CN111283391B

CN111283391B - Cutting process for stainless steel material

Info

Publication number: CN111283391B
Application number: CN202010232516.4A
Authority: CN
Inventors: 潘岳燕; 熊芳
Original assignee: Jiangmen City Gangcheng Home Electric Appliance Co ltd
Current assignee: JIANGMEN CITY GANGCHENG HOME ELECTRIC APPLIANCE Co.,Ltd.
Priority date: 2020-03-28
Filing date: 2020-03-28
Publication date: 2021-04-27
Anticipated expiration: 2040-03-28
Also published as: CN111283391A

Abstract

The invention relates to a stainless steel material cutting process, which uses a stainless steel material cutting device, wherein the stainless steel material cutting device comprises a supporting platform, a roll shaft driving device, a cutting roller, a transportation platform, a repair assembly, a chamfering mechanism and a conveying roller frame, wherein the conveying roller frame is arranged on one side of the supporting platform, the roll shaft driving device is arranged at one end of the top of the supporting platform, the transportation platform is arranged on the upper end surface of the supporting platform, the transportation platform is positioned on the right side of the roll shaft driving device, the cutting roller is arranged right above the transportation platform, the cutting roller is arranged on the top of the supporting platform through a fixing frame, the right end of the transportation platform is connected with the repair assembly, the chamfering mechanism is arranged on the right side of the repair assembly, and a separation shell is arranged on; the chamfering machine can simultaneously chamfer a plurality of cut stainless steel sheets, has high chamfering efficiency and has the characteristic of long service life.

Description

Cutting process for stainless steel material

Technical Field

The invention relates to the technical field of stainless steel material processing, in particular to a cutting process for a stainless steel material.

Background

The antibacterial stainless steel is used as a raw material for manufacturing the tableware, and the raw material is cut into a required size at the beginning of manufacturing the antibacterial stainless steel tableware, and then the antibacterial stainless steel is manufactured by punching.

The cutting process of the antibacterial stainless steel material for manufacturing tableware in the current market has the following problems in the operation process: a. the traditional cutting process of the antibacterial stainless steel material can synchronously perform chamfering treatment on the cut stainless steel sheet, but the chamfering process can only perform treatment on one cut stainless steel sheet, so that the efficiency is low, and simultaneously, four corners of the stainless steel sheet cannot be simultaneously operated; b. when traditional antibiotic stainless steel material tailors technology and carries out the chamfer to the stainless steel sheet after tailorring and handle, all adopt the mode of polishing to carry out the chamfer, and the process of polishing all adopts monoblock stone of polishing to carry out the operation, because the stone of polishing with the area of contact of stainless steel sheet far be less than the surface area of stone of polishing for the local impaired back of stone of polishing needs whole replacement, lead to polishing the not abundant utilization that obtains of stone, the life of stone of polishing promptly is not long.

Disclosure of Invention

In order to solve the problems, the invention provides a cutting process for a stainless steel material, which can solve the problems in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a technology is tailor to stainless steel material, its has used a device is tailor to stainless steel material, and this device is tailor to stainless steel material includes supporting platform, roller drive arrangement, tailors the roller, transports platform, restores subassembly, chamfer mechanism and delivery roll frame, and the concrete method when adopting above-mentioned device is tailor to stainless steel material to stainless steel coil of strip material operation is as follows:

s1, raw material installation: manually hoisting the stainless steel coil on the ground to a conveying roller frame through a hoisting machine, and fixing the stainless steel coil on the conveying roller frame;

s2, drive feed: manually pulling out one end of the stainless steel coiled material fixed on the conveying roller frame, inserting the stainless steel coiled material into the roller shaft driving device, and manually controlling the roller shaft driving device to work to drive the stainless steel sheet to feed;

s3, extrusion cutting: manually controlling the cutting roller to work, conveying the stainless steel sheet to the conveying platform under the action of the roller shaft driving device, and contacting with the cutting roller to enable the cutting roller to extrude and cut the stainless steel sheet;

s4, trimming and repairing: the cut stainless steel sheet enters the repairing assembly under the driving of the conveying platform and the roll shaft driving device, and the trimming edge of the cut stainless steel sheet is flattened and repaired by the repairing assembly;

