CN202358805U - Shaft bottom coal piling monitoring system of main shaft hoist - Google Patents

Shaft bottom coal piling monitoring system of main shaft hoist Download PDF

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Publication number
CN202358805U
CN202358805U CN2011204972574U CN201120497257U CN202358805U CN 202358805 U CN202358805 U CN 202358805U CN 2011204972574 U CN2011204972574 U CN 2011204972574U CN 201120497257 U CN201120497257 U CN 201120497257U CN 202358805 U CN202358805 U CN 202358805U
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China
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coal
shaft bottom
coal piling
piling
main hoist
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CN2011204972574U
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Chinese (zh)
Inventor
赵强
任国顺
张道福
崔成宝
匡杰
王巍
高月奎
韩建国
赵舰
贺宜标
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Jiangzhuang Coal Mine Of Zaozhuang Mining (group) Co Ltd
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Jiangzhuang Coal Mine Of Zaozhuang Mining (group) Co Ltd
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Priority to CN2011204972574U priority Critical patent/CN202358805U/en
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Publication of CN202358805U publication Critical patent/CN202358805U/en
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Abstract

The utility model discloses a shaft bottom coal piling monitoring system of a main shaft hoist. The shaft bottom coal piling monitoring system is a safety monitoring technical measure that a level instrument, a coal level relay and an air velocity transducer are utilized to monitor the shaft bottom coal piling height, the position and the shaft bottom scattering funnel blockage condition of the main shaft hoist of a coal mine in real time respectively, computing is performed through a coal piling monitoring center, and alarm and control are performed, so that twisting and lifting of a tail rope of the hoist caused by too much coal piling at the shaft bottom occurring in case of a human error or emergency condition of the main shaft hoist of the coal mine, damage of a shaft equipment facility of the main shaft hoist by pulling and damage and breakage of the tail rope of the hoist by pulling are prevented. Triple sampling of the shaft bottom coal piling height, the position and the shaft bottom scattering funnel blockage condition of the main shaft hoist are performed, and redundant processing, alarm and control are implemented respectively, so that the monitoring effectiveness under a shaft bottom severe environment of the main shaft hoist of the coal mine can be guaranteed, and the shaft bottom coal piling monitoring system is suitable for a coal mine friction type main shaft hoisting system and is also suitable for a coal mine winding type main shaft hoisting system.

Description

Main hoist shaft bottom coal piling monitored control system
Technical field
The utility model relates to a kind of colliery main shaft elevator system equipment monitoring apparatus, relates in particular to a kind of main hoist shaft bottom coal piling monitored control system.
Background technology
Well worker colliery belongs to a kind of underground mining activity; Usually on ground to underground air intake, the return air pit shaft of opening; Arrange main belt heading, exploiting field belt heading, getting working face tunnel between air intake, the return air pit shaft, form ventilation system, carry out recovery activity.Domestic and international big-and-middle-sized well worker colliery all is provided with main shaft, auxiliary shaft elevator system, and major and minor pit shaft all becomes the air intake hoistway, and the main shaft hooist system is used for promoting the useful mineral products thing that coal mine extraction next time comes.The colliery is loaded the chamber place at main hoist usually concentrated coal bunker is set; Concentrate the coal bunker coal storage to be transported on the belt transporter through feeder; Belt transporter is reprinted in the weighing hopper at coal to main hoist pit shaft loading place; Surely be reloaded in the skip bucket of main hoist, through the gig master restrict the traction skip bucket repeatedly about, the colliery underground coal is risen to ground unloading.Usually, main hoist loads suitable diff-H between weighing hopper utilization and the skip loading mouth at chamber place, the coal that will decide heavily to cross through the noncontact mode skip bucket of packing into; In the loading process, can scatter some coals usually and crash into the shaft bottom, for preventing main hoist shaft bottom coal piling; The coal that scatters runs up to a certain degree; Must utilize manual type,, be promoted to main belt heading under the coal mine through cleaning coal piling tunnel with the coal that the scatters mine car of packing into.In particular cases; Untimely because of main hoist master rope elongation adjustment, when causing diff-H between weighing hopper and the skip loading mouth to transfinite, have a large amount of coals skip bucket of can not packing in the weighing hopper; Scatter in the main hoist shaft bottom; Cause main hoist shaft bottom coal piling to increase rapidly, so that hold up the main hoist tail rope, cause main hoist pit gear facility and draw bad, gig tail rope to pull the pernicious great lifting accident of breaking.
