CN113770002A

CN113770002A - Automobile hardware stamping part

Info

Publication number: CN113770002A
Application number: CN202110924894.3A
Authority: CN
Inventors: 司远杰
Original assignee: Individual
Current assignee: Wuhan Ruipu Auto Parts Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2021-12-10
Anticipated expiration: 2041-08-12
Also published as: CN113770002B

Abstract

The invention belongs to the technical field of automobile part processing, in particular to an automobile hardware stamping part, which aims at the problem that the rigidity tensile strength and the integral characteristic of the existing automobile stamping part do not meet the current situation, the following scheme is proposed, wherein the automobile hardware stamping part comprises a hardware stamping part body, the hardware stamping part body takes iron as a main element, the hardware stamping part body also comprises zinc, aluminum, carbon and nickel metal materials, and the components of the hardware stamping part body are respectively as follows by mass percent: the metal stamping part comprises 1% -3% of zinc, 6% -8% of aluminum, 1% -2.11% of carbon, 3% -5% of nickel and the balance of iron and impurities which cannot be taken out, and a carbon fiber layer is magnetically adsorbed on the outer surface of the metal stamping part. The carbon fibers are attached to the outer surface of the stamping part through an electrostatic magnetic attraction method, the material addition of the carbon fibers can improve the rigidity, the outer surface attachment of the carbon fibers can improve the hardness of the whole stamping part, and the carbon fibers have the characteristics of high rigidity, high tensile strength, low weight, high chemical resistance, high temperature resistance and low thermal expansion.

Description

Automobile hardware stamping part

Technical Field

The invention relates to the technical field of automobile part machining, in particular to an automobile hardware stamping part.

Background

Automobile stamping parts, as the name implies, are metal stamping parts that constitute automobile parts. In the automobile stamping part, one part of the automobile stamping part is directly formed into automobile parts after stamping, and the other part of the automobile stamping part is formed into the automobile parts after being processed by welding, machining, painting or other processes after stamping. The automobile stamping parts are various in variety, and for example, the automobile shock absorber stamping parts comprise spring trays, spring seats, spring brackets, end covers, sealing covers, compression valve sleeves, oil seal seats, bottom covers, dust covers, impellers, oil cylinders, support lugs, supports and the like.

The use of the stamping workpiece of automobile also is the indispensable constitutional part of automobile assembling, but present automobile stamping workpiece all is the stamping workpiece of iron material, the outer wall can carry out anticorrosive material's coating, but in the scene that the automobile was used, automobile stamping workpiece's holistic rigidity and holistic intensity still need improve, the carbon fiber material body just has high rigidity, high tensile strength, low weight, high chemical resistance, high temperature resistant and low thermal expansion's characteristic, also be the material that automobile modification spare is commonly used, it can make the whole material attribute of stamping workpiece more outstanding with automobile stamping workpiece combination.

Disclosure of Invention

The invention provides an automobile hardware stamping part based on the technical problem that the rigidity tensile strength and the integral characteristic of the existing automobile stamping part do not meet the current situation.

The invention provides an automobile hardware stamping part which comprises a hardware stamping part body, wherein the hardware stamping part body takes iron as a main element, and also comprises zinc, aluminum, carbon and nickel metal materials, and the components of the hardware stamping part body are respectively as follows by mass percent: the metal stamping part comprises 1% -3% of zinc, 6% -8% of aluminum, 1% -2.11% of carbon, 3% -5% of nickel and the balance of iron and impurities which cannot be taken out, and a carbon fiber layer is magnetically adsorbed on the outer surface of the metal stamping part.

Preferably, the automobile hardware stamping part also comprises an automobile article stamping part processing device which comprises a feeding round box, a horizontally arranged conveying platform is fixed on one side of the bottom of the feeding round box through a bolt, a horizontally arranged rotating material tray is fixed on the bottom of the circumferential inner wall of the feeding round box through a bearing, a material blocking groove arranged in a circumferential array is arranged between the top and the bottom of the rotating material tray, and the top of one end of the conveying platform is positioned at the bottom of the vertical projection of the material blocking groove, supporting columns are fixed at the bottoms of the conveying platform and the feeding round box, the feeding device is characterized in that a feeding deflector rod horizontally arranged is fixed on one side of the top of the circumferential inner wall of the feeding circular box, an arc-shaped baffle plate vertically arranged is fixed on one side of the circumferential inner wall of the feeding circular box through bolts, and a vibration material plate horizontally arranged is fixed on the middle position of the top of the rotating material plate.