s5, chamfering: under the drive of the conveying platform and the roll shaft driving device, the repaired stainless steel sheet continuously moves to enter the chamfering mechanism, and the chamfer processing is carried out on the section of the stainless steel sheet through the chamfering mechanism;

a conveying roller frame is arranged on one side of the supporting platform, a roller shaft driving device is installed at one end of the top of the supporting platform, the conveying platform is installed on the upper end face of the supporting platform and is located on the right side of the roller shaft driving device, a cutting roller is arranged right above the conveying platform and is installed on the top of the supporting platform through a fixing frame, a repairing assembly is connected to the right end of the conveying platform, and a chamfering mechanism is installed on the right side of the repairing assembly;

the repairing assembly comprises a separating shell, a limiting roller, a moving groove and a repairing plate, the separating shell is mounted on the upper end face of the supporting platform through a fixing rod, the left end of the separating shell is attached to the right side wall of the transportation platform, the moving groove is formed in the separating shell, the limiting roller is arranged above the moving groove, and the repairing plate is embedded into the bottom of the moving groove;

the chamfering mechanism comprises a chamfering shell, a positioning slide bar, a sliding sleeve, a mounting plate, a polishing unit, a connecting rod, a driven bevel gear, a driving motor and a V-shaped slide rail, wherein the chamfering shell is arranged above the supporting platform through a supporting rod, the left end face of the chamfering shell is attached to the right end face of the separating shell, the driving motor is arranged at each of two ends of the chamfering shell through a bolt, an output shaft of the driving motor penetrates through the chamfering shell, the driving bevel gear is welded at one end of the output shaft of the driving motor, the driven bevel gear is meshed and connected to one side of the driving bevel gear, an eccentric rod is welded on the outer wall of the gearless side of the driven bevel gear, the connecting rod is sleeved on the outer wall of the eccentric rod, the sliding sleeve is movably connected to the top end of the connecting rod through a, swing joint has the mounting bracket on the mounting panel, and the mounting panel is controlled equidistance swing on the mounting bracket, and the mounting bracket is fixed in the inside of chamfer shell, and one side of mounting panel is provided with V type slide rail, and V type slide rail cup joints in the outside of V type gyro wheel, and the two is the cooperation structure, and the unit of polishing is installed to the opposite side of mounting panel, and concrete during operation, manual control driving motor work.

Furthermore, the lower end face of the moving groove and the upper end face of the conveying platform are located in the same horizontal plane, triangular repairing grooves are formed in the repairing plate at equal intervals, and the cross section of each triangular repairing groove has a certain inclination angle relative to the horizontal plane.

Further, the inside symmetry of chamfer shell is provided with smooth rectangular plate, and is fixed through the round bar between smooth rectangular plate and the chamfer shell, two the one end outer wall of smooth rectangular plate pastes mutually with the end of shifting chute, and is close to the up end of the smooth rectangular plate of the inside lower extreme of chamfer shell and the lower terminal surface parallel and level of shifting chute are close to the up end parallel and level of the smooth rectangular plate of the inside upper end of chamfer shell and shifting chute.

Furthermore, the one end of separation shell is seted up three not co-altitude passageway, and every the inner structure of passageway all is the same with the inner structure of separation shell, every the one end of passageway all corresponds and installs chamfer mechanism.

Further, the polishing unit comprises a connecting fixed plate, a side fixed plate, an upper fixed plate, a lower fixed plate, an adjusting threaded rod, a supporting spring, a threaded connection seat, a regular hexagon polishing stone, a locking threaded rod and a threaded connection block, wherein the connecting fixed plate is arranged at one side of the mounting plate, the connecting fixed plate and the mounting plate are locked by bolts, the upper and lower ends of the connecting fixed plate are correspondingly provided with the upper fixed plate and the lower fixed plate, one ends of the upper fixed plate and the lower fixed plate, which are close to the connecting fixed plate, are provided with vertical through holes, the adjusting threaded rod is inserted in the vertical through holes, the threaded connection seats are welded at the connecting part of the adjusting threaded rods at the upper and lower ends of the connecting fixed plate, the supporting spring is sleeved on the outer wall of the adjusting threaded rod, the side fixed plate is arranged at, two adjacent threaded connection blocks are locked through locking threaded rods, and regular hexagonal grinding stones are uniformly inserted into an area formed by the inner walls of the connecting fixing plate, the side fixing plate, the upper fixing plate and the lower fixing plate.