At present; Well worker colliery, whole nation main shaft elevator system generally adopts this mode of coal piling at the bottom of the manual regular inspection well; Have very big drawback, many mines are because main hoist shaft bottom coal piling can not in time be cleared up, and perhaps burst causes main hoist shaft bottom coal piling to hold up the gig tail rope; Cause main hoist pit gear facility and draw bad, gig tail rope to pull the pernicious great lifting accident of breaking, bring very big hidden danger for the main shaft hooist system:
1, main hoist shaft bottom coal piling amount and levels of accumulation have manual work to carry out periodic inspection fully; In case hand inspection is not in place; Can cause that main hoist shaft bottom coal piling is too much; The gig tail rope holds up phenomenon, causes the gig tail rope to draw bad pit gear facility, gig tail rope serious injured even break grave accident.
2, need certain height poor between the weighing hopper at main hoist pit shaft loading place and the skip loading mouth, and gig master rope is influenced by pulling force, length is in random variation.Therefore, diff-H between weighing hopper and the skip loading mouth needs often adjustment, in case adjust untimely or diff-H changes greatly, the main hoist shaft bottom is will soon coal piling too high, causes that promoting tail rope reverses picking-up, and great lifting accident takes place.
Summary of the invention
The purpose of the utility model provide a kind of can redundant on-line monitoring main hoist shaft bottom coal piling state, effectively prevent too much to cause the main hoist shaft bottom coal piling monitored control system of lifting accident because of the shaft bottom coal piling.
For realizing above-mentioned purpose, the technical scheme that the utility model adopts is:
A kind of main hoist shaft bottom coal piling monitored control system comprises coal piling monitoring and control centre, material level gauge, coal bunker level relay, air velocity transducer, power supply, FGOT touch screen human-computer interface, drives alarm bell, drive controlling relay; It is characterized in that: the coal piling monitoring and control centre is connected with above-mentioned parts.
According to described main hoist shaft bottom coal piling monitored control system; It is characterized in that: the coal piling monitoring and control centre is made up of Programmable Logic Controller, analog quantity load module; Through receiving material level gauge, coal bunker level relay, air velocity transducer data, judge main hoist shaft bottom coal piling situation, during any one data mal; The coal piling monitoring and control centre all can be exported and drive the alarm bell warning; Break off the main hoist power supply through the drive controlling relay simultaneously, main hoist is out of service, and main hoist shaft bottom coal piling situation shows on the FGOT touch screen human-computer interface through data in real time.
According to described main hoist shaft bottom coal piling monitored control system, it is characterized in that: material level gauge is installed in elevator system bottom joist below, in real time shaft bottom coal piling height is monitored, and shaft bottom coal piling height conversion is inputed to the coal piling monitoring and control centre for the current ratio signal.
According to described main hoist shaft bottom coal piling monitored control system; It is characterized in that: coal bunker level relay is installed in the shaft bottom and spreads coal hopper below one side top end; Positive and negative rapier through setting certain altitude contacts with the shaft bottom coal piling that highly constantly changes, and converts shaft bottom coal piling position signal into on-off signal and inputs to the coal piling monitoring and control centre.
According to described main hoist shaft bottom coal piling monitored control system; It is characterized in that: air velocity transducer is installed in cleaning coal piling tunnel downside top end; Know that through the wind speed situation of change shaft bottom spreads the coal hopper stopping state, and convert wind speed into the current ratio signal and input to the coal piling monitoring and control centre.
