CN110260730A - A kind of mining explosion installation system - Google Patents
A kind of mining explosion installation system Download PDFInfo
- Publication number
- CN110260730A CN110260730A CN201910532376.XA CN201910532376A CN110260730A CN 110260730 A CN110260730 A CN 110260730A CN 201910532376 A CN201910532376 A CN 201910532376A CN 110260730 A CN110260730 A CN 110260730A
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- China
- Prior art keywords
- chamber
- mobile
- drilling
- fixedly mounted
- lifting
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42D—BLASTING
- F42D1/00—Blasting methods or apparatus, e.g. loading or tamping
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42D—BLASTING
- F42D3/00—Particular applications of blasting techniques
- F42D3/04—Particular applications of blasting techniques for rock blasting
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Earth Drilling (AREA)
Abstract
The invention discloses a kind of mining explosion installation systems, including the mainframe box that drills, lifting perforating device is provided in the drilling mainframe box, wherein, the lifting perforating device includes the lifting drive chamber for going up and down borehole cavity and being connected to above lifting borehole cavity, it is fixedly mounted in the wall of lifting drive bottom of chamber and the lifting drive motor of lifting drive is provided, whole device will drill and launch explosive and is combined together, after drilling to blow-up point, explosive is launched into drilling, ore can be blown or be loosened by ignition charge, borehole drill construction is converted by traditional ammunition pit excavation to drill, efficiency greatly improves, explosive is launched by ammunition hoisting gear, explosive is buried without manpower, the safety is improved, and it can save the time, mobile device can be by device fast transfer.
Description
Technical field
The present invention relates to blasting mining field, specially a kind of mining explosion installation system.
Background technique
Contain many rare elements in ore, needs exploitated ore before using ore metallurgy, blasting mining is one
A time saving and energy saving mining mode needs to move in mine when explosion, or in the case where other exploitation of mineral resources
Except a large amount of soil, fill explosion after burying explosive, in order to improve efficiency, reduce cost, generally require usage mining equipment into
Row excavates, but existing excavating gear has many shortcomings, first its low efficiency, in general only can be carried out digging
Pick, it is also necessary to which manpower carries out subsequent burial explosive explosion again, and safety is lower, and in the hard mine of soil layer excavating equipment is not allowed
Easily in indentation soil, and equipment is not easy to shift, and extreme influence influences construction efficiency.
Summary of the invention
It is in the prior art above-mentioned for overcoming the purpose of the present invention is to provide a kind of mining explosion installation system
Defect.
A kind of mining explosion installation system of embodiment according to the present invention, including drilling mainframe box, the drilling
Lifting perforating device is provided in mainframe box, wherein the lifting perforating device includes lifting borehole cavity and drills positioned at lifting
The lifting drive chamber being connected to above chamber, interior be fixedly mounted of lifting drive bottom of chamber wall provide the lifting drive motor of lifting drive, rise
It is rotatably assorted between drop power cavity roof and lifting borehole cavity bottom wall and elevating screw thread axis is installed, peace is threadedly engaged on elevating screw thread axis
Drilling cabinet is filled, drilling power chamber is provided in drilling box body, is fixedly mounted to provide in the wall of drilling power bottom of chamber and punches power
Drilling power motor, lifting borehole cavity right side are provided with ammunition hoisting gear, wherein the ammunition hoisting gear includes that electronics is distant
It controls explosive and stores the channel of explosive of electronic telecontrol explosive, further include the link transmission chamber on the right side of channel of explosive, connecting rod passes
It is provided with the pushing block slot being connected to channel of explosive below dynamic chamber, is slidably installed in pushing block slot and pushes the fried of electronic telecontrol explosive
Medicine pushing block, the drilling mainframe box bottom are provided with mobile device, set between the mobile device and the ammunition hoisting gear
Have drive connection component, wherein the drive connection component includes driving motor and first bevel gear, further include driving belt and
Second bevel gear, the mobile device further include mobile drive bevel gear, and the ammunition hoisting gear further includes connecting rods power chamber,
The rotation of first bevel gear and the transmission of driving belt are controlled by driving motor, first bevel gear controls connecting rod power cavity turns
Dynamic further driving ammunition hoisting gear operation, the rotation of driving belt transmission control second bevel gear, second bevel gear drive
Mobile drive bevel gear rotation, further drives mobile device operation, and the drive connection component further includes power on-off component,
Including the first electromagnet and the second electromagnet, the power of driving motor is controlled by the magnetic force of the first electromagnet and the second electromagnet
Transmission.
