CN217476074U - Graphite column slicing mechanism with material collecting device - Google Patents

Abstract

The utility model relates to a graphite post section mechanism with material collecting device, press from both sides dress mechanism centre gripping graphite post, wire cut saw body with press from both sides dress mechanism but opposite direction movement or back-to-back motion, the wire cut saw body has the wire cut saw, it sets up in the support frame to press from both sides dress mechanism, and be located between support frame and the wire cut saw, material collecting device includes the support installation department and sets up in the material collecting tank fill of supporting the installation department, a plurality of grooves of dodging have been seted up to the open end bottom that the material collecting tank was fought, the wire cut saw passes dodges groove cutting graphite post, the material collecting tank fill sets up in graphite post below, in vertical decurrent direction, the material collecting tank is fought and is set up from the open end to the other end slope. Among the above-mentioned scheme, material collecting device can catch the graphite flake that cuts down, and every graphite post section mechanism all need not the manual connecing of staff to avoid the graphite flake to collide with bad to scrap, and avoid the staff to need to hand when the graphite flake is about to cut down to connect, eliminate the manual potential safety hazard that connects that goes of staff, improve the security.

Description

Graphite column slicing mechanism with material collecting device

Technical Field

The utility model relates to a graphite spare processing technology field especially relates to a graphite post section mechanism with material collecting device.

Background

Flexible graphite, also known as expanded graphite, is a new graphite product developed in recent years. The product has special flexibility and elasticity besides the characteristics of natural graphite. Therefore, the sealing material is an ideal sealing material and is widely applied to the industrial fields of petrochemical industry, atomic energy and the like. The ring of flexible graphite may be used directly as a seal or as a component in a seal (e.g., as a filler therein).

Graphite ring among the prior art before processing, at first need be with the graphite piece cutting for a plurality of long column graphite fritters, then for cylindric graphite post through lathe work, and the cutting is the graphite flake again, will cut the graphite flake processing that is good at last and be the graphite ring. At present with the graphite column cutting for the graphite flake generally adopt the wire-electrode cutting bed, in cutting process, the graphite flake of cutting down from the graphite column drops, can collide with bad graphite flake, for solving this problem, in the production site, the staff need be at the graphite flake will cut down the time manual of going, there is great potential safety hazard, and in the production site, a staff need watch on many wire-electrode cutting beds, but a staff only can connect the graphite flake that a wire-electrode cutting bed cut down at every turn, still there is the graphite flake that the part was cut to come too late manual and drop because of the staff, lead to the graphite flake to collide with bad and scrap, lead to certain economic loss for the enterprise.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to be to the in-process that cuts the graphite post into the graphite flake through the wire-electrode cutting bed in the technique, and the staff need be when the graphite flake is about to cut off manual going to connect, has great potential safety hazard, and because a staff need watch on many wire-electrode cutting beds, still has the graphite flake that the part is cut good to come too late manual the connecing because of the staff and drops, leads to the graphite flake to knock bad and scrap, leads to the fact certain economic loss for the enterprise. The utility model provides a graphite post section mechanism with material collecting device, can catch the graphite flake that cuts down, prevent that the graphite flake from directly dropping and scraping bad, and avoid the staff to need to hand when the graphite flake is about to cut down and connect, eliminate the manual potential safety hazard that connects of going of staff, the security is improved, every graphite post section mechanism all need not the staff and hand to remove and connect, prevent that the graphite flake that the part is cut is too late to hand to connect and drop because of the staff, thereby avoid the graphite flake scraping bad and scraping, and then prevent to lead to the fact economic loss for the enterprise.

A graphite column slicing mechanism with a material receiving device comprises a base, a wire-cut saw body, a supporting frame, a clamping mechanism and a material receiving device, wherein the clamping mechanism clamps a graphite column, one of the wire-cut saw body and the supporting frame is movably arranged on the base, the wire-cut saw body and the clamping mechanism can move in opposite directions or move back to back, the wire-cut saw body is provided with a wire-cut saw, the clamping mechanism is arranged on the supporting frame and is positioned between the supporting frame and the wire-cut saw, the material receiving device comprises a supporting mounting part and a material receiving groove hopper arranged on the supporting mounting part, a plurality of avoiding grooves are formed in the bottom of the opening end of the material receiving groove hopper, the wire-cut saw penetrates through the avoiding grooves to cut the graphite column, the supporting mounting part is arranged on the base, and the material receiving groove hopper is arranged below the graphite column, in the vertical downward direction, the receiving chute hopper is obliquely arranged from the opening end to the other end.

