Utility model content
The purpose of the utility model is to provide a kind of deep shaft rock rippers, pass through the synchronous work of setting two-stage driving system
Make, improves excavating depth, further increase the degree of automation and working efficiency.
In order to solve the above technical problems, the utility model provides a kind of deep shaft rock ripper, including it is set to ground
On derrick and equipment platform located underground, be disposed with level-one below the equipment platform and turn slag system, second level driving
System, second level slag-tapping system, level-one slag-tapping system and level-one driving system, the level-one driving system is for extending vertical shaft depth
The level-one driving system is excavated and is produced for extending shaft width, the level-one slag-tapping system by degree, the second level driving system
Raw rock slag is delivered to the level-one and turns slag system, and the second level driving system is excavated the rock generated by the second level slag-tapping system
Slag is delivered to the level-one and turns slag system, and the level-one turns slag system for rock slag to be discharged.
Preferably, the level-one driving system includes being set to bottom end and level-one cutterhead downward, for driving
State the level-one driving of level-one cutterhead excavation, the level-one propelling cylinder for driving the level-one cutterhead to move down and for stretching
The level-one support boots and level-one of shaft wall support boots oil cylinder;
The second level driving system includes being obliquely installed the second level cutterhead in side, for driving the second level cutterhead to excavate
Secondary drive, the second level propelling cylinder for driving the second level cutterhead to move down and the second level for stretching shaft wall
It supports boots and second level supports boots oil cylinder;
The second level driving system, the second level slag-tapping system, the level-one slag-tapping system and the level-one driving system
By the girder connection through setting, the hinged oil for compensating two-stage a rate of advance is provided with above the level-one driving system
Cylinder.
Preferably, the level-one slag-tapping system includes the rock slag and mud generated for drawing the working face of the level-one cutterhead
The slush pump of slurry and mud and water separating equipment for separating rock slag and mud, the mud and water separating equipment are defeated by the rock slag isolated
It send to the level-one and turns slag system, and the mud at separation is back to working face;
The second level slag-tapping system includes the transloading equipment of slagging tap that well-bucket moves up and down of slagging tap described in well-bucket and driving of slagging tap,
The rock slag collection that the working face of the second level cutterhead generates is transported to the level-one and turns slag system by the transloading equipment of slagging tap.
Preferably, it includes that level-one turns slag well-bucket, for driving the level-one to turn slag well-bucket or more that the level-one, which turns slag system,
Mobile level-one handling appliance, the level-one slag storehouse for keeping in rock slag and one for turning that slag well-bucket is put into rock slag to the level-one
Grade slag dumping mechanism.
Preferably, second level being additionally provided with above the equipment platform and turning slag system, it includes second level that the second level, which turns slag system,
Turn slag well-bucket, for driving the second level to turn the second level handling appliance, the second level slag for keeping in rock slag that slag well-bucket moves up and down
Storehouse and for turning the second level slag dumping mechanism that slag well-bucket is put into rock slag to the second level.
Preferably, auxiliary safeguards system is provided with below equipment platform, the auxiliary safeguards system includes electric power facility, moves
Power supplies facility, control facility, dust removal by ventilation facility and water flowing facility.
Preferably, the level-one turns to be provided with borehole wall temporary support system between slag system and the second level driving system,
The borehole wall temporary support system includes jumbolter and concrete spraying equipment.
Preferably, it is provided with below the equipment platform for the casting system to borehole wall casting concrete.
Preferably, the casting system includes the tightening mechanism for the stretching borehole wall and the casting machine for casting concrete
Structure.
Preferably, the tightening mechanism includes that the first support boots and second setting up and down support boots and for the first of driving
Stretching oil cylinder and the second stretching oil cylinder, be provided between the first support boots and the second support boots vertical direction it is flexible change step
Oil cylinder.
The utility model provides a kind of deep shaft rock ripper, the derrick including being set on ground and located underground
Equipment platform is disposed with level-one below equipment platform and turns slag system, second level driving system, second level slag-tapping system, level-one
Slag system and level-one driving system, for level-one driving system for extending shaft depths, second level driving system is wide for extending vertical shaft
The rock slag that level-one driving system excavates generation is delivered to level-one and turns slag system by degree, level-one slag-tapping system, and second level slag-tapping system will
The rock slag that second level driving system excavates generation is delivered to level-one and turns slag system, and level-one turns slag system for rock slag to be discharged.Pass through
Two-stage driving system is arranged to work asynchronously, while extending the depth and width of vertical shaft, stagewise excavation effectively improves excavating depth,
By slag-tapping system and turn slag system, excavation is completed at the same time deslagging operation, further increases the degree of automation and working efficiency.
