CN113584237A

CN113584237A - Automobile interior leather processing machine and processing method

Info

Publication number: CN113584237A
Application number: CN202110856683.0A
Authority: CN
Inventors: 王振东
Original assignee: Wuhan Silandou Trading Co ltd
Current assignee: Shenzhen Minda Technology Co ltd
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2021-11-02
Anticipated expiration: 2041-07-28
Also published as: CN113584237B

Abstract

The invention relates to an automobile interior leather processing machine and a processing method. The invention can solve the problems existing at present: present wire pressing groove and the line hole of slotting to the leather all utilize the instrument manual work to go on, and these instruments application scope is little, and wire pressing groove and line hole of slotting are inefficient, still lead to the wire casing not directly easily, the problem that the suture is not pleasing to the eye appears, the instrument in current line hole of slotting only cuts a aperture to the position that the leather needs the suture, and the pore wall of aperture is not neat, can cause wearing and tearing to the suture, the downthehole leather bits of cutting that can remain of suture in addition, these leather bits are in time got rid of the efficiency that can influence the suture.

Description

Automobile interior leather processing machine and processing method

Technical Field

The invention relates to the field of leather processing, in particular to an automobile interior leather processing machine and a processing method.

Background

The leather is animal skin which is obtained by physical and chemical processing such as unhairing, tanning and the like and is denatured and non-perishable. The leather is formed by tightly weaving natural protein fibers in a three-dimensional space, and the surface of the leather is provided with a special grain surface layer which has natural grains and luster and comfortable hand feeling. The leather industry covers the main industries of leather making, shoes making, leather clothing, leather pieces, fur, products thereof and the like, and the matching industries of leather chemical industry, leather hardware, leather machinery, auxiliary materials and the like. Wherein the leather has also been utilized to automotive interior's decoration, and the leather need be in the leather surface suppression recess of walking the line when making up to carry out the joint cutting line hole in the recess, the recess can conveniently walk the even pleasing to the eye wearing and tearing that just reduce the line of line, and the suture hole can make the suture pass the leather more easily and make up processing.

At present, when the line pressing groove and the suture hole are formed in the automotive interior leather, the following problems exist: the existing line pressing groove and the existing line slitting hole for leather are manually operated by using tools, the tools have small application range, the line pressing groove and the line slitting hole have low efficiency, the line grooves are not straight easily, and the problem of unattractive sewing lines is caused.

The existing tool for cutting the thread holes only cuts small holes at positions of leather needing to be sewed, the hole walls of the small holes are not neat, the sewing threads can be abraded, cut leather scraps can remain in the sewing holes, and the efficiency of the sewing threads can be affected due to the fact that the leather scraps are not removed in time.

Disclosure of Invention

The invention aims to provide a processing machine and a processing method for automobile interior leather, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the automobile interior leather processing machine comprises a base, a conveying device and a processing device, wherein the conveying device is arranged on the base, and the processing device is arranged on the conveying device.

The feeding device comprises feeding support plates, feeding motors, feeding rotating rods, a discharging roller and a tensioning unit, wherein the feeding support plates are symmetrically arranged in the middle of the upper surface of the base along the width direction of the base, the feeding motors are arranged in the middle of the feeding support plates, the feeding rotating rods are symmetrically arranged at two ends of the feeding support plates in the length direction, the feeding motors are of a double-shaft structure, the output ends of the feeding motors are meshed with one ends of the feeding rotating rods through bevel gears, the discharging roller is arranged between the two feeding rotating rods at opposite positions on the two feeding support plates, the tensioning unit is arranged on the upper surface of the base, and the discharging roller is positioned under the tensioning unit.

