CN118163252B - Cutting device for graphite electrode preparation - Google Patents

Abstract

The invention relates to the technical field of graphite electrode preparation, in particular to a cutting device for graphite electrode preparation, which comprises a bottom plate which is stably placed in a working area through a base, wherein a control cabinet is arranged on a left screw of the bottom plate; the three-jaw chuck for clamping one end of the graphite electrode is arranged above the left side of the bottom plate; a moving frame in an inverted U-shaped structure is connected above the right side of the bottom plate in a sliding manner; the mounting bracket is installed to the last Fang Luoding of removing the frame, and runs through in the upper surface of mounting bracket and be fixed with electric putter to electric putter's output is connected with cutting assembly. This cutting device for graphite electrode preparation is the lifting subassembly that ring shape structure set up, is convenient for lift the fine graphite electrode after will cutting of subassembly and accept the protection, is the collection frame cooperation gathering pore of arc shape and can adsorb dust and piece that produces after the cutting device cutting and collect to avoid dust and piece to fall in cutting device and inconvenient clearance.

Description

Cutting device for graphite electrode preparation

Technical Field

The invention relates to the technical field of graphite electrode preparation, in particular to a cutting device for graphite electrode preparation.

Background

The graphite electrode is a high-temperature resistant graphite conductive material prepared from petroleum coke and asphalt coke, and the graphite electrode material needs to be cut by a cutting device in the preparation process so as to meet the requirements of later design and processing;

1. the patent name disclosed by the publication No. CN108527688A is "a device for processing graphite electrodes", when the device is used, a first motor and a second motor are externally connected with a power supply, the first motor is turned on, the first motor drives a first rotating shaft, the first rotating shaft drives a first gear, the first gear drives a second gear, the second gear drives a screw rod, the screw rod drives a sliding block, the sliding block drives a fixed block and a clamping block, the graphite electrodes are fixed, a rotating handle is manually rotated, the rotating handle drives a threaded rod, the threaded rod drives a sliding plate, the sliding plate drives a cylinder, the cylinder drives a telescopic rod to stretch out and draw back, the position of a cutting knife is adjusted, the second motor is turned on, the second motor drives a driving wheel, and the driving wheel drives a driven wheel through a belt to realize the rotation of the cutting knife;

According to the cutting device in the prior art, the rotating handle is manually rotated, so that the rotating handle drives the threaded rod to rotate to drive the sliding plate to move left and right, the sliding plate can drive the cutting knife below to adjust left and right positions, and the cutting knife can continuously cut the graphite electrode, but as the bearing mechanism is not arranged in the main body box in the cutting device, the cut graphite electrode falls into the main body box randomly through self gravity, so that the cut graphite electrode is broken, and the quality of the graphite electrode cut by the cutting device is affected;

2. The patent name disclosed by the publication number CN218875925U in the prior art is a graphite electrode cutting machine, a sealing door is opened to place a graphite rod on a graphite fixture, the graphite fixture comprises a cylindrical limit seat and a limit sleeve which are coaxially arranged, a fixing seat used for fixing the cylindrical limit seat and the limit sleeve is fixed on a rod head of a piston rod of an electric telescopic rod, a blind hole is formed in the top end of the cylindrical limit seat, and the aperture of the blind hole is equal to the inner diameter of the limit sleeve; in the embodiment, when the device is used, the bottom end of the graphite rod passes through the limiting sleeve until the bottom end of the graphite rod abuts against the bottom of the blind hole, the lifting driving assembly drives the graphite clamp to drive the graphite rod to descend to the cutting cavity, the softened graphite rod is cut through the cutting assembly, and the graphite powder can be effectively prevented from splashing in the cutting process through the cutting box; after cutting is completed, the sealing door is opened, and the cut graphite can be taken out; the problem of easy fragmentation in the graphite cutting process is effectively solved, the cutting quality of the graphite is better, dust splash generated in the graphite cutting process can be prevented, and the use is safer and more reliable;

In the prior art, the cutting box is in a sealed state through the arrangement of the sealing door, so that dust can be prevented from splashing in the cutting process, but the dust can fall into the cutting box, and the cutting box can be reused only after the dust in the cutting box is cleaned by using dust cleaning equipment in the later stage, so that the cleaning workload of staff is increased, and the cutting efficiency of the cutting device is affected;

we have therefore proposed a cutting device for graphite electrode preparation in order to solve the problems set out above.