Further technical solution, the lifting perforating device include the lifting drilling in the drilling mainframe box
Chamber, the lifting drive chamber that lifting borehole cavity top is provided with and the lifting borehole cavity is connected to, the lifting drive bottom of chamber
Be fixedly mounted lifting drive motor in wall, the top end surface of the upward output shaft of the lifting drive motor be fixedly connected with it is described
The first lifting drive tooth is fixedly mounted in the lifting drive shaft in the lifting drive shaft that lifting drive chamber roof is rotatably assorted
Wheel, is rotatably assorted between the lifting drive chamber roof and the lifting borehole cavity bottom wall and installs elevating screw thread axis, the lifting
It is located at the second lifting drive that the intracavitary fixed installation of the lifting drive is engaged with the first lifting drive gear on thread spindle
Gear is threadedly engaged installation drilling cabinet on the elevating screw thread axis, is fixedly mounted between the upper and lower inner wall of the lifting borehole cavity
The guiding slide bar being slidably matched with the drilling cabinet, the drilling box body is interior to be equipped with drilling power chamber, the drilling power chamber
Drilling power motor is fixedly mounted in roof, the bottom end face of the downward output shaft of the drilling power motor is fixedly connected and institute
The drilling power shaft that drilling power bottom of chamber wall is rotatably assorted is stated, the first drilling power is fixedly mounted in the drilling power shaft
Gear, be rotatably assorted in the drilling power chamber roof bore hole axis of the installation through the drilling cabinet bottom end face, the brill
It is located at the second drilling power tooth that the intracavitary fixed installation of the drilling power is engaged with the first drilling power gear in hole axle
Wheel, the interior bore hole axis equipped with through the drilling mainframe box bottom end face of the lifting borehole cavity bottom wall stretch out hole, the drilling
Upper limit detection block is fixedly mounted in cabinet left end face, and upper limit inductor is fixedly mounted in the lifting borehole cavity inner left wall,
Lower limit detection block is fixedly mounted in the drilling cabinet right end face, and lower limit is fixedly mounted in inner wall on the right side of the lifting borehole cavity
Inductor.
Further technical solution, the ammunition hoisting gear include upward positioned at the lifting borehole cavity right openings
Channel of explosive, is placed with several electronic telecontrol explosives in the channel of explosive, the bore hole axis stretch out inner wall on the right side of hole be equipped with
The explosive Transfer pipe of the channel of explosive connection, the channel of explosive right side are provided with link transmission chamber, the link transmission
The pushing block slot being connected to the explosive Transfer pipe is provided with below chamber, the pushing block groove top wall is equipped with and the link transmission chamber
The mobile through slot of connection, link transmission bottom of chamber wall are fixedly mounted elastic reset case, are equipped with opening in the elastic reset case
Elastic reset chamber to the left, the intracavitary push plate that is slidably installed of the elastic reset, the push plate right end face and the elastic force
Reset spring is fixedly mounted on the right side of reseting cavity between inner wall, push rod, the push rod left side is fixedly mounted in the push plate left end face
Mobile connection bar is fixedly mounted in end face, is equipped in the mobile connection bar and runs through the mobile connection bar front end face and top end
Explosive pushing block is fixedly mounted in the position limiting slide block slot in face, the mobile connection bar bottom end face, and sliding is matched in the mobile connection bar
Installation limit sliding shoe is closed, connecting rods power chamber is provided on rear side of the link transmission chamber, on rear side of the connecting rods power chamber in inner wall
It is rotatably assorted and is fit into the intracavitary first connecting rod axis of the link transmission, the connecting rods power is located on the first connecting rod axis
First connecting rod is fixedly mounted in intracavitary fixed installation link transmission bevel gear, the first connecting rod axis front end face, and the connecting rod passes
It being rotatably assorted in inner wall on rear side of dynamic chamber and second connecting rod axis is installed, second connecting rod is fixedly mounted in the second connecting rod axis front end face,
The second connecting rod and the limit sliding shoe are hinged, and third connecting rod is hingedly installed in the first connecting rod end, and the third connects
Bar and the second connecting rod are hinged.
Further technical solution, the mobile device include being fixedly mounted on the shifting of the drilling mainframe box bottom end face
Moving base, the mobile foundation is interior to be equipped with the mobile drive cavity that Open Side Down, rotates between inner wall before and after the mobile drive cavity
Be coupled mobile driven spindle, be provided with mobile power cavity on rear side of the mobile drive cavity, on rear side of the mobile power cavity in
The mobile active rotating shaft that the installation that is rotatably assorted in wall is rotatably assorted with the mobile drive cavity front inner wall, the mobile active turn
Two pairs of symmetrical Athey wheels are fixedly mounted on axis and the mobile driven spindle, is driven and is coupled between the Athey wheel of left and right
Crawler belt is located on the mobile active rotating shaft in the mobile power cavity and mobile drive bevel gear is fixedly mounted.
Further technical solution, the drive connection component include being located on the right side of the connecting rods power chamber and the connecting rod
The left side driving chamber of power cavity connection, the left side driving chamber right side are provided with right side driving chamber, the right side driving chamber and institute
It states and driving motor is fixedly mounted between the driving chamber of left side, be rotatably assorted first turn of installation in the left side driving chamber inner left wall
The first bevel gear engaged with the link transmission bevel gear, the right side driving chamber are fixedly mounted in the first rotating shaft for axis
Be rotatably assorted the second shaft of installation in the inner wall of right side, and the first belt pulley, the right side driving are fixedly mounted in second shaft
It is located at below the left side driving chamber on the left of chamber and is provided with the mobile drive cavity being connected to the mobile power cavity, the right side is driven
Be rotatably assorted in inner wall the third shaft being fit into the mobile drive cavity on the right side of dynamic chamber, is located at institute in the third shaft
It states in the driving chamber of right side and the second belt pulley is fixedly mounted, transmission cooperation peace between second belt pulley and first belt pulley
Driving belt is filled, the second bevel gear engaged with the mobile drive bevel gear is fixedly mounted in the third shaft left end face.
