CN112476808A

CN112476808A - Ore cutting machine convenient to observe during cutting

Info

Publication number: CN112476808A
Application number: CN202011370932.7A
Authority: CN
Inventors: 王器
Original assignee: Lianyungang Huiyi Technology Co Ltd
Current assignee: Lianyungang Huiyi Technology Co Ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-03-12

Abstract

The invention discloses an ore cutting machine convenient for observation during cutting, which comprises a main box body, wherein a cutting cavity is arranged in the main box body, a crank rocker cavity is arranged on the upper side of the cutting cavity, the upper end surface of the main box body is rotatably connected with a main screw rod which penetrates through the crank rocker cavity and extends downwards into the cutting cavity, the upper wall of the crank rocker cavity is rotatably connected with a ratchet shaft positioned on the left side of the main screw rod, the left wall of the crank rocker cavity is communicated with a slide guide cavity, the left side of the slide guide cavity is communicated with a piston cavity, a water spraying mechanism which extends leftwards into the piston cavity is arranged in the crank rocker cavity, a cutting block is arranged in the cutting cavity, the ore cutting machine can drive a spray head to work through the transmission of a crank rocker while controlling the cutting wheel to descend so as to clean ore, and the spray head cannot be started when the cutting wheel ascends through a ratchet pair, thereby avoiding wasting water.

Description

Ore cutting machine convenient to observe during cutting

Technical Field

The invention relates to the field of ore correlation, in particular to an ore cutting machine convenient to observe during cutting.

Background

In ore processing, ores are often required to be cut into a certain shape or certain substances in the ores are taken out, rough materials of the ores are required to be cut and removed firstly in the precise processing, and in the ore cutting, due to the fact that dust of the ores and stone chips generated in the cutting process easily affect the sight of processing personnel, the problems of over-cutting and the like can occur.

Disclosure of Invention

In order to solve the problems, the ore cutting machine convenient to observe during cutting is designed in the embodiment, the ore cutting machine convenient to observe during cutting comprises a main box body, a cutting cavity is arranged in the main box body, a crank rocker cavity is arranged on the upper side of the cutting cavity, a main screw rod penetrating through the crank rocker cavity and extending downwards into the cutting cavity is connected to the upper end face of the main box body in a rotating mode, a ratchet shaft positioned on the left side of the main screw rod is connected to the upper wall of the crank rocker cavity in a rotating mode, a sliding guide cavity is communicated with the left wall of the crank rocker cavity and provided with a piston cavity, a water spraying mechanism extending leftwards into the piston cavity is arranged in the crank rocker cavity, a cutting block is arranged in the cutting cavity, cutting block inner threads with the upward opening are arranged in the cutting block, and the cutting block inner threads are in threaded connection with one outer circular face of the main screw rod positioned in the cutting cavity, a cutting wheel cavity with a downward opening and positioned on the lower side of the inner thread of the cutting block is arranged in the cutting block, an observation block is fixedly connected to the right end face of the cutting block, a belt cavity is communicated with the right wall of the cutting wheel cavity, a transmission cavity with a leftward opening and a leftward opening is communicated with the belt cavity is arranged in the observation block, the upper wall of the transmission cavity is rotatably connected with a swing rod shaft which extends downwards to the lower side of the observation block, the swing rod shaft is positioned on the outer circular surface of the lower side of the observation block and is fixedly connected with a wiping rod, an observation transmission mechanism which extends rightwards into the observation block is arranged in the cutting wheel cavity, the lower wall of the cutting cavity is connected with a clamping box in a left-right sliding manner, a clamping cavity with an upward opening and a left-right through manner is arranged in the clamping box, a gear box positioned on the right side of the clamping box is fixedly connected with, switch chamber right side wall rotate be connected with extend to left with cutting chamber left side wall rotates the removal screw rod of being connected, the removal screw rod is located one side excircle face in the cutting chamber with press from both sides tight case threaded connection, cutting chamber right side wall lower extreme intercommunication is equipped with the right slip chamber of opening, the wall intercommunication is equipped with the electro-magnet chamber of symmetry about the slip chamber, sliding connection has about the slip chamber can make progress both sides stretch into to the sliding block of electro-magnet intracavity, the sliding block internal rotation is connected with and extends to left switch the switching axle of intracavity, it extends to right to switch the intracavity be equipped with extend to right the switching mechanism of slip intracavity.

