CN112440391A

CN112440391A - Conveniently adjust ore processing equipment of processing cutter

Info

Publication number: CN112440391A
Application number: CN202011389977.9A
Authority: CN
Inventors: 吴价
Original assignee: Taizhou Tongshi Technology Co ltd
Current assignee: Taizhou Tongshi Technology Co ltd
Priority date: 2020-12-02
Filing date: 2020-12-02
Publication date: 2021-03-05

Abstract

The invention discloses ore processing equipment convenient for adjusting a processing cutter, which comprises an ore processing main body, wherein a processing cavity with a leftward opening is formed in the left side in the ore processing main body, a processing device is arranged on the lower side in the processing cavity and comprises a lifting cavity communicated with the right side of the processing cavity, large ores are moved firstly in a centralized collection and processing mode, so that the ores are cut by a cutting device, cut surfaces of the ores are adjusted by a steering device, different ores are processed by adjusting the size of the cutting cutter, different ore processing is adapted, the ore processing equipment is convenient and quick, the replacement of the cutting cutter with different sizes is avoided, the processing time is saved, the processing flow is optimized, and the large ores are prevented from being moved, thereby avoiding damage and having good effect.

Description

Conveniently adjust ore processing equipment of processing cutter

Technical Field

The invention relates to the technical field of ore processing, in particular to ore processing equipment with a processing cutter convenient to adjust.

Background

In the technical field of ore processing, general ores need to be cut and processed, when the ores are large, the ores are difficult to move, the processing direction of the ores needs to be adjusted, manual processing is performed, time and labor are wasted, the ores cannot be processed and processed quickly, processing cutters of different sizes need to be replaced for different ores, time is consumed during replacement, the processing flow is complex, certain damage can be caused to the ores, the ores cannot be processed and processed quickly and accurately, the processing effect is poor, and the problem can be solved.

Disclosure of Invention

In order to solve the problems, the ore processing equipment convenient for adjusting the processing cutter is designed in the embodiment, and comprises an ore processing main body, wherein a processing cavity with a leftward opening is formed in the left side in the ore processing main body, a processing device is arranged on the lower side in the processing cavity, the processing device comprises a lifting cavity communicated with the right side of the processing cavity, a lifting block capable of moving up and down is arranged in the lifting cavity, a supporting block is fixedly arranged at the left end of the lifting block and extends into the processing cavity, a control cavity is formed in the supporting block, the upper side of the control cavity is communicated with the control cavity, a push plate capable of moving left and right is arranged on the left side in the control cavity, the push plate can push ores on the upper side of the supporting block, a cutting cavity is communicated with the upper right side of the processing cavity, the ore processing device is arranged in the cutting cavity and comprises a rotating cavity communicated with the lower side of the cutting cavity, a rotating disc is rotatably arranged in the rotating cavity and can control the processed direction of ore, the cutting cavity is symmetrical in front and back and is communicated with a moving cavity, a moving slider capable of moving up and down is arranged on the upper side in the moving cavity, a cutting block is fixedly arranged at the middle position of the moving slider, a cutting tool cavity is arranged in the cutting block, a cutting cylinder is rotatably arranged in the cutting tool cavity, three cutting tools are rotatably arranged in the cutting tool cavity in an annular array manner, the cutting tools can cut the ore, a moving sleeve cavity is arranged on the right side of the cutting tool cavity, a moving sleeve shaft is rotatably arranged in the moving sleeve cavity, a moving sleeve is rotatably arranged on the outer circular surface of the moving sleeve shaft, a polishing wheel is fixedly arranged in the cutting cavity, the lower end of the moving sleeve extends to, the grinding wheel can polish the terminal surface of ore cutting and polish the processing, the cutting chamber communicates the collection chamber that is equipped with front and back symmetry down, the collection chamber can be used for depositing the ore waste material that has cut.