Preferably, in the graphite column slicing mechanism with the material receiving device, the avoiding grooves are arranged at equal intervals, and the distance between every two adjacent avoiding grooves is a first preset value.

Preferably, among the above-mentioned graphite column slicer mechanism with material collecting device, the material collecting tank fill include the bottom with set up in the week lateral wall of bottom, week lateral wall has the opening, in order to form the open end of material collecting tank fill, a plurality ofly has been seted up to the bottom dodge the groove, and on vertical decurrent direction, the bottom is equipped with from opening dodge the one end in groove and set up towards the other end slope, the bottom is located graphite column below.

Preferably, in the graphite column slicing mechanism with the material receiving device, a distance between the bottom of the material receiving groove and the graphite column is less than or equal to 3 cm.

Preferably, among the above-mentioned graphite column slicer mechanism with material collecting device, press from both sides the dress mechanism and include the three-jaw chuck and set up in three jack catch on the three-jaw chuck, the three-jaw chuck set up in the support frame is kept away from the one end of base, the centre gripping step groove has been seted up to the jack catch under the condition that the three-jaw chuck is in clamping state, it is three centre gripping step groove centre gripping the graphite column, the axis level of graphite column sets up, the degree of depth in centre gripping step groove is the second default.

Preferably, in the graphite column slicing mechanism with the material receiving device, the avoiding grooves are arranged at equal intervals, any adjacent two of the avoiding grooves are a first preset value, the length of the graphite column is a fixed value which is n times of the first preset value, the first preset value is equal to the second preset value, n-1 avoiding grooves are formed in the bottom of the opening end of the receiving groove hopper, and n is an integer.

Preferably, in the graphite column slicing mechanism with the material receiving device, the three-jaw chuck is a pneumatic three-jaw chuck or an electric three-jaw chuck.

Preferably, in the graphite column slicing mechanism with the material receiving device, the wire-cut saw body is further provided with a waste chip collecting bin detachably connected, the waste chip collecting bin is located below the graphite column, and part of the wire-cut saw penetrates through a collecting port of the waste chip collecting bin.

Preferably, in the graphite column slicing mechanism with the material receiving device, the graphite column slicing mechanism further includes an operating table, the operating table is movably disposed on the base, and the wire cutting saw is located between the clamping mechanism and the operating table.

Preferably, in the graphite column slicing mechanism with the material receiving device, the graphite column slicing mechanism further comprises a driving mechanism, the wire-cut saw body is movably arranged on the base, the support frame is fixedly arranged on the base, and the driving mechanism is connected with the wire-cut saw body through a screw rod mechanism in a driving mode.

The technical scheme who this application adopted can reach following beneficial effect:

the embodiment of the application discloses a graphite post section mechanism with material collecting device, the wire cut-off saw can pass and dodge groove cutting graphite post, when cutting, the wire cut-off saw passes and dodges groove cutting graphite post, after the graphite flake cutting, the graphite flake that cuts falls in the collecting chute fill, the wire cut-off saw withdraws from and dodges the groove, then remove wire cut-off saw body or support frame, the wire cut-off saw gets into next and dodges the groove and carries out the cutting of next graphite flake, circulate the section operation of accomplishing graphite post in proper order, and because the collecting chute is fought the slope and is set up, the graphite flake that cuts off rolls or slides to one side in the collecting chute fill, the graphite flake that avoids cutting off drops from opposite side (open end), the staff only need regularly to take away the graphite flake from the collecting chute fill can. It is thus clear that material collecting device can catch the graphite flake that cuts off, prevent that the graphite flake from directly dropping and knocking bad and scrapping, and avoid the staff to need to hand when the graphite flake is about to cut off and remove and connect, eliminate the manual potential safety hazard that connects that removes of staff, improve the security, every graphite column section mechanism all need not the staff and manually removes and connects, prevent that the graphite flake that the part is cut is too late to hand to connect and drop because of the staff, thereby avoid the graphite flake to knock bad and scrap, and then prevent to cause economic loss for the enterprise.

