CN115075815B

CN115075815B - Mineral mining auxiliary device and method

Info

Publication number: CN115075815B
Application number: CN202210983832.4A
Authority: CN
Inventors: 王化峰; 黄强; 郭学军
Original assignee: Xuzhou Anpuruite Energy Technology Co ltd
Current assignee: Xuzhou Anpuruite Energy Technology Co ltd
Priority date: 2022-08-17
Filing date: 2022-08-17
Publication date: 2022-11-04
Anticipated expiration: 2042-08-17
Also published as: CN115075815A

Abstract

The invention relates to the technical field of mineral mining, in particular to an auxiliary device and a method for mineral mining, which comprises a machine body, wherein a stabilizing component is arranged on the machine body, the stabilizing component comprises a cavity positioned in the machine body, a rotating disc is arranged in the cavity, an adjusting channel is arranged on the rotating disc, the adjusting channel comprises an outer arc-shaped clamping channel, the outer arc-shaped clamping channel comprises at least three outer arc-shaped strip holes, an inner arc-shaped strip hole is arranged on the inner side between two adjacent outer arc-shaped strip holes, the inner arc-shaped strip hole is communicated with the adjacent outer arc-shaped strip holes through a connecting strip hole, sliding blocks with the same number as the outer arc-shaped strip holes are connected in the adjusting channel in a sliding mode, each sliding block comprises a first sliding block, a second sliding block and a third sliding block, a left inclined hole, a middle inclined hole and a right inclined hole are arranged on the machine body, and a left inclined support connected with the first sliding block, a right inclined support connected with the third sliding block and a middle upright support connected with the second sliding block are respectively arranged in the left inclined hole, the right inclined hole and the middle inclined hole. The invention effectively reduces the fore-and-aft vibration movement of the machine body.

Description

Mineral exploitation auxiliary device and method

Technical Field

The invention relates to the technical field of mineral exploitation, in particular to an auxiliary device and method for mineral exploitation.

Background

The mineral is formed through geological mineralization, is naturally contained in the earth crust or is buried underground or exposed out of the earth surface, and is mined by mineral mining equipment at present, but the mineral mining equipment generates large noise in operation, so that the production efficiency of mineral mining is influenced.

As disclosed on 20.5.2015, a mineral mining apparatus with vibration damping function with publication number CN204344120U, comprising a vibration damping device comprising: a first hydraulic cylinder and a second hydraulic cylinder disposed on a first side of the mining apparatus; a third hydraulic cylinder and a fourth hydraulic cylinder disposed on a second side of the mining apparatus; the first supporting seat is connected with the outer side ends of the first hydraulic cylinder and the second hydraulic cylinder; and the second supporting seat is connected with the outer side ends of the third hydraulic cylinder and the fourth hydraulic cylinder. When the mining device works, the first hydraulic cylinder, the second hydraulic cylinder and the first side of the mining device form a triangular structure, the third hydraulic cylinder, the fourth hydraulic cylinder and the second side of the mining device also form a triangular structure, and the first supporting seat and the second supporting seat abut against the side wall of the mine tunnel. The structure can effectively inhibit the vibration of the mineral mining equipment in the front-back direction and the left-right direction caused by cutting operation; however, the applicant finds that the device only abuts against the side wall of the mine tunnel through the first bearing block and the second bearing block, and the mineral mining equipment is easy to shake and move forwards and backwards when the mineral mining equipment is used for mining, so that high noise is generated, and the production efficiency of mineral mining is affected.

Disclosure of Invention

In view of the above, the present invention is directed to an auxiliary device and method for mining, so as to solve the problem that a mineral mining device is prone to move back and forth due to vibration when the mineral mining device is used for mining.

Based on the above purpose, the invention provides an auxiliary device for mineral mining, which comprises a machine body, wherein a stabilizing component is arranged on the machine body, the stabilizing component comprises a cavity located in the machine body, a rotating disc is arranged in the cavity, a driving piece for driving the rotating disc to rotate is arranged on one side of the rotating disc, an adjusting channel is formed in the rotating disc, the adjusting channel comprises an outer arc-shaped clamping channel, the outer arc-shaped clamping channel comprises at least three outer arc-shaped strip holes, an inner arc-shaped strip hole is formed in the inner side between every two adjacent outer arc-shaped strip holes, the inner arc-shaped strip holes are communicated with the adjacent outer arc-shaped strip holes through connecting strip holes, a plurality of sliding blocks with the same number as the outer arc-shaped strip holes are connected in the adjusting channel in a sliding mode, each sliding block comprises a first sliding block, a second sliding block and a third sliding block, a left inclined hole matched with the first sliding block, a right inclined hole matched with the second sliding block and a right inclined hole matched with the third sliding block are formed in the adjusting channel, the left inclined hole is located in the front inclined hole of the right inclined hole, and a right inclined hole connected with the right inclined hole of the right inclined support piece, and a left inclined hole of the right inclined support piece, and a right inclined support piece connected with the right inclined hole of the right inclined support piece.

