CN209098350U - A kind of online desilting system of mine sump - Google Patents
A kind of online desilting system of mine sump Download PDFInfo
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- CN209098350U CN209098350U CN201821794276.1U CN201821794276U CN209098350U CN 209098350 U CN209098350 U CN 209098350U CN 201821794276 U CN201821794276 U CN 201821794276U CN 209098350 U CN209098350 U CN 209098350U
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- sump
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Abstract
The utility model discloses a kind of online desilting systems of mine sump, bring down stocks equipment including the sump of tunnel side is arranged in and is arranged in sump;The sump structure includes the channel set gradually, spoil disposal chamber, water chamber;Spoil disposal chamber bottom is equipped with collection mud sump;It is described bring down stocks equipment by coarse filtration system, sludge dewatering system, sludge drainage system, scrape mud system, control system forms.Coarse filtration system, sludge dewatering system are equipped in the channel;Spoil disposal chamber is equipped at the channel ladder, spoil disposal chamber is connected to water chamber;Sludge drainage system is equipped in the spoil disposal chamber;It is equipped in the water chamber and scrapes mud system;The coarse filtration system, sludge drainage system, scrapes mud system and is separately connected control system sludge dewatering system, is controlled by control system and realizes mechanization dredging.The utility model brings down stocks equipment by changing sump structure and increasing, and realizes in the case where sump is uninterruptedly intake, and completes mechanization dredging work.
Description
Technical field
The utility model belongs to coal mine dredging technology field, and in particular to a kind of online desilting system of mine sump.
Background technique
Down-hole sump is one of crucial structures of indispensability of all mines, and main function storage mine is gushed out
Underground water and the various waste water generated by digging production, such as atomizing de-dusting waste water, flushing waste water, cooling waste water, position
It is normally at the bottom position of mine.Due to containing a large amount of sediment in waste water, after a period of time, the sediment in sump is just
It can accumulate completely, reduce the water-holding capacity of sump, therefore, in order to ensure that mine sump has necessary water-holding capacity, improve the pre- protrusion-dispelling in mine
The ability of water needs periodically to clear up the sedimentation basin in sump.
Currently, sump cleaning mode mainly uses the methods of artificial, waterpower or machinery, the coal slime deposited in sump is direct
After hand caging (mine car), main tunnel is pulled in winch or discarded tunnel is precipitated, dried, then by the coal slime after drying
Block is transported to ground by lifting system.This clear excavation formula labor intensity of workers is big, labor efficiency is low, it is long to bring down stocks the period, peace
Whole step is lower, and dibhole digging is not thorough, and occupies sump mass efficient volume, reduces the ability of mine prevention gushing water.
Utility model content
In order to overcome the above-mentioned deficiencies of the prior art, the utility model, which provides one kind, not to stop the feelings intaking in sump
Under condition, the online desilting system of mine sump of sump dredging is realized.
The technical solution adopted in the utility model is: a kind of online desilting system of mine sump, including is arranged in tunnel one
The sump of side and it is arranged in sump and brings down stocks equipment;The sump structure includes the channel set gradually, spoil disposal chamber, water
Chamber;Spoil disposal chamber bottom is equipped with collection mud sump;It is described bring down stocks equipment by coarse filtration system, sludge dewatering system, sludge drainage system,
Scrape mud system, control system composition;Coarse filtration system, sludge dewatering system are equipped in the channel;It is equipped in the spoil disposal chamber
Sludge drainage system;It is equipped in the water chamber and scrapes mud system;The coarse filtration system, sludge drainage system, scrapes mud system at sludge dewatering system
System is separately connected control system, is controlled by control system and realizes mechanization dredging.
Further, the channel is located at sump inlet, connects tunnel and sump;Spoil disposal is equipped at the channel ladder
Chamber, spoil disposal chamber are connected to water chamber.
Further, the coarse filtration system is located at feeder connection, including set gradually grid maker, blender one, mention
Sand machine and grit water separator;The grid maker is arranged in grille well;The blender one proposes the setting of sand machine in setting pot;
Be respectively equipped with various articles collecting apparatus at the grid maker, grit water separator, mine water through coarse filtration remove the sundries wherein contained and
Biggish particulate matter is focused on after being collected using various articles collecting apparatus.
Further, the sludge dewatering system is arranged in channel close to spoil disposal chamber side;The sludge dewatering system
System includes screening machine, blender two, feeding pump and the sludge dewatering equipment set gradually;The setting of blender two is in relaying slot
It is interior;The screening machine, sludge dewatering equipment exit are provided with various articles collecting apparatus, for collecting dewatered sludge.