Preferably, the lifting cavity lower side is provided with a sliding cavity, the sliding cavity inner side is communicated with a sliding spring cavity, a sliding cavity moving block capable of moving left and right is arranged at the middle position in the sliding spring cavity, sliding cavity electromagnets are symmetrically and fixedly arranged in the sliding spring cavity, the sliding cavity electromagnets are arranged on the left side and the right side and close to one end face each other, a sliding cavity spring is fixedly connected between the left end face and the right end face of the sliding cavity moving block, a driving shaft is arranged on the inner side of the sliding cavity moving block in a rotating mode, and outer circular faces of the left end and the right end of the driving shaft extend to the sliding cavity.

Preferably, a lifting shaft bevel gear is rotatably arranged on the left side in the sliding cavity and can be meshed with the driving bevel gear on the left side, a lifting shaft is fixedly arranged on the axis of the lifting shaft bevel gear, the outer circular surface of the upper end of the lifting shaft extends into the lifting cavity and is in threaded connection with the lifting block, a power motor which is right opposite to the axis of the driving shaft is fixedly arranged in the sliding cavity moving block, and the driving shaft is in power connection with the power motor.

Preferably, the left side of the sliding cavity rotates to be provided with a driven bevel gear, the axis of the driven bevel gear is fixedly provided with a driven shaft, the upper side of the lifting cavity is provided with a synchronous belt cavity, the outer circular surface of the upper end of the driven shaft extends to the inside of the synchronous belt cavity, a first synchronous belt pulley is fixedly arranged in the synchronous belt cavity, the left side of the synchronous belt cavity rotates to be provided with a second synchronous belt pulley, a synchronous belt is wound between the second synchronous belt pulley and the first synchronous belt pulley, the axis of the second synchronous belt pulley is fixedly provided with a rotating shaft, and the outer circular surface of the upper end of the rotating shaft extends to the inside.

But preferably, be equipped with transmission sleeve chamber in the cutting section of thick bamboo, the rotation of transmission sleeve intracavity is equipped with transmission sleeve axle, the fixed transmission sleeve that is equipped with in the outer disc of transmission sleeve axle, transmission sleeve intracavity longitudinal symmetry just rotates and is equipped with the piece of accepting, it is equipped with the fixed spring chamber to accept the piece, the fixed spring intracavity is kept away from one side each other and is fixed and be equipped with fixed chamber electro-magnet, the fixed spring intracavity is close to one side each other and is equipped with the fixed chamber slider that can reciprocate, fixed chamber electro-magnet with the fixed chamber spring of fixedly connected with between the fixed chamber slider, be equipped with the draw-in groove of longitudinal symmetry in the transmission sleeve, fixed chamber slider can get into in the draw-in.

Preferably, the transmission sleeve cavity is internally provided with a transmission sleeve bevel gear fixed on the outer circular surface of the transmission sleeve, the transmission sleeve cavity is internally provided with a circumference array and rotates to form three rotating sleeve bevel gears, the rotating sleeve bevel gears are meshed with the transmission sleeve bevel gears, the axes of the rotating sleeve bevel gears are fixedly provided with rotating sleeve shafts, the circumference array is provided with three rotating sleeve cavities in the cutting cylinder, the rotating sleeve cavities are internally provided with rotating sleeves capable of extending outwards, one ends of the rotating sleeves are fixedly provided with rotating sleeve blocks, the rotating sleeve blocks are in threaded connection with the rotating sleeve shafts, and one ends of the rotating sleeves, which are far away from each other, extend to the inside of the cutting tool cavities respectively and are fixedly connected with one end surfaces of the cutting tools, which are close to each other.

Preferably, a moving shaft is rotatably arranged in the moving cavity, the outer circular surface of the upper end of the moving shaft at the front side and the outer circular surface of the upper end of the moving shaft at the rear side are in threaded connection with the front end and the rear end of the moving slider, a transmission motor which is right opposite to the axis of the moving shaft at the rear side is fixedly arranged in the lower wall of the moving cavity at the rear side, and the moving shaft at the rear side is in power connection with the.