Optionally, the first slider and the left diagonal support member, the third slider and the right diagonal support member, and the second slider and the middle diagonal support member are all fixedly connected by a first multi-section telescopic limiting rod, and a first limiting spring coaxially arranged with the first multi-section telescopic limiting rod is arranged in the first multi-section telescopic limiting rod.

Optionally, a communicating pore passage for accommodating the first plurality of sections of telescopic limiting rods is communicated among the left inclined hole, the right inclined hole and the middle normal hole and the cavity.

Optionally, a conveying assembly and a collecting box are arranged on the rear side of the machine body, the collecting box is used for collecting minerals in the mine hole, the conveying assembly comprises a transmission belt located on the machine body, the transmission belt is used for transmitting the collecting box, a vertically arranged driving telescopic rod is arranged on one side of the transmission belt, the telescopic end of the driving telescopic rod is connected with a fixing assembly, the fixing assembly is used for fixing the collecting box, and the driving telescopic rod extends to be used for upwards transporting the collecting box fixed by the fixing assembly.

Optionally, the fixing assembly includes a limiting cylinder, an adjusting ring is slidably disposed at an upper end of the limiting cylinder, a rotating member is disposed on one side of the adjusting ring, the rotating member is used for controlling the adjusting ring to rotate, a limiting track is disposed on the adjusting ring, the limiting track includes an outer limiting arc track and an inner limiting arc track located inside the outer limiting arc track, the outer limiting arc track includes at least two outer limiting arc grooves, the inner limiting arc track includes inner limiting arc grooves disposed in cooperation with the outer limiting arc grooves, the outer limiting arc grooves are disposed between two adjacent inner limiting arc grooves, the outer limiting arc grooves are communicated with the inner limiting arc grooves adjacent to the outer limiting arc grooves through connecting arc grooves, limiting sliders matched with the outer limiting arc grooves in number are disposed in the limiting track, each limiting slider includes a first limiting block, a second limiting block and a third limiting block, a fixing member matched with the outer limiting arc grooves in number is disposed on the limiting cylinder, the fixing member includes a middle oblique slide track disposed on the limiting cylinder, the middle oblique slide track is disposed above the axis of the middle oblique slide track clockwise, a limiting cylinder is disposed above the middle oblique slide, a lower limiting block is disposed on the middle oblique slide, and a lower limiting slide is disposed on the middle oblique slide and a lower limiting slide.

Optionally, the rotation piece is including being located regulating motor on the restriction section of thick bamboo, regulating motor's output is connected with adjusting gear, adjusting gear one side meshing transmission is connected with and overlaps and establish the rotating gear in the adjustable ring outside, the adjustable ring reaches and rotates the holistic outside cover of piece and be equipped with the protection casing.

Optionally, the outer arc-shaped clamping channels are arranged in a plurality and coaxially arranged, the distances from the outer arc-shaped clamping channels to the circle center of the rotating disc are different, and first opening and closing doors are arranged at two ends of each outer arc-shaped strip hole.

Optionally, one side at outer arc strip hole both ends all is provided with the stretching-in groove, stretch into the inslot be provided with the first switch spare that first switch door is connected, first switch spare is used for controlling first switch door is in outer arc strip hole port with stretch into and remove between the groove, and then the realization is right the switch of outer arc strip hole tip.

Optionally, the driving piece is including being located driving motor in the cavity, driving motor's output has the driving gear through the drive shaft connection, driving gear one side meshing transmission is connected with and is located the driven gear of rolling disc lateral wall, the rolling disc pass through the driven shaft with the cavity lateral wall is connected, the driven shaft with the cavity lateral wall passes through the bearing and connects.

Based on the above embodiment, an assistance method of an assistance device for mineral mining is provided, including the steps of: when the machine body tends to move backwards, the driving piece is started to drive the rotating disc to rotate clockwise, the first sliding block, the second sliding block and the third sliding block in the inner arc-shaped strip hole sequentially enter the connecting strip hole and the outer arc-shaped strip hole, so that the first sliding block firstly enters the outer arc-shaped strip hole, the left inclined support piece firstly performs forward tilting contact and support on the inner side wall of the mine hole, the middle front support piece performs contact and support on the inner side wall of the mine hole, the right inclined support piece finally performs contact and support on the inner side wall of the mine hole, the second sliding block and the third sliding block move into the outer arc-shaped strip hole in the first sliding block, the left inclined support piece, the right inclined support piece and the middle front support piece all support the mine hole, the machine body and the mine hole are fixed by the left inclined support piece, the right inclined support piece and the middle front and back vibration of the middle front and back support piece, the forward and back movement of the machine body is effectively reduced, and the production efficiency of mineral mining is improved; when the fuselage has the tendency of forward movement, start the driving piece, the rolling disc anticlockwise rotates, the right side bearing diagonal piece of rear side removes toward mine opening lateral wall direction earlier, then well positive support piece removes toward mine opening lateral wall direction, later left side bearing diagonal piece removes toward mine opening lateral wall direction, at first slider, second slider and third slider all remove in the outer arc strip hole, left side bearing diagonal piece, right side bearing diagonal piece and well positive support piece all support the mine opening, effectively reduce fuselage seesaw and remove, and then improve the production efficiency of mineral exploitation.