Disclosure of Invention

The invention aims to provide a cutting device for preparing graphite electrodes, which aims to solve the problems that the graphite electrodes cut in the prior market are easy to damage, dust can fall into a cutting box, and the cutting box can be reused after dust in the cutting box is cleaned by dust cleaning equipment in the later period, so that the cleaning workload of staff is increased, and the use efficiency of the cutting box is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: a cutting device for preparing graphite electrodes comprises a bottom plate which is stably placed in a working area through a base, and a control cabinet is installed on the left side screw of the bottom plate;

The three-jaw chuck is arranged on the right side surface of the control cabinet, and is used for clamping one end of the graphite electrode and is arranged above the left side of the bottom plate;

a moving frame in an inverted U-shaped structure is connected above the right side of the bottom plate in a sliding manner;

An installation frame is installed on the upper Fang Luoding of the movable frame, an electric push rod is fixedly penetrated in the upper surface of the installation frame, and the output end of the electric push rod is connected with the cutting assembly;

a moving block is fixed on the right side of the moving frame, a supporting plate is arranged above the moving block through screws, and the inner side of the supporting plate is connected with a lifting assembly capable of carrying and protecting the cut graphite electrode;

a collecting frame for cleaning dust is arranged under the cutting assembly at the inner side of the mounting frame, and the collecting frame is connected with the mounting frame in a left-right sliding manner;

and a bearing assembly is arranged on the left side of the collecting frame.

Preferably, the upper surface of the bottom plate is integrally provided with a track, the front side and the rear side of the bottom plate are both rotationally connected with threaded rods, and the outer sides of the right ends of the threaded rods are connected with movable frames in a penetrating threaded manner;

the middle bottom of the movable frame is provided with a sliding block which is in sliding connection with the track.

Preferably, the upper surface screw of removing the frame installs and bears the subassembly, and bears the subassembly and lift the subassembly and all be ring shape structural setting to bear the subassembly setting in the left side of mounting bracket, lift the subassembly setting in the right side of mounting bracket simultaneously.

Through the setting of above-mentioned structure, all be the bearing assembly and the lifting subassembly that ring shape structure set up can carry out the bearing to the graphite electrode that does not cut and the graphite electrode after the cutting and place, improved the steadiness of the graphite electrode that does not cut and the graphite electrode after the cutting.

Preferably, the connecting pipe is fixedly penetrated above the middle part of the collecting frame, a row of gathering holes are formed in the lower surface of the collecting frame, the collecting frame is arranged in an arc-shaped structure, and the inside of the collecting frame is arranged in a hollow structure.

Through the setting of above-mentioned structure, inside collection frame that sets up for hollow form structure can circulate gas, is convenient for gather the fine dust absorption operation that carries out in hole.

Preferably, the rear side of the collecting frame is fixed with a connecting plate, the right side of the connecting plate is provided with an adjusting plate by screws, and the upper part of the adjusting plate is in an inclined structure.

Through the setting of above-mentioned structure, the connecting plate drives and collects the frame and remove.

Preferably, the spout has been seted up to the trailing flank inner wall of mounting bracket, and the inside level of spout installs the guide post to the outside of guide post runs through the trailing flank of connecting plate inside, and the right-hand member outside nested connection of guide post has connecting spring, the connecting plate passes through regulating plate and constitutes side-to-side sliding structure with the mounting bracket.

Through the arrangement of the structure, the adjusting plate can drive the connecting plate to move together.

Preferably, the rear side of the cutting assembly is fixed with a control board, the lower part of the control board is in an inclined structure, an adjusting plate is correspondingly arranged below the control board, and the adjusting plate and the mounting frame form a left-right sliding structure.

Through the arrangement of the structure, the control panel descends to push the adjusting plate to move leftwards.

Preferably, the inside of the moving block is penetrated and slidingly connected with a threaded rod, the inside of the supporting plate on the moving block at the rear side is penetrated and rotationally connected with an upper cross rod, one end of the upper cross rod is connected with the outer side surface of the lifting assembly through screws, the lifting assembly and the supporting plate form a rotating structure through the upper cross rod, and the outer side key at the rear end of the upper cross rod is connected with a first transmission gear;

Through the arrangement of the structure, the first transmission gear rotates to drive the upper cross rod to rotate.