Further, the connection of the inner walls of the connecting fixing plate, the side fixing plate, the upper fixing plate and the lower fixing plate and the regular hexagon grinding stones is provided with an isosceles trapezoid groove and an isosceles trapezoid convex block in sequence.

Furthermore, one side of mounting panel and the junction welding of connecting the fixed plate have a rectangle post, connect the inside of fixed plate and seted up the rectangular hole with the junction of rectangle post, and the rectangle post is the cooperation structure with the rectangular hole.

The invention has the beneficial effects that:

1. according to the cutting process for the stainless steel material, the chamfering mechanisms are arranged in different horizontal planes, so that the cut surfaces of the cut stainless steel sheets can be staggered and leak outwards, the cut surfaces independently enter the corresponding chamfering mechanisms, synchronous chamfering operation of the cut stainless steel sheets is achieved, chamfering efficiency is higher, the grinding stones and the cut surfaces of the stainless steel sheets are in staggered contact grinding through swinging, swing amplitude is consistent, and simultaneous chamfering operation can be performed on all corners of the stainless steel sheets.

2. According to the cutting process for the stainless steel material, the whole polishing stone is formed by splicing a plurality of smaller regular hexagonal polishing stones, when the local part of the polishing stone is damaged, the damaged part can be maintained only by turning the end of the regular hexagonal polishing stone or replacing the regular hexagonal polishing stone at the non-worn part and the worn regular hexagonal polishing stone, the polishing stone is fully utilized, and the service life of a polishing unit is longer.

Drawings

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

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a physical schematic of the overall structure of the present invention;

FIG. 3 is a rear view of the chamfering mechanism of the present invention;

FIG. 4 is a partial side view of the prosthetic component of the present invention;

FIG. 5 is a schematic perspective view of a repair plate according to the present invention;

figure 6 is a front view of a sharpening unit according to the invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to 1-6, the stainless steel material cutting process uses a stainless steel material cutting device, the stainless steel material cutting device comprises a supporting platform 1, a roll shaft driving device 2, a cutting roll 3, a transportation platform 4, a repair assembly 5, a chamfering mechanism 6 and a conveying roll frame 7, and the specific method when the stainless steel material cutting device is used for cutting stainless steel coil materials is as follows:

s1, raw material installation: manually hoisting the stainless steel coil on the ground to the conveying roller frame 7 through a hoisting machine, and fixing the stainless steel coil on the conveying roller frame 7;

s2, drive feed: manually pulling out one end of the stainless steel coiled material fixed on the conveying roller frame 7, inserting the stainless steel coiled material into the roller shaft driving device 2, and manually controlling the roller shaft driving device 2 to work to drive the stainless steel sheet to feed;

s3, extrusion cutting: the cutting roller 3 is manually controlled to work, the stainless steel sheet is conveyed to the conveying platform 4 under the action of the roller shaft driving device 2 and is in contact with the cutting roller 3, and the cutting roller 3 extrudes and cuts the stainless steel sheet;

s4, trimming and repairing: the cut stainless steel sheet enters a repairing assembly 5 under the driving of a conveying platform 4 and a roller shaft driving device 2, and the edge cutting of the cut stainless steel sheet is flattened and repaired through the repairing assembly 5;

s5, chamfering: under the drive of the transportation platform 4 and the roll shaft driving device 2, the repaired stainless steel sheet continuously moves to enter the chamfering mechanism 6, and the chamfer processing is carried out on the section of the stainless steel sheet through the chamfering mechanism 6;

a conveying roller frame 7 is arranged on one side of the supporting platform 1, a roller shaft driving device 2 is installed at one end of the top of the supporting platform 1, a conveying platform 4 is installed on the upper end face of the supporting platform 1, the conveying platform 4 is located on the right side of the roller shaft driving device 2, a cutting roller 3 is arranged right above the conveying platform 4, the cutting roller 3 is installed on the top of the supporting platform 1 through a fixing frame, a repairing assembly 5 is connected to the right end of the conveying platform 4, and a chamfering mechanism 6 is installed on the right side of the repairing assembly 5;