The beneficial effect of the utility model is: accumulation holds up and promotes tail rope to main hoist shaft bottom, well worker colliery coal piling; Cause the gig tail rope to draw bad pit gear facility, pull the pernicious great lifting accident of breaking the gig tail rope; The great lifting accident that too much causes for the main hoist shaft bottom coal piling that prevents under human error or burst conditions, to occur; Designed main hoist shaft bottom coal piling monitoring technique scheme, made main hoist shaft bottom coal piling monitored control system, spread the situation of change that coal hopper stops up the back wind speed through height, coal position and the shaft bottom of monitoring main hoist shaft bottom coal piling; In case realize main hoist shaft bottom coal piling; Can send warning, control signal, stop the main hoist operation, guarantee the main shaft hooist security of system.Through sampling main hoist shaft bottom coal piling height, position, three kinds of signals of obstruction; Both realized the redundancy of main hoist shaft bottom coal piling signal; Realize the functional reliability of main hoist shaft bottom coal piling monitored control system again, eliminated the pernicious great lifting accident that main hoist shaft bottom coal piling phenomenon causes conscientiously.
The utility model both can be applicable in the main shaft friction hoisting system of colliery; Also can be applicable in the main shaft drum winding system of colliery; The gig tail rope that the main hoist shaft bottom coal piling that has prevented under human error or burst conditions and occurred too much causes holds up and reverses; The great lifting accident of drawing bad main shaft installations and facilities and gig tail rope to pull to break is a kind of security technology scheme and device to the control of main hoist shaft bottom, colliery coal piling condition monitoring.
Description of drawings
Fig. 1 is the structural representation of the utility model.
Fig. 2 is the schematic diagram of the utility model.
In the accompanying drawing: 1, main hoist friction roll; 2, main hoist track adjusting wheel; 3, elevator system collision prevention girders; 4, skip bucket I; 5, gig master rope; 6, concentrate coal bunker; 7, belt transporter; 8, load chamber; 9, weighing hopper; 10, skip bucket II; 11, gig tail rope; 12, elevator system bottom joist; 13, coal hopper is spread in the shaft bottom; 14, material level gauge; 15, coal bunker level relay; 16, air velocity transducer; 17, shaft bottom coal piling; 18, mine car; 19, winch; 20, cleaning coal piling tunnel; 21, main hoist pit shaft; 22, coal piling monitoring and control centre; 23, power supply; 24, F940GOT touch screen human-computer interface; 25, drive alarm bell; 26, drive controlling relay.
The specific embodiment
Below in conjunction with accompanying drawing and specific embodiment the utility model is described further:
The structural representation of the utility model such as Fig. 1,2; 1, a kind of main hoist shaft bottom coal piling monitored control system comprises coal piling monitoring and control centre 22, material level gauge 14, coal bunker level relay 15, air velocity transducer 16, power supply 23, F940GOT touch screen human-computer interface 24, drives alarm bell 25, drive controlling relay 26; It is characterized in that: coal piling monitoring and control centre 22 is connected with above-mentioned parts.According to described main hoist shaft bottom coal piling monitored control system; It is characterized in that: coal piling monitoring and control centre 22 is made up of Programmable Logic Controller, analog quantity load module; Through receiving material level gauge 14, coal bunker level relay 15, air velocity transducer 16 data, judge main hoist shaft bottom coal piling situation, during any one data mal; Coal piling monitoring and control centre 22 all can be exported and drive alarm bell 25 warnings; Break off the main hoist power supply through drive controlling relay 26 simultaneously, main hoist is out of service, and main hoist shaft bottom coal piling situation shows on F940GOT touch screen human-computer interface 24 through data in real time.According to described main hoist shaft bottom coal piling monitored control system; It is characterized in that: material level gauge 14 is installed in elevator system bottom joist 12 belows; In real time shaft bottom coal piling 17 is highly monitored, coal piling 17 height conversion in shaft bottom are inputed to coal piling monitoring and control centre 22 for the current ratio signal.According to described main hoist shaft bottom coal piling monitored control system; It is characterized in that: coal bunker level relay 15 is installed in the shaft bottom and spreads coal hopper 13 belows one side top end; Positive and negative rapier through setting certain altitude contacts with the shaft bottom coal piling 17 that highly constantly changes, and converts shaft bottom coal piling 17 position signals into on-off signal and inputs to coal piling monitoring and control centre 22.According to described main hoist shaft bottom coal piling monitored control system; It is characterized in that: air velocity transducer 16 is installed in cleaning coal piling tunnel 20 downside top ends; Know that through the wind speed situation of change shaft bottom spreads coal hopper 13 stopping states, and convert wind speed into the current ratio signal and input to coal piling monitoring and control centre 22.
