.Pressure prison On-load pressure and change procedure, erecting dense individual props rock 40 of the scaffold tower 54 for real-time recording and displaying hydraulic loading system are born The regularity of distribution and change procedure pressure sensor 55 of pressure are used to incude position in simulation erecting dense individual props rock 40 Pressure value, pressure sensor 55, which divides two layers, to be embedded in simulation erecting dense individual props rock 40, and it is mined out that first layer is located at range simulation The distance of area's bottom plate 15 is to simulate at the one third of 7 height of goaf, and the second layer is located at range simulation gob floor 15 Distance is at 2/3rds of simulation 7 height of goaf；Pressure sensor in every layer by it is equidistant, in a row in column in a manner of cloth It sets, the spacing of adjacent two pressure sensor 55 is that 30cm-80cm, pressure sensor 55 and pressure monitoring platform 54 are connected by data line It connects, by the pressure real-time Transmission sensed to pressure monitoring platform 54,54 pairs of reception data of pressure monitoring platform are handled, analyzed simultaneously Display.

Data information acquisition includes simulating stope gas concentration and component monitoring to adopt with analysis system, simulation with analysis system Dead zone temperature monitoring and analysis system, simulation goaf air leaking air monitoring and analysis system, simulation goaf air leaking amount monitoring With analysis system.

It simulates stope gas concentration and component monitoring and analysis system includes gas concentration and component monitoring and analysis and Control Platform 58 and each gas concentration sensor 59.Gas concentration and component monitoring are used to control monitoring system with analysis console 58 It makes, analyze related data and show analysis result.Each gas concentration sensor 59 is for monitoring simulation goaf 7, simulation tunnel 1 And each gas concentration in simulation working face.Simulate arrangement such as Figure 15 institute of each gas concentration sensor 59 in goaf Show, by layering, in a row in column in a manner of arrange.Each gas concentration sensor in tunnel 1 and simulation working face is simulated to break a certain The arrangement in face is identical as the arrangement of gas temperature sensor 30 in Fig. 6, the position of section, number and including which kind of gas Body sensor is determined according to requirement of experiment.Each gas concentration sensor 59 and gas concentration and component monitoring and analysis console 58 Connection, monitoring are shown after receiving Data Management Analysis with analysis console 58.

It simulates goaf temperature monitoring and analysis system is as shown in figure 16, lose coal, simulation goaf gas temperature for monitoring It spends and Temperature Distribution, changing rule is analyzed, including simulation goaf temperature monitoring is adopted with analysis console 60 and simulation Each temperature sensor in dead zone.The simulation each temperature sensor in goaf includes gas temperature sensor 61 and something lost coal temperature sensor 62.Simulation goaf temperature monitoring and analysis console 60 are used to control each temperature sensor, and to the simulation each temperature in goaf Sensor institute measured data is shown after carrying out processing analysis.Lose the temperature that coal temperature sensor 61 is used to measure simulation Residual coal in goaf 39 Degree, lose coal temperature sensor 61 to be layered, in a row in column in a manner of be embedded in and lose in coal 39, specific hierarchy number and lose coal sensor Total number is determined according to something lost coal amount and something lost coal characteristic distributions.Goaf gas temperature sensor 62 is simulated for measuring simulation Goaf gas temperature, simulation goaf gas temperature sensor 62 by be layered, in a row in column in a manner of be embedded in simulation goaf In the caving rock 40 for losing 39 top of coal, it is arranged in juxtaposition with the simulation each gas concentration sensor 59 in goaf.It is each to simulate goaf Temperature sensor is connect with simulation goaf temperature monitoring with analysis console 60, and console 60 is by received simulation goaf temperature After spending Data Management Analysis, the regularity of distribution of simulation goaf temperature, changing rule are shown.