the repairing assembly 5 comprises a separating shell 51, a limiting roller 52, a moving groove 53 and a repairing plate 54, wherein the separating shell 51 is mounted on the upper end face of the supporting platform 1 through a fixing rod, the left end of the separating shell 51 is attached to the right side wall of the transportation platform 4, the moving groove 53 is formed in the separating shell 51, the limiting roller 52 is arranged above the moving groove 53, and the repairing plate 54 is embedded into the bottom of the moving groove 53;

the lower terminal surface of shifting chute 53 all is located same horizontal plane with the up end of transport platform 4, triangle restoration groove 541 has been seted up to restoration board 54's inside equidistant, and triangle restoration groove 541's cross section has certain inclination for the horizontal plane, when concrete work, when the stainless steel sheet by the cutting is transported to restoration subassembly 5, the section of stainless steel sheet is transported to the up end of restoration board 54, and be located triangle restoration groove 541, because triangle restoration groove 541 has certain angle, make the lower terminal surface of the tangent plane of stainless steel sheet gradually receive the ascending extrusion force of triangle restoration groove 541, make the stainless steel sheet of tangent plane department slope gradually extrude to horizontal position, thereby guarantee that the stainless steel sheet after the cutting is whole level and smooth, and can normally enter into chamfering mechanism 6, can not block in the passageway.

Three channels with different heights are formed in one end of the separation shell 51, the internal structure of each channel is the same as that of the separation shell 51, and a chamfering mechanism 6 is correspondingly mounted at one end of each channel, so that chamfering procedures of the cut stainless steel sheets are not interfered with each other.

The chamfering mechanism 6 comprises a chamfering shell 61, a positioning slide rod 62, a sliding sleeve 63, a mounting plate 64, a polishing unit 65, a connecting rod 66, a driven bevel gear 67, a driving bevel gear 68, a driving motor 69 and a V-shaped slide rail 60, wherein the chamfering shell 61 is mounted above the supporting platform 1 through a support rod, the left end surface of the chamfering shell 61 is attached to the right end surface of the separating shell 51, the driving motor 69 is mounted at two ends of the chamfering shell 61 through bolts, the output shaft of the driving motor 69 penetrates through the chamfering shell 61, the driving bevel gear 68 is welded at one end of the output shaft of the driving motor 69, the driven bevel gear 67 is meshed and connected with one side of the driving bevel gear 68, an eccentric rod is welded on the outer wall of the gearless side of the driven bevel gear 67, the connecting rod 66 is sleeved on the outer wall of the eccentric rod, the top end of the connecting, the positioning slide rod 62 is fixed on the inner wall of the chamfering shell 61 through a bolt, the V-shaped roller is installed on the other side of the sliding sleeve 63, the mounting plate 64 is movably connected with the mounting frame, the mounting frame 64 swings on the mounting frame in a left-right equidistance mode, the mounting frame is fixed inside the chamfering shell 61, the V-shaped slide rail 60 is arranged on one side of the mounting plate 64, the V-shaped slide rail 60 is sleeved on the outer side of the V-shaped roller, the mounting frame and the mounting frame are of a matched structure, the polishing unit 65 is installed on the other side of the mounting plate 64, in the specific work process, the driving motor 69 is manually controlled to work, the driving bevel gear 68 is driven to rotate through the driving motor 69, the driven bevel gear 67 is driven to rotate through the rotating driving bevel gear 68, the eccentric rod on one side is driven to do circular motion through the rotating driven bevel gear 67, the V-shaped roller connected with the other side of the sliding sleeve 63 pushes and pulls the mounting plate 64, the V-shaped roller rolls up and down relative to the V-shaped sliding rail 60 at the moment, the mounting plate 64 swings on the mounting frame at equal left and right distances, the polishing unit 65 is driven by the mounting plate 64 to swing, the polishing unit 65 is in contact with the corner of the stainless steel sheet and polishes the corner of the stainless steel sheet, chamfering operation on the stainless steel sheet is achieved, due to the fact that the upper swing and the lower swing of the polishing unit 65 are constant, chamfering degree of the corners of the stainless steel sheet is guaranteed to be consistent, a certain height difference exists between every two chamfering mechanisms 6, the effect that a plurality of cut stainless steel sheets are chamfered simultaneously is achieved, chamfering operation on the cut stainless steel sheets one by one is not needed, and chamfering efficiency is effectively.