Preferably, the upper side is equipped with the water cavity in the ore processing main part, water cavity right side intercommunication is equipped with the spray line, the spray line with the fixed water pump that is equipped with between the water cavity, the water pump right side with spray line left side intercommunication, it is fixed in to remove the sleeve intracavity be equipped with the rotation bevel gear that is fixed in remove the outer disc of quill, the outer disc of transmission quill right-hand member extends to it is equipped with transmission bevel gear to remove the fixed transmission bevel gear that is equipped with of sleeve intracavity, transmission bevel gear with the rotation bevel gear meshing, it is just right to remove sleeve intracavity left wall internal fixation be equipped with the rotation motor in transmission quill axle center, transmission quill power connect in rotate the motor.

Preferably, the right side of the movable sleeve cavity is communicated with a movable spring cavity, a movable cavity electromagnet is fixedly arranged on the lower side of the movable spring cavity, a movable cavity sliding block capable of moving up and down is arranged on the upper side of the movable spring cavity, a movable cavity spring is fixedly connected between the movable cavity sliding block and the movable cavity electromagnet, and the left end of the movable cavity sliding block extends into the movable sleeve cavity and is rotatably connected with the outer circular surface of the movable sleeve.

The invention has the beneficial effects that: according to the ore processing device, the ores are collected in a centralized mode and then processed, large ores are moved firstly, so that the ores are cut by the cutting device, the cut surfaces of the ores are adjusted by the steering device, different ores are processed by adjusting the size of the cutting tool, different ore processing is adapted, the ore processing device is convenient and quick to process, the cutting tools with different sizes are prevented from being replaced, the processing time is saved, the processing flow is optimized, the large ores are prevented from being moved, and the ore processing device is prevented from being damaged.

Drawings

In order to more clearly illustrate the embodiments of the 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 some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of an ore processing device with a conveniently adjusted processing tool according to the present invention.

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 1;

FIG. 4 is an enlarged schematic view of C in FIG. 1;

fig. 5 is an enlarged schematic view of D in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to ore processing equipment convenient for adjusting a processing cutter, which comprises an ore processing main body 11, wherein a left-opened processing cavity 15 is arranged at the left side in the ore processing main body 11, a processing device 102 is arranged at the lower side in the processing cavity 15, the processing device 102 comprises a lifting cavity 16 communicated with the right side of the processing cavity 15, a lifting block 23 capable of moving up and down is arranged in the lifting cavity 16, the left end of the lifting block 23 extends into the processing cavity 15 and is fixedly provided with a supporting block 20, a control cavity 19 is arranged in the supporting block 20, the upper side of the control cavity 19 is communicated with a control cavity 17, the right side of the control cavity 19 is fixedly provided with a control plate 22, a push plate 18 capable of moving left and right is arranged at the left side in the control cavity 19, the push plate 18 can push ore at the upper side of the supporting block 20, a cutting cavity 33 is communicated with the upper right side of the, the ore processing device 101 comprises a rotating cavity 32 communicated with and arranged on the lower side of a cutting cavity 33, a rotating disc 31 is arranged in the rotating cavity 32, the rotating disc 31 can control the processed direction of ore, the cutting cavity 33 is symmetrical in the front and back and is communicated with and is provided with a moving cavity 39, a moving slider 38 capable of moving up and down is arranged on the upper side in the moving cavity 39, a cutting block 34 is fixedly arranged in the middle position of the moving slider 38, a cutting tool cavity 35 is arranged in the cutting block 34, a cutting cylinder 37 is arranged in the cutting tool cavity 35 in the rotating manner, an annular array is arranged in the cutting tool cavity 35 in a rotating manner and is provided with three cutting tools 36, the cutting tools 36 can cut ore, a moving sleeve cavity 67 is arranged on the right side of the cutting tool cavity 35, a moving sleeve shaft 59 is arranged in the moving sleeve cavity 67 in the rotating manner, and a moving sleeve 65 is arranged on, the movable sleeve 65 lower extreme extends to cutting chamber 33 internal fixation is equipped with grinding wheel 57, grinding wheel 57 can polish the processing of polishing to the terminal surface of ore cutting, cutting chamber 33 way intercommunication is equipped with the collection chamber 42 of front and back symmetry down, it can be used for depositing the ore waste material that the cutting was accomplished to collect the chamber 42.