The processing device comprises an adjusting unit, a processing bracket, a processing pinch roller, a processing chute, a processing slide block, a processing cutter, a processing connecting rod and a processing deflector rod, wherein the middle part of the tensioning unit is provided with the adjusting unit, the adjusting unit is provided with two pairs of processing brackets which are vertically and symmetrically arranged in a threaded connection mode, each pair of processing brackets are symmetrically arranged at two ends in the length direction of the adjusting unit, the processing pinch roller is rotatably arranged on the processing bracket, the right side of the processing bracket is provided with a vertical processing chute, the processing slide block is arranged in the processing chute in a sliding manner, a reset spring is connected between one end of the processing chute and the upper end surface of the processing slide block, the processing cutter is arranged at the lower end surface of the processing slide block, the processing connecting rod is rotatably arranged above the processing bracket and is in an L-shaped structure, one side of the processing slide block is hinged with one end of the processing connecting rod, and one part of the processing connecting rod, which is connected with the processing slide block, is in an elastic telescopic structure, and a processing deflector rod is arranged on the processing pinch roller, and the other end of the processing connecting rod is in matched contact with the processing deflector rod.

As a further scheme of the invention: defeated material bull stick comprises defeated material axostylus axostyle and defeated material inserted bar, defeated material axostylus axostyle with defeated material inserted bar slip grafting and be connected with supporting spring between the two, defeated material extension board is connected with defeated material axostylus axostyle rotation, defeated material motor output passes through bevel gear with defeated material axostylus axostyle one end and meshes mutually, the blowing roller is pegged graft with defeated material inserted bar one end.

As a further scheme of the invention: the tensioning unit comprises tensioning supports, tensioning slide bars, tensioning slide blocks and tensioning rollers, the tensioning supports are symmetrically arranged on the upper surface of the base along the width direction of the base, the tensioning slide bars are symmetrically arranged at two ends of each tensioning support, the tensioning slide blocks are arranged on the tensioning slide bars in a sliding mode, tensioning springs are connected between one ends of the tensioning slide bars and the tensioning slide blocks, and the tensioning rollers are arranged between the tensioning slide blocks at the opposite positions of the two tensioning supports in a rotating mode.

As a further scheme of the invention: the processing slider right side that is located the top position is provided with moves back the bits slide rail, moves back and slides in the bits slide rail and is provided with and moves back the bits slider, moves back the bits slide rail internal rotation and installs and move back the bits screw rod, moves back the bits slider and passes through threaded connection with moving back the bits screw rod, moves back the terminal surface and installs and move back the bits guide arm under the bits slider.

As a further scheme of the invention: the processing pinch roller both sides are installed and are adjusted the pillar, adjust the pillar surface and evenly seted up a plurality of along its circumference direction and adjust the spout, adjust spout and processing driving lever sliding connection, and adjust the spout internal rotation and be provided with adjusting bolt, and processing driving lever passes through threaded connection with adjusting bolt.

As a further scheme of the invention: the cutter edge of the processing cutter is of a spherical concave structure.

As a further scheme of the invention: the adjusting unit comprises adjusting support plates, adjusting slideways, adjusting sliders, a first screw and a second screw, the adjusting support plates are arranged on the tensioning supports, the adjusting support plates on the two tensioning supports are symmetrical in position, the vertical adjusting slideways are symmetrically arranged at the upper ends and the lower ends of the adjusting support plates, the adjusting sliders are arranged in the adjusting slideways in a sliding mode, the first screw is arranged in the adjusting slideways in a rotating mode, the adjusting support plates are connected with the first screw in a threaded fit mode, the adjusting sliders are rotatably connected with the first screw, the processing supports are connected with the adjusting sliders in a sliding mode, the second screw is installed between the adjusting sliders at the relative positions on the two tensioning supports in a rotating mode, and the processing supports are connected with the second screw through threads.

In addition, the invention also provides a processing method of the automotive interior leather, which comprises the following steps: s1, preparation: the automobile interior leather processing machine is debugged, the existing cutting equipment is used for cutting a large area of leather into a strip with the required length and width, the cut leather is wound on the discharging roller on the left side to be connected, and the other end of the leather penetrates through the tensioning unit and the processing device to be connected with the discharging roller on the right side.

S2, leather grooving and hole cutting: and starting a material conveying motor, driving the two discharging rollers to rotate relatively through bevel gear meshing transmission when the material conveying motor works, and extruding the leather edge passing through the processing device out of the wire groove and cutting a slit hole.