It simulates goaf air leaking air monitoring and analysis system is as shown in figure 16, for monitoring each point in simulation goaf Wind speed, and processing analysis, including simulation goaf air leaking air monitoring and analysis console 60, mould are carried out to surveyed wind speed numerical value Quasi- goaf temperature-sensitive wind speed inductor 61-62.Goaf air leaking air monitoring and analysis console 60 are simulated for controlling simulation Goaf temperature-sensitive wind speed inductor 61-62, and processing point is carried out to simulation goaf temperature-sensitive wind speed inductor 61-62 institute measured data It is shown after analysis.Goaf temperature-sensitive wind speed inductor 61-62 is simulated for monitoring wind speed, simulation at each measuring point in simulation goaf 7 Goaf temperature-sensitive wind speed inductor 61-62 to be layered, in a row in column in a manner of be embedded in simulation Residual coal in goaf 39 and top emits It falls in rock 40, is arranged in juxtaposition with the simulation each temperature sensor in goaf.Simulate goaf temperature-sensitive wind speed inductor 61-62 and mould Quasi- goaf air leaking air monitoring is connect with analysis console 60, and console 60 is by received simulation goaf air leaking air speed data Processing analysis shows the distribution and changing rule of simulation goaf air leaking wind speed.

It is as shown in figure 17 with analysis system to simulate the monitoring of goaf air leaking amount, simulates goaf air leaking amount and right for monitoring The changing rule of simulation goaf air leaking amount is analyzed, including the monitoring of simulation goaf air leaking amount and analysis console 63 and mould Quasi- goaf air leaking amount air velocity transducer 64.The monitoring of goaf air leaking amount is simulated with analysis console 63 for controlling monitoring simulation The air velocity transducer 64 of goaf air leaking amount, at 64 measured data of air velocity transducer of monitoring simulation goaf air leaking amount Reason analysis obtains the changing rule of simulation goaf air leaking amount and display.The air velocity transducer of monitoring simulation goaf air leaking amount 64 for measuring the wind speed in simulation working face, and five sections of selection carry out anemometry in simulation working face, simulates work Face air intake vent and return air inlet respectively set a measurement section, by equidistantly determining three measurement sections between air inlet and return air inlet.Root According to simulation working face section size, simulation the same section of working face in arrange 5-10 air velocity transducer, arrangement and The arrangement of gas temperature sensor 30 is identical in Fig. 6, and distance of each air velocity transducer away from simulation center of working face point is different, Wind speed in each air velocity transducer measurement simulation working face at different location, the wind speed measured according to each air velocity transducer calculate The mean wind speed of each section in simulation working face, air quantity and the dynamic pressure of simulation each section of working face are acquired using mean wind speed； Push away to simulate the variation of goaf air leaking amount according to the air quantity variation between each section in simulation working face.Monitoring simulation goaf leakage The air velocity transducer 64 of air quantity is connect with simulation goaf air leaking amount monitoring with analysis console 63, and console 63 is by institute's measured data Processing analysis is carried out, the dynamic pressure of changing rule and simulation each section of working face to simulation goaf air leaking amount is shown.

Central general control system is as shown in figure 18, including central control system cabinet 65, control power supply 66, data storage 67, data processor 68 and data display equipment 69.It controls power supply 66 and each system of other in simulating table is controlled by power supply line 70 The power supply of system.Data storage 67 is for storing the various data measured in simulating table.Each subsystem in simulating table After console handles respective sensor institute measured data, central control system is transferred data to by data line 71, in Centre control system is stored each data using data storage 67.Data processor 68 is for handling in data storage 67 Data, obtain the relationship between each data.Data display equipment 69 is used for the analysis result of display data processor 67.Control electricity Source 66, data storage 67, data processor 68 and data display equipment 69 are both placed in central control system cabinet 65.

In the present embodiment, the research deep-well finally established causes calamity source to act on the lower multifunction imitated true experiment of spontaneous combustion of remaining coal characteristic more The integrally-built perspective view of platform is as shown in figure 19, does not provide the structures such as each monitoring sensor, console in figure.

The present embodiment is also provided causes effect lower spontaneous combustion of remaining coal characteristic in calamity source multifunction imitated more using research deep-well of the invention True experiment platform causes calamity source to act on the method that lower spontaneous combustion of remaining coal characteristic carries out emulation experiment more to deep-well, comprising the following steps:

Step 1 is first depending on experiment condition and purpose, carries out losing coal 39 to the simulation goaf 7 in simulating table Filling, the quantity for losing coal 39 are determined according to requirement of experiment；Caving rock 40 is filled above coal 39 losing.To simulation goaf 7 While carrying out filling something lost coal 39, caving rock 40, Residual coal in goaf heater 37, Residual coal in goaf temperature sensor are carried out II38, goaf gas concentration sensor 59, simulation goaf gas temperature sensor 61, simulation Residual coal in goaf temperature sensing Device 62, simulation goaf temperature-sensitive wind speed inductor 61-62, simulation goaf air leaking amount air velocity transducer 64 are laid, and with Each console connection.