Beneficially, a sliding cavity 77 is arranged on the lower side of the lifting cavity 16, a sliding spring cavity 73 is communicated with the inner lower side of the sliding cavity 77, a sliding cavity moving block 74 capable of moving left and right is arranged at the middle position in the sliding spring cavity 73, sliding cavity electromagnets 71 are symmetrically and fixedly arranged in the sliding spring cavity 73, sliding cavity springs 72 are fixedly connected between one end face, close to each other, of the sliding cavity electromagnets 71 on the left side and the right side and two end faces of the sliding cavity moving block 74, a driving shaft 78 is rotatably arranged on the inner upper side of the sliding cavity moving block 74, and outer circular faces of the left end and the right end of the driving shaft 78 extend into the sliding cavity 77 to be fixedly provided with a.

Beneficially, a lifting shaft bevel gear 70 is rotatably arranged at the left side in the sliding cavity 77, the lifting shaft bevel gear 70 can be meshed with the left driving bevel gear 79, a lifting shaft 24 is fixedly arranged at the axis of the lifting shaft bevel gear 70, the outer circumferential surface of the upper end of the lifting shaft 24 extends into the lifting cavity 16 and is in threaded connection with the lifting block 23, a power motor 76 which is opposite to the axis of the driving shaft 78 is fixedly arranged in the sliding cavity moving block 74, and the driving shaft 78 is in power connection with the power motor 76.

Beneficially, a driven bevel gear 75 is rotatably arranged in the sliding cavity 77 on the left side, a driven shaft 25 is fixedly arranged at the axis of the driven bevel gear 75, a synchronous belt cavity 26 is arranged at the upper side of the lifting cavity 16, a first synchronous pulley 29 is fixedly arranged in the synchronous belt cavity 26 and extends from the outer circumferential surface of the upper end of the driven shaft 25, a second synchronous pulley 27 is rotatably arranged in the synchronous belt cavity 26, a synchronous belt 28 is wound between the second synchronous pulley 27 and the first synchronous pulley 29, a rotating shaft 30 is fixedly arranged at the axis of the second synchronous pulley 27, and the outer circumferential surface of the upper end of the rotating shaft 30 extends into the rotating cavity 32 and is fixedly connected with the lower end surface of the rotating disc 31.

Beneficially, a transmission sleeve cavity 43 is arranged in the cutting cylinder 37, a transmission sleeve shaft 55 is rotationally arranged in the transmission sleeve cavity 43, a transmission sleeve 53 is fixedly arranged on the outer circular surface of the transmission sleeve shaft 55, bearing blocks 51 are symmetrically and rotatably arranged in the transmission sleeve cavity 43, a fixed spring cavity 69 is arranged in each bearing block 51, a fixed cavity electromagnet 50 is fixedly arranged on one side, away from each other, in the fixed spring cavity 69, a fixed cavity slider 52 capable of moving up and down is arranged on one side, close to each other, in the fixed spring cavity 69, a fixed cavity spring 68 is fixedly connected between the fixed cavity electromagnet 50 and the fixed cavity slider 52, vertically symmetrical clamping grooves 54 are arranged in the transmission sleeve 53, and the fixed cavity slider 52 can enter the clamping grooves 54 and be fixed.

Advantageously, a transmission sleeve bevel gear 49 fixed to the outer circumferential surface of the transmission sleeve 53 is provided in the transmission sleeve cavity 43, the inner circumferential array of the driving sleeve cavity 43 is provided with three rotating sleeve bevel gears 48 in a rotating manner, the rotating sleeve bevel gear 48 is meshed with the transmission sleeve bevel gear 49, the axis of the rotating sleeve bevel gear 48 is fixedly provided with a rotating sleeve shaft 44, the inner circumference array of the cutting cylinder 37 is provided with three rotating sleeve cavities 45, rotating sleeves 46 capable of extending outwards are arranged in the rotating sleeve cavities 45, a rotating sleeve block 47 is fixedly arranged at one end of the rotating sleeve 46 close to the transmission sleeve cavity 43, the rotating sleeve block 47 is in threaded connection with the rotating sleeve shaft 44, and one end of the rotating sleeve 46, which is far away from each other, extends into the cutting tool cavity 35 and is fixedly connected with one end face of the cutting tool 36, which is close to each other.