Compared with the prior art, the invention has the following advantages: 1. the in-process that the feeding device carries out the rolling to the leather, processingequipment alright in order to carry out the action in limit wire groove limit joint-cutting hole to the leather, degree of automation is high, has solved artifical manual wire groove of pressing and joint-cutting hole inefficiency, the problem of unaesthetic.

2. The distance that processingequipment can set up the suture hole according to actual need adjusts at any time, and the chip-removing guide arm can clear up remaining leather bits in the suture hole for these leather bits can not influence the efficiency of suture.

3. Because the edge of a knife of the processing cutter is of a spherical concave structure, the wall of a hole to be cut is smoother and tidier when leather is cut, and the problem of abrasion of a seam line is avoided.

Drawings

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

Fig. 1 is a perspective view of the present invention from a first perspective.

Fig. 2 is a perspective view of the present invention from a second perspective.

Fig. 3 is a schematic perspective view of the processing apparatus of the present invention.

Fig. 4 is a schematic cross-sectional structure of the processing apparatus of the present invention.

Fig. 5 is an enlarged schematic view of fig. 4 at a.

FIG. 6 is a schematic view of the plane structure of the leather processed by the present invention.

In the figure: 1. a base; 2. a feeding device; 20. a material conveying support plate; 21. a material conveying motor; 22. a material conveying rotating rod; 220. a material conveying shaft lever; 221. a material conveying inserted rod; 23. a discharge roller; 24. a tension unit; 240. tensioning the bracket; 241. tensioning the slide bar; 242. tensioning the slide block; 243. a tension roller; 3. a processing device; 30. an adjustment unit; 300. adjusting the support plate; 301. adjusting the slide way; 302. adjusting the sliding block; 303. a first screw rod; 304. a second screw; 31. processing a bracket; 32. processing the pinch roller; 320. adjusting the strut; 321. adjusting the sliding chute; 322. adjusting the bolt; 33. processing a chute; 34. processing a sliding block; 340. a chip removing slide rail; 341. a chip removing slide block; 342. a chip removing screw; 343. a scrap-removing guide rod; 35. processing a cutter; 36. processing a connecting rod; 37. processing a deflector rod; 4. leather.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

Referring to fig. 1, the automobile interior leather processing machine comprises a base 1, a material conveying device 2 and a processing device 3, wherein the material conveying device 2 is arranged on the base 1, and the processing device 3 is arranged on the material conveying device 2.

Referring to fig. 1 and 2, the feeding device 2 includes feeding support plates 20, a feeding motor 21, feeding rotation rods 22, a discharging roller 23 and a tensioning unit 24, the feeding support plates 20 are symmetrically arranged in the middle of the upper surface of the base 1 along the width direction of the base, the feeding motor 21 is arranged in the middle of the feeding support plates 20, the feeding rotation rods 22 are symmetrically arranged at two ends of the feeding support plates 20 in the length direction, the feeding motor 21 is of a double-shaft structure, the output end of the feeding motor 21 is meshed with one end of the feeding rotation rods 22 through bevel gears, the discharging roller 23 is arranged between the two feeding rotation rods 22 at opposite positions on the two feeding support plates 20, the tensioning unit 24 is arranged on the upper surface of the base 1, and the discharging roller 23 is located under the tensioning unit 24.

Referring to fig. 2, the feeding rotating rod 22 is composed of a feeding shaft 220 and a feeding plunger 221, the feeding shaft 220 is slidably inserted into the feeding plunger 221, a support spring is connected between the feeding shaft 220 and the feeding plunger 221, the feeding support plate 20 is rotatably connected to the feeding shaft 220, the output end of the feeding motor 21 is engaged with one end of the feeding shaft 220 through a bevel gear, and the discharging roller 23 is slidably inserted into one end of the feeding plunger 221.