Preferably, the water spray mechanism comprises a main screw rod, a crank shaft, a crank wheel upper end face, a crank plate, a connecting rod, a piston plate, a water storage cavity, a water discharge cavity, a cutting cavity left wall, a connecting rod, a water discharge cavity upper wall, a water discharge cavity lower wall, a water discharge cavity upper wall, a water discharge cavity lower wall, a water discharge cavity upper And the left wall of the cutting cavity is fixedly connected with a spray head communicated with the drainage pipeline.

Preferably, the observation transmission mechanism comprises a main motor arranged on the rear wall of the cutting wheel cavity, the front and rear walls of the cutting wheel cavity are rotatably connected with a cutting wheel shaft, the front end surface of the main motor is movably connected with the rear end of the cutting wheel shaft in a power manner, the front and rear walls of the transmission cavity are rotatably connected with a pulley shaft, a transmission belt is rotatably connected between the pulley shaft and the cutting wheel shaft, the upper wall of the transmission cavity is rotatably connected with a gear shaft positioned on the left side of the swing rod shaft, the gear shaft and the outer circular surface of the pulley shaft are fixedly connected with first bevel gears which are mutually meshed, the upper wall of the transmission cavity is rotatably connected with a transmission shaft positioned between the gear shaft and the swing rod shaft, the outer circular surfaces of the transmission shaft and the gear shaft are fixedly connected with second bevel gears which are mutually meshed, and the outer circular surface of the, the outer circular surface of the swing rod shaft, which is positioned in the transmission cavity, is fixedly connected with a straight gear meshed with the half-tooth gear, and a torsion spring is sleeved on the outer circular surface of the swing rod shaft, which is positioned on the lower side of the observation block.

But preferably, it is located still to observe that drive mechanism is equipped with in the observation piece the camera chamber on transmission chamber right side, camera chamber upper wall is equipped with the camera, wall bottom end fixedly connected with observation window about the camera chamber, it upwards just is located to be equipped with the opening in the cutting block the left smooth chamber of leading from top to bottom of cutting block internal thread, cutting chamber upper wall fixedly connected with lead smooth chamber sliding connection's the slide bar of leading from top to bottom.

Preferably, the lower wall of the clamping cavity is communicated with a bidirectional screw cavity, the left wall of the bidirectional screw cavity is rotatably connected with a bidirectional screw which penetrates through the clamping box and extends to the right side of the gear box in an initial state, the bidirectional screw is located on the outer circular surface of one side in the bidirectional screw cavity and is in threaded connection with clamping plates which are bilaterally symmetrical and are in sliding connection with the lower wall of the bidirectional screw cavity, and the directions of threaded connection between the clamping plates and the bidirectional screw are opposite.

Preferably, the switching mechanism comprises a connecting gear in splined connection with an outer circular surface of the switching cavity, the switching shaft is located in an intermediate gear capable of being meshed with the connecting gear, the outer circular surface of the switching cavity is fixedly connected with a moving gear capable of being meshed with the intermediate gear, the moving screw is located in the switching cavity, symmetrical magnetic blocks are fixedly connected to the upper end face and the lower end face of each sliding block, and an electromagnet corresponding to the magnetic blocks is arranged on one side wall of the electromagnet cavity far away from the sliding cavity.

The invention has the beneficial effects that: according to the ore cleaning device, the cutting wheel is controlled to descend, meanwhile, the spray head can be driven to work through the transmission of the crank rocker, so that ore is cleaned, the spray head cannot be started when the cutting wheel ascends through the ratchet pair, so that water waste is avoided, meanwhile, the cleaning device is arranged, the cleaning rod can be driven to turn over and swing when the cutting wheel works, and therefore the camera can be prevented from observing the ore not clearly.

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 the present invention.

Fig. 2 is an enlarged schematic view of a in fig. 1.

Fig. 3 is a schematic diagram of the structure B-B in fig. 2.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 1.