Specific embodiment
The core of the utility model is to provide a kind of deep shaft rock ripper, passes through the synchronous work of setting two-stage driving system
Make, improves excavating depth, further increase the degree of automation and working efficiency.
In order to make those skilled in the art better understand the scheme of the utility model, with reference to the accompanying drawing and specific implementation
The utility model is described in further detail for mode.
Fig. 1 to Fig. 8 is please referred to, Fig. 1 is a kind of specific implementation of deep shaft rock ripper provided by the utility model
The general structure schematic diagram of mode;Fig. 2 is a kind of specific embodiment party of deep shaft rock ripper provided by the utility model
The structural schematic diagram of level-one driving system in formula;Fig. 3 is a kind of tool of deep shaft rock ripper provided by the utility model
The structural schematic diagram of second level driving system in body embodiment;Fig. 4 is deep shaft rock ripper provided by the utility model
A kind of specific embodiment in level-one turn the structural schematic diagram of slag system;Fig. 5 is deep shaft rock provided by the utility model
Level-one turns the overhead sectional view of slag system in a kind of specific embodiment of stone development machine;Fig. 6 is provided by the utility model
Second level turns the structural schematic diagram of slag system in a kind of specific embodiment of deep shaft rock ripper;Fig. 7 is the utility model
Second level turns the overhead sectional view of slag system in a kind of specific embodiment of provided deep shaft rock ripper;Fig. 8 is this
The structural schematic diagram of casting system in a kind of specific embodiment of deep shaft rock ripper provided by utility model.
Specific embodiment of the present invention provides a kind of deep shaft rock ripper, including the derrick being set on ground
11 and equipment platform 7 located underground, level-one, which is disposed with, below equipment platform 7 turns slag system 6, second level driving system 4, two
Grade slag-tapping system 3, level-one slag-tapping system 2 and level-one driving system 1, level-one driving system 1 is for extending shaft depths, second level pick
Level-one driving system 1 is excavated into the rock slag generated and is delivered to level-one for extending shaft width, level-one slag-tapping system 2 into system 4
Turn slag system 6, the rock slag that second level driving system 4 excavates generation is delivered to level-one and turns slag system 6, level-one by second level slag-tapping system 3
Turn slag system 6 for rock slag to be discharged.It is worked asynchronously by setting two-stage driving system, while extending the depth and width of vertical shaft
Degree, stagewise excavation effectively improve excavating depth, by slag-tapping system and turn slag system, and excavation is completed at the same time deslagging operation, into
One step improves the degree of automation and working efficiency.
Specifically, level-one driving system 1 includes being set to bottom end and level-one cutterhead 101 downward, for driving one
The level-one that grade cutterhead 101 excavates drives 103, the level-one propelling cylinder 104 for driving level-one cutterhead 101 to move down and is used for
The level-one support boots 106 and level-one of stretching shaft wall support boots oil cylinder 105;It further include level-one shield 102, the stretching borehole wall reduces one
Grade drives the vibration generated when 103, level-one cutterhead 101 driving and protects internal structure.
Level-one excacation process is that horizontally disposed level-one supports the stretching of boots oil cylinder 105, and stretching level-one support boots 106 act on
The borehole wall generates the impetus of level-one propelling cylinder 104, and the level-one propelling cylinder 104 being vertically arranged stretches out, and pushes level-one driving
103 push level-one cutterhead 101 to move down in turn, while level-one driving 103 provides power for level-one cutterhead 101, generates and tunnels
Movement, the tunneling direction of the extension and contraction control level-one cutterhead 101 by controlling level-one propelling cylinder 104,103 driving one of level-one driving
Grade cutterhead 101 carries out vertical shaft level-one excavation, predominantly extends the depth of vertical shaft.After level-one propelling cylinder 104 is advancing to the position, level-one
It supports boots oil cylinder 105 to retract, level-one support boots 106 is driven to leave the borehole wall, level-one propelling cylinder 104, which retracts, to be resetted.
Second level driving system 4 includes being obliquely installed the second level cutterhead 401 in side, for driving second level cutterhead 401 to excavate
Secondary drive 402, the second level propelling cylinder 405 for driving second level cutterhead 401 to move down and be used for stretching shaft wall
Second level support boots 406 and second level support boots oil cylinder 407;It further include second level shield 403, the stretching borehole wall reduces secondary drive 402, two
The vibration that grade cutterhead 401 generates when tunneling, while can use shield and carrying out reinforcing bar quick supporting.Second level driving system 4, second level
Slag-tapping system 3, level-one slag-tapping system 2 and level-one driving system 1 pass through the connection of girder 404 through setting, level-one driving system 1
Top is provided with the hinged oil cylinder 107 for compensating two-stage a rate of advance.