Referring to fig. 2, the tensioning unit 24 includes tensioning brackets 240, tensioning slide bars 241, tensioning sliders 242 and tensioning rollers 243, the tensioning brackets 240 are symmetrically arranged on the upper surface of the base 1 along the width direction of the base, the tensioning slide bars 241 are symmetrically arranged at two ends of the tensioning brackets 240, the tensioning sliders 242 are slidably arranged on the tensioning slide bars 241, a tensioning spring is connected between one end of each tensioning slide bar 241 and each tensioning slider 242, and the tensioning rollers 243 are rotatably arranged between the tensioning sliders 242 at opposite positions of the two tensioning brackets 240.

During the operation, the leather 4 is wound on the discharging roller 23 at the left side, then the other end of the leather 4 sequentially passes through the two tensioning rollers 243 and the processing device 3 between the two tensioning rollers 243 and then is connected with the discharging roller 23 at the right side, then the material conveying motor 21 is started to drive the two discharging rollers 23 to rotate in opposite directions through bevel gear meshing transmission, during the process that the discharging roller 23 at the right side winds the leather 4, the processing device 3 can press a slot and a suture hole on the edge of the leather 4, and because the leather 4 can generate certain extrusion effect on the tensioning rollers 243 during the winding process, the tensioning sliding blocks 242 connected with the two ends of the tensioning rollers 243 can slide towards the middle position of the tensioning bracket 240 on the tensioning sliding rod 241, so that the tensioning spring can be elongated, and the elastic force generated after the tensioning spring is elongated interacts with the extrusion force of the leather 4 on the tensioning rollers 243, thereby make 4 surfaces of leather be in the tensioning condition to guarantee that the wire pressing groove of leather 4 is neat unanimous with the joint-cutting line hole.

Referring to fig. 1 and 2, the processing device 3 includes an adjusting unit 30, a processing bracket 31, a processing pressing wheel 32, a processing chute 33, a processing slider 34, a processing cutter 35, a processing connecting rod 36 and a processing shift lever 37, the adjusting unit 30 is disposed in the middle of the tensioning unit 24, two pairs of processing brackets 31 are disposed on the adjusting unit 30 in a vertically symmetrical manner through a threaded connection manner, two ends of each pair of processing brackets 31 in the length direction of the adjusting unit 30 are symmetrically disposed, the processing pressing wheel 32 is rotatably disposed on the processing bracket 31, a vertical processing chute 33 is disposed on the right side of the processing bracket 31, the processing slider 34 is slidably disposed in the processing chute 33, a return spring is connected between one end of the processing chute 33 and the upper end face of the processing slider 34, the processing cutter 35 is mounted on the lower end face of the processing slider 34, the edge of the processing cutter 35 is of a spherical concave structure, the processing connecting rod 36 is rotatably mounted above the processing bracket 31, the processing connecting rod 36 is of an L-shaped structure, one side of the processing sliding block 34 is hinged to one end of the processing connecting rod 36, one part of the processing connecting rod 36, which is connected with the processing sliding block 34, is of an elastic telescopic structure, the processing pressing wheel 32 is provided with a processing shifting rod 37, and the other end of the processing connecting rod 36 is in fit contact with the processing shifting rod 37.

Referring to fig. 1 to 5, a chip removing slide rail 340 is disposed on the right side of the processing slide block 34 located at the upper position, a chip removing slide block 341 is slidably disposed in the chip removing slide rail 340, a chip removing screw 342 is rotatably mounted in the chip removing slide rail 340, the chip removing slide block 341 is in threaded connection with the chip removing screw 342, and a chip removing guide 343 is mounted on a lower end surface of the chip removing slide block 341.

Referring to fig. 3, the adjusting columns 320 are installed on two sides of the processing pressing wheel 32, a plurality of adjusting sliding grooves 321 are uniformly formed in the surfaces of the adjusting columns 320 along the circumferential direction of the adjusting columns, the adjusting sliding grooves 321 are slidably connected with the processing shifting rod 37, an adjusting bolt 322 is rotatably arranged in the adjusting sliding grooves 321, and the processing shifting rod 37 is connected with the adjusting bolt 322 through a thread.