Further technical solution, the power on-off component include being fixedly mounted on the first rotating shaft right end face
The first magnetic disk, first magnetic force is fixedly mounted in the left end face of first terminal pad, the output shaft on the left of the driving motor
Face left side end face be fixedly mounted can with the first electromagnet of the first terminal pad magnetic connection, it is defeated on the right side of the driving motor
The second electromagnetic disc is fixedly mounted in the right end face of shaft, and the second terminal pad is fixedly mounted in the second shaft left end face, described
The fixed installation of second electromagnetic disc right end face can be with the second electromagnet of the second terminal pad magnetic connection.
The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, whole device will drill and launch explosive knot
Be combined, after drilling to blow-up point, launch explosive into drilling, ignition charge ore can be blown or
It loosens, converts borehole drill construction for traditional ammunition pit excavation and drill, efficiency greatly improves, and is thrown by ammunition hoisting gear
Put explosive, do not have to manpower bury explosive, the safety is improved, and can save the time, mobile device can by device fast transfer,
Conveniently moving, device volume is small, at low cost, is worthy to be popularized.
Detailed description of the invention
Fig. 1 is overall structure diagram of the invention;
Fig. 2 is the schematic cross-sectional view in the direction A-A in Fig. 1;
Fig. 3 is the schematic cross-sectional view in the direction B-B in Fig. 1;
Fig. 4 is the schematic cross-sectional view in the direction C-C in Fig. 2.
Specific embodiment
Below with reference to Fig. 1-4, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation
Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
Referring to Fig.1-4, a kind of mining explosion installation system of embodiment according to the present invention, including drilling mainframe box
11, lifting perforating device is provided in the drilling mainframe box 11, wherein the lifting perforating device includes lifting borehole cavity 18
The lifting drive chamber 12 being connected to above lifting borehole cavity 18, the interior fixed installation offer of 12 bottom wall of lifting drive chamber go up and down dynamic
The lifting drive motor 15 of power is rotatably assorted between 12 roof of lifting drive chamber and lifting 18 bottom wall of borehole cavity and installs elevating screw thread
Axis 29 is threadedly engaged installation drilling cabinet 21 on elevating screw thread axis 29, is provided with drilling power chamber 23 in the cabinet 21 that drills, drills
It is fixedly mounted in 23 bottom wall of power cavity and the drilling power motor 22 of punching power is provided, gone up and down and be provided with ammunition on the right side of borehole cavity 18
Conveying device, wherein the ammunition hoisting gear includes that electronic telecontrol explosive 50 and the explosive of storage electronic telecontrol explosive 50 are logical
Road 52 further includes the link transmission chamber 45 positioned at the right side of channel of explosive 52, is provided with below link transmission chamber 45 and channel of explosive
The pushing block slots 40 of 52 connections, are slidably installed in pushing block slot 40 and push the explosive pushing block 35 of electronic telecontrol explosive 50, the brill
Mainframe box 11 bottom in hole is provided with mobile device, and drive connection portion is equipped between the mobile device and the ammunition hoisting gear
Part, wherein the drive connection component includes driving motor 68 and first bevel gear 57, it further include driving belt 79 and the second cone
Gear 75, the mobile device further include mobile drive bevel gear 74, and the ammunition hoisting gear further includes connecting rods power chamber 55,
The rotation of first bevel gear 57 and the transmission of driving belt 79 are controlled by driving motor 68,57 controls connecting rod of first bevel gear is dynamic
The rotation of power chamber 55 further drives ammunition hoisting gear to run, the rotation of the transmission control second bevel gear 75 of driving belt 79,
Second bevel gear 75 drives mobile drive bevel gear 74 to rotate, and further drives mobile device operation, the drive connection component
Further include power on-off component, including the first electromagnet 60 and the second electromagnet 63, passes through the first electromagnet 60 and the second electromagnetism
The transmission of the power of the magnetic force control driving motor 68 of iron 63.