The invention has the beneficial effects that: when a mining assembly mines minerals and a machine body tends to move backwards, a driving piece is started to drive a rotating disc to rotate clockwise, so that a first sliding block, a second sliding block and a third sliding block move in an adjusting channel, the first sliding block, the second sliding block and the third sliding block in an inner arc-shaped strip hole sequentially enter a connecting strip hole and an outer arc-shaped strip hole, the first sliding block firstly enters the outer arc-shaped strip hole, then a left inclined support firstly carries out forward contact and support on the inner side wall of a mine hole, then a middle front support carries out contact and support on the inner side wall of the mine hole, a right inclined support finally carries out contact and support on the inner side wall of the mine hole, a left inclined support on the front side firstly moves towards the side wall of the mine hole, then the middle front support moves towards the side wall of the mine hole, then a right inclined support moves towards the side wall of the mine hole, the first sliding block, the second sliding block and the third sliding block all move into the outer arc-shaped strip hole, the left inclined support, the middle inclined support and the left inclined support and the middle inclined support carry out forward and backward vibration on the machine body to effectively reduce the mining efficiency; when the fuselage has the tendency of forward movement, start the driving piece, the rolling disc anticlockwise rotates, the right side bearing diagonal piece of rear side removes toward mine opening lateral wall direction earlier, then well positive support piece removes toward mine opening lateral wall direction, later left side bearing diagonal piece removes toward mine opening lateral wall direction, at first slider, second slider and third slider all remove in the outer arc strip hole, left side bearing diagonal piece, right side bearing diagonal piece and well positive support piece all support the mine opening, effectively reduce fuselage seesaw and remove, and then improve the production efficiency of mineral exploitation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1;

FIG. 4 is a schematic structural diagram of a stabilizing assembly according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure at C in FIG. 4;

FIG. 6 is a schematic top view of a fixing assembly according to an embodiment of the present invention;

fig. 7 is an enlarged schematic view of the structure at D in fig. 6.

In the figure: 1. a body; 2. a transport assembly; 3. a control component; 4. a mining assembly; 5. a stabilizing assembly; 6. a drive member; 7. a drive motor; 8. a driving gear; 9. a driven gear; 10. rotating the disc; 11. an outer arc-shaped bar hole; 12. an inner arc-shaped strip hole; 13. a driven shaft; 14. a connecting bar hole; 15. a left inclined hole; 16. a right inclined hole; 17. a center hole; 18. a left diagonal support member; 19. a right diagonal support; 20. a mid-right support; 21. a first slider; 22. a second slider; 23. a third slider; 24. a communicating pore channel; 25. a first multi-section telescopic limiting rod; 26. a first switch door; 27. a fixing component; 28. adjusting the motor; 29. an adjusting gear; 30. a rotating gear; 31. a collection box; 32. driving the telescopic rod; 33. a restraining cylinder; 34. an outer limiting arc groove; 35. an inner limiting arc groove; 36. connecting the arc grooves; 37. a first limiting block; 38. a second limiting block; 39. a third limiting block; 40. an adjusting ring; 41. an upper oblique fixing rod; 42. a middle positive fixing rod; 43. a lower oblique fixing rod; 44. an upper inclined slideway; 45. a middle positive slideway; 46. a declined slide way; 47. and (4) passing through the channel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments and the accompanying drawings.

It should be noted that technical terms or scientific terms used in the embodiments of the present invention should have a general meaning as understood by those having ordinary skill in the art to which the present invention belongs, unless otherwise defined. The use of "first," "second," and similar terms in the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used only to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