Referring to fig. 2, the adjusting unit 30 includes an adjusting support plate 300, an adjusting slide 301, an adjusting slider 302, a first screw 303 and a second screw 304, the adjusting support plate 300 is disposed on the tensioning support 240, the adjusting support plates 300 on the two tensioning support 240 are symmetrical in position, vertical adjusting slides 301 are symmetrically disposed at the upper end and the lower end of the adjusting support plate 300, the adjusting slider 302 is slidably disposed in the adjusting slide 301, the first screw 303 is rotatably disposed in the adjusting slide 301, the adjusting support plate 300 is connected with the first screw 303 in a threaded fit manner, the adjusting slider 302 is rotatably connected with the first screw (303), the processing support 31 is slidably connected with the adjusting slider 302, the second screw 304 is rotatably mounted between the adjusting sliders 302 at opposite positions on the two tensioning support 240, and the processing support 31 is connected with the second screw 304 in a threaded manner.

During the specific operation, firstly, the second screw 304 is rotated to adjust the distance between the processing bracket 31 and the edge of the leather 4 according to the distance between the pressing groove and the edge of the leather 4, so that the distance between the processing pressing wheel 32 and the edge of the leather 4 when the processing pressing wheel is contacted with the leather 4 meets the requirement, and according to the depth requirement of the groove, the first screw 303 is rotated to enable the adjusting slide block 302 to slide towards the surface of the leather 4 in the adjusting slide way 301, so as to adjust the distance between the processing pressing wheels 32 at the upper position and the lower position to meet the requirement of the depth of the groove, and then, according to the distance between the thread holes internally tangent to the groove, the adjusting bolt 322 is rotated to control the processing deflector rod 37 to slide in the adjusting slide way 321, so that the number of the processing deflector rods 37 which can be contacted with the processing connecting rods 36 in a matching way is constant, therefore, in the rotating process of the processing deflector rod 37, the frequency of shifting the processing connecting rods 36 is adjusted, so that the distance between the thread holes in the groove can be controlled, after the distance between the suture holes is adjusted, the chip removing screw 342 is rotated to adjust the chip removing slide block 341 to slide in the chip removing slide rail 340, so that the distance between the processing cutter 35 and the chip removing guide rod 343 is the same as the distance between the suture holes.

Secondly, in the process that the leather 4 is driven to move, the machining pressing wheels 32 rotate under the action of friction force between the machining pressing wheels 32 and the leather 4, wire grooves are formed in the surfaces of the leather 4 under the matching action of the upper machining pressing wheels 32 and the lower machining pressing wheels 32, in the rotating process of the machining pressing wheels 32, the machining shifting rod 37 can shift one end of the machining connecting rod 36, and the other end of the machining connecting rod 36 can push the machining sliding block 34 downwards to enable the machining cutter 35 at the vertical relative position to cut holes in the leather 4.

In addition, the invention also provides a processing method of the automotive interior leather 4, which comprises the following steps: s1, preparation: the processing machine for the automobile interior leather 4 is debugged, the existing cutting equipment is used for cutting a large area of leather 4 into a strip with a required length and width, the cut leather 4 is wound on the left discharging roller 23, then the other end of the leather 4 sequentially passes through the two tensioning rollers 243 and the processing device 3 positioned between the two tensioning rollers 243 and then is connected with the right discharging roller 23, then the material conveying motor 21 is started to drive the two discharging rollers 23 to rotate in opposite directions through bevel gear meshing transmission, during the process that the leather 4 is wound by the right discharging roller 23, the processing device 3 can press a slot and thread holes on the edge of the leather 4, and because the leather 4 can generate a certain squeezing effect on the tensioning rollers 243 during the winding process, the tensioning sliders 242 connected with two ends of the tensioning rollers 243 can slide towards the middle position of the tensioning bracket 240 on the tensioning slide rod 241, the tension spring is thus elongated, and the elastic force generated by the elongated tension spring interacts with the pressing force of the hide 4 against the tension roller 243, thereby placing the surface of the hide 4 in a tensioned state.