The polishing unit 65 comprises a connecting fixing plate 651, a side fixing plate 652, an upper fixing plate 653, a lower fixing plate 654, an adjusting threaded rod 655, a supporting spring 656, a threaded connection seat 657, a regular hexagon polishing stone 658, a locking threaded rod 659 and a threaded connection block 650, wherein the connecting fixing plate 651 is installed at one side of the mounting plate 64, the connecting fixing plate 651 and the mounting plate 64 are locked by bolts, the upper and lower ends of the connecting fixing plate 651 are correspondingly provided with the upper fixing plate 653 and the lower fixing plate 654, one ends of the upper fixing plate 653 and the lower fixing plate 654 close to the connecting fixing plate 651 are provided with vertical through holes, the adjusting threaded rod 655 is inserted into the vertical through holes, the connecting parts of the adjusting threaded rods 655 at the upper and lower ends of the connecting fixing plate 651 are welded with the threaded connection seats 657, the supporting spring 656 is sleeved on the outer wall of the adjusting threaded, the side fixing plates 652, the upper fixing plate 653 and the lower fixing plate 654 are welded with threaded connecting blocks 650 at side walls thereof, two adjacent threaded connecting blocks 650 are locked by a locking threaded rod 659, and regular hexagonal grindstones 658 are uniformly inserted into an area formed by inner walls of the connecting fixing plates 651, the side fixing plates 652, the upper fixing plate 653 and the lower fixing plate 654, during specific work, the locking threaded rod 659 is rotated by a wrench to be separated from the threaded connecting blocks 650, the side fixing plates 652 are removed, then the adjusting threaded rods 655 are loosened by the wrench manually, so that the upper fixing plates 653 and the lower fixing plates 654 are respectively expanded under the action of the supporting springs 656, then the regular hexagonal grindstones 658 are sequentially stacked on the lower fixing plates 654 by manual placement, during stacking, the side surfaces of the regular hexagonal grindstones 658 are aligned, when the stacked height is close to the upper fixing plates 653, then the adjusting threaded rod 655 is locked manually by a wrench, so that the upper fixing plate 653 and the lower fixing plate 654 lock the regular hexagonal grindstone 658 in the vertical direction, the side fixing plate 652 is then reinserted into one side of the upper and

lower fixing plates

653 and 654, and the locking threaded rod 659 is re-locked in the threaded connection block 650 by means of a wrench, namely, the installation of the regular hexagonal grindstone 658 is completed, and finally the attachment fixing plate 651 is mounted on the mounting plate 64, whereby the installation of the grinding unit 65 is completed, the grinding device is formed by splicing a plurality of regular hexagonal grinding stones 658, when one surface of the regular hexagonal grinding stones 658 is greatly worn, the maintenance of the grinding unit 65 can be completed only by turning the end of the regular hexagonal grinding stone 658 or replacing the non-worn regular hexagonal grinding stone 658 and the worn regular hexagonal grinding stone 658, so that the service life of the grinding unit 65 is longer.

The welding of one side of mounting panel 64 and the junction of being connected fixed plate 651 has the rectangle post, and the rectangle hole has been seted up with the junction of rectangle post in the inside of connecting fixed plate 651, and the rectangle post is the cooperation structure with the rectangle hole, when will connecting fixed plate 651 and installing one side of mounting panel 64, only need aim at rectangle hole and rectangle post to will connect the outer wall that the fixed plate 651 inserted the rectangle post through the rectangle hole, can accomplish the installation of connecting fixed plate 651 through bolt locking at last.

The inside symmetry of chamfer shell 61 is provided with smooth rectangular plate, and is fixed through the round bar between smooth rectangular plate and the chamfer shell 61, two the one end outer wall of smooth rectangular plate pastes mutually with the end of shifting chute 53, and is close to the up end of the smooth rectangular plate of the inside lower extreme of chamfer shell 61 and the lower terminal surface parallel and level of shifting chute 53 are close to the lower terminal surface of the smooth rectangular plate of the inside upper end of chamfer shell 61 and the up end parallel and level of shifting chute 53 for in stainless steel sheet after the cutting can normally enter into chamfer mechanism 6, guarantee that chamfer mechanism 6 can normally carry out the chamfer process.