Step 2, above caving rock 40, i.e., simulation goaf at the top of 16 lay methane gas gush out liberation port 19, use In simulation Gas Emissions of Adjacent Layers；Then plastic grains plate, the plastic cement on plastic grains plate are placed above caving rock 40 The laying mode of grain 57 is determined according to requirement of experiment.

Step 3 places load plate 51 above plastic grains plate, and load hydraulic system is placed above load plate 51；So Loading fixed frame 53 is placed afterwards, and is in close contact the loading system telescoping cylinder 48 loaded in hydraulic system with it.

Step 4 debugs for example each sensor of experimental part each in simulating table, console, heater etc., makes it It can work normally.

Control power supply 66 in step 5, unlatching central control system, powers on each component of simulating table；

Step 6, turn-on data acquisition and analysis system, to simulation stope gas concentration and ingredient, simulation goaf temperature, Simulation goaf air leaking wind speed, simulation goaf air leaking amount etc. are monitored and analyze；

Step 7 opens experimental bench ventilating system, carries out air feed to experimental bench；Simultaneously to the performance parameter of ventilation blower, tunnel The parameters such as interior wind speed, air quantity are observed；

Step 8 opens heating control system according to requirement of experiment, carries out control heating to distinguished and admirable, simulation stope, something lost coal, And each computer heating control platform of application carries out control and temperature monitoring to each heating device；

Step 9 opens Gas control system according to requirement of experiment, and using each console to simulation goaf gas Gush out, simulate coal wall Gas, simulation Gas Emissions of Adjacent Layers is controlled and monitored；

Step 10 carries out the load of simulation goaf using Deep Shaft Mine in China control pressurer system according to requirement of experiment, and utilizes Load console controls loading procedure, the on-load pressure size etc. of load hydraulic system；Using pressure monitoring platform to mould Pressure distribution and size in quasi- goaf are detected；

Step 11 notices whether the data storage of central control system, data processing function persistently work normally；To data The curve of display carries out theory analysis；

Step 12, according to the requirement of experiment, continuous regulation experiment condition during the experiment, as volume of air supply, gas gush Output, heating temperature etc., to obtain each factor to the affecting laws of experimentation and the interaction rule of each factor etc..

Experimental data is copied after step 13, experiment, experiment is cleared up with coal, to the biography of broken invalid Sensor is replaced, and is ready for experiment next time.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: it still may be used To modify the technical solutions described in the foregoing embodiments, or some or all of the technical features are carried out etc. With replacement；And these are modified or replaceed, defined by the claims in the present invention that it does not separate the essence of the corresponding technical solution Range.

Claims (10)

1. a kind of research deep-well causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, it is characterised in that: including Stope structure simulation system, methane gas gush out control system, heating control system, ventilated control system, Deep Shaft Mine in China pressure Control system, data information acquisition and analysis system and central general control system；The stope structure simulation system is for simulating The space structure of stope；The methane gas gushes out control system for controlling the gas of stope coal wall, goaf and adjacent layer Gush out, by the control to position gas emission, realizes the simulation to the various Gas situations of stope；The heating Control system for simulating stope underground heat and heated to Residual coal in goaf, heating control system to simulation stope it is distinguished and admirable into Row computer heating control carries out computer heating control to the simulation coal wall of simulation stope, simulation bottom plate, simulation wall and simulation coal column, right The oxidation temperature-rise period for simulating Residual coal in goaf carries out computer heating control；The ventilated control system is used to provide wind to simulation stope Stream, is adjusted distinguished and admirable size according to simulated conditions；The Deep Shaft Mine in China control pressurer system is for simulating goaf top plate Pressure, size, distribution and the loading method of pressure, and be adjusted according to simulated conditions；The data information acquisition with Analysis system is used to acquire the various data during simulated experiment, and analyzes acquired data；Central master control system The data united for controlling the general supply of simulated experiment platform, storing other each systems, and joint point is carried out to the data of each system Analysis；The methane gas gushes out control system, heating control system, ventilated control system, Deep Shaft Mine in China control pressurer system, number It is based on stope structure simulation system according to information collection and analysis system, each system pacifies the subelement in this system Corresponding position in stope structure simulation system, each system is mutually indepedent, and respectively individually control, each system can be transported individually Row can also be run together, and each system is attached with central general control system by power supply line and data line, the electricity of each system Source passes through central general control system and obtains, and respective obtained experimental data is transferred to central master control system by data line by each system System.