S2, grooving, hole cutting and processing of leather 4: firstly, according to the distance between the wire pressing groove and the edge of the leather 4, the second screw 304 is rotated to adjust the distance between the processing bracket 31 and the edge of the leather 4, so that the distance between the processing pressing wheel 32 and the edge of the leather 4 when in contact with the leather 4 meets the requirement, according to the depth requirement of the wire groove, the first screw 303 is rotated to enable the adjusting slide block 302 to slide towards the surface of the leather 4 in the adjusting slide way 301, the distance between the processing pressing wheels 32 at the upper position and the lower position is adjusted to meet the requirement of the depth of the wire groove, and then according to the distance between the thread holes internally tangent to the wire groove, the adjusting bolt 322 is rotated to control the processing deflector rod 37 to slide in the adjusting slide groove 321, so that the number of the processing deflector rods 37 which can be in matched contact with the processing connecting rods 36 is constant, therefore, in the rotating process of the processing pressing wheels 32, the frequency of the processing deflector rod 37 for processing the connecting rods 36 is adjusted, and the distance between the thread holes in the wire groove can be controlled, after the distance between the suture holes is adjusted, the chip removing screw 342 is rotated to adjust the chip removing slide block 341 to slide in the chip removing slide rail 340, so that the distance between the processing cutter 35 and the chip removing guide rod 343 is the same as the distance between the suture holes.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides an automotive interior leather processing machinery, includes base (1), feeding device (2) and processingequipment (3), its characterized in that: a material conveying device (2) is arranged on the base (1), and a processing device (3) is arranged on the material conveying device (2); wherein:

the material conveying device (2) comprises material conveying support plates (20), material conveying motors (21), material conveying rotating rods (22), discharging rollers (23) and tensioning units (24), wherein the material conveying support plates (20) are symmetrically arranged in the middle of the upper surface of the base (1) along the width direction of the base, the material conveying motors (21) are arranged in the middles of the material conveying support plates (20), the material conveying rotating rods (22) are symmetrically and rotatably arranged at two ends of the material conveying support plates (20) in the length direction, the material conveying motors (21) are of a double-shaft structure, the output ends of the material conveying motors (21) are meshed with one ends of the material conveying rotating rods (22) through bevel gears, the discharging rollers (23) are arranged between the two material conveying rotating rods (22) which are located on the two material conveying support plates (20) at opposite positions, the tensioning units (24) are arranged on the upper surface of the base (1), and the discharging rollers (23) are located under the tensioning units (24);

the processing device (3) comprises an adjusting unit (30), a processing support (31), a processing pinch roller (32), a processing chute (33), a processing slide block (34), a processing cutter (35), a processing connecting rod (36) and a processing deflector rod (37), wherein the adjusting unit (30) is arranged in the middle of a tensioning unit (24), two pairs of processing supports (31) are symmetrically arranged on the adjusting unit (30) in an up-and-down mode in a threaded connection mode, two ends of each pair of processing supports (31) in the length direction of the adjusting unit (30) are symmetrically arranged, the processing pinch roller (32) is rotatably arranged on the processing support (31), a vertical processing chute (33) is arranged on the right side of the processing support (31), the processing slide block (34) is arranged in the processing chute (33) in a sliding mode, a return spring is connected between one end of the processing chute (33) and the upper end face of the processing slide block (34), the processing cutter (35) is installed on the lower end face of the processing slide block (34), processing connecting rod (36) are installed in rotation above processing support (31), processing connecting rod (36) are L type structure, and processing slider (34) one side is articulated with processing connecting rod (36) one end, and processing connecting rod (36) are partly for elastic telescopic structure with processing slider (34) is connected, are provided with processing driving lever (37) on processing pinch roller (32), and processing connecting rod (36) other end and processing driving lever (37) cooperation contact.

2. The automotive interior leather processing machine according to claim 1, characterized in that: defeated material bull stick (22) constitute by defeated material axostylus axostyle (220) and defeated material inserted bar (221), defeated material axostylus axostyle (220) with defeated material inserted bar (221) slip grafting and be connected with supporting spring between the two, defeated material extension board (20) are connected with defeated material axostylus axostyle (220) rotation, defeated material motor (21) output passes through bevel gear with defeated material axostylus axostyle (220) one end and meshes mutually, blowing roller (23) are pegged graft with defeated material inserted bar (221) one end.