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 ore cutting machine convenient to observe during cutting comprises a main box body 11, a cutting cavity 12 is arranged in the main box body 11, a crank rocker cavity 68 is arranged on the upper side of the cutting cavity 12, a main screw 14 penetrating through the crank rocker cavity 68 and extending downwards into the cutting cavity 12 is rotatably connected to the upper end face of the main box body 11, a ratchet shaft 69 positioned on the left side of the main screw 14 is rotatably connected to the upper wall of the crank rocker cavity 68, a guide sliding cavity 75 is communicated with the left wall of the crank rocker cavity 68, a piston cavity 20 is communicated with the left side of the guide sliding cavity 75, a water spraying mechanism 101 extending leftwards into the piston cavity 20 is arranged in the crank rocker cavity 68, a cutting block 13 is arranged in the cutting cavity 12, a cutting block internal thread 16 with an upward opening is arranged in the cutting block 13, and the cutting block internal thread 16 is in threaded connection with an outer circular face of one side of the main screw 14 positioned in the cutting cavity 12, a cutting wheel cavity 34 which is positioned at the lower side of the inner thread 16 of the cutting block and has a downward opening is arranged in the cutting block 13, an observation block 54 is fixedly connected to the right end face of the cutting block 13, a belt cavity 38 is communicated with the right wall of the cutting wheel cavity 34, a transmission cavity 53 which has a leftward opening and is communicated with the belt cavity 38 is arranged in the observation block 54, the upper wall of the transmission cavity 53 is rotatably connected with a rocker shaft 46 which extends downward to the lower side of the observation block 54, the rocker shaft 46 is positioned on the outer circumferential surface of the lower side of the observation block 54 and is fixedly connected with a wiping rod 48, an observation transmission mechanism 102 which extends rightward into the observation block 54 is arranged in the cutting wheel cavity 34, a clamping box 27 is slidably connected to the lower wall of the cutting cavity 12 from left to right, a clamping cavity 28 which has an upward opening and is communicated from left to right is, be equipped with in the gear box 55 and switch chamber 56, switch chamber 56 left and right wall all with cutting chamber 12 intercommunication is equipped with the chamber 58 of stepping down, switch chamber 56 right wall rotate be connected with extend to left with cutting chamber 12 left wall rotates the removal screw rod 33 of being connected, removal screw rod 33 is located one side excircle face in cutting chamber 12 with press from both sides tight case 27 threaded connection, cutting chamber 12 right wall lower extreme intercommunication is equipped with opening right sliding chamber 63, sliding chamber 63 upper and lower wall intercommunication is equipped with the electro-magnet chamber 64 of symmetry, sliding chamber 63 upper and lower sliding connection has can make progress both sides stretch into to sliding block 67 in electro-magnet chamber 64, sliding block 67 internal rotation is connected with and extends to left switch shaft 59 in the chamber 56, it extends to right to be equipped with in the chamber 56 switches the switching mechanism 103 in the sliding chamber 63.

Advantageously, the water spraying mechanism 101 includes a ratchet pair 70 fixedly connected and engaged with each other between one outer circumferential surface of the main screw 14 located in the crank rocker cavity 68 and the ratchet shaft 69, a crank wheel 71 fixedly connected with the outer circumferential surface of the ratchet shaft 69 and located on the lower side of the ratchet pair 70, a crank shaft 72 extending downward to the lower side of the crank wheel 71 rotatably connected with the upper end surface of the crank wheel 71, a crank 73 rotatably connected with the bottom end of the outer circumferential surface of the crank shaft 72, a connecting rod 74 extending upward to the upper side of the crank 73 rotatably connected with the lower end surface of the crank 73, a piston rod 22 slidably connected with the slide guiding cavity 75 rotatably connected with the outer circumferential surface of the connecting rod 74, a piston plate 21 connected with the upper and lower wall pistons of the piston cavity 20 fixedly connected with the left end surface of the piston cavity 22, a communicating cavity 19 communicating with the upper wall of the piston cavity 20, and a water storage cavity 18 communicating with the upper opening upward with the upper side, piston cavity 20 left wall intercommunication be equipped with downwardly extending and the bottom extend right to with the drain pipe 23 of cutting cavity 12 left wall intercommunication, cutting cavity 12 left wall fixedly connected with the shower nozzle 24 of drain pipe 23 intercommunication.