Valuably or illustratively, the lifting perforating device includes the lifting drilling in the drilling mainframe box 11
Chamber 18, is provided with above the lifting borehole cavity 18 and the lifting drive chamber 12 that is connected to of lifting borehole cavity 18, the lifting
Lifting drive motor 15, the top end surface of the upward output shaft of the lifting drive motor 15 are fixedly mounted in 12 bottom wall of power cavity
It is fixedly connected with the lifting drive shaft 14 being rotatably assorted with 12 roof of lifting drive chamber, is consolidated in the lifting drive shaft 14
Dingan County fills the first lifting drive gear 13, rotates and matches between 12 roof of lifting drive chamber and 18 bottom wall of lifting borehole cavity
Installation elevating screw thread axis 29 is closed, is located in the lifting drive chamber 12 on the elevating screw thread axis 29 and is fixedly mounted and described first
The second lifting drive gear 16 that lifting drive gear 13 engages is threadedly engaged installation drilling cabinet on the elevating screw thread axis 29
21, it is described to go up and down the guiding slide bar 19 for being fixedly mounted between about 18 inner wall of borehole cavity and being slidably matched with the drilling cabinet 21,
It is equipped with drilling power chamber 23 in the drilling cabinet 21, drilling power motor is fixedly mounted in 23 roof of drilling power chamber
22, the bottom end face of the downward output shaft of the drilling power motor 22 is fixedly connected to be rotated with 23 bottom wall of drilling power chamber
The first drilling power gear 27, the drilling is fixedly mounted in the drilling power shaft 26 in the drilling power shaft 26 of cooperation
Be rotatably assorted the bore hole axis 28 installed through drilling 21 bottom end face of cabinet in 23 roof of power cavity, in the bore hole axis 28
The the second drilling power gear engaged with the first drilling power gear 27 is fixedly mounted in the drilling power chamber 23
24, the interior bore hole axis equipped with through drilling 11 bottom end face of mainframe box of lifting 18 bottom wall of borehole cavity stretches out hole 33, institute
It states drilling 21 left end face of cabinet and is fixedly mounted upper limit detection block 20, in 18 inner left wall of lifting borehole cavity fixed installation
Lower limit detection block 51 is fixedly mounted in limit inductor 17,21 right end face of drilling cabinet, and the lifting borehole cavity 18 is right
Lower limit inductor 49 is fixedly mounted in side inner wall, to drive lifting drive shaft 14 when lifting drive motor 15 starts
It is rotated with the first lifting drive gear 13, the first lifting drive gear 13 drives the second lifting drive gear 16 by engagement and rises
It drops thread spindle 29 to rotate, drilling cabinet 21 is directed to the limitation rotation of slide bar 19, starts to move down along elevating screw thread axis 29, together
When drilling power motor 22 start and drive drilling power shaft 26 and the rotation of the first drilling power gear 27, the first drilling power tooth
Wheel 27 drives the second drilling power gear 24 and bore hole axis 28 to rotate by engagement, bore hole axis 28 pass through bore hole axis stretch out hole 33 with
Start to punch after mineral surface contact, when the cabinet 21 that drills is moved at lower limit inductor 49 with lower limit detection block 51
Drilling power motor 22 stops lifting drive motor 15 and inverts, and drilling cabinet 21 is driven to move up reset, when drilling cabinet 21
Lifting drive motor 15 stops after being moved at upper limit inductor 17 with upper limit detection block 20.
Valuably or illustratively, the ammunition hoisting gear includes upward positioned at 18 right openings of the lifting borehole cavity
Channel of explosive 52, several electronic telecontrol explosives 50 are placed in the channel of explosive 52, the bore hole axis stretches out 33 right side of hole
Inner wall is equipped with the explosive Transfer pipe 34 being connected to the channel of explosive 52, is provided with link transmission on the right side of the channel of explosive 52
Chamber 45 is provided with the pushing block slot 40 being connected to the explosive Transfer pipe 34, the pushing block slot below the link transmission chamber 45
40 roofs are equipped with the mobile through slot 25 being connected to the link transmission chamber 45, and elastic force is fixedly mounted in 45 bottom wall of link transmission chamber
Case 41 is resetted, the elastic reset chamber 43 of opening to the left, sliding in the elastic reset chamber 43 are equipped in the elastic reset case 41
It is coupled push plate 39, is fixedly mounted between 43 right side inner wall of 39 right end face of push plate and the elastic reset chamber and resets bullet
Push rod 38 is fixedly mounted in spring 42,39 left end face of push plate, and mobile connection bar 36 is fixedly mounted in 38 left end face of push rod,
The position limiting slide block slot 37 through 36 front end face of mobile connection bar and top end surface, institute are equipped in the mobile connection bar 36
It states 36 bottom end face of mobile connection bar and explosive pushing block 35 is fixedly mounted, be slidably installed in the mobile connection bar 36 and limit cunning
Motion block 44 is provided with connecting rods power chamber 55, rotation in the 55 rear side inner wall of connecting rods power chamber on rear side of the link transmission chamber 45
It is coupled the first connecting rod axis 54 entered in the link transmission chamber 45, it is dynamic to be located at the connecting rod on the first connecting rod axis 54
Link transmission bevel gear 56 is fixedly mounted in power chamber 55, first connecting rod 46 is fixedly mounted in 54 front end face of first connecting rod axis,
It is rotatably assorted in the 45 rear side inner wall of link transmission chamber and second connecting rod axis 53 is installed, 53 front end face of second connecting rod axis is solid
Dingan County fills second connecting rod 48, and the second connecting rod 48 and the limit sliding shoe 44 are hinged, and 46 end of first connecting rod is hinged
Third connecting rod 47 is installed, the third connecting rod 47 and the second connecting rod 48 are hinged, thus when link transmission bevel gear 56 rotates
When drive first connecting rod axis 54 and first connecting rod 46 to rotate, first connecting rod 46 drives third connecting rod 47 to move, 47 band of third connecting rod
Dynamic second connecting rod 48 and second connecting rod axis 53 move, and second connecting rod 48 drives limit sliding shoe 44 to slide up and down, and drive mobile connect
Extension bar 36 and explosive pushing block 35 move left and right, and electronic telecontrol explosive 50 is from channel of explosive 52 when explosive pushing block 35 moves right
Explosive pushing block 35, which is moved to the left, after falling in explosive Transfer pipe 34 is pushed to bore hole axis stretching hole for electronic telecontrol explosive 50
It is fallen after in 33, explosive pushing block 35, which seals channel of explosive 52, prevents electronic telecontrol explosive 50 from falling.