Concrete structure function is following:
Fig. 1 is the structural representation of the utility model, and among Fig. 1,1 is the main hoist friction roll; Main hoist friction roll 1 and main shaft of hoister are for being fixedly connected; Rotation synchronously, its peripheral fixed-bearing is taken on the liner and is covered the gig master and restrict 5; Gig master 5 two ends of restricting connect skip bucket I 4 and skip bucket II 10; Main hoist friction roll 1 rotation, rely on the gig master restrict 5 with main hoist friction roll 1 liner between friction force drive skip bucket I 4 and skip bucket II 10 is up and down reciprocatingly moved, useful mineral products under the coal mine are risen to ground; 2 is the main hoist track adjusting wheel, is used for adjusting main hoist friction roll 1 both sides gig master 5 width between centerss of restricting, and forms and encloses cornerite more greatly, produces bigger friction force; 3 is the elevator system collision prevention girders, is installed in the main hoist derrick topmost, in case skip bucket I 4 or skip bucket II 10 last carrying pulleying and the 3 generation elastic impacts of elevator system collision prevention girders take place in the process, prevents the expansion of skip bucket I 4 or skip bucket II 10 overwind troubles; 4 is the skip bucket I, utilizes channel-section steel to make framework, and the external application steel plate forms certain volume, is used for storing the useful mineral products thing in shipment down-hole; 5 is gig master rope, and the friction force between dependence and main hoist friction roll 1 liner drives skip bucket I 4 and up and down reciprocatingly moves with skip bucket II 10; 6 for concentrating coal bunker, is used for storing, cushions under the coal mine to be hoisted to ground-surface coal; 7 is belt transporter, is used for concentrating the coal in the coal bunker to be transported in the weighing hopper 9 under the coal mine; 8 for loading chamber, is the tunnel that the main hoist pit shaft communicates, and is used for installing the relevant devices of loading coal to skip bucket I 4 and skip bucket II 10; 9 is weighing hopper, and self has weighting apparatus, is used for measuring a lifting capacity of skip bucket I 4 or skip bucket II 10; Send signal after reaching skip bucket I 4 or skip bucket II 10 lifting weights; Stop belt transporter 7 operations, sector gate is installed, open the back to skip bucket I 4 that puts in place or skip bucket II 10 dress carbon; 10 is the skip bucket II, and effect is with skip bucket I 4; 11 is that gig tail rope and gig master restrict and 5 basic wait heavyly, and two ends connect skip bucket I 4 and skip bucket II 10, is used for the main hoist friction roll (Tension Difference of 1 both sides that causes when balance is restricted the variation of 5 lift strokes because of the gig master; 12 is the elevator system bottom joist, is installed in the main hoist derrick bottom, in case (4 or 10 took place to put in transferring process and the 12 generation elastic impacts of elevator system bottom joist skip bucket, prevented the expansion that skip bucket 4 or 10 is crossed the accident of putting; 13 for spreading coal hopper in the shaft bottom; Weighing hopper 9 is loading in the coal process to skip bucket I 4 or skip bucket II 10; Total some coal can scatter in the main hoist pit shaft; The coal that scatters spreads coal hopper 13 through the shaft bottom and is accumulated in the chamber of clearing up 20 bottoms, coal piling tunnel, still gets in touch with the airflow channel in main hoist pit shaft 21 and cleaning coal piling tunnel 20 simultaneously; 14 is material level gauge; Select the ultrasonic material level gauge of BW17KGU5B-30 type intelligence for use, 1.5~30 meters of measurement ranges, corresponding output 4~20MA current signal; Be installed in main shaft hooist system bottom joist 12 lower ends, be used for monitoring the distance of main hoist