Further, the sludge drainage system is arranged in spoil disposal chamber;The sludge drainage system includes blender three and spoil disposal
Pump;The agitating shaft of the blender three is hollow structure, is equipped with sludge pump movable up and down in hollow structure;The spoil disposal
Pump is communicated with sewage pipe, for collection mud sump to be discharged in sludge;It is fixed with crossbeam in the middle part of the spoil disposal chamber, blender three is fixed on
On crossbeam;It is fixed with hook at the top of the spoil disposal chamber, the up and down boom hoisting of driving sludge pump is connected on hook.
Further, the mud system of scraping is located in water chamber;The mud system of scraping includes track and is placed on track
On walking dolly;Scraper plate is equipped with below the walking dolly, scraper plate is connected with Ti Pa mechanism, harrows mechanism controls scraper plate using mentioning
It moves up and down;The track is arranged on the suspension strut seat being made of load-bearing anchor pole, thrust anchor pole;The load-bearing anchor pole is fixed
On water chamber top plate, thrust anchor pole is perpendicular to load-bearing rockbolt installation on water chamber side wall.
Further, the control system and the equipment by control system control are all made of the safety standard of ExdI.
The beneficial effects of the utility model are: the utility model brings down stocks equipment by changing sump structure and increasing, pass through
Coarse filtration system intercepts sundries, scrapes mud system collection coal slime, the conveying of sludge drainage system spoil disposal, sludge dewatering system to works such as sludge dewaterings
Skill process is realized in the case where sump is uninterruptedly intake, and mechanization dredging work is completed, and realizes mine sump spoil disposal automatic
Collection efficiency, increase sump dischargeable capacity, the raising pre- protrusion-dispelling of mine for being turned into industry, and personnel's investment capable of being reduced, improve coal slime
The ability of water provides technical guarantee for underground Manless mining.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
Fig. 2 is the structural schematic diagram of sump in the utility model.
Fig. 3 is the structural schematic diagram of coarse filtration system in the utility model.
Fig. 4 is the structural schematic diagram of sludge dewatering system in the utility model.
Fig. 5 is the positive structure schematic that mud system is scraped in the utility model.
Fig. 6 is the side structure schematic diagram that mud system is scraped in the utility model.
In figure: 1, sump, 101, channel, 102, spoil disposal chamber, 103, collection mud sump, 104, water chamber, 2, coarse filtration system,
201, grid maker, 202, various articles collecting apparatus one, 203, blender one, 204, mention sand machine, 205, grit water separator, 206, sundries
Collection device two, 207, setting pot, 208, grille well, 3, sludge dewatering system, 301, screening machine, 302, blender two, 303,
Feeding pump, 304, sludge dewatering equipment, 305, various articles collecting apparatus three, 306, various articles collecting apparatus four, 307, relaying slot, 4, spoil disposal
System, 401, blender three, 402, sludge pump, 5, scrape mud system, 501, walking dolly, 502, scraper plate, 503, track, 504, hold
Weight anchor bar, 505, thrust anchor pole, 6, tunnel.
Specific embodiment
It is further to the utility model with reference to the accompanying drawing in order to be more clearly understood that the technical solution of the utility model
Explanation.
The online desilting system of a kind of mine sump as shown in Figure 1 and Figure 2, the sump 1 including 6 side of tunnel is arranged in, institute
Stating 1 structure of sump includes the channel 101 set gradually, spoil disposal chamber 102, water chamber 104;The channel 101 is located at sump 1
Inlet connects tunnel 6 and sump 1;Spoil disposal chamber 102 is equipped at 101 ladder of channel, 102 other side of spoil disposal chamber connects
Logical water chamber 104;102 bottom of spoil disposal chamber is equipped with collection mud sump 103, integrates 103 bottom of mud sump as pyramidal structure;
Be equipped in the sump 1 and bring down stocks equipment, bring down stocks equipment by coarse filtration system 2, sludge dewatering system 3, sludge drainage system 4,
Scrape mud system 5, control system composition;Coarse filtration system 2, sludge dewatering system 3 are equipped in the channel 101;The spoil disposal chamber
Sludge drainage system 4 is equipped in 102, the space of spoil disposal chamber 102 is advisable to meet installation, operate sludge drainage system 4;The water chamber
It is equipped in 104 and scrapes mud system 5;The coarse filtration system 2, sludge drainage system 4, scrapes mud system 5 and is separately connected control sludge dewatering system 3
System processed is controlled by control system and realizes mechanization dredging;The control system and by control system control equipment adopt
With the safety standard of ExdI.