As shown in fig. 1 and 2, an auxiliary device for mineral mining comprises a machine body 1, a transportation assembly 2 is connected under the machine body 1, the transportation assembly 2 is used for driving the machine body 1 to move in a mine hole, the machine body 1 is connected with a mining assembly 4 through a control assembly 3, the control assembly 3 is used for controlling the operation of the mining assembly 4 so as to collect minerals in the mine hole, a stabilizing assembly 5 is arranged on the machine body 1, the stabilizing assembly 5 comprises a cavity in the machine body 1, a rotating disc 10 is arranged in the cavity, a driving piece 6 for driving the rotating disc 10 to rotate is arranged on one side of the rotating disc 10, an adjusting channel is arranged on the rotating disc 10 and comprises an outer arc-shaped blocking channel, the outer arc-shaped blocking channel comprises at least three outer arc-shaped bar holes 11 which are arranged at equal intervals, wherein the three outer arc-shaped bar holes 11 are respectively arranged on the left side, the upper side and the right side of the machine body 1, the inner oblique side of the outer arc-shaped clamping channel is provided with an inner arc-shaped clamping channel, the inner arc-shaped clamping channel comprises at least three inner arc-shaped strip holes 12, the inner arc-shaped strip holes 12 are positioned between two adjacent outer arc-shaped strip holes 11, the inner arc-shaped strip holes 12 are communicated with the adjacent outer arc-shaped strip holes 11 through connecting strip holes 14, the distance from the outer arc-shaped strip holes 11 to the circle center of the rotating disk 10 is greater than the distance from the inner arc-shaped strip holes 12 to the circle center of the rotating disk 10, a plurality of sliding blocks with the same number as the outer arc-shaped strip holes 11 are connected in the adjusting channel in a sliding manner, each sliding block comprises a first sliding block 21, a second sliding block 22 and a third sliding block 23, a left oblique hole 15 arranged in a matched manner with the first sliding block 21, a middle oblique hole 17 arranged in a matched manner with the second sliding block 22 and a right oblique hole 16 arranged in a matched manner with the third sliding block 23 are arranged on the machine body 1, the left inclined hole 15 is located at the front left side of the middle right hole 17, the right inclined hole 16 is located at the rear right side of the middle right hole 17, a left inclined support 18 connected with the first sliding block 21, a right inclined support 19 connected with the third sliding block 23 and a middle right support 20 connected with the second sliding block 22 are respectively arranged in the left inclined hole 15, the right inclined hole 16 and the middle right hole 17, and supporting plates are arranged at the end parts of the left inclined support 18, the right inclined support 19 and the middle right support 20; when the first sliding block 21, the second sliding block 22 and the third sliding block 23 slide in the inner arc-shaped bar hole 12, the left inclined support 18 does not extend out of the left inclined hole 15, the right inclined support 19 does not extend out of the right inclined support 19 and the middle right support 20 does not extend out of the right inclined hole 16, and when the first sliding block 21, the second sliding block 22 and the third sliding block 23 slide in the outer arc-shaped bar hole 11, the left inclined support 18 extends out of the left inclined hole 15, the right inclined support 19 extends out of the right inclined support 19 and the middle right support 20 extends out of the right inclined hole 16 and supports the inner side wall of the mine hole.

When the mining assembly 4 mines minerals and the machine body 1 tends to move backwards, the driving part 6 is started to drive the rotating disc 10 to rotate clockwise, so that the first sliding block 21, the second sliding block 22 and the third sliding block 23 move in the adjusting channel, the first sliding block 21, the second sliding block 22 and the third sliding block 23 in the inner arc-shaped strip hole 12 sequentially enter the connecting strip hole 14 and the outer arc-shaped strip hole 11, so that the first sliding block 21 enters the outer arc-shaped strip hole 11 most first, then the left inclined support 18 firstly contacts and supports the inner side wall of the mine hole in a forward inclining mode, then the middle support 20 contacts and supports the inner side wall of the mine hole, the right inclined support 19 finally contacts and supports the inner side wall of the mine hole, the left inclined support 18 on the front side firstly moves towards the side wall direction of the mine hole, then the middle support 20 moves towards the side wall direction of the mine hole, then the right inclined support 19 moves towards the side wall direction of the mine hole, the first slide block 21, the second slide block 22 and the third slide block 23 all move into the outer arc-shaped strip hole 11, the left inclined support 18, the right inclined support 19 and the middle support 20 all support the mine hole, the left inclined support 18, the right inclined support 19 and the middle support 20 fix the machine body 1 and the mine hole in the forward and backward directions, the forward and backward vibration movement of the machine body 1 is effectively reduced, and the production efficiency of mineral mining is further improved; when fuselage 1 has the tendency of forward movement, start driving piece 6, rolling disc 10 anticlockwise rotation, the right inclined support piece 19 of rear side removes toward mine opening lateral wall direction earlier, then well positive support piece 20 removes toward mine opening lateral wall direction, later left inclined support piece 18 removes toward mine opening lateral wall direction, at first slider 21, second slider 22 and third slider 23 all remove in outer arc strip hole 11, left inclined support piece 18, right inclined support piece 19 and well positive support piece 20 all support the mine opening, effectively reduce fuselage 1 seesaw and remove, and then improve the production efficiency of mineral exploitation.