It is that horizontally disposed second level supports the stretching of boots oil cylinder 407 that second level, which excavates implementation process, and stretching second level support boots 406 act on
The borehole wall, generates the impetus of second level propelling cylinder 405, and second level propelling cylinder 405 pushes girder 404 and then pushes second level cutterhead
401 generate driving movement, and the tunneling direction of the extension and contraction control second level cutterhead 401 of boots oil cylinder 407 is supportted by control second level, and second level is driven
Dynamic 402 driving second level cutterhead 401 carries out vertical shaft second level excavation, predominantly extends the width of vertical shaft.Second level propelling cylinder 405 promotes
After in place, second level supports boots oil cylinder 407 and retracts, and drives second level support boots 406 to leave the borehole wall, promotes two-level oil cylinder 405 to retract and reset.Pick
Into in the process, level-one is excavated and second level is excavated while being carried out, and realizes a rate of advance compensation matching by hinged oil cylinder 107.This is
System can not be influenced by factors such as depth, tried hard to keep with powerful broken rock power and driving and demonstrate,proved driving speed and the driving side of equipment
To.
Wherein, level-one cutterhead 101 is taper cutterhead, and second level cutterhead 401 is annular cutterhead, and second level cutterhead 401 also has
Mobile taper, and the width of second level cutterhead 401 is greater than the width of level-one cutterhead 101, and since the upper and lower position of the two is closed
System, level-one cutterhead 101 can excavate out a thinner hole in advance, and the subsequent excavation of second level cutterhead 401 extends this thinner hole
For a thicker hole.Level-one driving 103 and secondary drive 402 can be driving motor or hydraulic drive motor etc., at this
Within the protection scope of utility model.
The rock slag generated in mining process needs discharge in time, and level-one slag-tapping system 2 includes for drawing level-one cutterhead 101
The slush pump of rock slag and mud that generates of working face and mud and water separating equipment for separating rock slag and mud, mud-water separation set
Turn slag system for the rock slag isolated is delivered to level-one, and the mud at separation is back to working face, is additionally provided with plasma discharge
The auxiliary pipings such as pipeline and overfall pipeline.Second level slag-tapping system 3 includes slagging tap well-bucket and what driving slagged tap that well-bucket moves up and down goes out
The rock slag collection that the working face of second level cutterhead 401 generates is transported to level-one and turns slag system by slag transloading equipment, transloading equipment of slagging tap.
Transloading equipment of slagging tap includes slag storehouse, slag dumping mechanism and well-bucket handling appliance.
It includes that level-one turns slag well-bucket 601, one for driving that level-one turns that slag well-bucket 601 moves up and down that level-one, which turns slag system 6,
Grade handling appliance 604, the level-one slag storehouse 602 for keeping in rock slag and for turning the level-one that slag well-bucket 601 is put into rock slag to level-one
Slag dumping mechanism 605, above equipment are installed in system by level-one platform 603, and level-one platform 603 has stable support function.
It is additionally provided with second level above equipment platform 7 and turns slag system 10, it includes that second level turns slag well-bucket that second level, which turns slag system 10,
1001, for driving second level to turn the second level handling appliance 1004, the second level slag for keeping in rock slag that slag well-bucket 1001 moves up and down
Storehouse 1002 and for turning the second level slag dumping mechanism 1005 that slag well-bucket 1001 is put into rock slag to second level, above equipment passes through second level platform
1003 are installed in system, and second level platform 1003 has stable support function.
It slags tap and turns the slag system course of work are as follows: the rock slag under level-one cutterhead 101 is cut passes through setting in level-one cutterhead 101
Plasma discharge pipeline send to mud and water separating equipment and is separated through slush pump, plasma discharge pipeline, and the rock slag after separation drains into level-one and turns slag system
The level-one slag storehouse 602 of system 6, mud then pass through overfall pipeline and are back to working face, recycled, and realize level-one driving system
Slag tap.Rock slag under the cutting of second level cutterhead 401 enters the slag storehouse of second level slag-tapping system 3, after well-bucket of slagging tap is in place, opens slag dumping
Rock slag in the slag storehouse of second level slag-tapping system 3 is discharged into well-bucket of slagging tap, will be slagged tap in well-bucket by well-bucket lifting system by mechanism
Rock slag is discharged into the level-one slag storehouse 602 that level-one turns slag system 6.
The rock slag being discharged into level-one slag storehouse 602 is discharged into level-one well-bucket 601 by level-one slag dumping mechanism 605, passes through level-one
Rock slag is transported vertical shaft by handling appliance 604.But shaken in order to prevent since the wirerope of lifting system is too long, perpendicular
Setting second level turns slag system 10 in the middle part of well, and rock slag is discharged into second level by level-one well-bucket 601 and turns slag system by level-one handling appliance 604
Rock slag is discharged into second level well-bucket 1001 by second level slag dumping mechanism 1005, passes through second level handling appliance by 10 second level slag storehouse 1002
Rock slag is transported vertical shaft by 1004.Above each system with the use of complete on well, the conveying of personnel in the pit, material, rock slag etc..