The sludge drainage system 4 is arranged in spoil disposal chamber 102 comprising blender 3 401 and sludge pump 402;It is described to stir
The agitating shaft for mixing machine 3 401 is hollow structure, is equipped with sludge pump 402 movable up and down in hollow structure;The sludge pump
402 are communicated with sewage pipe, for collection mud sump 103 to be discharged in sludge;Crossbeam, blender are fixed in the middle part of the spoil disposal chamber 102
3 401 are fixed on crossbeam;It is fixed with hook at the top of the spoil disposal chamber 102, about 402 sludge pump of driving is connected on hook
Movable boom hoisting, the interior sludge collected of collection mud sump 103 are pumped to sludge dewatering system 3 under the effect of sludge pump 402, are arranged
Blender prevents deposition in collection mud sump 103.
As shown in figure 3, the coarse filtration system 2 is located at 101 inlet of channel, that is, be located at tunnel 6 and spoil disposal chamber 102 it
Between, for in water sundries and biggish particulate matter carry out interception pretreatment, the sundries after interception carry out outward transport or concentration at
Reason, the mine water after intercept process flow into sludge drainage system 4 and are handled;The coarse filtration system 2 includes the grid set gradually
Machine 201, mentions sand machine 204 and grit water separator 205 at blender 1;The grid maker 201 is located in grille well 208;It is described
Blender 1 proposes the setting of sand machine 204 in setting pot 207;It is respectively equipped at the grid maker 201, grit water separator 205
Various articles collecting apparatus;Mine water removes the sundries wherein contained through 201 coarse filtration of grid maker and larger particles, grid maker 201 are cut
The sundries stayed is focused on after being collected using various articles collecting apparatus 1, and the mine water after 201 coarse filtration of grid maker flows into heavy
In sand pond 207, the further separating sundries of grit water separator 205 are delivered to by mentioning sand machine 204, what grit water separator 205 separated
Sundries is focused on after being collected using various articles collecting apparatus 2 206, and setting blender 1 prevents 207 inner product sand of setting pot.
As shown in figure 4, the sludge dewatering system 3 is arranged in channel 101 close to 102 side of spoil disposal chamber;The dirt
Mud dewatering system 3 includes screening machine 301, blender 2 302, feeding pump 303 and the sludge dewatering equipment 304 set gradually;It is described
The setting of blender 2 302 is in relaying slot 307;The screening machine 301,304 exit of sludge dewatering equipment are provided with sundries receipts
Acquisition means, for collecting dewatered sludge;The sludge conveyed through sludge drainage system 4 is sieved first with screening machine 301, oversize
Into in relaying slot 307, it is pumped to sludge dewatering equipment 304 under the effect of feeding pump 303, is collected after sludge dewatering to refuse collecting
It is focused on after device 4 306.
As shown in Figure 5, Figure 6, the walking dolly 501 for scraping mud system 5 and including track 503 and being placed on track 503,
Walking dolly 501 can be moved along track 503;Scraper plate 502, scraper plate 502 and Ti Pa mechanism phase are equipped with below the walking dolly 501
Connect, is moved up and down using rake mechanism controls scraper plate 502 is mentioned;The track 503 is arranged by load-bearing anchor pole 504, thrust anchor pole 505
On the suspension strut seat of composition;The load-bearing anchor pole 504 is fixed on 104 top plate of water chamber, and thrust anchor pole 505 is perpendicular to holding
Weight anchor bar is mounted on 104 side wall of water chamber;Walking dolly 501 can be moved along track 503, be further driven to the shifting of scraper plate 502
It is dynamic, sludge is collected to collection mud sump 103 using scraper plate 502.
Working principle: before mine water enters water chamber 104, first pass through coarse filtration system 2 remove water in sundries and compared with
Big particulate matter flows into water chamber 104 through coarse filtration treated mine water and carries out precipitating clarification;Mine water after precipitating clarification
It is stored in water chamber 104, when reaching draining liquid level, is discharged by draining pump;
It is deposited in the coal slime of 104 bottom of water chamber, mud system 5 is scraped and scraped to collection mud sump 103, when coal in collection mud sump 103
When mud product is full, start sludge drainage system 4, the coal slime collected in mud sump 103 is delivered to sludge dewatering system 3 by sludge drainage system 4;
After sludge dewatering system 3 is dehydrated coal slime, coal slime is transported outward after being collected in collection various articles collecting apparatus, and sludge is de-
The filtrate of water system 3 is arranged to water chamber 104.
The utility model brings down stocks equipment by changing sump structure and increasing, and intercepts sundries by coarse filtration system, scrapes mud system
System collects coal slime, the conveying of sludge drainage system spoil disposal, sludge dewatering system to process flows such as sludge dewaterings, realizes uninterrupted in sump
In the case where water inlet, mechanization dredging work is completed, so that mine sump spoil disposal is realized automated job, and personnel's throwing can be reduced
The ability for entering, improving the collection efficiency of coal slime, increase sump dischargeable capacity, improve mine prevention gushing water, is underground Manless mining
Provide technical guarantee.