shaft bottom coal piling 17 and gig tail rope 11; 15 is coal bunker level relay, selects the explosion-proof coal bunker level relay of KBXJX for use, and coal bunker level relay 15 is made up of the quartz conductor reverse circuit; Draw two rapiers; A rapier ground connection, an other rapier are installed in the height and position that shaft bottom coal piling 17 allows, in case rapier touches shaft bottom coal piling 17; The quartz conductor reverse circuit moves at once, exports a passive switch signal; 16 is air velocity transducer, selects GFC-15 moulded coal wind speed sensor for coal mine for use, measurement range 0.3~15M/S; Corresponding output 4~20MA current signal, main hoist pit shaft air intake spreads coal hopper 13, cleaning 20 entering exploiting fields, coal piling tunnel through the shaft bottom, forms distinguished and admirable; Accumulation along with shaft bottom coal piling 17; The distinguished and admirable area that coal hopper 13 is spread in the shaft bottom is more and more littler, in case wind speed is 0, explains that then the shaft bottom spreads coal hopper 13 and stopped up by shaft bottom coal piling 17 fully; 17 is the shaft bottom coal piling, and under the normal circumstances, weighing hopper 9 spreads coal seldom to the main hoist shaft bottom; In case because of gig master 5 length of restricting change, when causing weighing hopper 9 and skip bucket 4 or 10 loading height differences to transfinite, weighing hopper 9 just has a large amount of coals and scatters in the main hoist shaft bottom; Shaft bottom coal piling 17 can stop up the shaft bottom very soon and spread coal hopper 13; And continue to rise, so that hold up gig tail rope 11, cause great lifting accident; 18 is mine car, is used for loading and transporting shaft bottom coal piling 17; 19 is winch, climbs through rope traction mine car 18 and clears up coal piling tunnel 20; 20 are cleaning coal piling tunnel, and shaft bottom coal piling 17 transports through cleaning coal piling tunnel 20, clears up the airflow channel that coal piling tunnel 20 still is a main hoist pit shaft 21 simultaneously; 21 is the main hoist pit shaft, for skip bucket I 4 and skip bucket II 10 up and down repeatedly operation the space is provided, also doublely done the passage of air intake under the coal mine.
The colliery is loaded the chamber place at main hoist concentrated coal bunker is set; Concentrate the coal bunker coal storage to be transported on the belt transporter 7 through feeder 6; Belt transporter 7 is reprinted in the weighing hopper 9 at coal to main hoist pit shaft loading place; Surely be reloaded in the skip bucket I 4 or skip bucket II 10 of main hoist, through the gig master restrict 5 traction skip bucket I 4 and skip bucket II 10 repeatedly about, the colliery underground coal is risen to the ground unloading.Need certain height poor between the weighing hopper 9 at main hoist pit shaft loading place and skip bucket I 4 or skip bucket II 10 load port, but also can scatter some coals,, have a large amount of coal and scatter in the main hoist shaft bottom in case diff-H transfinites.The coal that scatters is accumulated to a certain degree, and shaft bottom coal piling 17 can hold up gig tail rope 11, causes main hoist pit gear facility and draws bad, gig tail rope 11 to pull the pernicious great lifting accident of breaking.Therefore; For preventing that gathering of main hoist shaft bottom coal piling 17 from holding up gig tail rope 11; Whether height through monitoring main hoist shaft bottom coal piling 17, restriction main shaft shaft bottom coal piling 17 and main shaft shaft bottom spread coal hopper 13 by data such as shaft bottom coal piling 17 obstructions at the bottom of spreading distance between the coal hopper 13, monitor well, the great lifting accident potential that has solved that gig tail rope 11 quilts that the colliery main hoist causes because of the accumulation of shaft bottom coal piling 17 are held up.