2. research deep-well according to claim 1 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the stope structure simulation system uses U-shaped retrusive stope structure, including simulation tunnel, simulation coal-getter Make face, simulation goaf and simulation bottom plate；The simulation tunnel is built using cement mortar material according to the likelihood ratio, is broken Face is the straight tunnel of rectangle；The section of the simulation coal working face is also rectangle, and vertical with simulation tunnel；The simulation It is simulation coal body and simulation coal working face coal wall in front of working face, rear is simulation goaf, is equipped with inside simulation working face Column increases simulation working face windage for simulating the supporting of working face；The simulation goaf is handled with whole caving methods and is adopted Dead zone is analog basis, and the front is adjacent with simulation working face, the left and right sides is simulation coal column；Filling inside goaf is simulated to lose Coal and caving rock, the something lost coal amount and the regularity of distribution of the filling are determined according to requirement of experiment or on-site actual situations；It is described to emit Falling rock is collection in worksite or to be formed using concrete for making, and partial size is gradually increased from bottom to top when filling, or according to live real The filling of border situation；The simulation bottom plate is located at the bottom of stope structure simulation system, simulation tunnel, simulation coal working face, mould Quasi- goaf is respectively positioned on its top, and simulation bottom plate includes upper layer and lower layer, and upper layer is that cement mortar pours layer, and lower layer is iron plate layer, For improving the stability and anti-pressure ability of analog platform.

3. research deep-well according to claim 2 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the methane gas gush out control system include methane gas source, methane gas liberation port, gas flowmeter and Methane gas discharges total control box；The methane gas source is the liquid gas of 95% or more concentration, is stored in gas bottle, institute Gas bottle bottleneck is stated equipped with pressure loading valve, for controlling the outburst amount of gas in bottle and gushing out pressure, the pressure loading valve outlet End is connect with sebific duct；The methane gas liberation port is gushed out including simulation coal wall Gas liberation port, simulation goaf gas Liberation port and simulation three parts of Gas Emissions of Adjacent Layers liberation port；The simulation coal wall Gas liberation port is adopted for simulating The Gas of coal working face wall, liberation port by a row in column in a manner of be embedded in simulation coal wall in, adjacent two liberation port center Distance is 5cm, and outlet side is towards simulation coal working face and equal with coal wall is simulated, and inlet end couples with gas bottle sebific duct；Root According to the length of simulation coal working face, at most it is divided into ten sections for coal wall Gas liberation port is simulated along simulation coal wall direction, together Gas liberation port in one section shares a gas supply sebific duct and the gas amount of each liberation port release is identical, different section liberation ports Gas emission it is different；The simulation goaf gas is gushed out liberation port and is gushed out for simulating goaf gas, liberation port with In a row mode in column is embedded in simulation bottom plate, and the centre distance of adjacent two liberation port is 5cm, the outlet side of liberation port and mould Quasi- bottom plate is equal, and inlet end couples with gas bottle sebific duct, according to the length in simulation goaf, along simulation coal working face propulsion side At most it is divided into ten sections to that will simulate goaf gas and gush out liberation port, the Gas liberation port in same section shares a gas supply The gas amount that sebific duct and each liberation port discharge is identical, and the gas emission of different section liberation ports is different；The simulation adjacent layer watt This gush out liberation port for simulate the next layer gas to simulation goaf gush out, liberation port by a row in column in a manner of be arranged in mould At the top of quasi- goaf, the centre distance of adjacent two liberation port is 5cm, and the outlet side of liberation port is in the same plane, inlet end It is connect with gas bottle sebific duct；Any grouping is carried out to each liberation port according to actual conditions, with each liberation port and same sebific duct in organizing Connection, and the gas burst size of each liberation port is identical, and the general gas burst size of liberation port of difference group is different, the gas of each group Burst size can be adjusted arbitrarily according to the actual situation；The gas flowmeter is for real-time monitoring gas bottle and the gas of each liberation port Outburst amount, gas flowmeter are installed at the sebific duct of gas bottleneck and each Gas liberation port；The methane gas release is total Control cabinet is used to control the Gas of multifunction emulation experimental bench, including gas emission display, simulation coal wall gas gush Control module, simulation goaf gas gush out control module and simulation Gas Emissions of Adjacent Layers control module out；The gas gushes Output display is connected with each gas flowmeter, shows it in graph form after obtaining the numerical value of each gas flowmeter Show；The simulation coal wall Gas control module includes flow control valve I and flow control platform I；The flow control valve I peace At sebific duct loaded on simulation each section of Gas liberation port of coal wall, for controlling the gas flow of each section of sebific duct；The flow control Platform I processed is used to set the segments of simulation coal wall Gas and the real-time gas emission of every section of simulation coal wall, flow control Platform I processed is connected with flow control valve I, and the real-time gas emission of every section of simulation coal wall according to setting is to flow control valve I It is controlled, to achieve the purpose that control simulation coal wall gas emission as required；Simulate the real-time gas emission setting of coal wall When, it is determined with coal wall exposure duration in negative exponential function relationship according to coal wall gas emission；The simulation goaf watt It includes flow control valve II and flow control platform II that this, which gushes out control module,；The flow control valve II is installed on simulation goaf At the sebific duct of each section of Gas liberation port, for controlling the gas flow of each section of sebific duct；The flow control platform II is for setting Cover half intends the real-time gas emission of the segments gushed out of goaf gas and every section of simulation goaf, flow control platform II with Flow control valve II is connected, and the real-time gas emission in every section of simulation goaf according to setting carries out flow control valve II Control, to achieve the purpose that control simulation Gas Outflow From Worked-out Area as required；Simulate the real-time gas emission setting in goaf When, it is determined with something lost coal exposure duration in negative exponential function relationship according to Gas Outflow From Worked-out Area；The simulation adjacent layer Gas control module includes flow control valve III and flow control platform III；The flow control valve III is installed on each group At the sebific duct for simulating Gas Emissions of Adjacent Layers liberation port, for controlling the gas flow of each group sebific duct；The flow control platform III For setting the packet count of simulation Gas Emissions of Adjacent Layers and the real-time gas of every group of simulation Gas Emissions of Adjacent Layers liberation port Outburst amount, flow control platform III are connected with flow control valve III, and every group of simulation Gas Emissions of Adjacent Layers according to setting is released The real-time gas emission for putting mouth controls flow control valve III, is gushed with reaching control simulation the next layer gas as required The purpose of output.