The lower cross bar is arranged below the upper cross bar, the front end of the lower cross bar is rotationally connected with the support plate at the rear side, the outer key at the rear end of the lower cross bar is connected with a second transmission gear, and the upper part of the second transmission gear is connected with a first transmission gear in a meshed manner.

Through the arrangement of the structure, the second transmission gear can drive the first transmission gear to rotate when rotating.

Preferably, the mounting frame with an L-shaped structure is mounted on the rear side surface of the bottom plate through screws, rack assemblies are mounted on the upper surface of the mounting frame at equal intervals, and a second transmission gear is connected above the rack assemblies in a meshed mode.

Through the arrangement of the structure, the rack assemblies which are arranged at equal intervals can be meshed with the second transmission gear intermittently.

Preferably, the outer side of the front end of the lower cross rod is connected with a vortex spring in a nested mode, and the front end of the vortex spring is connected with a supporting plate on the rear side.

Through the arrangement of the structure, the lower cross rod can be automatically driven to reversely rotate and reset by the power accumulation of the vortex spring in the later stage.

Compared with the prior art, the invention has the beneficial effects that: this cutting device for graphite electrode preparation is through the lifting subassembly that is the setting of ring shape structure, is convenient for lift the fine graphite electrode after will cutting of subassembly and accept the protection, is the collection frame cooperation gathering pore of arc shape and can adsorb dust and the piece that produces after the cutting device cutting and collect to avoid dust and piece to fall in cutting device and inconvenient clearance, its concrete content is as follows:

The lifting assembly is arranged in a circular ring-shaped structure, so that the graphite electrode cut by the cutting device is conveniently and penetratingly placed in the lifting assembly, and the lifting assembly is convenient for carrying and protecting the cut graphite electrode well, and the cut graphite electrode is prevented from falling and being damaged;

Further, the lifting assembly is driven to rotate clockwise by a certain angle through the upper cross rod, so that the lifting assembly is obliquely arranged, the lifting assembly is convenient for falling the internal cut graphite electrode onto a track on the bottom plate, the lifting assembly is convenient for automatically discharging the internal cut graphite electrode, and the discharged cut graphite electrode cannot be damaged due to the fact that the interval between the oblique lifting assembly and the track below is short;

meanwhile, through the use of the rack assemblies and the cooperation of the first transmission gear and the second transmission gear, the upper cross rod and the lifting assembly can be intermittently driven to rotate, and an additional power source is not required;

the connecting pipe is connected with an external dust collection mechanism, so that dust and fragments generated after the cutting device is cut can be adsorbed and collected by the arc-shaped collecting frame matched with the collecting hole, and the dust and fragments are prevented from falling into the cutting device and inconvenient to clean, so that a cleaning device is not required to be additionally used for cleaning the dust and the fragments in the later period, and the use efficiency of the cutting device is improved;

Further, when the cutting assembly drives the control panel together to descend, the control panel can promote the regulating plate and remove left this moment, consequently, make the regulating plate drive and collect the frame and remove left, make and collect the frame and can not influence the cutting work of cutting assembly, when the cutting assembly upwards moves, it resets to drive through the power of holding of connecting spring and collect the reverse removal of frame, thereby make and collect the frame and be in under the cutting assembly, be convenient for collect the frame fine dust and piece that produces the cutting department and adsorb the clearance, further improved the quality of clearance.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a right side view of the present invention;

FIG. 3 is a schematic view of a mounting frame structure of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is a schematic perspective view of the mounting frame of the present invention;

FIG. 6 is a schematic rear view of the mounting bracket of the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6B according to the present invention;

FIG. 8 is a schematic view of a partial main sectional structure of the mounting bracket of the present invention;

FIG. 9 is a schematic view showing the bottom view of the collecting frame of the present invention;

Fig. 10 is a schematic perspective view of a rotated lifting assembly according to the present invention.