Fig. 2 is the schematic diagram of the utility model, and among Fig. 2,22 is the coal piling monitoring and control centre, is installed in the main hoist operation machine room, mainly contains FX 2N-32MT Programmable Logic Controller 16 road X input terminals, 16 road Y lead-out terminals, FX 2N-4AD four-way analog input module is formed, and accomplishes monitoring, computing and the control of shaft bottom coal piling 17 data; 14 is material level gauge, and the distance of coal piling 17 and gig tail rope 11 converts the FX that 4~20MA current signal inputs to coal piling monitoring and control centre 22 at the bottom of the monitor well 2N-4AD four-way analog input module, the height of calculating shaft bottom coal piling 17; 15 is coal bunker level relay, in case when the height of shaft bottom coal piling 17 reached desired location, coal bunker level relay 15 passive junction closures inputed to the FX of coal piling monitoring and control centre 22 2N-32MT Programmable Logic Controller X terminal; 16 is air velocity transducer, is the FX that 4~20MA current signal inputs to coal piling monitoring and control centre 22 with the wind speed size conversion of clearing up coal piling tunnel 20 2N-4AD four-way analog input module calculates the shaft bottom and spreads the degree that coal hopper 13 is stopped up by shaft bottom coal piling 17; 23 is the alternating current 220V power supply, inputs to FX 2N-32MT Programmable Logic Controller is as the needed power supply of coal piling control monitor unit; 24 is the F940GOT touch screen human-computer interface, through programming, with the FX of coal piling monitoring and control centre 22 2NThe communication of-32MT Programmable Logic Controller, the relevant data of coal piling 17 situations at the bottom of demonstration, the storage well; 25 is alarm bell, when coal piling monitoring and control centre 22 is judged as shaft bottom coal piling 17 above permissible value, and the FX of coal piling monitoring and control centre 22 2N-32MT Programmable Logic Controller drives alarm bell 25 through the Y lead-out terminal, reminds the field staff to take measures on customs clearance; 26 is control relay, and control relay 26 junction closures break off the main hoist power supply, and main hoist is out of service.
Be the great lifting accident potential that administers that gig tail rope 11 that the colliery main hoist causes because of the accumulation of shaft bottom coal piling 17 held up; Coal piling monitoring and control centre 22 spreads the data that coal hopper 13 is stopped up by shaft bottom coal piling 17 through distance, the shaft bottom that spread between the coal hopper 13 in computing shaft bottom coal piling 17 height, shaft bottom coal piling 17 and shaft bottom; Realize importing when shaft bottom coal piling 17 is accumulated to certain altitude warning, outage shutdown function, all data in real time show on man-machine interface 24.Material level gauge 14 is apart from 20 meters in main hoist shaft bottom; The accumulation height of coal piling 17 at the bottom of the real-time monitor well; When in case the accumulation of shaft bottom coal piling 17 highly reaches 2.5 meters [spreading 0.5 meter of coal hopper apart from the shaft bottom]; Coal piling monitoring and control centre 22 drives alarm bell 25 and reports to the police, and drive controlling relay 26 breaks off the main hoist power supply simultaneously, avoids shaft bottom coal piling 17 to continue accumulation; Coal bunker level relay 15 rapiers are set in apart from the shaft bottom and spread 0.5 meter, coal hopper 13 belows; When in case the accumulation of shaft bottom coal piling 17 highly reaches 2.5 meters [spreading 0.5 meter of coal hopper apart from the shaft bottom]; Coal bunker level relay 15 rapiers contact shaft bottom coal piling 17; Coal bunker level relay 15 internal semiconductor circuit rotary movements input to coal piling monitoring and control centre 22 on-off signals, and coal piling monitoring and control centre 22 drives alarm bell 25 and reports to the police; Drive controlling relay 26 breaks off the main hoist power supply simultaneously, avoids shaft bottom coal piling 17 to continue accumulation; Air velocity transducer 16 is installed in cleaning coal piling tunnel 20 downside top ends, spreads under the situation that coal hopper 13 do not stop up by shaft bottom coal piling 17 fully in the shaft bottom, and cleaning coal piling tunnel 20 normal wind speed are about 5M/S; When general shaft bottom coal piling 17 spreads 131 meters of coal hoppers apart from the shaft bottom; Cleaning coal piling tunnel 20 wind speed begin to reduce, and when coal hopper 13 was spread in the shaft bottom fully by 17 obstructions of shaft bottom coal piling, cleaning coal piling tunnel 20 wind speed were 0; When the speed of air velocity transducer 16 is reduced to 0.5M/S; Coal piling monitoring and control centre 22 drives alarm bell 25 and reports to the police, and drive controlling relay 26 breaks off the gig power supply simultaneously, avoids shaft bottom coal piling 17 to continue accumulation.The obstruction data that coal hopper 13 is spread in shaft bottom coal piling 17 height that material level gauge 14 is set, shaft bottom coal piling 17 and the shaft bottom that air velocity transducer 16 is set can have man-machine interface 24 on-line setups fully; Also can be set at and report to the police or controllable function; The shaft bottom coal piling 17 of coal bunker level relay 15 monitorings spreads coal hopper 13 distances with the shaft bottom can have on-the-spot the setting, also can be set at and report to the police or controllable function.