Preferably, carry the top both sides position of platform and all set up the transport recess that has the level to set up, the both sides inner wall of carrying the platform all is connected with first connecting rod through the bearing, and carries the one end position that the both sides inner wall of platform is located first connecting rod and be fixed with the second connecting rod through the bearing, be connected with the down-tilting rod that the level set up through the bearing between the top of second connecting rod and the bottom of first connecting rod, two be fixed with the horizontal defeated flitch that same level set up through the bearing between the top of down-tilting rod, and the horizontal defeated flitch is located the bottom inner wall position of carrying the recess.

Preferably, the top array of horizontal material conveying plate is fixed with the transport fore-set of vertical setting, the circumference outer wall top of carrying the fore-set all cup joints the material dog that is fixed with the level setting.

Preferably, the rotation charging tray is located the both sides inner wall that keeps off the material recess and has all seted up sliding groove, and slides the flexible material blocking block that the joint has the level to set up between the top of sliding groove and the bottom inner wall, the one end that the flexible material blocking block is located the inside that rotates the charging tray and is fixed with the electric telescopic handle that two levels set up, and the other end of two electric telescopic handle is fixed mutually with the circumference inner wall that rotates the charging tray.

Preferably, the carbon fiber magnetic suction box is fixed at one end between two sides of the conveying table through bolts and arranged at the same level, a carbon fiber conveying cylinder is fixed on the inner wall of the top of the carbon fiber magnetic suction box through bolts, a rotating middle shaft arranged at the level is sleeved between the inner walls of two ends of the carbon fiber conveying cylinder through bearings, a spiral conveying disc arranged at the level is fixed on the outer wall of the circumference of the rotating middle shaft, a material distribution baffle rod arranged at the level is fixed on a spiral surface at one end of the spiral conveying disc in an array mode, an arc-shaped cutting baffle plate arranged in the array mode is fixed at one end, located at the material distribution baffle rod, of the spiral surface at one end of the spiral conveying disc, and a carbon fiber feeding box arranged vertically is fixed on one side of the top of the carbon fiber magnetic suction box.

Preferably, the cutting pieces which are vertically arranged are fixed at one end of the top inner wall and one end of the bottom inner wall of the carbon fiber conveying cylinder, the cutting pieces are staggered with the arc-shaped cutting baffles, the bottom of the circumferential outer wall of the carbon fiber conveying cylinder is connected with a horizontally arranged material spraying jacking pipe, and the top inner wall of the material spraying jacking pipe is communicated with an air pump.

Preferably, a horizontally arranged heating degaussing box is fixed at the other end of the top of the conveying table through bolts, and electric heating screen plates are fixed on the inner walls of the top and the bottom of the heating degaussing box.

Preferably, the bottom inner wall of carbon fiber magnetism suction box is fixed with the defeated material bottom tube of material that spouts that the level set up through the bolt fastening, and the one end rigidity of spouting the defeated material bottom tube of material has vertical ascending vertical material spraying nozzle, the material spraying mouth of putting to one side is all installed to the top both sides position of vertical material spraying nozzle, the middle both sides top position of carrying the platform all has the semicircle to spout the material baffle through the bolt fastening, and spouts the defeated material bottom tube of material and is linked together with one side of carbon fiber transport section of thick bamboo.

Preferably, the bottom of the carbon fiber magnetic suction box and the inner wall of the bottom of the material spraying and conveying bottom pipe are sleeved with the same vertically arranged air inlet connecting pipe, and the air outlet end of the air inlet connecting pipe faces to the top position of the vertical material spraying nozzle.

The beneficial effects of the invention are as follows:

1. this car five metals stamping workpiece carries out the adhesion of carbon fiber through the method that sets up at the surface of stamping workpiece through electrostatic magnetism, and the material of its own adds and can improve very strong rigidity, and the surface adhesion of carbon fiber can make the hardness of whole stamping workpiece improve, and the carbon fiber has the characteristic including high rigidity, high tensile strength, low weight, high chemical resistance, high temperature resistant and low thermal expansion, behind the parcel of stamping workpiece, can improve automobile stamping workpiece's service strength.

2. This car five metals stamping workpiece inhales the case through the carbon fiber magnetism that sets up, is located the defeated material fore-set electric connection that the carbon fiber magnetism inhaled incasement portion has static, and the carbon fiber is through smashing back miscella ferroferric oxide powder, forms to have magnetic mixed powder, through the effect of spraying and magnetism, can adsorb the surface at the stamping workpiece with the even spraying of mixed powder.