In the figure: 1. a bottom plate; 101. a track; 2. a control cabinet; 3. a three-jaw chuck; 4. a threaded rod; 5. a moving frame; 51. a slide block; 6. a moving block; 7. a support plate; 8. a lifting assembly; 9. a carrier assembly; 10. a mounting frame; 1001. a chute; 1002. a guide post; 1003. a connecting spring; 11. a cutting assembly; 12. a control board; 13. an adjusting plate; 14. a mounting frame; 141. a rack assembly; 15. a collection frame; 151. a connecting pipe; 152. aggregation holes; 16. a connecting plate; 17. an upper cross bar; 18. a first transmission gear; 19. a lower cross bar; 20. a second transmission gear; 21. a vortex spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, the present invention provides the following technical solutions: a cutting device for preparing graphite electrodes;

Embodiment one: in the embodiment, the cut graphite electrode can be carried and protected, so that the cut graphite electrode is prevented from falling and being broken due to no carrying and protecting mechanism, and particularly referring to fig. 1-3, the cut graphite electrode is stably placed on a bottom plate 1 in a working area through a base, and a control cabinet 2 is arranged on a left screw of the bottom plate 1; a three-jaw chuck 3 mounted on the right side of the control cabinet 2, and the three-jaw chuck 3 for clamping one end of the graphite electrode is disposed above the left side of the bottom plate 1; a moving frame 5 with an inverted U-shaped structure is connected above the right side of the bottom plate 1 in a sliding manner; the upper Fang Luoding of the movable frame 5 is provided with a mounting frame 10, an electric push rod is fixedly penetrated through the inside of the upper surface of the mounting frame 10, and the output end of the electric push rod is connected with a cutting assembly 11; a moving block 6 is fixed on the right side of the moving frame 5, a supporting plate 7 is arranged on the upper Fang Luoding of the moving block 6, a lifting assembly 8 which can carry out bearing protection on the cut graphite electrode is connected to the inner side of the supporting plate 7, a track 101 is integrally arranged on the upper surface of the bottom plate 1, threaded rods 4 are rotatably connected to the front side and the rear side of the bottom plate 1, and the outer side of the right end of each threaded rod 4 is connected with the moving frame 5 through threads; a sliding block 51 is arranged at the middle bottom of the movable frame 5, and the sliding block 51 is in sliding connection with the track 101;

firstly, the whole cutting device is moved into a working area, then the whole cutting device can be used, one end of a longer graphite electrode passes through the inside of a lifting assembly 8 and a bearing assembly 9, then one end of the graphite electrode is clamped and fixed through a three-jaw chuck 3, then an electric push rod on a mounting frame 10 is started, at the moment, the output end of the electric push rod drives a cutting assembly 11 to move downwards, meanwhile, a motor in the cutting assembly 11 drives a cutting knife to rotate, then the cutting assembly 11 rotates and moves downwards to perform cutting operation, after the cutting operation is finished, the cut graphite electrode is in the lifting assembly 8, the lifting assembly 8 is used for carrying out protection on the cut graphite electrode, the cut graphite electrode is prevented from falling downwards to be damaged, then a worker manually pulls out the cut graphite electrode in the lifting assembly 8 to be placed, then a motor in a control cabinet 2 drives a threaded rod 4 to rotate, a moving frame 5 and the threaded rod 10 to move leftwards when the threaded rod 4 rotates, after the threaded rod 4 is moved to a certain position, the cutting assembly 11 stops rotating, and then continuous cutting operation can be performed on the cut graphite electrode through the cutting assembly 11, so that continuous cutting operation can be performed on the longer graphite electrode;

Embodiment two; in this embodiment, the cut graphite electrode may be automatically discharged from the lifting assembly 8, specifically referring to fig. 1-4 and fig. 10, the inside of the moving block 6 is connected with a threaded rod 4 in a penetrating and sliding manner, the inside of the supporting plate 7 on the rear side moving block 6 is connected with an upper cross rod 17 in a penetrating and rotating manner, one end of the upper cross rod 17 is connected with the outer side surface of the lifting assembly 8 through a screw, the lifting assembly 8 and the supporting plate 7 form a rotating structure through the upper cross rod 17, and the outer side key of the rear end of the upper cross rod 17 is connected with a first transmission gear 18; the below of going up horizontal pole 17 is provided with bottom rail 19, and the front end of bottom rail 19 rotates with the backup pad 7 of rear side and is connected to the rear end outside key-type of bottom rail 19 is connected with second drive gear 20, and the top meshing of second drive gear 20 is connected with first drive gear 18 simultaneously, and the mounting frame 14 that is "L" shape structure is installed to the trailing flank screw of bottom plate 1, and rack assembly 141 is installed to the equidistant upper surface of mounting frame 14, and the top meshing of rack assembly 141 is connected with second drive gear 20. The outer side of the front end of the lower cross rod 19 is connected with a vortex spring 21 in a nested manner, and the front end of the vortex spring 21 is connected with the support plate 7 at the rear side;