Valuably or illustratively, the mobile device includes being fixedly mounted on drilling 11 bottom end face of mainframe box
Mobile foundation 32, is equipped with the mobile drive cavity 72 that Open Side Down in the mobile foundation 32, in mobile 72 front and back of drive cavity
It is rotatably assorted between wall and mobile driven spindle 69 is installed, mobile power cavity 73 is provided on rear side of the mobile drive cavity 72, it is described
The mobile master that the installation that is rotatably assorted in mobile 73 rear side inner wall of power cavity is rotatably assorted with mobile 72 front inner wall of drive cavity
Turn axis 71, the mobile active rotating shaft 71 and two pairs of symmetrical Athey wheels 70 of fixed installation on the mobile driven spindle 69,
Transmission is coupled crawler belt 31 between the Athey wheel 70 of left and right, is located at the mobile power cavity on the mobile active rotating shaft 71
Mobile drive bevel gear 74 is fixedly mounted in 73, to drive mobile active rotating shaft when mobile drive bevel gear 74 rotates
71 rotations, mobile active rotating shaft 71 drive the Athey wheel 70 on mobile active rotating shaft 71 to rotate, and Athey wheel 70 drives crawler belt 31 to pass
The dynamic Athey wheel 70 driven on mobile driven spindle 69 and mobile driven spindle 69 rotate, mobile device.
Valuably or illustratively, the drive connection component includes being located at 55 right side of connecting rods power chamber and the company
The left side driving chamber 80 that bar power cavity 55 is connected to is provided with right side driving chamber 67, the right side on the right side of the left side driving chamber 80
Driving motor 68 is fixedly mounted between driving chamber 67 and the left side driving chamber 80, turns in 80 inner left wall of left side driving chamber
It is dynamic to be coupled first rotating shaft 58, first engaged with the link transmission bevel gear 56 is fixedly mounted in the first rotating shaft 58
Bevel gear 57, be rotatably assorted in the 67 right side inner wall of right side driving chamber the second shaft 66 of installation, solid in second shaft 66
Dingan County fills the first belt pulley 65, is located at below the left side driving chamber 80 on the left of the right side driving chamber 67 and is provided with and the shifting
The mobile drive cavity 78 that power cavity 73 is connected to is moved, is rotatably assorted in the 67 right side inner wall of right side driving chamber and is fit into the shifting
The third shaft 76 in drive cavity 78 is moved, is located in the right side driving chamber 67 in the third shaft 76 and the second skin is fixedly mounted
Belt wheel 77, transmission is coupled driving belt 79, the third between second belt pulley 77 and first belt pulley 65
The second bevel gear 75 engaged with the mobile drive bevel gear 74 is fixedly mounted in 76 left end face of shaft, to start driving electricity
Start to provide power after machine 68, drives link transmission bevel gear 56 to rotate by engagement when first bevel gear 57 starts turning, the
Driving belt 79 is driven to start to be driven when one belt pulley 65 rotates, driving belt 79 drives the second belt pulley 77 and third shaft 76
Rotation, third shaft 76 drive 75 turns of second bevel gear, and second bevel gear 75 drives mobile 74 He of drive bevel gear by engagement
Mobile active rotating shaft 71 rotates.
Valuably or illustratively, the power on-off component includes being fixedly mounted on 58 right end face of first rotating shaft
The first terminal pad 59, the first magnetic disk 61 is fixedly mounted in the left end face of the output shaft in 68 left side of the driving motor, described
The fixed installation of first magnetic disk, 61 left end face can be with the first electromagnet 60 of 59 magnetic connection of the first terminal pad, the drive
The second electromagnetic disc 62 is fixedly mounted in the right end face of the output shaft on dynamic 68 right side of motor, and 66 left end face of the second shaft is fixed
Second terminal pad 64 is installed, 62 right end face of the second electromagnetic disc fixed installation can be with 64 magnetic connection of the second terminal pad
The second electromagnet 63, thus attracting with the first terminal pad 59 after 60 energization magnetisation of the first electromagnet, driving motor 68 starts
It drives first rotating shaft 58 to start turning when driving the output shaft rotation in left side, is connect after 63 energization magnetisation of the second electromagnet with second
Disk 64 is attracting, and the output shaft on 68 right side of driving motor drives the second shaft 66 to start turning when rotation.