In order to facilitate the connection between the first slider 21 and the left inclined strut member 18, between the third slider 23 and the right inclined strut member 19, and between the second slider 22 and the middle positive strut member 20, the first slider 21 and the left inclined strut member 18, the third slider 23 and the right inclined strut member 19, and the second slider 22 and the middle positive strut member 20 are all fixedly connected by a first multi-section telescopic limiting rod 25, and a first limiting spring coaxially arranged with the first multi-section telescopic limiting rod 25 is arranged in the first multi-section telescopic limiting rod 25.

And a communicating pore canal 24 for accommodating the first multi-section telescopic limiting rod 25 is communicated between the left inclined hole 15, the right inclined hole 16 and the middle front hole 17 and the cavity.

As shown in fig. 4 and 5, in order to be conveniently applicable to mine openings of different sizes, the outer arc-shaped block way is provided with a plurality of outer arc-shaped block ways, the plurality of outer arc-shaped block ways are coaxially arranged, the distances from the plurality of outer arc-shaped block ways to the circle center of the rotating disc 10 are different, first switch doors 26 are arranged at two ends of each outer arc-shaped strip hole 11, an appropriate outer arc-shaped strip hole 11 is selected according to the size of the mine opening, then two ends of each outer arc-shaped strip hole 11 of the appropriate outer arc-shaped strip hole 11 with a smaller radius are closed, two ends of each outer arc-shaped strip hole 11 are closed through the first switch doors 26, then the first sliding block 21, the second sliding block 22 and the third sliding block 23 can move to the appropriate selected outer arc-shaped strip hole 11 matched with the first sliding block 21, the second sliding block 22 and the third sliding block 23, and the left inclined supporting piece 18, the right inclined supporting piece 19 and the middle supporting piece 20 are convenient for supporting the mine opening and are not excessively pressed and supported.

One side at 11 both ends in outer arc strip hole all is provided with stretches into the groove, stretch into the inslot be provided with the first switch spare that first switch door 26 is connected, first switch spare is used for control first switch door 26 is in outer arc strip hole 11 ports with stretch and remove between the groove, and then the realization is right the switch of 11 tip in outer arc strip hole.

In order to be used for driving the rolling disc 10 to rotate, the driving piece 6 is including being located driving motor 7 in the cavity, driving motor 7's output has driving gear 8 through the drive shaft connection, 8 side meshing transmissions of driving gear are connected with and are located driven gear 9 of 10 lateral walls of rolling disc, rolling disc 10 through the driven shaft 13 with the cavity lateral wall is connected, the driven shaft 13 with the cavity lateral wall passes through the bearing and connects.

As shown in fig. 1 and 3, a conveying assembly and a collecting box 31 are arranged at the rear side of the machine body 1, the collecting box 31 is used for collecting minerals in a mine hole, the conveying assembly comprises a transmission belt positioned on the machine body 1, the transmission belt is used for transmitting the collecting box 31, a vertically arranged driving telescopic rod 32 is arranged at one side of the transmission belt, the telescopic end of the driving telescopic rod 32 is connected with a fixing assembly 27, the fixing assembly 27 is used for fixing the collecting box 31, and the driving telescopic rod 32 extends to be used for transporting the collecting box 31 fixed by the fixing assembly 27 upwards.

When mineral, dust or stone are transported in the needs are to the mine hole, can place the object that needs the transportation to collection box 31, then collection box 31 transports under the transportation of drive belt under fixed subassembly 27 under, drive telescopic link 32 contracts and makes fixed subassembly 27 cover collection box 31, fixed subassembly 27 fixes collection box 31, drive telescopic link 32 extension is used for transporting the collection box 31 of fixed subassembly 27 centre gripping.

As shown in fig. 3, 6 and 7, the fixing assembly 27 is used to fix the collecting chamber 31, the fixing component 27 comprises a limiting cylinder 33, the upper end of the limiting cylinder 33 is provided with an adjusting ring 40 in a sliding way, a rotating part is provided at one side of the adjusting ring 40, the rotating part is used for controlling the adjusting ring 40 to rotate, the adjusting ring 40 is provided with a limiting path, the limiting path comprises an outer limiting arc path and an inner limiting arc path positioned at the inner side of the outer limiting arc path, the outer limiting arc channel comprises at least two outer limiting arc grooves 34, the inner limiting arc channel comprises inner limiting arc grooves 35 matched with the outer limiting arc grooves 34, the outer limiting arc grooves 34 are arranged between two adjacent inner limiting arc grooves 35, the outer limiting arc groove 34 is communicated with the inner limiting arc groove 35 adjacent to the outer limiting arc groove through a connecting arc groove 36, limiting slide blocks matched with the outer limiting arc grooves 34 in number are arranged in the limiting channels, the restricting slide comprises a first restricting block 37, a second restricting block 38 and a third restricting block 39, the limiting cylinder 33 is provided with fixing pieces matched with the outer limiting arc grooves 34 in number, the fixing piece comprises a middle positive slideway 45 arranged on the limiting cylinder 33, an upper oblique slideway 44 is arranged on the middle positive slideway 45 along the clockwise oblique upper part of the axis of the limiting cylinder 33, the middle-right slide way 45 is provided with a lower inclined slide way 46 along the anticlockwise and obliquely lower part of the axis of the limiting cylinder 33, an upper inclined fixing rod 41 connected with the first limiting block 37, a middle positive fixing rod 42 connected with the second limiting block 38 and a lower inclined fixing rod 43 connected with the third limiting block 39 are respectively arranged in the upper inclined slide way 44, the middle positive slide way 45 and the lower inclined slide way 46 in a sliding manner.