Advantageously, a moving shaft 40 is rotatably arranged in the moving cavity 39, the outer circular surfaces of the upper ends of the moving shaft 40 at the front side and the rear side are in threaded connection with the front end and the rear end of the moving slider 38, a transmission motor 41 facing the axis of the moving shaft 40 at the rear side is fixedly arranged in the lower wall of the moving cavity 39 at the rear side, and the moving shaft 40 at the rear side is in power connection with the transmission motor 41.

Beneficially, a water cavity 14 is arranged on the upper side in the ore processing main body 11, a spraying pipe 12 is communicated with the right side of the water cavity 14, a water pump 13 is fixedly arranged between the spraying pipe 12 and the water cavity 14, the right side of the water pump 13 is communicated with the left side of the spraying pipe 12, a rotating bevel gear 66 fixed on the outer circular surface of the movable sleeve shaft 59 is arranged in the movable sleeve cavity 67, a transmission bevel gear 60 is fixedly arranged in the movable sleeve cavity 67 and extends to the outer circular surface of the right end of the transmission sleeve shaft 55, the transmission bevel gear 60 is meshed with the rotating bevel gear 66, a rotating motor 56 facing the axis of the transmission sleeve shaft 55 is fixedly arranged in the left wall of the movable sleeve cavity 67, and the transmission sleeve shaft 55 is dynamically connected to the rotating motor 56.

Beneficially, a moving spring cavity 64 is communicated with the right side of the moving sleeve cavity 67, a moving cavity electromagnet 61 is fixedly arranged on the inner lower side of the moving spring cavity 64, a moving cavity slider 63 capable of moving up and down is arranged on the inner upper side of the moving spring cavity 64, a moving cavity spring 62 is fixedly connected between the moving cavity slider 63 and the moving cavity electromagnet 61, and the left end of the moving cavity slider 63 extends into the moving sleeve cavity 67 to be rotatably connected with the outer circular surface of the moving sleeve 65.

The use steps herein are described in detail below with reference to fig. 1-5:

in the initial working state, the cutting block 34 is at the upper limit position, the movable cavity slide block 63 is at the upper limit position, and the push plate 18 is at the left limit position.