4. research deep-well according to claim 3 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the heating control system includes distinguished and admirable prewarming control system, simulation stope heating control system and something lost coal oxygen Change heating heating control system；The distinguished and admirable prewarming control system is for heating mine air, including computer heating control platform I, heating Net, gas passage and gas temperature sensor；The computer heating control platform I is for setting heating net temperature and display mine air temperature Degree；The heating net is woven by resistance wire, and is connected with computer heating control platform I, is arranged in gas passage, is needed according to gas The temperature arranging multiplayer to be heated；The gas passage shape is hollow square prism, is made of clear hard plastic plate, into Gas end is connected with atmosphere, and outlet side is connected with simulation tunnel inlet side or ventilation blower；The gas temperature sensor is for measuring Gas temperature in gas passage after heating, and will test data transfer and shown to computer heating control platform I, computer heating control platform I It is adjusted according to temperature of the surveyed gas temperature to heating net；The simulation stope heating control system includes computer heating control platform II, heating sheet and temperature sensor I；The computer heating control platform II is for controlling heating sheet temperature and display simulation bottom plate, simulation Coal column, simulation wall and the temperature for simulating coal wall；The heating sheet tiling is embedded in simulation bottom plate, simulation coal column, simulation tunnel In the concrete of wall and simulation coal wall, and it is connected with computer heating control platform II, for simulating stope geothermal system；Heating sheet point is parallel Three layers it is embedded, the spacing of adjacent two layers is 2cm, and the temperature of each layer heating sheet individually controls；The temperature sensor I is embedded in mould Quasi- bottom plate, simulation coal column, simulation wall and simulation coal face are passed for measuring surface temperature everywhere, and by measurement numerical value It is defeated by computer heating control platform II to be shown, computer heating control platform II is adjusted according to temperature of the temperature everywhere to heating sheet；Institute It states oxidization of remained coal heating heating control system to be used to heat something lost coal, the oxidation heating rate of coal is lost in control, shortens and loses coal Spontaneous combustion period and experimental period, including computer heating control platform III, heater and temperature sensor II；The computer heating control platform III is for controlling the temperature of heater and the maximum temperature of displays temperature sensor II；The heater is used for mined out to simulating Coal heating is lost in area, is placed in and is lost coal bottom and connect with computer heating control platform III, according to live oxidization of remained coal temperature-raising characteristic and simulation Goaf area, heater are divided into multiple groups and are arranged, and every group of temperature is individually controlled by computer heating control platform III；Temperature passes Sensor II by a row in column in a manner of be embedded in point two layers and to lose in coal and be connect with computer heating control platform III, according to computer heating control platform The maximum temperature for each temperature sensor II that III is shown is adjusted to coal heater is lost, and loses coal heating rate to reach control Purpose.