When use, when original state, the first electromagnet 60 is not powered on, effect of the explosive pushing block 35 in reset spring 42
Under be maintained at the leftmost side, start lifting drive motor 15, drive lifting drive shaft 14 and the rotation of the first lifting drive gear 13,
First lifting drive gear 13 drives the second lifting drive gear 16 and elevating screw thread axis 29 to rotate by engagement, and drill cabinet 21
It is directed to the limitation rotation of slide bar 19, starts to move down along elevating screw thread axis 29, while the starting of drilling power motor 22 drives
Drilling power shaft 26 and the rotation of the first drilling power gear 27, the first drilling power gear 27 drive the second drilling by engagement
Power gear 24 and bore hole axis 28 rotate, and bore hole axis 28, which passes through bore hole axis and stretches out after hole 33 is contacted with mineral surface, to be started to punch,
When the cabinet 21 that drills is moved at lower limit inductor 49 with lower limit detection block 51, drilling power motor 22 stops lifting
Power motor 15 inverts, and drilling cabinet 21 is driven to move up reset, when drilling cabinet 21 is mobile with upper limit detection block 20
Lifting drive motor 15 stops after at upper limit inductor 17, after the completion of punching, 60 energization magnetisation of the first electromagnet with the
One terminal pad 59 is attracting, and starting driving motor 68 drives first rotating shaft 58 to rotate, and first rotating shaft 58 drives first bevel gear 57 to open
Begin to rotate, first bevel gear 57 drives link transmission bevel gear 56 to rotate by engagement, the drive of link transmission bevel gear 56 first
Pitman shaft 54 and first connecting rod 46 rotate, and first connecting rod 46 drives third connecting rod 47 to move, and third connecting rod 47 drives second connecting rod
48 and second connecting rod axis 53 move, second connecting rod 48 drives limit sliding shoe 44 to slide up and down, and drives mobile connection bar 36 and fried
Medicine pushing block 35 moves left and right, and electronic telecontrol explosive 50 falls to explosive from channel of explosive 52 when explosive pushing block 35 moves right
Explosive pushing block 35 is moved to the left for electronic telecontrol explosive 50 to be pushed to after bore hole axis is stretched out in hole 33 and fall after in Transfer pipe 34,
Explosive pushing block 35, which seals channel of explosive 52, prevents electronic telecontrol explosive 50 from falling, and then the first electromagnet 60 powers off, the second electromagnetism
63 energization magnetisation of iron and the second terminal pad 64 are attracting, and the output shaft on 68 right side of driving motor drives the second shaft 66 when rotation
It starts turning, the second shaft 66 drives the rotation of the first belt pulley 65, and the first belt pulley 65 drives driving belt 79 to start to be driven, and passes
Dynamic belt 79 drives the second belt pulley 77 and third shaft 76 to rotate, and third shaft 76 drives 75 turns of second bevel gear, the second cone
Gear 75 drives mobile drive bevel gear 74 and mobile active rotating shaft 71 to rotate by engagement, and mobile active rotating shaft 71 drives movement
Athey wheel 70 on active rotating shaft 71 rotates, and Athey wheel 70 drives the transmission of crawler belt 31 to drive the Athey wheel on mobile driven spindle 69
70 rotate with mobile driven spindle 69, and mobile device, subsequent ignition charge blows ore.
The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, whole device will drill and launch explosive knot
Be combined, after drilling to blow-up point, launch explosive into drilling, ignition charge ore can be blown or
It loosens, converts borehole drill construction for traditional ammunition pit excavation and drill, efficiency greatly improves, and is thrown by ammunition hoisting gear
Put explosive, do not have to manpower bury explosive, the safety is improved, and can save the time, mobile device can by device fast transfer,
Conveniently moving, device volume is small, at low cost, is worthy to be popularized.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention
It is subject to claims appended hereto.
Claims (6)
1. a kind of mining explosion installation system, including drilling mainframe box, it is characterised in that: setting in the drilling mainframe box
There is lifting perforating device, wherein the lifting perforating device includes that lifting borehole cavity is connected to above lifting borehole cavity
Lifting drive chamber, interior be fixedly mounted of lifting drive bottom of chamber wall provide the lifting drive motor of lifting drive, lifting drive chamber roof
It is rotatably assorted between lifting borehole cavity bottom wall and elevating screw thread axis is installed, installation drilling cabinet is threadedly engaged on elevating screw thread axis,
It is provided with drilling power chamber in drilling box body, is fixedly mounted in the wall of drilling power bottom of chamber and the drilling power electricity of punching power is provided
Machine, lifting borehole cavity right side are provided with ammunition hoisting gear, wherein the ammunition hoisting gear includes electronic telecontrol explosive and deposits
The channel of explosive for putting electronic telecontrol explosive further includes the link transmission chamber on the right side of channel of explosive, sets below link transmission chamber
It is equipped with the pushing block slot being connected to channel of explosive, is slidably installed in pushing block slot and pushes the explosive pushing block of electronic telecontrol explosive, institute
It states drilling mainframe box bottom and is provided with mobile device, be equipped with and be drivingly connected between the mobile device and the ammunition hoisting gear
Component further includes driving belt and second bevel gear wherein the drive connection component includes driving motor and first bevel gear,
The mobile device further includes mobile drive bevel gear, and the ammunition hoisting gear further includes connecting rods power chamber, passes through driving electricity
Machine controls the rotation of first bevel gear and the transmission of driving belt, and the rotation of first bevel gear controls connecting rod power cavity is further driven
Dynamic ammunition hoisting gear operation, the rotation of driving belt transmission control second bevel gear, second bevel gear drive mobile transmission cone
Gear rotation, further drives mobile device operation, and the drive connection component further includes power on-off component, including the first electricity
Magnet and the second electromagnet control the transmission of the power of driving motor by the magnetic force of the first electromagnet and the second electromagnet.