3. This car five metals stamping workpiece, through the spiral conveying dish that sets up, and the circumference one end of spiral conveying dish is provided with branch material shelves pole, divides the other end position of material shelves pole to install arc cutting baffle, cooperatees with the cutting knife at top, can become the carbon fiber powder material with the quick cutting of the carbon fiber of feeding, the formation of the follow-up mixed powder of being convenient for and the process of absorption spraying.

4. This car five metals stamping workpiece spouts the material baffle through the semicircle that sets up, and in the mixed powder spraying adsorption process of stamping workpiece bottom, can return the mixed powder of partly to the spraying route, can carry out the collision spraying that relapses through the bottom of carrying platform medial surface and stamping workpiece, with the spraying more even of mixed powder.

Drawings

FIG. 1 is a schematic structural diagram of a body of an automobile hardware stamping part provided by the invention;

FIG. 2 is a schematic structural diagram of an overall processing device for an automobile hardware stamping part according to the present invention;

FIG. 3 is a schematic view of a feeding structure of a machining device for automobile hardware stamping parts, which is provided by the invention;

FIG. 4 is a schematic structural view of a reciprocating material conveying mechanism of an automobile hardware stamping part according to the present invention;

FIG. 5 is a schematic diagram of a carbon fiber feeding structure of an automobile hardware stamping part provided by the invention;

fig. 6 is a schematic structural diagram of a carbon fiber feeding, slitting and processing structure of an automobile hardware stamping part provided by the invention.

In the figure: 1 support column, 2 carry the platform, 3 carry the fore-set, 4 heat degaussing magnetic tanks, 5 carbon fiber magnetism suction box, 6 carbon fiber feeding case, 7 flexible material blocking piece, 8 material blocking grooves, 9 feeding deflector rod, 10 vibration charging tray, 11 arc striker plate, 12 rotation charging tray, 13 feeding round box, 14 transport grooves, 15 electric telescopic handle, 16 first connecting rod, 17 diagonal rod, 18 horizontal material conveying board, 19 material dog, 20 second connecting rod, 21 material spraying material conveying bottom pipe, 22 material spraying top pipe, 23 carbon fiber conveying cylinder, 24 spiral material conveying tray, 25 rotation axis, 26 semicircle material spraying baffle, 27 material spraying mouth, 28 vertical material spraying pipe, 29 air inlet connecting pipe, 30 arc cutting baffle, 31 material distributing baffle rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-6, an automobile hardware stamping part comprises a hardware stamping part body, wherein the hardware stamping part body uses iron as a main element, and further comprises zinc, aluminum, carbon and nickel metal materials, and the components of the hardware stamping part body are respectively as follows by mass percent: 1-3% of zinc, 6-8% of aluminum, 1-2.11% of carbon, 3-5% of nickel and the balance of iron and impurities which cannot be taken out, and a carbon fiber layer is magnetically adsorbed on the outer surface of the hardware stamping part.

Further, the automobile hardware stamping part also comprises an automobile part stamping part processing device, the automobile part stamping part processing device comprises a feeding round box 13, one side of the bottom of the feeding round box 13 is fixed with a horizontally arranged conveying platform 2 through a bolt, the bottom of the circumferential inner wall of the feeding round box 13 is fixed with a horizontally arranged rotating material tray 12 through a bearing, a material blocking groove 8 arranged in a circumferential array is formed between the top and the bottom of the rotating material tray 12, the top of one end of the conveying platform 2 is positioned at the vertical projection bottom position of the material blocking groove 8, the bottoms of the conveying platform 2 and the feeding round box 13 are both fixed with a support column 1, one side of the top of the circumferential inner wall of the feeding round box 13 is fixed with a horizontally arranged feeding deflector rod 9, one side of the circumferential inner wall of the feeding round box 13 is fixed with a vertically arranged arc-shaped material blocking plate 11 through a bolt, the middle position of the top of the rotating material tray 12 is fixed with a horizontally arranged vibrating material tray 10, in the process of using, through adding the stamping workpiece material toward the top of feeding round box 13, and the fender material recess 8 and the stamping workpiece phase-match that set up, through the vibration ejection of compact and feeding driving lever 9 of vibration charging tray 10 and the cooperation of arc striker plate 11, can be so that the stamping workpiece falls on the inner wall that keeps off material recess 8 and cooperates with it.