When the movable frame 5 moves leftwards through the rotation of the threaded rod 4, the movable frame 5 drives the movable block 6 and the supporting plate 7 to move leftwards together, at the moment, the second transmission gear 20 at the rear side of the supporting plate 7 at the rear side is meshed with the rack component 141 at the corresponding position below, so that the second transmission gear 20 rotates anticlockwise, at the moment, the second transmission gear 20 drives the lower cross rod 19 to rotate together, the vortex spring 21 stores force, the first transmission gear 18 is driven to rotate clockwise when the second transmission gear 20 rotates, at the moment, the first transmission gear 18 rotates to drive the upper cross rod 17 to rotate, the upper cross rod 17 drives the lifting component 8 to rotate, and the lifting component 8 is arranged in an inclined mode, therefore, the lifting component 8 can automatically pour out the graphite electrode after internal cutting onto the track 101 on the bottom plate 1, and the space between the inclined lifting component 8 and the track 101 is shorter, so that the poured graphite electrode after cutting is not damaged, the graphite electrode after cutting is convenient to protect, and a worker only needs to manually take the graphite electrode after cutting on the track 101 after finishing the later cutting;

Embodiment III: in the implementation, dust and scraps generated by cutting can be automatically adsorbed and cleaned, and particularly referring to fig. 5-9, a collecting frame 15 for cleaning the dust is arranged under a cutting assembly 11 at the inner side of a mounting frame 10, and the collecting frame 15 is connected with the mounting frame 10 in a left-right sliding manner; the left side of collecting the frame 15 is provided with bears the subassembly 9, the upper surface screw who removes frame 5 installs bears the subassembly 9, and bear the subassembly 9 and lift the subassembly 8 and all be ring shape structural setting, and bear the subassembly 9 setting in the left side of mounting bracket 10, lift the subassembly 8 setting simultaneously on the right side of mounting bracket 10, the middle part top of collecting the frame 15 runs through and is fixed with connecting pipe 151, and a row of gathering pore 152 has been seted up to the lower surface of collecting the frame 15, and collecting the frame 15 and be the setting of arc form structure, and the inside of collecting the frame 15 is hollow form structure setting, the trailing flank of collecting the frame 15 is fixed with connecting plate 16, and adjusting plate 13 is installed to the right flank screw of connecting plate 16, and the top of adjusting plate 13 is the setting of slope form structure. The spout 1001 has been seted up to the trailing flank inner wall of mounting bracket 10, and the inside level of spout 1001 installs guide post 1002 to the outside of guide post 1002 runs through the trailing flank inside of connecting plate 16, and the right-hand member outside nested connection of guide post 1002 has connecting spring 1003, and connecting plate 16 passes through regulating plate 13 and constitutes side-to-side sliding structure with mounting bracket 10. The rear side of the cutting assembly 11 is fixed with a control plate 12, the lower part of the control plate 12 is arranged in an inclined structure, an adjusting plate 13 is correspondingly arranged below the control plate 12, and the adjusting plate 13 and the mounting frame 10 form a left-right sliding structure through the control plate 12;

The connecting pipe 151 is connected with an external dust collection mechanism through a connecting hose firstly, then when the cutting assembly 11 moves downwards to carry out cutting operation, the cutting assembly 11 drives the control board 12 to move downwards, at the moment, the control board 12 with the lower end in an inclined shape moves downwards, the adjusting board 13 pushes the connecting board 16 and the collecting frame 15 leftwards, at the moment, the connecting spring 1003 is pulled to enable the connecting spring 1003 to store force, then the cutting assembly 11 continues to move downwards to carry out cutting operation, after cutting is finished, the cutting assembly 11 moves upwards, at the moment, the connecting board 16 is automatically driven to move rightwards outside the guide post 1002 through the storing force of the connecting spring 1003, at the moment, the collecting frame 15 is reset to the right below the cutting assembly 11, then the external dust collection mechanism is started, at the moment, dust and fragments generated at the cutting position are adsorbed and collected by the collecting frame 15 through the collecting hole 152, and the dust adsorption efficiency of the collecting frame 15 is high due to the fact that the collecting frame 15 faces the cutting position, and a series of work is completed.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (2)

1. The cutting device for preparing the graphite electrode comprises a bottom plate (1) which is stably placed in a working area through a base, wherein a control cabinet (2) is arranged on the left side of the bottom plate (1) through screws;