When the fixed component 27 covers the outer side of the collecting box 31, the rotating component is started to drive the adjusting ring 40 to rotate clockwise, the first limiting block 37, the second limiting block 38 and the third limiting block 39 are all arranged in the outer limiting arc groove 34 before the rotation starts, the adjusting ring 40, the upper oblique fixing rod 41 and the middle positive fixing rod 42 are not contacted with the collecting box 31, the adjusting ring 40 rotates anticlockwise to drive the first limiting block 37, the second limiting block 38 and the third limiting block 39 to move in the limiting channel in the sequence of the outer limiting arc groove 34, the connecting arc groove 36 and the inner limiting arc groove 35, the first limiting block 37 firstly enters the inner limiting arc groove 35, so that the upper slanting fixing rod 41 firstly fixes the collection box 31, preventing the collection box 31 from falling, then the second limiting block 38 and the third limiting block 39 enter the inner limiting arc groove 35 in sequence, so that the middle and positive fixing rods 42 and the lower and oblique fixing rods 43 clamp and fix the collecting box 31 in sequence, the collecting box 31 is prevented from falling down during up and down transportation, the working efficiency is prevented from being influenced, after the collection box 31 has been transported over the fuselage 1, the collection box 31 is still in a fixed state with the fixed assembly 27, when the collecting box 31 needs to be separated from the fixed component 27, the rotating part is started to drive the adjusting ring 40 to rotate anticlockwise, the adjusting ring 40 rotates clockwise to drive the third limiting block 39, the second limiting block 38 and the first limiting block 37 to move in the limiting channel in the sequence of the inner limiting arc groove 35, the connecting arc groove 36 and the outer limiting arc groove 34, the third limiting block 39 firstly enters the outer limiting arc groove 34, so that the lower inclined fixed rod 43 firstly loosens the collecting box 31, then the middle positive fixing rod 42 and the upper oblique fixing rod 41 are sequentially opposite to the upper oblique fixing rod 41, and the upper oblique fixing rod 41 is finally loosened so as to prevent the collecting box 31 from accidentally falling.

In order to prevent the adjusting ring 40 from deviating and affecting the operation of the fixing assembly 27, the limiting cylinder 33 is provided with an annular sliding groove, and an arc-shaped sliding block fixedly connected with the adjusting ring 40 is slidably arranged in the annular sliding groove.

In order to prevent the first sliding block 21, the second sliding block 22 and the third sliding block 23 from being separated from the limiting track and increase the risk of device failure, a second multi-section telescopic limiting rod is fixedly arranged between the first limiting block 37 and the upper inclined fixing rod 41, between the second limiting block 38 and the middle positive fixing rod 42 and between the third limiting block 39 and the lower inclined fixing rod 43, and a second limiting spring is coaxially arranged in the second multi-section telescopic limiting rod.

The upper ends of the upper inclined slide way 44, the middle inclined slide way 45 and the lower inclined slide way 46 are provided with through channels 47 for accommodating the second multi-section telescopic limiting rods.

In order to control the rotation of the adjusting ring 40, the rotation part is located the adjusting motor 28 on the limiting cylinder 33, the output end of the adjusting motor 28 is connected with the adjusting gear 29, the meshing transmission of one side of the adjusting gear 29 is connected with and sleeved on the rotating gear 30 outside the adjusting ring 40, the adjusting ring 40 and the whole outside cover of the rotation part are provided with a protective cover.

The vibration suppression device effectively suppresses the vibration movement of the machine body 1 in the front-back direction during working, and further improves the production efficiency of mineral mining.