3. The automotive interior leather processing machine according to claim 1, characterized in that: the tensioning unit (24) comprises tensioning supports (240), tensioning slide bars (241), tensioning sliding blocks (242) and tensioning rollers (243), the tensioning supports (240) are symmetrically arranged on the upper surface of the base (1) along the width direction of the base, the tensioning slide bars (241) are symmetrically arranged at two ends of each tensioning support (240), the tensioning sliding blocks (242) are slidably arranged on the tensioning slide bars (241), tensioning springs are connected between one ends of the tensioning slide bars (241) and the tensioning sliding blocks (242), and the tensioning rollers (243) are jointly rotatably arranged between the tensioning sliding blocks (242) at the opposite positions of the two tensioning supports (240).

4. The automotive interior leather processing machine according to claim 1, characterized in that: the chip removing slide rail (340) is arranged on the right side of the machining slide block (34) located at the upper position, the chip removing slide rail (341) is arranged in the chip removing slide rail (340) in a sliding mode, the chip removing screw rod (342) is installed in the chip removing slide rail (340) in a rotating mode, the chip removing slide block (341) is connected with the chip removing screw rod (342) through threads, and the chip removing guide rod (343) is installed on the lower end face of the chip removing slide block (341).

5. The automotive interior leather processing machine according to claim 1, characterized in that: adjusting struts (320) are installed on two sides of the processing pressing wheel (32), a plurality of adjusting sliding grooves (321) are uniformly formed in the surfaces of the adjusting struts (320) along the circumferential direction of the adjusting struts, the adjusting sliding grooves (321) are connected with the processing shifting rod (37) in a sliding mode, adjusting bolts (322) are arranged in the adjusting sliding grooves (321) in a rotating mode, and the processing shifting rod (37) is connected with the adjusting bolts (322) through threads.

6. The automotive interior leather processing machine according to claim 1, characterized in that: the edge of the processing cutter (35) is of a spherical concave structure.

7. The automotive interior leather processing machine according to claim 3, characterized in that: the adjusting unit (30) comprises adjusting support plates (300), adjusting slide ways (301), adjusting sliding blocks (302), a first screw rod (303) and a second screw rod (304), the adjusting support plates (300) are arranged on the tensioning supports (240), the adjusting support plates (300) on the two tensioning supports (240) are symmetrical in position, the vertical adjusting slide ways (301) are symmetrically arranged at the upper end and the lower end of each adjusting support plate (300), the adjusting sliding blocks (302) are arranged in the adjusting slide ways (301) in a sliding mode, the first screw rods (303) are rotatably arranged in the adjusting slide ways (301), the adjusting support plates (300) are connected with the first screw rods (303) in a threaded fit mode, the adjusting sliding blocks (302) are rotatably connected with the first screw rods (303), the processing supports (31) are slidably connected with the adjusting sliding blocks (302), and the second screw rods (304) are rotatably arranged between the adjusting sliding blocks (302) at opposite positions on the two tensioning supports (240), the processing bracket (31) is connected with the second screw rod (304) through threads.

8. The automotive interior leather processing machine according to claim 1, characterized in that: the method for processing the automotive interior leather by using the automotive interior leather processing machine comprises the following steps:

s1, preparation: debugging the automobile interior leather processing machine, cutting a large-area leather into a strip with a required length and width by using the existing cutting equipment, winding the cut leather on the left emptying roller (23), and connecting the other end of the leather with the right emptying roller (23) by passing through the tensioning unit (24) and the processing device (3);

s2, leather grooving and hole cutting: the material conveying motor (21) is started, when the material conveying motor (21) works, the bevel gear is meshed to drive the two discharging rollers (23) to rotate relatively, and then the edge of the leather passing through the processing device (3) is pressed out of a wire groove and a slit hole is cut out.