5. research deep-well according to claim 4 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the ventilating system includes ventilating system console, ventilation blower, regulation wind window, air velocity transducer and distinguished and admirable temperature Spend sensor；The ventilating system console is used to control the air quantity of ventilation blower and shows performance parameter and the simulation lane of ventilation blower Air quantity, wind speed, airflow temperature, distinguished and admirable dynamic pressure and static pressure in road；The ventilation blower is the axial ventilator that can be freely disassembled, It is arranged in simulation tunnel inlet side or return side, for simulating the pull-out type of mine, forced and compound ventilation；Ventilation blower with The connection of ventilating system console, wind pressure, air quantity, power, revolving speed, the efficiency parameters of ventilation blower are transferred to ventilating system console simultaneously It has been shown that, ventilating system console are adjusted the operating condition of ventilation blower according to the performance parameter of ventilation blower；The regulation wind window is adopted It is made of rectangle iron plate, one rectangular window of centre cutting, window is equipped with slideway up and down, transparent tempering glass is equipped on slideway Glass is slided on slideway using tempered glass and increaseds or decreases window area, and the mesh for adjusting tunnel air quantity and ventilation resistance is reached 's；In simulation tunnel inlet side respectively set with return side together with regulation wind window, while use or exclusive use；Regulation wind window and ventilation Console connection, Ventilation Control platform carry out automatically controlling adjustment to the opening area of air regulator as needed；The air velocity transducer The air quantity in simulation tunnel, air velocity transducer setting are obtained for measuring the wind speed in simulation tunnel, and according to the wind speed measured The distinguished and admirable more stable region in simulation tunnel, to reduce influence of the turbulent flow to anemometry；According to simulation drift section Size respectively arranges 5-10 air velocity transducer in simulation tunnel inlet side and the same section of return side, each air velocity transducer away from The distance for simulating tunnel central point is different, the wind speed in each air velocity transducer measurement simulation tunnel at different location, according to each wind The mean wind speed of certain section in simulation tunnel is calculated in the wind speed that fast sensor measures, and acquires simulation tunnel using mean wind speed The air quantity of certain section and dynamic pressure；Each air velocity transducer is connect with ventilating system console, and ventilating system console will be received The air quantity of inlet side and return side after each air velocity transducer data processing and to simulation tunnel, minimum wind speed, is put down at highest wind velocity Equal wind speed and dynamic pressure are shown；The airflow temperature sensor is for measuring airflow temperature in simulation tunnel, the number of arrangement Amount and mode are identical as air velocity transducer, and each airflow temperature sensor is connect with ventilating system console, ventilating system control Platform by after received each airflow temperature sensing data processing and to simulation tunnel inlet side and the distinguished and admirable highest temperature of return side Degree, minimum temperature and mean temperature are shown.