Drawings

Fig. 1 is a schematic view of a graphite column slicing mechanism with a material receiving device disclosed in an embodiment of the present application when a graphite column is clamped;

FIG. 2 is a schematic view of a graphite column slicing mechanism with a material receiving device disclosed in an embodiment of the present application;

fig. 3 is a schematic partial structural view of a graphite column slicing mechanism with a material receiving device disclosed in an embodiment of the present application;

FIG. 4 is a schematic view of a receiving device disclosed in the embodiments of the present application.

Wherein: the cutting machine comprises a base 100, a wire cutting saw body 200, a wire cutting saw 210, a scrap collecting bin 220, a support frame 300, a clamping mechanism 400, a three-jaw chuck 410, a clamping jaw 420, a clamping step groove 430, a material receiving device 500, an installation part 510, a material receiving groove hopper 520, a bottom 521, a peripheral side wall 522, an opening 523, an avoiding groove 530, a graphite column 600 and an operation table 700.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are given in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "left," "right," "top," "bottom," "top," and the like are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 4, an embodiment of the present application discloses a graphite column slicing mechanism with a material receiving device, which includes a base 100, a wire-cut saw body 200, a supporting frame 300, a clamping mechanism 400, and a material receiving device 500, wherein:

the wire-cut saw body 200 is provided with a wire-cut saw 210, the wire-cut saw 210 is used for cutting the graphite column 600, the clamping mechanism 400 is arranged on the support frame 300 and is positioned between the support frame 300 and the wire-cut saw 210, the clamping mechanism 400 clamps the graphite column 600, one of the wire-cut saw body 200 and the support frame 300 is movably arranged on the base 100, and under the condition that the wire-cut saw body 200 or the support frame 300 moves, the wire-cut saw body 200 and the clamping mechanism 400 can move oppositely or back to back, so that the wire-cut saw 210 completes slicing processing of the graphite column 600. In the process that the graphite column 600 is clamped and processed, the axis of the graphite column 600 is horizontally arranged, the wire-cut saw 210 is perpendicular to the axis of the graphite column 600, and the wire-cut saw 210 can be vertically arranged or obliquely arranged, so that the application is not limited thereto.

Material collecting device 500 includes supporting installation department 510 and sets up in supporting installation department 510's material collecting tank fill 520, a plurality of grooves 530 of dodging have been seted up to the open end bottom that material collecting tank fill 520, wire cut saw 210 passes and dodges groove 530 and cuts graphite post 600, supporting installation department 510 installs in base 100, material collecting tank fill 520 sets up in graphite post 600 below, in vertical decurrent orientation, material collecting tank fill 520 sets up from the opening end to the other end slope, the graphite flake that cuts off falls into material collecting tank fill 520, and because material collecting tank fill 520 slope sets up, the graphite flake that cuts off rolls or slides to one side in the material collecting tank fill 520, the graphite flake that avoids cutting off drops from opposite side (open end).

In a specific operation process, a worker firstly clamps the graphite column 600 in the clamping mechanism 400, then the wire-cut saw body 200 or the supporting frame 300 is moved to enable the wire-cut saw 210 to cut the graphite column 600, when cutting is performed, the wire-cut saw 210 penetrates through the avoiding groove 530 to cut the graphite column 600, after the graphite sheets are cut, the cut graphite sheets fall into the receiving groove hopper 520, the wire-cut saw 210 exits from the avoiding groove 530, then the wire-cut saw body 200 or the supporting frame 300 is moved again, the wire-cut saw 210 enters into the next avoiding groove 530 to cut the next graphite sheet, and the slicing operation of the graphite column 600 is sequentially and circularly completed.

The embodiment of the application discloses a graphite column section mechanism with material collecting device, wire cut saw 210 can pass and dodge groove 530 and cut graphite column 600, when cutting, wire cut saw 210 passes and dodge groove 530 and cut graphite column 600, after the graphite flake cutting, the graphite flake that has cut falls into collecting chute fill 520, wire cut saw 210 withdraws from dodging groove 530, then remove wire cut saw body 200 or support frame 300 again, wire cut saw 210 gets into the next groove of dodging 530 and carries out the cutting of next graphite flake, circulate the section operation of accomplishing graphite column 600 in proper order, and because collecting chute fill 520 slope sets up, the graphite flake that cuts off rolls or slides to one side in collecting chute 520, avoid the graphite flake that cuts off to drop from opposite side (open end) regularly, the staff only need take away the graphite flake from collecting chute 520. It is thus clear that material collecting device 500 can catch the graphite flake that cuts off, prevent that the graphite flake from directly dropping and knocking bad and scrapping, and avoid the staff to need to hand when the graphite flake is about to cut off and remove and connect, eliminate the manual potential safety hazard that connects that removes of staff, improve the security, every graphite post section mechanism all need not the staff and manually removes and connects, prevent that the graphite flake that the part was cut is too late to hand to connect and drop because of the staff, thereby avoid the graphite flake to knock bad and scrap, and then prevent to cause economic loss for the enterprise.