2. a kind of mining explosion installation system according to claim 1, it is characterised in that: the lifting perforating device
Including the lifting borehole cavity being located in the drilling mainframe box, it is provided with and the lifting borehole cavity above the lifting borehole cavity
The lifting drive chamber of connection, is fixedly mounted lifting drive motor in the wall of the lifting drive bottom of chamber, the lifting drive motor to
On the top end surface of output shaft be fixedly connected with the lifting drive shaft being rotatably assorted with the lifting drive chamber roof, the liter
Be fixedly mounted the first lifting drive gear on drop power shaft, the lifting drive chamber roof and the lifting borehole cavity bottom wall it
Between be rotatably assorted elevating screw thread axis be installed, the intracavitary fixed installation of the lifting drive and described the are located on the elevating screw thread axis
Second lifting drive gear of one lifting drive gear engagement is threadedly engaged installation drilling cabinet, institute on the elevating screw thread axis
State the guiding slide bar for being fixedly mounted between lifting borehole cavity or more inner wall and being slidably matched with the drilling cabinet, the drilling cabinet
It is interior to be equipped with drilling power chamber, be fixedly mounted drilling power motor in the drilling power chamber roof, the drilling power motor to
Under the bottom end face of output shaft be fixedly connected with the drilling power shaft being rotatably assorted with drilling power bottom of chamber wall, the brill
The first drilling power gear is fixedly mounted on the power shaft of hole, the installation that is rotatably assorted in the drilling power chamber roof is through described
Drill the bore hole axis of cabinet bottom end face, and the intracavitary fixed installation of the drilling power is located in the bore hole axis and is bored with described first
Second drilling power gear of hole power gear engagement, interior be equipped with of the lifting borehole cavity bottom wall run through the drilling mainframe box bottom
The bore hole axis of end surface stretches out hole, and upper limit detection block, the lifting borehole cavity is fixedly mounted in the drilling cabinet left end face
Upper limit inductor is fixedly mounted in inner left wall, and lower limit detection block, the liter is fixedly mounted in the drilling cabinet right end face
It drops inner wall on the right side of borehole cavity and lower limit inductor is fixedly mounted.
3. a kind of mining explosion installation system according to claim 1, it is characterised in that: the ammunition hoisting gear
Including being located at the upward channel of explosive of the lifting borehole cavity right openings, several electronic telecontrols are placed in the channel of explosive
Explosive, the bore hole axis stretch out inner wall on the right side of hole and are equipped with the explosive Transfer pipe being connected to the channel of explosive, and the explosive is logical
It is provided with link transmission chamber on the right side of road, is provided with the pushing block being connected to the explosive Transfer pipe below the link transmission chamber
Slot, the pushing block groove top wall are equipped with the mobile through slot being connected to the link transmission chamber, the fixed peace of link transmission bottom of chamber wall
Elastic reset case is filled, the elastic reset chamber of opening to the left is equipped in the elastic reset case, the intracavitary sliding of elastic reset is matched
Installation push plate is closed, reset spring is fixedly mounted between inner wall on the right side of the push plate right end face and the elastic reset chamber, it is described
Push plate left end face is fixedly mounted push rod, and the push rod left end face is fixedly mounted mobile connection bar, in the mobile connection bar
Equipped with the position limiting slide block slot for running through the mobile connection bar front end face and top end surface, the mobile connection bar bottom end face is solid
Dingan County's blasting charge pushing block is slidably installed in the mobile connection bar and limits sliding shoe, setting on rear side of the link transmission chamber
There is connecting rods power chamber, is rotatably assorted in inner wall on rear side of the connecting rods power chamber and is fit into the first intracavitary company of the link transmission
Bar axis is located at the intracavitary fixed installation link transmission bevel gear of the connecting rods power, the first connecting rod on the first connecting rod axis
First connecting rod is fixedly mounted in axis front end face, is rotatably assorted in inner wall on rear side of the link transmission chamber and installs second connecting rod axis, institute
It states second connecting rod axis front end face and second connecting rod is fixedly mounted, the second connecting rod and the limit sliding shoe are hinged, and described the
One interlinking lever end hingedly installs third connecting rod, and the third connecting rod and the second connecting rod are hinged.