Furthermore, horizontally arranged conveying grooves 14 are formed in the positions of two sides of the top of the conveying table 2, the inner walls of two sides of the conveying table 2 are connected with first connecting rods 16 through bearings, a second connecting rod 20 is fixed at the position, located at one end of the first connecting rod 16, of the inner walls of two sides of the conveying table 2 through bearings, horizontally arranged inclined rods 17 are connected between the top of each second connecting rod 20 and the bottom of each first connecting rod 16 through bearings, a same horizontally arranged horizontal conveying plate 18 is fixed between the tops of the two inclined rods 17 through bearings, the horizontal conveying plate 18 is located at the position of the inner wall of the bottom of the conveying groove 14, vertically arranged conveying jacks 3 are fixed in the array at the tops of the horizontal conveying plates 18, horizontally arranged material stoppers 19 are fixed at the tops of the circumferential outer walls of the conveying jacks 3 in a sleeved mode, sliding grooves are formed in the inner walls, located at two sides of the material blocking grooves 8, of the rotating material tray 12, and the slip joint has the flexible material stop 7 that the level set up between the top of slip recess and the bottom inner wall, the one end of flexible material stop 7 is located the inside that rotates charging tray 12 and is fixed with the electric telescopic handle 15 that two levels set up, and the other end of two electric telescopic handle 15 is fixed mutually with the circumference inner wall that rotates charging tray 12, when the rotation charging tray 12 of top position rotates to the top one end of carrying platform 2, directly contract through electric telescopic handle 15, make flexible material stop 7 pack up, can directly let the stamping workpiece both ends place the top at the transport recess 14 of bottom, through the rotation process of second connecting rod 20, can make down the twitch pole 17 rotate, drive the process of the reciprocal operation of the horizontal material conveying plate 18 at top, the stamping workpiece that will fall is in proper order carries to other end position transportation process.

Furthermore, a carbon fiber magnetic suction box 5 which is horizontally arranged is fixed at one end position between two sides of the conveying platform 2 through bolts, a carbon fiber conveying cylinder 23 is fixed on the inner wall of the top part of the carbon fiber magnetic suction box 5 through bolts, a static wire is electrically connected with a conveying ejection column 3 which is positioned inside the carbon fiber magnetic suction box 5, a rotating central shaft 25 which is horizontally arranged is sleeved between the inner walls of two ends of the carbon fiber conveying cylinder 23 through bearings, a horizontally arranged spiral conveying disc 24 is fixed on the outer wall of the circumference of the rotating central shaft 25, horizontally arranged distribution baffle rods 31 are arrayed and fixed on the spiral surface at one end of the spiral conveying disc 24, arc-shaped cutting baffles 30 which are arrayed and fixed at one end of the spiral surface at one end of the distribution baffle rods 31 of the spiral conveying disc 24, a vertically arranged carbon fiber feeding box 6 is fixed on one side of the top part of the carbon fiber magnetic suction box 5, and vertically arranged cutting blades are fixed at one end positions of the inner wall of the top part and the inner wall at the bottom part of the carbon fiber conveying cylinder 23, the cutting pieces are staggered with the arc-shaped cutting baffle plates 30, the bottom of the circumferential outer wall of the carbon fiber conveying cylinder 23 is connected with a horizontally arranged spraying jacking pipe 22, the inner wall of the top of the spraying jacking pipe 22 is communicated with an air pump, in the conveying process, the carbon fiber conveying cylinder 23 is arranged in the carbon fiber magnetic suction box 5, carbon fibers can be conveyed, finished carbon fibers can be directly carded into filaments through the material distribution baffle rod 31, the carbon fibers and the cutting pieces at the top are mutually staggered and cut into short particles through the arc-shaped cutting baffle plates 30, the short particles can be directly called as telomere powder state, ferroferric oxide powder substances are doped in the carbon fiber feeding process, the carbon fibers are conveyed to the inside of a spraying material conveying bottom pipe 21 at the bottom of the spraying jacking pipe 22 level, and the conveying jacking columns 3 in the carbon fiber magnetic suction box 5 are provided with static electricity, so that the carbon fibers and the ferroferric oxide powder can be directly sprayed, carbon fiber and ferroferric oxide powder are uniformly adsorbed on the outer wall of the stamping part through the electrostatic adsorption process.