The connection between the inner walls of the connecting fixing plate 651, the side fixing plate 652, the upper fixing plate 653 and the lower fixing plate 654 and the regular hexagon polishing stones 658 are sequentially provided with isosceles trapezoid grooves and isosceles trapezoid protrusions, so that the connection between the connecting fixing plate 651, the side fixing plate 652, the upper fixing plate 653 and the lower fixing plate 654 and the regular hexagon polishing stones 658 are more tight.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a technology is tailor to stainless steel material, its used a device is tailor to stainless steel material, this device is tailor to stainless steel material includes supporting platform (1), roller drive arrangement (2), tailors roller (3), transportation platform (4), restores subassembly (5), chamfer mechanism (6) and delivery roll frame (7), its characterized in that: the specific method for cutting the stainless steel coil by adopting the stainless steel material cutting device is as follows:

s1, raw material installation: manually hoisting the stainless steel coil on the ground to the conveying roller frame (7) through a hoisting machine, and fixing the stainless steel coil on the conveying roller frame (7);

s2, drive feed: manually pulling out one end of the stainless steel coiled material fixed on the conveying roller frame (7), inserting the stainless steel coiled material into the roller shaft driving device (2), and manually controlling the roller shaft driving device (2) to work to drive the stainless steel sheet to feed;

s3, extrusion cutting: the cutting roller (3) is manually controlled to work, the stainless steel sheet is conveyed to the conveying platform (4) under the action of the roller shaft driving device (2) and is in contact with the cutting roller (3), and the cutting roller (3) extrudes and cuts the stainless steel sheet;

s4, trimming and repairing: the cut stainless steel sheet enters a repairing assembly (5) under the driving of a transportation platform (4) and a roll shaft driving device (2), and the trimming of the cut stainless steel sheet is flattened and repaired by the repairing assembly (5);

s5, chamfering: under the drive of the transportation platform (4) and the roll shaft driving device (2), the repaired stainless steel sheet continuously moves to enter the chamfering mechanism (6), and the chamfer processing is carried out on the section of the stainless steel sheet through the chamfering mechanism (6);

a conveying roller frame (7) is arranged on one side of the supporting platform (1), a roller shaft driving device (2) is installed at one end of the top of the supporting platform (1), a transporting platform (4) is installed on the upper end face of the supporting platform (1), the transporting platform (4) is located on the right side of the roller shaft driving device (2), a cutting roller (3) is arranged right above the transporting platform (4), the cutting roller (3) is installed on the top of the supporting platform (1) through a fixing frame, the right end of the transporting platform (4) is connected with a repairing assembly (5), and a chamfering mechanism (6) is installed on the right side of the repairing assembly (5);

the repairing assembly (5) comprises a separating shell (51), a limiting roller (52), a moving groove (53) and a repairing plate (54), the separating shell (51) is installed on the upper end face of the supporting platform (1) through a fixing rod, the left end of the separating shell (51) is attached to the right side wall of the transporting platform (4), the moving groove (53) is formed in the separating shell (51), the limiting roller (52) is arranged above the moving groove (53), and the repairing plate (54) is embedded into the bottom of the moving groove (53);

the chamfering mechanism (6) comprises a chamfering shell (61), a positioning slide rod (62), a sliding sleeve (63), a mounting plate (64), a polishing unit (65), a connecting rod (66), a driven bevel gear (67), a driving bevel gear (68), a driving motor (69) and a V-shaped slide rail (60), wherein the chamfering shell (61) is mounted above the supporting platform (1) through a supporting rod, the left end face of the chamfering shell (61) is attached to the right end face of the separating shell (51), the two ends of the chamfering shell (61) are respectively provided with the driving motor (69) through bolts, the output shaft of the driving motor (69) penetrates through the chamfering shell (61), one end of the output shaft of the driving motor (69) is welded with the driving bevel gear (68), one side of the driving bevel gear (68) is connected with the driven bevel gear (67) in a meshing manner, and the outer wall of one side of the, connecting rod (66) have been cup jointed to the outer wall of eccentric rod, there is sliding sleeve (63) on the top of connecting rod (66) through round pin axle swing joint, sliding sleeve (63) cup joint the outer wall in location slide bar (62), location slide bar (62) pass through the inner wall of bolt fastening at chamfer shell (61), V type gyro wheel is installed to the opposite side of sliding sleeve (63), swing joint has the mounting bracket on mounting panel (64), mounting panel (64) is the equidistance swing about on the mounting bracket, the inside at chamfer shell (61) is fixed to the mounting bracket, one side of mounting panel (64) is provided with V type slide rail (60), and V type slide rail (60) cup joint the outside at V type gyro wheel, the two is the cooperation structure, unit (65) of polishing are installed to the opposite side of mounting panel (64), concrete during operation, manual control.