Advantageously, the observation transmission mechanism 102 comprises a main motor 52 disposed on the rear wall of the cutting wheel cavity 34, the cutting wheel cavity 34 is rotatably connected with the cutting wheel shaft 36 on the front and rear walls thereof, the main motor 52 is rotatably connected with the rear end of the cutting wheel shaft 36 on the front and rear walls thereof, the transmission cavity 53 is rotatably connected with the pulley shaft 39 on the front and rear walls thereof, the transmission belt 37 is rotatably connected between the pulley shaft 39 and the cutting wheel shaft 36, the transmission cavity 53 is rotatably connected with the gear shaft 41 on the left side of the swing shaft 46 on the upper wall thereof, the gear shaft 41 is fixedly connected with the first bevel gear 40 engaged with the outer circumferential surface of the pulley shaft 39, the transmission cavity 53 is rotatably connected with the transmission shaft 43 between the gear shaft 41 and the swing shaft 46 on the upper wall thereof, the transmission shaft 43 is fixedly connected with the second bevel gear 42 engaged with the outer circumferential surface of the gear shaft 41, the semi-tooth gear 44 positioned on the upper side of the second, a straight gear 45 meshed with the half-tooth gear 44 is fixedly connected to the outer circular surface of the swing rod shaft 46 positioned in the transmission cavity 53, and a torsion spring 47 is sleeved on the outer circular surface of the swing rod shaft 46 positioned on the lower side of the observation block 54.

Beneficially, the observation transmission mechanism 102 further includes a camera cavity 50 arranged in the observation block 54 and located on the right side of the transmission cavity 53, a camera 51 is arranged on the upper wall of the camera cavity 50, the bottom ends of the left and right walls of the camera cavity 50 are fixedly connected with an observation window 49, an upper and lower sliding guide cavity 26 which is opened upwards and located on the left side of the internal thread 16 of the cutting block is arranged in the cutting block 13, and a sliding guide rod 25 slidably connected with the upper and lower sliding guide cavity 26 is fixedly connected to the upper wall of the cutting cavity 12.

Beneficially, a bidirectional screw cavity 29 is communicated with the lower wall of the clamping cavity 28, in an initial state, a bidirectional screw 31 extending through the clamping box 27 to the right side of the gear box 55 is rotatably connected to the left wall of the bidirectional screw cavity 29, a clamping plate 32 which is bilaterally symmetrical and is slidably connected with the lower wall of the bidirectional screw cavity 29 is threadedly connected to the outer circular surface of one side of the bidirectional screw 31 located in the bidirectional screw cavity 29, and the directions of threaded connection between the left clamping plate 32 and the right clamping plate 31 are opposite.

Advantageously, the switching mechanism 103 includes a connecting gear 57 spline-connected to an outer circumferential surface of the bidirectional screw 31 located in the switching chamber 56, an intermediate gear 60 capable of meshing with the connecting gear 57 is fixedly connected to an outer circumferential surface of the switching shaft 59 located in the switching chamber 56, a moving gear 62 capable of meshing with the intermediate gear 60 is fixedly connected to an outer circumferential surface of the moving screw 33 located in the switching chamber 56, symmetrical magnetic blocks 66 are fixedly connected to upper and lower end surfaces of the sliding block 67, and an electromagnet 65 corresponding to the magnetic blocks 66 is arranged on a side wall of the electromagnet chamber 64 away from the sliding chamber 63.

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

in the initial state: the cutting block 13 is located at the upper limit position, the piston plate 21 is located on the right side of the communicating cavity 19, the torsion spring 47 is in a loosening state, the upper magnet block 66 is attached to the upper electromagnet 65 in an adsorption mode, and the intermediate gear 60 is meshed with the connecting gear 57.