Specifically, the receiving chute hopper 520 can include a bottom 521 and a circumferential side wall 522 arranged on the bottom 521, the circumferential side wall 522 is provided with an opening 523 to form an opening end of the receiving chute hopper 520, the bottom 521 is provided with a plurality of avoiding grooves 530, in a vertical downward direction, the bottom 521 is obliquely arranged from one end provided with the avoiding grooves 530 to the other end, the bottom 521 is located below the graphite column 600, the receiving chute hopper 520 with the structure is simple and reliable, the manufacturing and processing are convenient, and the structural simplicity of the graphite column slicing mechanism is improved.

When cutting the graphite flake, because the thickness of every graphite piece will guarantee to equal, consequently wire cut saw 210 needs equidistant cutting graphite post 600 at every turn, on this basis, in an optional embodiment, a plurality of grooves 530 of dodging set up at equidistant, and the distance between arbitrary two adjacent grooves 530 of dodging is first default, first default equals the thickness of graphite piece, so that wire cut saw 210 has corresponding groove 530 of dodging when equidistant cutting graphite post 600 at every turn, prevent that collecting channel fill 520 from influencing wire cut saw 210 to cut graphite post 600, improve the reliability of graphite post slicing machine in-process.

In this application, the good graphite flake of cutting falls into material receiving tank fill 520 in, avoid the good graphite flake of cutting directly to drop and collide with badly, but, when graphite post 600 and material receiving tank fill the distance between 520 is great, the good graphite flake of cutting falls into the distance that material receiving tank fought 520 in great, also probably collide with bad graphite flake, based on this, in an optional embodiment, the bottom that material receiving tank fought 520 and the distance between graphite post 600 can less than or equal to 3 centimetres, so that the good graphite flake of cutting falls into the less setting of distance that material receiving tank fought 520, prevent to collide with bad graphite flake because of graphite post 600 and the great distance that material receiving tank fought 520 between, further prevent that the graphite flake from colliding with badly and scrapping, further prevent to cause economic loss for the enterprise.

Preferably, the clamping mechanism 400 may include a three-jaw chuck 410 and three jaws 420 disposed on the three-jaw chuck 410, the three-jaw chuck 410 being capable of driving the three jaws 420 to clamp or unclamp a workpiece (i.e., the graphite post 600 herein). The three-jaw chuck 410 is disposed at one end of the supporting frame 300 far from the base 100, the jaws 420 are opened with clamping stepped grooves 430, the three-jaw chuck 410 has a clamping state and a loosening state, the three clamping stepped grooves 430 clamp the graphite column 600 when the three-jaw chuck 410 is in the clamping state, and the three clamping stepped grooves 430 are separated from the graphite column 600 when the three-jaw chuck 410 is in the loosening state. The depth of the clamping stepped groove 430 is a second preset value, that is, the thickness of the graphite column 600 being clamped, the graphite column 600 is processed into a graphite sheet, the second preset value is equal to the thickness of the graphite sheet, that is, the thickness of the graphite column 600 being clamped is equal to the thickness of the graphite sheet, and after the cutting is completed, the clamped portion of the graphite column 600 can be the required graphite sheet.

Since the depth of the clamping stepped groove 430 is a preset value, that is, the thickness of the graphite column 600 to be clamped, which is equal to the thickness of the graphite sheet, that is, the thickness of the graphite column 600 to be clamped is equal to the thickness of the graphite sheet, the part of the graphite column 600 to be clamped can be the desired graphite sheet after the cutting is completed. It can be seen that graphite post section mechanism can be at the in-process of cutting graphite post 600, presss from both sides dress mechanism 400 can reliably and stably press from both sides dress graphite post 600, and the thickness that presss from both sides the dress just in time equals with the graphite flake thickness that cuts, after the cutting is accomplished, the clout can be directly for the graphite flake, avoids graphite post 600 to need to be pressed from both sides the part of dress more, prevents that the clout after the cutting of wire-electrode cutting bed is more, thereby avoids causing the waste, reduces the processing cost, improves economic benefits.