Based on the above embodiment, an assistance method of an assistance device for mineral mining is provided, including the steps of: mining minerals in the mining assembly 4, when the machine body 1 tends to move backwards, starting the driving piece 6 to drive the rotating disc 10 to rotate clockwise, sequentially enabling the first slide block 21, the second slide block 22 and the third slide block 23 in the inner arc-shaped strip hole 12 to enter the connecting strip hole 14 and the outer arc-shaped strip hole 11, enabling the first slide block 21 to firstly enter the outer arc-shaped strip hole 11, enabling the left inclined support piece 18 to firstly contact and support the inner side wall of the mine hole in a forward tilting mode, enabling the middle front support piece 20 to contact and support the inner side wall of the mine hole, enabling the right inclined support piece 19 to finally contact and support the inner side wall of the mine hole, enabling the machine body 1 and the mine hole to be fixed in the forward and backward directions by the first slide block 21, the second slide block 22 and the third slide block 23 to move into the outer arc-shaped strip hole 11, enabling the left inclined support piece 18, the right inclined support piece 19 and the middle front support piece 20 to support the mine hole, effectively reducing forward and backward movement of the machine body 1, and improving production efficiency of mining minerals; when fuselage 1 has the tendency of forward movement, start driving piece 6, carousel 10 anticlockwise rotation, the right inclined strut piece 19 of rear side removes toward mine cavity lateral wall direction earlier, then well positive support piece 20 removes toward mine cavity lateral wall direction, later left side inclined strut piece 18 removes toward mine cavity lateral wall direction, at first slider 21, second slider 22 and third slider 23 all remove in outer arc strip hole 11, left side inclined strut piece 18, right inclined strut piece 19 and well positive support piece 20 all support the mine cavity, effectively reduce fuselage 1 seesaw and remove, and then improve mineral exploitation's production efficiency.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to imply that the scope of the invention is limited to these examples; within the idea of the invention, also technical features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The embodiments of the invention are intended to embrace all such alternatives, modifications and variances that fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements and the like that may be made without departing from the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims

1. The utility model provides an auxiliary device for mineral exploitation, includes fuselage (1), its characterized in that, be provided with on fuselage (1) and stabilize subassembly (5), stabilize subassembly (5) including being located the cavity in fuselage (1), be provided with rolling disc (10) in the cavity, rolling disc (10) one side is provided with and is used for the drive rolling disc (10) pivoted driving piece (6), set up regulation way on rolling disc (10), regulation way is including outer arc card way, outer arc card way includes at least three outer arc strip hole (11), two adjacent inboard between outer arc strip hole (11) is provided with interior arc strip hole (12), interior arc strip hole (12) rather than adjacent communicate through connecting strip hole (14) between outer arc strip hole (11), sliding block that sliding connection has in the regulation way a plurality of with the quantity the same in outer arc strip hole (11) is with the slider of a plurality of slider that the quantity the slider sets up with the left side inclined hole (17) that first slider (21), second slider (22) and third slider (23), be provided with the slider (17) in the first slider (21) sets up with the left side inclined hole (17) that the second slider (15) and the second slider (17) is arranged in the right side inclined hole (17) and the slider that the slider cooperation, slider (17) sets up in the slider that the first slider is arranged in the right side inclined hole (17), the right inclined hole (16) is positioned at the rear right side of the middle right hole (17), and a left inclined support (18) connected with the first sliding block (21), a right inclined support (19) connected with the third sliding block (23) and a middle right support (20) connected with the second sliding block (22) are respectively arranged in the left inclined hole (15), the right inclined hole (16) and the middle right hole (17);

the first sliding block (21) and the left inclined supporting piece (18), the third sliding block (23) and the right inclined supporting piece (19) and the second sliding block (22) and the middle front supporting piece (20) are fixedly connected through a first multi-section telescopic limiting rod (25);

the outer arc-shaped clamping channels are coaxially arranged and are different from the circle center of the rotating disc (10), and first switch doors (26) are arranged at two ends of each outer arc-shaped strip hole (11).

2. An auxiliary device for mineral extraction according to claim 1, wherein a first restraining spring is provided within the first plurality of telescoping restraining rods (25) coaxially therewith.

3. An auxiliary device for mineral extraction according to claim 2, characterized in that a communicating duct (24) for accommodating the first plurality of telescopic restraint rods (25) is communicated between the left inclined hole (15), the right inclined hole (16) and the central hole (17) and the cavity.

4. The auxiliary device for mineral exploitation according to claim 1, wherein a conveying assembly and a collecting box (31) are arranged at the rear side of the machine body (1), the collecting box (31) is used for collecting minerals in a mine hole, the conveying assembly comprises a transmission belt positioned on the machine body (1) and used for conveying the collecting box (31), a vertically arranged driving telescopic rod (32) is arranged on one side of the transmission belt, a fixing assembly (27) is connected to the telescopic end of the driving telescopic rod (32), the fixing assembly (27) is used for fixing the collecting box (31), and the driving telescopic rod (32) extends to convey the collecting box (31) fixed by the fixing assembly (27) upwards.