In operation, the mineral material is placed at the lower wall of the clamping cavity 28, the switching shaft 59 is rotated to drive the intermediate gear 60 to rotate, the connecting gear 57 is driven to rotate by meshing, the two-way screw 31 is driven to rotate by the rotation of the connecting gear 57, so that the left and right clamping plates 32 are driven to approach each other by threaded connection to clamp the mineral, the main motor 52 is started to drive the cutting wheel shaft 36 to rotate, so as to drive the cutting wheel 35 to rotate, the main screw 14 is rotated so as to drive the cutting block 13 to move downwards by threaded connection and sliding guide of the sliding guide rod 25, so as to cut the mineral by the rotation of the cutting wheel 35, meanwhile, the ratchet wheel pair 70 is driven to start meshing transmission by the rotation of the main screw 14, so as to drive the ratchet shaft 69 to rotate, so as to drive the crank wheel 71 to rotate, the crank shaft 72 is driven to rotate around the ratchet shaft 69 by the rotation of the, the crank 73 is driven to turn around the ratchet shaft 69 in the left-right direction through the rotary connection, so that the piston rod 22 is driven to reciprocate in the left-right direction through the connection of the connecting rod 74, the piston plate 21 is driven to continuously push the water in the piston cavity 20 into the drainage pipeline 23 through the left-right reciprocating motion of the piston rod 22, when the piston plate 21 moves to the right side of the communication cavity 19 in the right direction, the water in the water storage cavity 18 flows into the piston cavity 20 again through the communication cavity 19, at the moment, through the communication of the drainage pipeline 23 and the extrusion of the piston plate 21, the water is sprayed downwards from the spray head 24 to clean ores, so that the view blocking caused by stone chips and the like generated during cutting is prevented, meanwhile, the driving wheel shaft 37 is driven to start driving through the rotation of the cutting wheel shaft 36, so that the belt wheel shaft 39 is driven to rotate, and the driving wheel shaft 41 is, the transmission shaft 43 is driven to rotate through the rotation of the gear shaft 41 and the meshing transmission of the second bevel gear 42, the swing rod shaft 46 is driven to intermittently rotate through the rotation of the transmission shaft 43 and the intermittent transmission of the half-tooth gear 44 and the straight gear 45, the wiping rod 48 is driven to swing through the intermittent rotation of the swing rod shaft 46, meanwhile, when the half-tooth gear 44 and the straight gear 45 are not meshed any more, the swing rod shaft 46 is driven to reset through the torsional force of the torsional spring 47, the lower end face of the observation window 49 is wiped through the reciprocating swing of the wiping rod 48, the observation window 49 is prevented from influencing the sight of the camera 51 due to water, dust and the like, when ores need to move left and right to the clamping box 27, the lower side electromagnet 65 is started to close the upper side electromagnet 65, the lower side magnet block 66 is adsorbed through the lower side electromagnet 65, the sliding block 67, thereby driving the intermediate gear 60 and the moving gear 62 to be in meshed transmission, driving the moving screw 33 to rotate through the rotation of the moving gear 62, driving the clamping box 27 to move left and right through threaded connection, and when the main screw 14 is reversely rotated to drive the cutting block 13 to move upwards, the ratchet pair 70 cannot be in meshed transmission, so that the spray head 24 cannot be continuously driven to spray water.

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 an ore cutting machine convenient to observe during cutting, includes the main tank body, its characterized in that: a cutting cavity is arranged in the main box body, a crank rocker cavity is arranged on the upper side of the cutting cavity, the upper end face of the main box body is rotatably connected with a main screw rod which penetrates through the crank rocker cavity and extends downwards into the cutting cavity, the upper wall of the crank rocker cavity is rotatably connected with a ratchet shaft positioned on the left side of the main screw rod, the left wall of the crank rocker cavity is communicated with a slide guide cavity, the left side of the slide guide cavity is communicated with a piston cavity, a water spraying mechanism which extends leftwards into the piston cavity is arranged in the crank rocker cavity, a cutting block is arranged in the cutting cavity, cutting block internal threads with an upward opening are arranged in the cutting block, the cutting block internal threads are in threaded connection with the outer circular face of one side of the main screw rod positioned in the cutting cavity, a cutting wheel cavity which is positioned on the lower side of the internal threads of the cutting block and has a downward opening is, the right wall of the cutting wheel cavity is communicated with a belt cavity, a transmission cavity with an opening communicated with the belt cavity leftwards and leftwards is arranged in the observation block, the upper wall of the transmission cavity is rotatably connected with a swing rod shaft which extends downwards to the lower side of the observation block, the swing rod shaft is fixedly connected with a wiping rod on the outer circular surface of the lower side of the observation block, an observation transmission mechanism which extends rightwards into the observation block is arranged in the cutting wheel cavity, the lower wall of the cutting cavity is connected with a clamping box in a left-right sliding manner, a clamping cavity with an opening upwards and communicated leftwards and leftwards is arranged in the clamping box, the lower wall of the main box body is fixedly connected with a gear box on the right side of the clamping box, a switching cavity is arranged in the gear box, the left wall and the right wall of the switching cavity are both communicated with the cutting cavity to form a abdicating cavity, the movable screw rod is located one side excircle face in the cutting chamber with press from both sides tight case threaded connection, cutting chamber right side wall lower extreme intercommunication is equipped with the right slip chamber of opening, the wall intercommunication is equipped with the electro-magnet chamber of symmetry about the slip chamber, sliding connection has the both sides about can to stretch into to the sliding block in the electro-magnet chamber, the sliding block internal rotation is connected with and extends to left switch the switching axle of intracavity, it extends to right to be equipped with in the switching intracavity the switching mechanism of slip intracavity.