As described above, the first preset value is equal to the thickness of the graphite sheet, the second preset value is equal to the thickness of the graphite sheet, optionally, the length of the graphite column 600 is a fixed value, the fixed value is n times of the first preset value, and the first preset value is equal to the second preset value, n-1 avoiding grooves 530 are opened at the bottom of the open end of the material receiving groove bucket 520, where n is an integer. That is to say, graphite post 600 can cut for an integer graphite flake, avoids producing the clout, and all has corresponding groove 530 of dodging when wire cut saw 210 cuts graphite post 600 at equidistant every time, prevents that material receiving groove fill 520 from influencing wire cut saw 210 and cutting graphite post 600. Further, the length of the graphite column 600 may be slightly greater than n times the first preset value, so as to offset the cutting material of the wire saw 210, so that the thickness of the graphite sheet can meet the requirement.

As described above, the clamping mechanism 400 includes the three-jaw chuck 410 and the three jaws 420 disposed on the three-jaw chuck 410, the three-jaw chuck 410 can drive the three jaws 420 to clamp or release the graphite column 600, and the three-jaw chuck 410 can be manually driven, but this increases the workload of the worker. Alternatively, the three-jaw chuck 410 may be a pneumatic three-jaw chuck or an electric three-jaw chuck. The pneumatic three-jaw chuck and the electric three-jaw chuck can automatically drive the three jaws 420 to clamp or loosen the graphite column 600, and workers do not need to manually operate and drive the three-jaw chuck 410 to clamp or loosen the graphite column 600, so that the workload of the workers is prevented from being increased.

Preferably, the wire-cut saw body 200 may further have a waste collection bin 220 detachably connected, the waste collection bin 220 is located below the graphite column 600, and a portion of the wire-cut saw 210 passes through a collection port of the waste collection bin 220, waste generated by the wire-cut saw 210 during a cutting process falls into the waste collection bin 220 through the collection port of the waste collection bin 220 along the wire-cut saw 210, or waste generated by the wire-cut saw 210 during the cutting process directly falls into the waste collection bin 220 located below the graphite column 600, so as to achieve collection of the waste, and avoid pollution caused by the waste falling everywhere. When the scrap collecting bin 220 is full, the scrap collecting bin is detached from the wire cutting saw body 200, and then the scrap collecting bin 220 is cleaned and then is installed on the wire cutting saw body 200 again.

Preferably, the graphite column slicing mechanism disclosed in the present application may further include an operation table 700, the operation table 700 may be movably disposed on the base 100, and the wire saw 210 is located between the clamping mechanism 400 and the operation table 700. The operation panel 700 facilitates the worker to clamp the graphite column 600, places tools (such as calipers), materials and the like, and improves the usability of the graphite column slicing mechanism.

In the present application, one of the wire-cut saw body 200 and the support 300 is movably disposed on the base 100, and the other is fixedly disposed on the base 100, and when the wire-cut saw body 200 or the support 300 moves, the wire-cut saw 210 and the clamping mechanism 400 move toward or away from each other, so that the wire-cut saw 210 completes slicing of the graphite column 600. Optionally, the wire-cut saw body 200 is movably disposed on the base 100, the supporting frame 300 is fixedly disposed on the base 100, so that the wire-cut saw body 200 moves, and the wire-cut saw 210 can cut graphite flakes from the graphite column 600, and since the supporting frame 300 is provided with the clamping mechanism 400, the clamping mechanism 400 clamps the graphite column 600, which is not convenient to move, and the wire-cut saw body 200 is movably disposed on the base 100, so that the clamping mechanism 400 is prevented from moving, and the processing reliability and stability of the graphite column slicing mechanism are improved.