6. research deep-well according to claim 5 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the Deep Shaft Mine in China control pressurer system includes mine pressure loading system and pressure monitor system；The mine Mountain pressure-loaded system is for simulating the mechanism that mine pressure loads erecting dense individual props rock, including pressure control Platform, load hydraulic system, load plate, plastic grains plate and loading fixed frame；The pressure console is hydraulic for controlling load The dynamic pressure loading procedure and static pressure on-load pressure size of system；The load hydraulic system is for loading load plate, mould Quasi- mine pressure, the linearity and non-linearity loading procedure of dynamic pressure is completed in the order according to pressure console and static pressure loaded Journey；There are four the load hydraulic system is total, positioned at the center line of load plate, the direction of propulsion along working face is arranged successively, often The load size of a load hydraulic system individually controls；The load plate is iron plate, the spy according to on-load pressure and live top plate Point, with a thickness of 5cm-10cm, for the pressure for loading hydraulic system to be passed to the caving rock in simulation goaf；The modeling Glue particle board is used to adjust the distribution of simulation erecting dense individual props rock pressure, and plastic grains plate is put in load plate and adopts with simulation Between Caving in mined area rock；Plastic grains plate is made of plastic plate and plastic grains two parts, and the plastic plate is rectangle, thickness 5cm or so is on one side plane, and another side is connect with plastic grains, and plane side downward, connects with simulation erecting dense individual props rock Touching, side is connect with plastic grains upward, is contacted with load plate；The plastic grains include the fixation particle on plastic grains plate With free particle；Plastic grains are circular platform type structure, and a semi-hollow half is solid, and hollow side is covered in solid side, plastic cement Grain between realize socket, by each plastic grains in plastic plate particle-surface side be socketed particle number come adjust simulation goaf The distribution of caving rock pressure；Socket plastic grains are more, and it is bigger that this puts born pressure；Between adjacent two plastic grains It is socketed plastic grains number and differs more, the pressure change of adjacent point-to-point transmission is bigger；The loading fixed frame is for fixed load liquid Pressure system, is welded by I-steel；The pressure monitor system be used for monitor hydraulic loading system on-load pressure size and Loading procedure, erecting dense individual props rock bear pressure size and distribution, including pressure monitoring platform and pressure sensor；It is described Pressure monitoring platform is used for the on-load pressure size and change procedure, erecting dense individual props rock of real-time recording and displaying hydraulic loading system The regularity of distribution and change procedure of stone receiving pressure；The pressure sensor for incude simulation erecting dense individual props rock in everybody The pressure value at place is set, pressure sensor, which divides two layers, to be embedded in simulation erecting dense individual props rock, and first layer is adopted positioned at range simulation The distance of dead zone bottom plate is to simulate at the one third of goaf height, and the second layer is located at the distance of range simulation gob floor At 2/3rds of simulation goaf height；Pressure sensor in every layer by it is equidistant, in a row in column in a manner of arrange, it is adjacent The spacing of two pressure sensors is 30cm-80cm, and pressure sensor is connect with pressure monitoring platform by data line, by what is sensed Pressure real-time Transmission gives pressure monitoring platform, and pressure monitoring platform is handled, analyzed and shown to data are received.

7. research deep-well according to claim 6 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the data information acquisition and analysis system include simulation stope gas concentration and component monitoring and analysis is System, simulation goaf temperature monitoring and analysis system, simulation goaf air leaking air monitoring and analysis system, the leakage of simulation goaf Air quantity monitoring and analysis system；The simulation stope gas concentration and component monitoring and analysis system include gas concentration and ingredient Monitoring and analysis console and each gas concentration sensor；The gas concentration and component monitoring and analysis console are used for prison Examining system is controlled, analyzes related data and shows analysis result；Each gas concentration sensor for monitor simulation goaf, It simulates tunnel and simulates each gas concentration in working face；Each gas concentration sensor is in simulation goaf to be layered, be arranged as The mode of column arranges, simulates tunnel and simulates in working face each gas concentration sensor in the arrangement and wind speed of a certain section Sensor is identical, the position of section, number and is determined including which kind of gas sensor according to requirement of experiment；Each gas concentration sensing Device is connect with gas concentration and component monitoring with analysis console, and it is laggard that monitoring with analysis console will receive Data Management Analysis Row display；The simulation goaf temperature monitoring and analysis system are for monitoring something lost coal, simulation goaf gas temperature and to temperature Degree distribution, changing rule are analyzed, including simulation goaf temperature monitoring and analysis console and simulation goaf temperature pass Sensor；The simulation goaf temperature monitoring and analysis console are used to control each temperature sensor, and to simulation goaf temperature Degree sensor institute measured data is shown after carrying out processing analysis；The simulation goaf temperature sensor includes losing coal temperature sensor With simulation goaf gas temperature sensor；The something lost coal temperature sensor loses coal temperature for measuring, and loses coal temperature sensor By layering, in a row in column in a manner of be embedded in and lose in coal, specific hierarchy number and lose the total number of coal sensor according to losing coal amount and something lost Coal characteristic distributions are determined；The simulation goaf gas temperature sensor is for measuring simulation goaf gas temperature, mould Quasi- goaf gas temperature sensor to be layered, in a row in column in a manner of be embedded in caving rock above simulation Residual coal in goaf In, it is arranged in juxtaposition with the simulation each gas concentration sensor in goaf；Simulate goaf temperature sensor and simulation goaf temperature Monitoring is connect with analysis console, after console analyzes the processing of received simulation goaf temperature data, to simulation goaf The regularity of distribution of temperature, changing rule are shown.