5. The auxiliary device for mineral mining according to claim 4, wherein the fixing component (27) comprises a limiting cylinder (33), an adjusting ring (40) is slidably arranged at the upper end of the limiting cylinder (33), a rotating part is arranged on one side of the adjusting ring (40) and used for controlling the adjusting ring (40) to rotate, a limiting path is arranged on the adjusting ring (40) and comprises an outer limiting arc path and an inner limiting arc path positioned on the inner side of the outer limiting arc path, the outer limiting arc path comprises at least two outer limiting arc grooves (34), the inner limiting arc path comprises an inner limiting arc groove (35) matched with the outer limiting arc groove (34), set up between two adjacent interior restriction arc groove (35) outer restriction arc groove (34), outer restriction arc groove (34) communicate through connecting arc groove (36) rather than adjacent between interior restriction arc groove (35), be provided with in the restriction way with the quantity assorted restriction slider in outer restriction arc groove (34), restriction slider includes first restriction piece (37), second restriction piece (38) and third restriction piece (39), set up on restriction section of thick bamboo (33) with the fixed part of quantity assorted in outer restriction arc groove (34), the fixed part is including seting up well positive slide (45) on restriction section of thick bamboo (33), well positive slide (45) are provided with oblique upper ramp along the clockwise oblique top of the axis of restriction section of thick bamboo (33) in well positive slide (45) (44) The middle positive slide way (45) is provided with a downward inclined slide way (46) along the anticlockwise inclined lower side of the axis of the limiting barrel (33), and an upward inclined fixing rod (41) connected with the first limiting block (37), a middle positive fixing rod (42) connected with the second limiting block (38) and a downward inclined fixing rod (43) connected with the third limiting block (39) are respectively arranged in the upward inclined slide way (44), the middle positive slide way (45) and the downward inclined slide way (46) in a sliding manner.

6. The auxiliary device for mineral mining according to claim 5, characterized in that the rotating part comprises an adjusting motor (28) positioned on the limiting cylinder (33), an output end of the adjusting motor (28) is connected with an adjusting gear (29), one side of the adjusting gear (29) is in meshing transmission connection with a rotating gear (30) sleeved on the outer side of the adjusting ring (40), and the adjusting ring (40) and the integral outer side of the rotating part are covered with a protective cover.

7. The auxiliary device for mineral exploitation, according to claim 1, wherein one side of each of two ends of the outer arc-shaped bar hole (11) is provided with an extending groove, a first switch member connected to the first switch door (26) is disposed in the extending groove, and the first switch member is configured to control the first switch door (26) to move between the end of the outer arc-shaped bar hole (11) and the extending groove, so as to switch the end of the outer arc-shaped bar hole (11).

8. An auxiliary device for mineral exploitation according to claim 1, wherein the driving member (6) comprises a driving motor (7) located in the cavity, an output end of the driving motor (7) is connected with a driving gear (8) through a driving shaft, one side of the driving gear (8) is in meshing transmission connection with a driven gear (9) located on an outer side wall of the rotating disc (10), and the rotating disc (10) is connected with the side wall of the cavity through a driven shaft (13).

9. An assisting method of a mineral mining assisting apparatus according to claim 1, comprising the steps of: when the machine body (1) tends to move backwards, a driving piece (6) is started to drive a rotating disc (10) to rotate clockwise, a first sliding block (21), a second sliding block (22) and a third sliding block (23) in an inner arc-shaped strip hole (12) sequentially enter a connecting strip hole (14) and an outer arc-shaped strip hole (11), so that the first sliding block (21) firstly enters the outer arc-shaped strip hole (11), a left inclined supporting piece (18) firstly carries out forward contact and support on the inner side wall of the mine hole, a middle front supporting piece (20) carries out contact and support on the inner side wall of the mine hole, a right inclined supporting piece (19) finally carries out contact and support on the inner side wall of the mine hole, the first sliding block (21), the second sliding block (22) and the third sliding block (23) both move into the outer arc-shaped strip hole (11), the left inclined supporting piece (18), the right inclined supporting piece (19) and the middle front supporting piece (20) all support the mine hole, the left inclined supporting piece (18), the right inclined supporting piece (19) and the middle front supporting piece (20) effectively move forwards and backwards to reduce the machine body (1); when fuselage (1) has the tendency of forward movement, start driving piece (6), rolling disc (10) anticlockwise rotation, the right inclined strut piece (19) of rear side removes toward mine opening lateral wall direction earlier, then well positive strut piece (20) remove toward mine opening lateral wall direction, later left side inclined strut piece (18) remove toward mine opening lateral wall direction, at first slider (21), second slider (22) and third slider (23) all remove in outer arc strip hole (11), left side inclined strut piece (18), right inclined strut piece (19) and well positive strut piece (20) all support the mine opening, effectively reduce fuselage (1) shake removal from beginning to end.