Further, the graphite column slicing mechanism disclosed in the present application can also comprise a driving mechanism, the driving mechanism is connected with the wire-cut saw body 200 through the driving of a screw mechanism, the driving mode is reliable in driving and high in driving precision, so that the graphite column 600 can be accurately cut, the thickness and size precision of the cut graphite flake is high, and the slicing precision of the graphite column slicing mechanism is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several implementation modes of the present application, and the description thereof is specific and detailed, but not construed as limiting the scope of the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The graphite column slicing mechanism with the material receiving device is characterized by comprising a base (100), a wire cutting saw body (200), a support frame (300), a clamping mechanism (400) and the material receiving device (500), wherein the clamping mechanism (400) clamps a graphite column (600), one of the wire cutting saw body (200) and the support frame (300) is movably arranged on the base (100), the wire cutting saw body (200) and the clamping mechanism (400) can move in opposite directions or move in opposite directions, the wire cutting saw body (200) is provided with a wire cutting saw (210), the clamping mechanism (400) is arranged on the support frame (300) and is positioned between the support frame (300) and the wire cutting saw (210), the material receiving device (500) comprises a supporting installation part (510) and a material receiving groove hopper (520) arranged on the supporting installation part (510), a plurality of dodging grooves (530) have been seted up to the open end bottom that the material receiving groove fought (520), wire cut saw (210) pass dodge groove (530) cutting graphite post (600), support installation department (510) install in base (100), the material receiving groove fill (520) set up in graphite post (600) below, in vertical decurrent orientation, the material receiving groove fill (520) are from the opening end to the other end slope setting.

2. The graphite column slicing mechanism with the material receiving device as claimed in claim 1, wherein the avoiding grooves (530) are arranged at equal intervals, and a distance between any two adjacent avoiding grooves (530) is a first preset value.

3. The graphite column slicing mechanism with the receiving device as claimed in claim 1, wherein the receiving chute (520) comprises a bottom (521) and a peripheral side wall (522) arranged on the bottom (521), the peripheral side wall (522) has an opening (523) to form an opening end of the receiving chute (520), the bottom (521) is provided with a plurality of avoiding grooves (530), the bottom (521) is inclined towards the other end from one end provided with the avoiding grooves (530) in a vertical downward direction, and the bottom (521) is located below the graphite column (600).

4. The graphite column slicing mechanism with the material receiving device as claimed in claim 1, wherein the distance between the bottom of the material receiving chute (520) and the graphite column (600) is less than or equal to 3 cm.

5. The graphite column slicing mechanism with the material receiving device is characterized in that the clamping mechanism (400) comprises a three-jaw chuck (410) and three clamping jaws (420) arranged on the three-jaw chuck (410), the three-jaw chuck (410) is arranged at one end, far away from the base (100), of the supporting frame (300), clamping stepped grooves (430) are formed in the clamping jaws (420), under the condition that the three-jaw chuck (410) is in a clamping state, the three clamping stepped grooves (430) clamp the graphite column (600), the axis of the graphite column (600) is horizontally arranged, and the depth of the clamping stepped grooves (430) is a second preset value.

6. The graphite column slicing mechanism with the material receiving device as claimed in claim 5, wherein the avoiding grooves (530) are arranged at equal intervals, the distance between any two adjacent avoiding grooves (530) is a first preset value, the length of the graphite column (600) is a fixed value, the fixed value is n times of the first preset value, the first preset value is equal to the second preset value, n-1 avoiding grooves (530) are arranged at the bottom of the opening end of the material receiving groove hopper (520), and n is an integer.

7. The graphite column slicing mechanism with the material receiving device is characterized in that the three-jaw chuck (410) is a pneumatic three-jaw chuck or an electric three-jaw chuck.

8. The graphite column slicing mechanism with the material receiving device as claimed in claim 1, wherein the wire-cut saw body (200) further has a waste collection bin (220) detachably connected, the waste collection bin (220) is located below the graphite column (600), and a portion of the wire-cut saw (210) passes through a collection port of the waste collection bin (220).

9. The graphite column slicing mechanism with the material receiving device as claimed in claim 1, further comprising an operation table (700), wherein the operation table (700) is movably disposed on the base (100), and the wire cutting saw (210) is located between the clamping mechanism (400) and the operation table (700).

10. The graphite column slicing mechanism with the material receiving device is characterized in that the graphite column slicing mechanism further comprises a driving mechanism, the wire-cut saw body (200) is movably arranged on the base (100), the supporting frame (300) is fixedly arranged on the base (100), and the driving mechanism is in driving connection with the wire-cut saw body (200) through a screw rod mechanism.

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