The three-jaw chuck (3) is arranged on the right side surface of the control cabinet (2), and the three-jaw chuck (3) used for clamping one end of the graphite electrode is arranged above the left side of the bottom plate (1);

characterized by further comprising:

a moving frame (5) with an inverted U-shaped structure is connected above the right side of the bottom plate (1) in a sliding manner;

an installation frame (10) is installed above the movable frame (5) through screws, an electric push rod is fixedly penetrated in the upper surface of the installation frame (10), and the output end of the electric push rod is connected with a cutting assembly (11);

a moving block (6) is fixed on the right side of the moving frame (5), a supporting plate (7) is arranged on the upper Fang Luoding of the moving block (6), and a lifting assembly (8) capable of carrying and protecting the cut graphite electrode is connected to the inner side of the supporting plate (7);

a collecting frame (15) for cleaning dust is arranged under the cutting assembly (11) at the inner side of the mounting frame (10), and the collecting frame (15) is connected with the mounting frame (10) in a left-right sliding manner;

a bearing component (9) is arranged on the left side of the collecting frame (15);

A connecting plate (16) is fixed on the rear side surface of the collecting frame (15), an adjusting plate (13) is mounted on the right side surface of the connecting plate (16) through screws, and the upper part of the adjusting plate (13) is in an inclined structure;

A sliding groove (1001) is formed in the inner wall of the rear side surface of the mounting frame (10), a guide column (1002) is horizontally arranged in the sliding groove (1001), the outer side of the guide column (1002) penetrates through the rear side surface of the connecting plate (16), a connecting spring (1003) is connected to the outer side of the right end of the guide column (1002) in a nested mode, and the connecting plate (16) and the mounting frame (10) form a left-right sliding structure through an adjusting plate (13);

the rear side of the cutting assembly (11) is fixedly provided with a control plate (12), the lower part of the control plate (12) is in an inclined structure, an adjusting plate (13) is correspondingly arranged below the control plate (12), and meanwhile, the adjusting plate (13) and the mounting frame (10) form a left-right sliding structure through the control plate (12);

The inside of the moving block (6) is penetrated and slidingly connected with a threaded rod (4), the inside of a supporting plate (7) on the rear moving block (6) is penetrated and rotationally connected with an upper cross rod (17), one end of the upper cross rod (17) is connected with the outer side surface of the lifting assembly (8) through screws, the lifting assembly (8) and the supporting plate (7) form a rotating structure through the upper cross rod (17), and a first transmission gear (18) is connected with the outer key at the rear end of the upper cross rod (17);

A lower cross rod (19) is arranged below the upper cross rod (17), the front end of the lower cross rod (19) is rotationally connected with the support plate (7) at the rear side, a second transmission gear (20) is connected with the outer key at the rear end of the lower cross rod (19), and a first transmission gear (18) is connected above the second transmission gear (20) in a meshed manner;

The rear side surface of the bottom plate (1) is provided with a mounting frame (14) with an L-shaped structure by screws, the upper surface of the mounting frame (14) is provided with rack assemblies (141) at equal intervals, and the upper parts of the rack assemblies (141) are connected with a second transmission gear (20) in a meshed manner;

the upper surface of the bottom plate (1) is integrally provided with a track (101), the front side and the rear side of the bottom plate (1) are rotatably connected with threaded rods (4), and the outer sides of the right ends of the threaded rods (4) are in penetrating threaded connection with movable frames (5);

a sliding block (51) is arranged at the middle bottom of the movable frame (5), and the sliding block (51) is in sliding connection with the track (101);

The upper surface screw of the movable frame (5) is provided with a bearing component (9), the bearing component (9) and the lifting component (8) are in a circular ring structure, the bearing component (9) is arranged on the left side of the mounting frame (10), and the lifting component (8) is arranged on the right side of the mounting frame (10);

The connecting pipe (151) is fixedly penetrated above the middle part of the collecting frame (15), a row of gathering holes (152) are formed in the lower surface of the collecting frame (15), the collecting frame (15) is arranged in an arc-shaped structure, and the inside of the collecting frame (15) is arranged in a hollow structure.

2. The cutting device for preparing graphite electrodes according to claim 1, wherein: the outer side of the front end of the lower cross rod (19) is connected with a vortex spring (21) in a nested mode, and the front end of the vortex spring (21) is connected with a supporting plate (7) on the rear side.