Wherein, level-one slag storehouse 602 is set in the middle part of system, and the slag storehouse of second level slag-tapping system 3 is set to level-one slag storehouse 602
Multiple level-one well-buckets 601 can be set in middle part, are arranged around level-one slag storehouse 602;Second level slag storehouse 1002 is set in the middle part of system,
It may also set up multiple second level well-buckets 1001, be arranged around second level slag storehouse 1002, multiple well-buckets alternately move up and down, and improve Transportation Efficiency
Rate.Handling appliance includes the components such as hoist engine, pulley blocks, derrick, wirerope, anti-fall mechanism and suspension hook, i.e., by pulley blocks and
Hawser completes handling, and chain mechanism can also be used and realize handling.Slag dumping mechanism can be valve or link mechanism, using liquid
Pressure driving or motor driven, or the quantity and connection type of each component are according to circumstances adjusted, in the protection model of the utility model
Within enclosing.
Auxiliary safeguards system 8 is provided with below equipment platform 7, auxiliary safeguards system 8 is set including electric power facility, power supply
It applies, control facility, dust removal by ventilation facility and water flowing facility, the function of Improving Equipment guarantees equipment stable operation, in each system
In, corresponding ventilation shaft, water pipe and electrical conduits etc. can be set, realize the linkage of each equipment.
In the deep shaft rock ripper that specific embodiment of the present invention provides, level-one turns slag system 6 and second level
Borehole wall temporary support system 5 is provided between driving system 4, borehole wall temporary support system 5 includes that jumbolter and concrete spray
Jet device plays the supportings operation such as suspension roof support and concrete spraying support, it can be achieved that synchronizing to the borehole wall, further increases equipment
The degree of automation.
On the basis of the deep shaft rock ripper that above-mentioned each specific embodiment provides, it is arranged below equipment platform 7
Have for the casting system 9 to borehole wall casting concrete.Casting system 9 includes for the tightening mechanism of the stretching borehole wall and for pouring
That builds concrete pours mechanism 605.Tightening mechanism includes the first support boots 903 and the second support boots 908 setting up and down and is used for
The the first stretching oil cylinder 902 and the second stretching oil cylinder 907 of driving, it is vertical to be provided between the first support boots 903 and the second support boots 908
Flexible the changing in direction walks oil cylinder 904.
Casting platform 901 is three-decker, and the first support boots 903 and the first stretching oil cylinder 902 are set to lower layer two sides, pour
Mechanism 605 is installed on middle layer, and the second support boots 908 and the second stretching oil cylinder 907 are installed on upper layer two sides, and upper layer and middle layer are logical
It crosses vertical beam to be fixedly connected, middle layer and lower layer pass through the step oil cylinder 904 that changes being vertically arranged and connect.
The course of work is level-one stretching oil cylinder 902, the stretching of second level stretching oil cylinder 907, and stretching level-one supports boots 903 and second level support
Boots 908 act on the borehole wall, and the impetus of the borehole wall is fixed on as borehole wall concrete casting system 9, pour mechanism 905 and realize to well
Wall pours.After the completion of pouring, level-one stretching oil cylinder 902 is retracted, and level-one support boots 903 is driven to leave the borehole wall, is changed step oil cylinder 904 and is stretched
Out, level-one stretching oil cylinder 902, level-one support boots 903 is driven to move down.After stretching out in place, level-one stretching oil cylinder 902 stretches out again, support
Tight level-one support boots 903 act on the borehole wall, and second level stretching oil cylinder 907 retracts, and drive second level support boots 908 to leave the borehole wall, change step oil cylinder
904 retract, and second level stretching oil cylinder 907, second level support boots 908 is driven to move down.After retracting in place, second level stretching oil cylinder 907 is stretched again
Out, stretching second level support boots 908 act on the borehole wall, pour circulation into next.It circuits sequentially, the concrete of the borehole wall is poured in realization
It builds, the casting system is high-efficient with pouring, and labor intensity is small, and can realize and synchronize the advantages that pouring.
Deep shaft rock ripper provided by the utility model is described in detail above.Tool used herein
Body example is expounded the principles of the present invention and embodiment, and the above embodiments are only used to help understand
The method and its core concept of the utility model.It should be pointed out that for those skilled in the art, not taking off
Under the premise of from the utility model principle, several improvements and modifications can be made to this utility model, these improvement and modification
It also falls into the protection scope of the utility model claims.