4. a kind of mining explosion installation system according to claim 1, it is characterised in that: the mobile device includes
It is fixedly mounted on the mobile foundation of the drilling mainframe box bottom end face, is equipped with the mobile biography that Open Side Down in the mobile foundation
Chamber is moved, is rotatably assorted between inner wall before and after the mobile drive cavity and mobile driven spindle is installed, is set on rear side of the mobile drive cavity
It is equipped with mobile power cavity, be rotatably assorted in inner wall installation and the mobile drive cavity front inner wall turn on rear side of the mobile power cavity
The mobile active rotating shaft of dynamic cooperation, the mobile active rotating shaft are symmetrically carried out with two pairs of fixed installation on the mobile driven spindle
Belt wheel, transmission is coupled crawler belt between the Athey wheel of left and right, is located at the mobile power cavity on the mobile active rotating shaft
The mobile drive bevel gear of interior fixed installation.
5. a kind of mining explosion installation system according to claim 1, it is characterised in that: the drive connection component
Including being located at the left side driving chamber being connected on the right side of the connecting rods power chamber with the connecting rods power chamber, the left side driving chamber right side
It is provided with right side driving chamber, driving motor, the left side are fixedly mounted between the right side driving chamber and the left side driving chamber
It is rotatably assorted in driving chamber inner left wall and first rotating shaft is installed, be fixedly mounted in the first rotating shaft and bore tooth with the link transmission
The first bevel gear of engagement is taken turns, be rotatably assorted in inner wall the second shaft of installation on the right side of the right side driving chamber, second shaft
The first belt pulley of upper fixed installation, the right side driving chamber left side, which is located at below the left side driving chamber, to be provided with and the movement
The mobile drive cavity of power cavity connection is rotatably assorted on the right side of the right side driving chamber in inner wall and is fit into the mobile drive cavity
Interior third shaft is located in the right side driving chamber in the third shaft and the second belt pulley is fixedly mounted, second skin
Transmission is coupled driving belt between belt wheel and first belt pulley, and the third shaft left end face is fixedly mounted and institute
State the second bevel gear of mobile drive bevel gear engagement.
6. a kind of mining explosion installation system according to claim 1, it is characterised in that: the power on-off component
The first terminal pad including being fixedly mounted on the first rotating shaft right end face, the left side of the output shaft on the left of the driving motor
The first magnetic disk is fixedly mounted in end face, and the first magnetic disk left end face fixed installation can connect with the first terminal pad magnetic force
The first electromagnet connect, the right end face of the output shaft on the right side of the driving motor are fixedly mounted the second electromagnetic disc, and described second
The second terminal pad is fixedly mounted in shaft left end face, and the second electromagnetic disc right end face fixed installation can be connect with described second
Second electromagnet of disk magnetic connection.
Priority Applications (1)
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CN201910532376.XA CN110260730A (en) | 2019-06-19 | 2019-06-19 | A kind of mining explosion installation system |
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CN201910532376.XA CN110260730A (en) | 2019-06-19 | 2019-06-19 | A kind of mining explosion installation system |
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CN201910532376.XA Withdrawn CN110260730A (en) | 2019-06-19 | 2019-06-19 | A kind of mining explosion installation system |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111911071A (en) * | 2020-07-21 | 2020-11-10 | 童志超 | Multifunctional emergency rescue vehicle for mine accidents |
CN112697000A (en) * | 2020-12-21 | 2021-04-23 | 吴珅 | Coal open-pit mining blasting method |
CN113790646A (en) * | 2021-11-05 | 2021-12-14 | 湖州新开元碎石有限公司 | Hole-by-hole blasting device for stone mining area |
CN114837665A (en) * | 2022-04-21 | 2022-08-02 | 淮北市东鑫矿业有限公司 | Intelligent mining device and method for upward layering empty field of gently inclined medium-thickness ore body |
-
2019
- 2019-06-19 CN CN201910532376.XA patent/CN110260730A/en not_active Withdrawn
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111911071A (en) * | 2020-07-21 | 2020-11-10 | 童志超 | Multifunctional emergency rescue vehicle for mine accidents |
CN112697000A (en) * | 2020-12-21 | 2021-04-23 | 吴珅 | Coal open-pit mining blasting method |
CN112697000B (en) * | 2020-12-21 | 2022-11-22 | 鄂尔多斯市万兴隆工贸有限责任公司 | Coal open-pit mining blasting method |
CN113790646A (en) * | 2021-11-05 | 2021-12-14 | 湖州新开元碎石有限公司 | Hole-by-hole blasting device for stone mining area |
CN113790646B (en) * | 2021-11-05 | 2023-02-17 | 湖州新开元碎石有限公司 | Hole-by-hole blasting device for stone mining area |
CN114837665A (en) * | 2022-04-21 | 2022-08-02 | 淮北市东鑫矿业有限公司 | Intelligent mining device and method for upward layering empty field of gently inclined medium-thickness ore body |
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Application publication date: 20190920 |