In operation, ore to be processed is placed on the upper side of the supporting block 20, at this time, the left-side transmission motor 41 is started, and further the sliding cavity moving block 74 is driven to move leftwards, so that the left-side driving bevel gear 79 is meshed with the lifting shaft bevel gear 70, at this time, the power motor 76 is started, and further the driving shaft 78 is driven to rotate, so that the left-side driving bevel gear 79 is driven to rotate, and further the lifting shaft bevel gear 70 meshed with the left-side driving bevel gear is driven to rotate, so that the lifting shaft 24 is driven to rotate, so that the lifting block 23 connected through the screw thread is driven to move upwards, so that the supporting block 20 is driven to move upwards, at this time, the power motor 22 is started, so that the push plate 18 is driven to move rightwards, so that ore on the upper side of the supporting block 20 is driven to move right, then the cutting block 34 is driven to move downwards, at this time, the rotating motor 56 is started, and then the transmission sleeve shaft 55 is driven to rotate, so that the cutting cylinder 37 is driven to rotate, and then the cutting tool 36 is driven to rotate, so that the ore is subjected to corner cutting treatment, at this time, the water pump 13 is started, so that tap water in the water cavity 14 is sprayed on the surface of the cutting tool 36 through the spraying pipe 12, when reversing is needed, the right sliding cavity electromagnet 71 is started, so that the sliding cavity moving block 74 is driven to move rightwards, so that the right driving bevel gear 79 is meshed with the driven bevel gear 75, at this time, the power motor 76 is started, so that the driving shaft 78 is driven to rotate, so that the driving bevel gear 79 is driven to rotate, so that the driven bevel gear 75 meshed with the driving shaft is driven to rotate, so that the first synchronous pulley 29 is driven to rotate, and further the, thereby driving the rotation shaft 30 to rotate, thereby driving the rotation disc 31 to rotate, further driving the ore on the upper side of the rotation disc 31 to change the edge, when the cutting radius of the cutting tool 36 needs to be changed, starting the upper and lower two-side fixed cavity electromagnets 50, further driving the upper and lower two-side fixed cavity sliders 52 to approach each other, thereby entering the slot 54, at this time, the transmission sleeve shaft 55 drives the transmission sleeve 53 to rotate slowly, further driving the transmission sleeve bevel gear 49 to rotate, thereby driving the rotation sleeve bevel gear 48 engaged therewith to rotate, thereby driving the rotation sleeve shaft 44 to rotate, further driving the three rotation sleeve blocks 47 connected by screw threads to move away from each other, further driving the three rotation sleeves 46 to move away from each other, thereby driving the three cutting tools 36 to move away from each other, thereby increasing the cutting radius of the cutting tool 36, when the polishing process needs to be performed, and then drives the moving chamber slide block 63 to move downwards, thereby driving the moving sleeve 65 to move downwards, and further enabling the grinding wheel 57 to be close to the surface of the ore, and then starting the rotating motor 56, and further driving the transmission sleeve shaft 55 to rotate, thereby driving the transmission bevel gear 60 to rotate, and further driving the rotating bevel gear 66 meshed with the transmission sleeve shaft to rotate, thereby driving the moving sleeve 65 to rotate, and further driving the grinding wheel 57 to rotate, thereby processing the ore.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a conveniently adjust ore processing equipment of processing cutter, includes the ore processing main part, its characterized in that: a left-opening treatment cavity is formed in the left side in the ore processing main body, a treatment device is arranged on the lower side in the treatment cavity and comprises a lifting cavity communicated with the right side of the treatment cavity, a lifting block capable of moving up and down is arranged in the lifting cavity, a supporting block is fixedly arranged at the left end of the lifting block and extends into the treatment cavity, a control cavity is arranged in the supporting block, the upper side of the control cavity is communicated with the control cavity, a right side in the control cavity is fixedly arranged, a push plate capable of moving left and right is arranged on the left side in the control cavity, the push plate can push ores on the upper side of the supporting block, a cutting cavity is communicated with the upper right side of the treatment cavity, an ore processing device is arranged in the cutting cavity and comprises a rotating cavity communicated with the lower side of the cutting cavity, a rotating disc is rotatably arranged in the rotating, the cutting cavity is symmetrical in front and back and is communicated with a moving cavity, the upper side in the moving cavity is provided with a moving slide block capable of moving up and down, a cutting block is fixedly arranged in the middle of the movable sliding block, a cutting tool cavity is arranged in the cutting block, a cutting cylinder is rotationally arranged in the cutting tool cavity, three cutting tools are rotationally arranged in the cutting tool cavity in an annular array, the cutting tool can cut ore, a movable sleeve cavity is arranged on the right side of the cutting tool cavity, a movable sleeve shaft is rotatably arranged in the movable sleeve cavity, a movable sleeve is rotatably arranged on the outer circular surface of the movable sleeve shaft, the lower end of the movable sleeve extends into the cutting cavity and is fixedly provided with a grinding wheel which can polish and grind the end surface of the ore cut, the cutting chamber lower path is communicated with the collecting chambers which are symmetrical front and back, and the collecting chambers can be used for storing the cut ore waste.

2. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: the lift chamber downside is equipped with the slip chamber, slip intracavity downside intercommunication is equipped with the slip spring chamber, the intermediate position is equipped with the slip chamber movable block that removes about can moving in the slip spring intracavity, the slip spring intracavity bilateral symmetry just fixedly is equipped with the slip chamber electro-magnet, the left and right sides slip chamber electro-magnet be close to a terminal surface each other with fixedly connected with slip chamber spring between the both ends face about the slip chamber movable block, the upside rotates in the slip chamber movable block and is equipped with the driving shaft, the outer disc in both ends extends to about the driving shaft the slip intracavity is fixed and is equipped with initiative bevel gear.

3. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: the left side of the sliding cavity is rotatably provided with a lifting shaft bevel gear, the lifting shaft bevel gear can be meshed with the left side of the driving bevel gear, a lifting shaft is fixedly arranged on the axis of the lifting shaft bevel gear, the outer circular surface of the upper end of the lifting shaft extends to the lifting cavity and is in threaded connection with the lifting block, a power motor which is right opposite to the axis of the driving shaft is fixedly arranged in the sliding cavity moving block, and the driving shaft is in power connection with the power motor.

4. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: the sliding cavity left side is rotated and is equipped with driven bevel gear, the fixed driven shaft that is equipped with in driven bevel gear axle center, lift chamber upside is equipped with the synchronous belt chamber, the outer disc in driven shaft upper end extends to the synchronous belt intracavity is fixed and is equipped with first synchronous pulley, synchronous belt intracavity left side is rotated and is equipped with second synchronous pulley, second synchronous pulley with around there being the hold-in range between the first synchronous pulley, the fixed axis of rotation that is equipped with in second synchronous pulley axle center, the outer disc in axis of rotation upper end extends to rotate the intracavity with terminal surface fixed connection under the rolling disc.

5. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: be equipped with transmission sleeve chamber in the cutting section of thick bamboo, the rotation of transmission sleeve intracavity is equipped with the transmission sleeve axle, the fixed transmission sleeve that is equipped with of the outer disc of transmission sleeve axle, the interior longitudinal symmetry of transmission sleeve intracavity just rotates and is equipped with the piece that holds in the palm, it is equipped with the fixed spring chamber to hold in the piece, the fixed spring intracavity is kept away from one side each other and is fixed and be equipped with fixed chamber electro-magnet, the fixed spring intracavity is close to one side each other and is equipped with the fixed chamber slider that can reciprocate, fixed chamber electro-magnet with the fixed chamber spring of fixedly connected with between the fixed chamber slider, be equipped with the draw-in groove of longitudinal symmetry in the transmission sleeve, fixed chamber.

6. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: the utility model discloses a cutting tool, including cutting tool, driving sleeve, cutting sleeve, driving sleeve intracavity, driving sleeve, driving.

7. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: the movable cavity is internally and rotatably provided with a movable shaft, the outer circular surface of the upper end of the movable shaft is in threaded connection with the front end and the rear end of the movable slider, the lower wall of the movable cavity at the rear side is internally and fixedly provided with a transmission motor which is right opposite to the rear side and is used for moving the axis of the movable shaft, and the movable shaft at the rear side is in power connection with the transmission motor.

8. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: the upside is equipped with the water cavity in the ore processing main part, water cavity right side intercommunication is equipped with the spray tube, the spray tube with the fixed water pump that is equipped with between the water cavity, the water pump right side with spray tube left side intercommunication, it is fixed in to be equipped with in the removal sleeve chamber the rotation bevel gear of the outer disc of removal quill, the outer disc of transmission quill right-hand member extends to the fixed transmission bevel gear that is equipped with in removal sleeve chamber, transmission bevel gear with the meshing of rotation bevel gear, it is just right to remove sleeve chamber left side internal fixation is equipped with the rotation motor in transmission quill axle center, transmission quill power connect in rotate the motor.

9. An ore processing apparatus that facilitates adjustment of a processing tool as defined in claim 1, wherein: the movable spring cavity is communicated with the right side of the movable sleeve cavity, a movable cavity electromagnet is fixedly arranged on the lower side in the movable spring cavity, a movable cavity sliding block capable of moving up and down is arranged on the upper side in the movable spring cavity, the movable cavity sliding block is fixedly connected with a movable cavity spring between the movable cavity electromagnet, and the left end of the movable cavity sliding block extends to the inner side of the movable sleeve cavity and is rotatably connected with the outer circular surface of the movable sleeve.