2. A mineral cutting machine that facilitates viewing of cuts as defined in claim 1, wherein: the water spraying mechanism comprises a ratchet wheel pair which is fixedly connected and meshed with the outer circular surface of one side of the main screw rod, which is positioned in the crank rocker cavity, of the ratchet wheel shaft, the outer circular surface of the ratchet wheel shaft is fixedly connected with a crank wheel, which is positioned at the lower side of the ratchet wheel pair, the upper end surface of the crank wheel is rotatably connected with a crank shaft which extends downwards to the lower side of the crank wheel, the bottom end of the outer circular surface of the crank shaft is rotatably connected with a crank, the lower end surface of the crank is rotatably connected with a connecting rod which extends upwards to the upper side of the crank, the outer circular surface of the connecting rod is rotatably connected with a piston rod which is slidably connected with the sliding guide cavity, the left end surface of the piston rod is fixedly connected with a piston plate which is connected with the upper wall and the lower wall of the piston cavity, the upper wall of the piston cavity is communicated with a communicating cavity, the upper side of the communicating cavity is communicated, and the left wall of the cutting cavity is fixedly connected with a spray head communicated with the drainage pipeline.

3. A mineral cutting machine that facilitates viewing of cuts as defined in claim 1, wherein: the observation transmission mechanism comprises a main motor arranged on the rear wall of the cutting wheel cavity, the front and rear walls of the cutting wheel cavity are rotatably connected with a cutting wheel shaft, the front end surface of the main motor is movably connected with the rear end of the cutting wheel shaft in a power mode, the front and rear walls of the transmission cavity are rotatably connected with a belt wheel shaft, a transmission belt is rotatably connected between the belt wheel shaft and the cutting wheel shaft, the upper wall of the transmission cavity is rotatably connected with a gear shaft positioned on the left side of the swing rod shaft, the gear shaft and the outer circular surface of the belt wheel shaft are fixedly connected with first bevel gears which are mutually meshed, the upper wall of the transmission cavity is rotatably connected with a transmission shaft positioned between the gear shaft and the swing rod shaft, the transmission shaft and the outer circular surface of the gear shaft are fixedly connected with second bevel gears which are mutually meshed, and the, the outer circular surface of the swing rod shaft, which is positioned in the transmission cavity, is fixedly connected with a straight gear meshed with the half-tooth gear, and a torsion spring is sleeved on the outer circular surface of the swing rod shaft, which is positioned on the lower side of the observation block.

4. A mineral cutting machine that facilitates viewing of cuts as defined in claim 1, wherein: observe that drive mechanism still is equipped with including observing the piece and be located the camera chamber on transmission chamber right side, camera chamber upper wall is equipped with the camera, wall bottom end fixedly connected with observation window about the camera chamber, it makes progress and is located to be equipped with the opening in the cutting block the left upper and lower smooth chamber of leading of cutting block internal thread, cutting chamber upper wall fixedly connected with lead smooth chamber sliding connection's the slide bar of leading from top to bottom.

5. A mineral cutting machine that facilitates viewing of cuts as defined in claim 1, wherein: the clamping cavity lower wall is communicated with a bidirectional screw cavity, under an initial state, the bidirectional screw cavity left wall is rotatably connected with a bidirectional screw which penetrates through the clamping box and extends to the right side of the gear box, the bidirectional screw is located on one side outer circular surface in the bidirectional screw cavity, is in threaded connection with bilateral symmetry and clamping plates in sliding connection with the bidirectional screw cavity lower wall, and the clamping plates are in opposite threaded connection directions with the bidirectional screw.

6. A mineral cutting machine that facilitates viewing of cuts as defined in claim 1, wherein: the switching mechanism comprises a connecting gear connected with an outer circular surface spline in the switching cavity through a bidirectional screw, a switching shaft is located the outer circular surface fixedly connected with in the switching cavity and can be meshed with the connecting gear, a moving gear located in the switching cavity and can be meshed with the intermediate gear, symmetrical magnetic blocks are fixedly connected to the upper end face and the lower end face of each sliding block, and electromagnets corresponding to the magnetic blocks are arranged on one side wall of each electromagnet cavity far away from the corresponding sliding cavity.