Further, a heating degaussing box 4 horizontally arranged is fixed at the other end of the top of the conveying table 2 through bolts, electric heating screen plates are fixed on the inner walls of the top and the bottom of the heating degaussing box 4, and after the stamping parts subjected to spraying adsorption are conveyed through the heating degaussing box 4, magnetism of carbon fibers and a ferroferric oxide adsorption layer can be eliminated, and the ferroferric oxide is heated and oxidized to form an outer protection film.

Furthermore, a horizontally arranged material spraying and conveying bottom pipe 21 is fixed on the inner wall of the bottom of the carbon fiber magnetic suction box 5 through bolts, a vertical upward vertical material spraying nozzle 28 is fixed at one end of the material spraying and conveying bottom pipe 21, inclined material spraying ports 27 are installed at two sides of the top of the vertical material spraying nozzle 28, semicircular material spraying baffles 26 are fixed at two sides of the middle of the conveying platform 2 through bolts, the material spraying and conveying bottom pipe 21 is communicated with one side of the carbon fiber conveying cylinder 23, the bottom of the carbon fiber magnetic suction box 5 and the inner wall of the bottom of the material spraying and conveying bottom pipe 21 are sleeved with the same vertically arranged air inlet connecting pipe 29, the air outlet end of the air inlet connecting pipe 29 faces the top of the vertical material spraying nozzle 28, the carbon fiber and ferroferric oxide powder entering the bottom material spraying and conveying bottom pipe 21 can be sprayed through the air inlet connecting pipe 29, and a part of the carbon fiber and ferroferric oxide powder can be returned to a spraying path through the action of the semicircular material spraying baffles 26, rebounds between the stamping part and the conveying platform 2, so that the spraying adsorption is more sufficient and uniform.

When the invention is used: an operator firstly fixes and stably connects the whole device with a power supply, in the using process, the operator places a stamping part to be processed at the top position of a feeding round box 13, the stamping part can be vibrated through the vibration process of a vibration tray 10, the stamping part can be pushed to the inside of a material blocking groove 10 and embedded with the material blocking groove through the blocking limiting process of a feeding deflector rod 9 and an arc-shaped material blocking plate 11, when a rotating tray 12 moves to one end of the top of a conveying table 2, a telescopic material blocking block 7 can be folded directly through the contraction of an electric telescopic rod 15, the stamping part is put down to the top of a conveying groove 14 at the bottom position, the stamping part can be conveyed in sequence through the horizontal reciprocating operation of a horizontal material conveying plate 18, in the conveying process, because the conveying top column 3 inside is connected with static electricity when the carbon fiber magnetic suction box 5 passes through, can carry out carbon fiber and ferroferric oxide powder coating and carry out the process of even absorption, the spraying of cooperation bottom can carry out the parcel of carbon fiber with the stamping workpiece is whole, when removing to heating demagnetization case 4, and the heating of inside heater block carries out the demagnetization process, and can improve surface oxidation, forms the protection film.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an automobile hardware stamping part, includes hardware stamping part body, its characterized in that, hardware stamping part body uses iron as the main element, hardware stamping part body still includes zinc, aluminium, carbon and nickel metal material, and its component is according to mass percent respectively: the metal stamping part comprises 1% -3% of zinc, 6% -8% of aluminum, 1% -2.11% of carbon, 3% -5% of nickel and the balance of iron and impurities which cannot be taken out, and a carbon fiber layer is magnetically adsorbed on the outer surface of the metal stamping part.

2. The automobile hardware stamping part further comprises an automobile object stamping part processing device according to claim 1, and is characterized in that the automobile object stamping part processing device comprises a feeding round box (13), a horizontally arranged conveying table (2) is fixed on one side of the bottom of the feeding round box (13) through bolts, a horizontally arranged rotating material tray (12) is fixed on the bottom of the circumferential inner wall of the feeding round box (13) through a bearing, a material blocking groove (8) in circumferential array arrangement is formed between the top and the bottom of the rotating material tray (12), the top of one end of the conveying table (2) is located at the vertical projection bottom position of the material blocking groove (8), supporting columns (1) are fixed on the bottoms of the conveying table (2) and the feeding round box (13), and a horizontally arranged feeding deflector rod (9) is fixed on one side of the top of the circumferential inner wall of the feeding round box (13), the feeding circular box is characterized in that an arc-shaped material baffle plate (11) which is vertically arranged is fixed on one side of the inner wall of the circumference of the feeding circular box (13) through bolts, and a vibration material plate (10) which is horizontally arranged is fixed at the middle position of the top of the rotary material plate (12).