The above description is only a preferred embodiment of the present invention, therefore all according to described in the utility model patent application range
The equivalent change or modification done of structure, feature and principle, be included in the scope of the utility model patent application.
Claims (7)
1. a kind of online desilting system of mine sump, it is characterised in that: in the sump (1) of tunnel (6) side and set including setting
It sets and brings down stocks equipment in sump (1);Sump (1) structure include the channel (101) set gradually, spoil disposal chamber (102),
Water chamber (104);Spoil disposal chamber (102) bottom is equipped with collection mud sump (103);It is described bring down stocks equipment by coarse filtration system (2),
Sludge dewatering system (3), sludge drainage system (4) scrape mud system (5), control system composition;Coarse filtration is equipped in the channel (101)
System (2), sludge dewatering system (3);Sludge drainage system (4) are equipped in the spoil disposal chamber (102);The water chamber (104)
Interior be equipped with scrapes mud system (5);The coarse filtration system (2), sludge drainage system (4), scrapes mud system (5) respectively at sludge dewatering system (3)
Control system is connected, is controlled by control system and realizes mechanization dredging.
2. the online desilting system of mine sump according to claim 1, it is characterised in that: the channel (101) is located at water
Storehouse (1) inlet connects tunnel (6) and sump (1);Spoil disposal chamber (102) are equipped at channel (101) ladder, spoil disposal cave
Room (102) is connected to water chamber (104).
3. the online desilting system of mine sump according to claim 1, it is characterised in that: the coarse filtration system (2) is located at
Channel (101) inlet, including set gradually grid maker (201), blender one (203), propose sand machine (204) and girt-water separation
Device (205);Grid maker (201) setting is in grille well (208);The blender one (203) proposes sand machine (204) setting
In setting pot (207);The grid maker (201), grit water separator are respectively equipped with various articles collecting apparatus at (205).
4. the online desilting system of mine sump according to claim 1, it is characterised in that: the sludge dewatering system (3)
It is arranged in channel (101) close to spoil disposal chamber (102) side;The sludge dewatering system (3) includes the screening set gradually
Machine (301), blender two (302), feeding pump (303) and sludge dewatering equipment (304);The blender two (302) is arranged in
After in slot (307);The screening machine (301), sludge dewatering equipment (304) exit are provided with various articles collecting apparatus.
5. the online desilting system of mine sump according to claim 1, it is characterised in that: sludge drainage system (4) setting
In spoil disposal chamber (102);The sludge drainage system (4) includes blender three (401) and sludge pump (402);The blender three
(401) agitating shaft is hollow structure, is equipped with sludge pump movable up and down (402) in hollow structure;The sludge pump
(402) it is communicated with sewage pipe, for collection mud sump (103) to be discharged in sludge;It is fixed with crossbeam in the middle part of the spoil disposal chamber (102),
Blender three (401) is fixed on crossbeam;It is fixed with hook at the top of the spoil disposal chamber (102), driving row is connected on hook
The up and down boom hoisting of dredge pump (402).
6. the online desilting system of mine sump according to claim 1, it is characterised in that: the mud system (5) of scraping is located at
In water chamber (104);The walking dolly for scraping mud system (5) and including track (503) and being placed on track (503)
(501);Scraper plate (502) are equipped with below the walking dolly (501), scraper plate (502) is connected with Ti Pa mechanism, utilizes Ti Pa mechanism
Control scraper plate (502) moves up and down;Track (503) setting is formed by load-bearing anchor pole (504), thrust anchor pole (505)
On suspension strut seat;The load-bearing anchor pole (504) is fixed on water chamber (104) top plate, and thrust anchor pole (505) is perpendicular to holding
Weight anchor bar is mounted on water chamber (104) side wall.
7. the online desilting system of mine sump according to claim 1, it is characterised in that: the control system and by controlling
The equipment of system control processed is all made of the safety standard of ExdI.
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CN201821794276.1U CN209098350U (en) | 2018-11-01 | 2018-11-01 | A kind of online desilting system of mine sump |
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CN201821794276.1U CN209098350U (en) | 2018-11-01 | 2018-11-01 | A kind of online desilting system of mine sump |
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Cited By (1)
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CN109231526A (en) * | 2018-11-01 | 2019-01-18 | 山西拓普沃特工程技术有限公司 | A kind of online desilting system of mine sump |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109231526A (en) * | 2018-11-01 | 2019-01-18 | 山西拓普沃特工程技术有限公司 | A kind of online desilting system of mine sump |
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