Embodiment recited above describes the preferred implementation of the utility model; Be not that design and protection domain to the utility model limits; Under the prerequisite that does not break away from the utility model design concept; Common engineering staff make the technical scheme of the utility model in this area various modification and improvement all should fall into the protection domain of the utility model.

Claims (5)

1. a main hoist shaft bottom coal piling monitored control system comprises coal piling monitoring and control centre (22), material level gauge (14), coal bunker level relay (15), air velocity transducer (16), power supply (23), F940GOT touch screen human-computer interface (24), drives alarm bell (25), drive controlling relay (26); It is characterized in that: coal piling monitoring and control centre (22) is connected with above-mentioned parts.
2. main hoist according to claim 1 shaft bottom coal piling monitored control system; It is characterized in that: coal piling monitoring and control centre (22) is made up of Programmable Logic Controller, analog quantity load module; Through receiving material level gauge (14), coal bunker level relay (15), air velocity transducer (16) data, judge main hoist shaft bottom coal piling situation, during any one data mal; Coal piling monitoring and control centre (22) all can be exported and drive alarm bell (25) warning; Break off the main hoist power supply through drive controlling relay (26) simultaneously, main hoist is out of service, and main hoist shaft bottom coal piling situation goes up in real time at F940GOT touch screen human-computer interface (24) through data and shows.
3. main hoist according to claim 1 shaft bottom coal piling monitored control system; It is characterized in that: material level gauge (14) is installed in elevator system bottom joist (12) below; In real time shaft bottom coal piling (17) is highly monitored, shaft bottom coal piling (17) height conversion is inputed to coal piling monitoring and control centre (22) for the current ratio signal.
4. main hoist according to claim 1 shaft bottom coal piling monitored control system; It is characterized in that: coal bunker level relay (15) is installed in the shaft bottom and spreads coal hopper (13) below one side top end; Positive and negative rapier through setting certain altitude contacts with the shaft bottom coal piling (17) that highly constantly changes, and converts shaft bottom coal piling (17) position signal into on-off signal and inputs to coal piling monitoring and control centre (22).
5. main hoist according to claim 1 shaft bottom coal piling monitored control system; It is characterized in that: air velocity transducer (16) is installed in cleaning coal piling tunnel (20) downside top end; Know that through the wind speed situation of change shaft bottom spreads coal hopper (13) stopping state, and convert wind speed into the current ratio signal and input to coal piling monitoring and control centre (22).
CN2011204972574U 2011-12-05 2011-12-05 Shaft bottom coal piling monitoring system of main shaft hoist Withdrawn - After Issue CN202358805U (en)

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Application Number Priority Date Filing Date Title
CN2011204972574U CN202358805U (en) 2011-12-05 2011-12-05 Shaft bottom coal piling monitoring system of main shaft hoist

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102398837A (en) * 2011-12-05 2012-04-04 枣庄矿业(集团)有限责任公司蒋庄煤矿 Main shaft hoist shaft bottom coal pile monitoring system
CN104627616A (en) * 2013-11-14 2015-05-20 珠海格力电器股份有限公司 Conveying device
CN105909312A (en) * 2016-04-27 2016-08-31 安徽理工大学 Personnel and coal detecting and counting system for well mouths of main and auxiliary shafts of coal mine based on various wireless communications

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102398837A (en) * 2011-12-05 2012-04-04 枣庄矿业(集团)有限责任公司蒋庄煤矿 Main shaft hoist shaft bottom coal pile monitoring system
CN102398837B (en) * 2011-12-05 2013-08-28 枣庄矿业(集团)有限责任公司蒋庄煤矿 Main shaft hoist shaft bottom coal pile monitoring system
CN104627616A (en) * 2013-11-14 2015-05-20 珠海格力电器股份有限公司 Conveying device
CN105909312A (en) * 2016-04-27 2016-08-31 安徽理工大学 Personnel and coal detecting and counting system for well mouths of main and auxiliary shafts of coal mine based on various wireless communications
CN105909312B (en) * 2016-04-27 2018-02-16 安徽理工大学 Coal master's auxiliary well head people's coal charge detection statistics system based on various wireless communication

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