3. The automobile hardware stamping part according to claim 2, characterized in that, the conveying recess (14) that the level set up is all seted up to the top both sides position of carrying platform (2), the both sides inner wall of carrying platform (2) all is connected with first connecting rod (16) through the bearing, and carries the one end position that the both sides inner wall of platform (2) is located first connecting rod (16) to be fixed with second connecting rod (20) through the bearing, be connected with the twitch pole (17) of level setting through the bearing between the top of second connecting rod (20) and the bottom of first connecting rod (16), two be fixed with horizontal defeated flitch (18) that same level set up through the bearing between the top of twitch pole (17), and horizontal defeated flitch (18) are located the bottom inner wall position of conveying recess (14).

4. The automobile hardware stamping part according to claim 3, wherein the top array of the horizontal material conveying plate (18) is fixed with a vertically arranged conveying top pillar (3), and the tops of the circumferential outer walls of the conveying top pillar (3) are all sleeved with and fixed with a horizontally arranged material stop block (19).

5. The automobile hardware stamping part according to claim 2, characterized in that, the sliding grooves have been seted up to the both sides inner wall that the material blocking groove (8) is located to rotation charging tray (12), and the slip joint has flexible material blocking block (7) of level setting between the top of sliding groove and the bottom inner wall, the one end of flexible material blocking block (7) is located the inside of rotating charging tray (12) and is fixed with two electric telescopic handle (15) of level setting, and the other end of two electric telescopic handle (15) is fixed mutually with the circumference inner wall of rotating charging tray (12).

6. The automobile hardware stamping part according to claim 2, wherein one end position between two sides of the conveying platform (2) is fixed with the same horizontally arranged carbon fiber magnetic suction box (5) through a bolt, a carbon fiber conveying cylinder (23) is fixed on the inner wall of the top of the carbon fiber magnetic suction box (5) through a bolt, a rotating middle shaft (25) which is horizontally arranged is sleeved between the inner walls of the two ends of the carbon fiber conveying cylinder (23) through a bearing, a spiral material conveying disc (24) which is horizontally arranged is fixed on the circumferential outer wall of the rotating middle shaft (25), a horizontally arranged material distributing baffle rod (31) is fixed on the spiral surface at one end of the spiral material conveying disc (24) in an array way, and one end of the spiral surface of one end of the spiral conveying disc (24) is positioned at one end of the material distributing stop lever (31) and is fixed with arc-shaped cutting baffle plates (30) arranged in an array, and a vertically arranged carbon fiber feeding box (6) is fixed on one side of the top of the carbon fiber magnetic suction box (5).

7. The automobile hardware stamping part according to claim 6, wherein vertically arranged cutting pieces are fixed at one end of the top inner wall and one end of the bottom inner wall of the carbon fiber conveying cylinder (23) and are staggered with the arc-shaped cutting baffles (30), a horizontally arranged material spraying jacking pipe (22) is connected to the bottom of the circumferential outer wall of the carbon fiber conveying cylinder (23), and the top inner wall of the material spraying jacking pipe (22) is communicated with an air pump.

8. The automobile hardware stamping part according to claim 2, wherein the other end position of the top of the conveying platform (2) is fixed with a horizontally arranged heating and magnetic eliminating box (4) through bolts, and the top inner wall and the bottom inner wall of the heating and magnetic eliminating box (4) are both fixed with electric heating screen plates.

9. The automobile hardware stamping part according to claim 2, characterized in that, the bottom inner wall of carbon fiber magnetism suction box (5) is fixed with material conveying bottom pipe (21) that spouts that the level set up through the bolt fastening, and the one end rigidity of spouting material conveying bottom pipe (21) has vertical ascending vertical material nozzle (28), material spraying mouth (27) of putting to one side are all installed to the top both sides position of vertical material nozzle (28), the middle both sides top position of carrying platform (2) all has semicircle material spraying baffle (26) through the bolt fastening, and spouts one side of material conveying bottom pipe (21) and carbon fiber conveying section of thick bamboo (23) and be linked together.

10. The automobile hardware stamping part according to claim 9, wherein the bottom of the carbon fiber magnetic suction box (5) and the inner wall of the bottom of the material spraying and conveying bottom pipe (21) are sleeved with the same vertically arranged air inlet connecting pipe (29), and the air outlet end of the air inlet connecting pipe (29) faces the top position of the vertical material spraying nozzle (28).