8. research deep-well according to claim 7 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the simulation goaf air leaking air monitoring and analysis system are used to monitor the wind of each point in simulation goaf Speed, and processing analysis carried out to surveyed wind speed numerical value, system include simulation goaf air leaking air monitoring and analysis console and Simulate goaf temperature-sensitive wind speed inductor；The simulation goaf air leaking air monitoring is adopted with analysis console for controlling simulation Dead zone temperature-sensitive wind speed inductor, and shown after carrying out processing analysis to simulation goaf temperature-sensitive wind speed inductor institute measured data；Institute Simulation goaf temperature-sensitive wind speed inductor is stated for wind speed at each measuring point in monitoring simulation goaf, simulates goaf temperature-sensitive wind speed Inductor to be layered, in a row in column in a manner of be embedded in simulation Residual coal in goaf and top caving rock in, with simulation goaf Each temperature sensor is arranged in juxtaposition；It simulates goaf temperature-sensitive wind speed inductor and simulation goaf air leaking air monitoring and analysis is controlled Platform connection processed, console analyze the processing of received simulation goaf air leaking air speed data, to simulation goaf air leaking wind speed Distribution and changing rule are shown.

9. research deep-well according to claim 8 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the simulation goaf air leaking amount monitoring is with analysis system for monitoring simulation goaf air leaking amount and to simulation The changing rule of goaf air leaking amount is analyzed, including simulation goaf air leaking amount monitoring is with analysis console and for monitoring Simulate the air velocity transducer of goaf air leaking amount；The simulation goaf air leaking amount monitoring is with analysis console for controlling monitoring The air velocity transducer for simulating goaf air leaking amount, at the air velocity transducer institute measured data of monitoring simulation goaf air leaking amount Reason analysis obtains the changing rule of simulation goaf air leaking amount and display；The wind speed of the monitoring simulation goaf air leaking amount passes Sensor is used to measure the wind speed in simulation working face, and five sections of selection carry out anemometry in simulation working face, simulates work Make face air inlet and return air inlet and respectively set a measurement section, by equidistantly determining three measurement sections between air inlet and return air inlet； According to the size of simulation working face section, arrange that 5-10 air velocity transducer, each wind speed pass in the simulation same section of working face Distance of the sensor away from simulation center of working face point is different, the wind in each air velocity transducer measurement simulation working face at different location Speed, the wind speed measured according to each air velocity transducer are calculated the mean wind speed of each section in simulation working face, utilize average wind Speed acquires air quantity and the dynamic pressure of simulation each section of working face；Simulation is pushed away to obtain according to the air quantity variation between each section in simulation working face The variation of goaf air leaking amount；The air velocity transducer of goaf air leaking amount is simulated in monitoring and simulation goaf air leaking amount monitors and divides Console connection is analysed, institute's measured data is carried out processing analysis by console, changing rule and simulation to simulation goaf air leaking amount The dynamic pressure of each section of working face is shown.

10. research deep-well according to claim 9 causes calamity source to act on lower spontaneous combustion of remaining coal characteristic multifunction emulation experimental bench more, It is characterized by: the center general control system include central control system cabinet, control power supply, data storage, at data Manage device and data display equipment；The power supply that the control power supply passes through other each systems in power supply line traffic control simulating table；It is described Data storage is for storing multifunction emulation experimental bench data；The console of each subsystem is to respective sensing in simulating table After device institute measured data is handled, central control system is transferred data to by data line, central control system utilizes data Memory stores each data；The data processor is used to handle data in data storage, obtain each data it Between relationship；The data display equipment for display data processor analysis as a result, the control power supply, data storage, Data processor and data display equipment are both placed in central control system cabinet.