2. The cutting process of the stainless steel material according to claim 1, characterized in that: the lower end face of the moving groove (53) and the upper end face of the conveying platform (4) are located in the same horizontal plane, triangular repairing grooves (541) are formed in the repairing plate (54) at equal intervals, and the cross section of each triangular repairing groove (541) has a certain inclination angle relative to the horizontal plane.

3. The cutting process of the stainless steel material according to claim 1, characterized in that: the inside symmetry of chamfer shell (61) is provided with smooth rectangular plate, and is fixed through the round bar between smooth rectangular plate and chamfer shell (61), two the one end outer wall of smooth rectangular plate pastes with the end of shifting chute (53) mutually, and is close to the up end of the smooth rectangular plate of the inside lower extreme of chamfer shell (61) and the lower terminal surface parallel and level of shifting chute (53) are close to the lower terminal surface parallel and level of the smooth rectangular plate of the inside upper end of chamfer shell (61) and the up end parallel and level of shifting chute (53).

4. The cutting process of the stainless steel material according to claim 1, characterized in that: the separating shell (51) is characterized in that one end of the separating shell (51) is provided with three channels with different heights, the internal structure of each channel is the same as that of the separating shell (51), and one end of each channel is correspondingly provided with a chamfering mechanism (6).

5. The cutting process of the stainless steel material according to claim 1, characterized in that: the polishing unit (65) comprises a connecting fixing plate (651), a side fixing plate (652), an upper fixing plate (653), a lower fixing plate (654), an adjusting threaded rod (655), a supporting spring (656), a threaded connecting seat (657), a regular hexagon polishing stone (658), a locking threaded rod (659) and a threaded connecting block (650), wherein the connecting fixing plate (651) is installed at one side of the mounting plate (64), the connecting fixing plate (651) and the mounting plate (64) are locked by bolts, the upper and lower ends of the connecting fixing plate (651) are correspondingly provided with the upper fixing plate (653) and the lower fixing plate (654), one ends of the upper fixing plate (653) and the lower fixing plate (654), which are close to the connecting fixing plate (651), are provided with vertical through holes, the adjusting threaded rod (655) is inserted in the vertical through holes, and the threaded connecting seat (657) is welded at the connecting part of the adjusting threaded rod (655), and supporting springs (656) are sleeved on the outer wall of the adjusting threaded rod (655), a side fixing plate (652) is arranged on the other side of the upper fixing plate (653) and the lower fixing plate (654), threaded connection blocks (650) are welded on the side walls of the side fixing plate (652), the upper fixing plate (653) and the lower fixing plate (654), two adjacent threaded connection blocks (650) are locked through locking threaded rods (659), and regular hexagonal grinding stones (658) are uniformly inserted into an area formed by the inner walls of the connecting fixing plate (651), the side fixing plate (652), the upper fixing plate (653) and the lower fixing plate (654).

6. The cutting process of the stainless steel material according to claim 5, characterized in that: the connection fixing plate is characterized in that isosceles trapezoid grooves and isosceles trapezoid convex blocks are sequentially arranged at the connection positions of the inner walls of the connection fixing plate (651), the side fixing plate (652), the upper fixing plate (653) and the lower fixing plate (654) and the regular hexagon polishing stones (658).

7. The cutting process of the stainless steel material according to claim 5, characterized in that: the welding of one side of mounting panel (64) and the junction of connecting fixed plate (651) has the rectangle post, and the rectangle hole has been seted up with the junction of rectangle post in the inside of connecting fixed plate (651), and rectangle post and rectangle hole be the cooperation structure.