CN113770002B

CN113770002B - Automobile hardware stamping part

Info

Publication number: CN113770002B
Application number: CN202110924894.3A
Authority: CN
Inventors: 司远杰
Original assignee: Wuhan Ruipu Auto Parts Co ltd
Current assignee: Wuhan Ruipu Auto Parts Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2023-05-05
Anticipated expiration: 2041-08-12
Also published as: CN113770002A

Abstract

The invention belongs to the technical field of automobile part processing, in particular to an automobile hardware stamping part, which aims at solving the problem that the rigidity tensile strength and the integral characteristic of the existing automobile stamping part do not meet the current situation, and the invention provides the following scheme, which comprises a hardware stamping part body, wherein 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 as follows in percentage by mass: 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, wherein a carbon fiber layer is magnetically adsorbed on the outer surface of the metal stamping part. The outer surface of the stamping part is attached with carbon fibers by a static electromagnetic absorption method, the material of the stamping part is added to improve the strong rigidity, the rigidity of the whole stamping part can be improved by attaching the outer surface of the carbon fibers, and the carbon fibers have the characteristics of high rigidity, high tensile strength, low weight, high chemical resistance and high temperature 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

The automobile stamping part, as the name implies, is the metal stamping part which forms the automobile parts. In the automobile stamping part, one part is directly formed into an automobile part after stamping, and the other part is formed into the automobile part after stamping by welding, machining, painting or other processes. The automobile stamping parts have various varieties, such as automobile shock absorber stamping part spring trays, spring seats, spring brackets, end covers, sealing covers, compression valve sleeves, oil seal seats, bottom covers, dust covers, impellers, oil cylinders, lugs, supports and the like, and belong to the automobile stamping parts.

The stamping part of the automobile is used as an indispensable component part for automobile assembly, the existing automobile stamping part is made of iron, the outer wall of the stamping part is coated with anti-corrosion materials, the overall rigidity and the overall strength of the automobile stamping part are required to be improved in the scene of automobile use, and the carbon fiber material body has the characteristics of high rigidity, high tensile strength, low weight, high chemical resistance, high temperature resistance and low thermal expansion, is also a common material for automobile refitting parts, and can be combined with the automobile stamping part to enable the overall material property of the stamping part to be more excellent.

Disclosure of Invention

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

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, the hardware stamping part body also comprises zinc, aluminum, carbon and nickel metal materials, and the components of the hardware stamping part body are as follows in percentage by mass: 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, wherein a carbon fiber layer is magnetically adsorbed on the outer surface of the metal stamping part.

Preferably, an automobile hardware stamping part still includes an automobile article stamping part processingequipment, an automobile article stamping part processingequipment includes the feeding circle case, bottom one side of feeding circle case is fixed with the transport platform that the level set up through the bolt fastening, the circumference inner wall bottom of feeding circle case is fixed with the rotation charging tray that the level set up through the bearing, the fender material recess that circumference array set up has been seted up between the top of rotation charging tray and the bottom, and the one end top of carrying the platform is located the perpendicular projection bottom position that keeps off the material recess, the bottom of carrying platform and feeding circle case all is fixed with the support column, circumference inner wall top one side position of feeding circle case is fixed with the feeding driving lever that the level set up, circumference inner wall one side of feeding circle case is fixed with the arc striker that vertical setting through the bolt fastening, the top intermediate position of rotation charging tray is fixed with the vibration charging tray that the level set up.

Preferably, the conveying grooves which are horizontally arranged are formed in the positions of two sides of the top of the conveying table, the first connecting rods are connected to the inner walls of two sides of the conveying table through bearings, the second connecting rods are fixed to the inner walls of two sides of the conveying table at one end of the first connecting rods through bearings, the oblique moving rods which are horizontally arranged are connected between the tops of the second connecting rods and the bottoms of the first connecting rods through bearings, the horizontal conveying plates which are horizontally arranged are fixed to the tops of the oblique moving rods through bearings, and the horizontal conveying plates are located at the inner walls of the bottoms of the conveying grooves.

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

Preferably, the sliding grooves are formed in the inner walls of the two sides of the material blocking groove, a telescopic material blocking block is horizontally arranged between the inner walls of the top and the bottom of the sliding grooves in a sliding clamping mode, two horizontally arranged electric telescopic rods are fixed in the rotating material tray, and the other ends of the two electric telescopic rods are fixed with the inner wall of the circumference of the rotating material tray.

Preferably, the carbon fiber magnetic suction box that same level set up is fixed with through the bolt to one end position between the both sides of carrying the platform, the top inner wall that the carbon fiber magnetic suction box was fixed with a carbon fiber transport section of thick bamboo through the bolt, and has cup jointed the rotation axis that the level set up through the bearing between the both ends inner wall of a carbon fiber transport section of thick bamboo, the circumference outer wall of rotation axis is fixed with the spiral material conveying tray that the level set up, the array is fixed with the branch material shelves pole that the level set up on the one end helicoid of spiral material conveying tray, and the one end helicoid of spiral material conveying tray is located the one end that divides the material shelves pole and is fixed with the arc cutting baffle that the array set up, top one side of carbon fiber magnetic suction box is fixed with the carbon fiber feeding box of vertical setting.

Preferably, the top inner wall and the bottom inner wall one end position of the carbon fiber conveying cylinder are both fixed with the cutting piece of vertical setting, and the cutting piece is crisscrossed with the arc-shaped cutting baffle, the circumference outer wall bottom of the carbon fiber conveying cylinder is connected with the spraying push pipe that the level set up, and the top inner wall intercommunication of spraying push pipe has the air pump.

Preferably, the top other end position of the conveying table is fixedly provided with a heating demagnetizing box which is horizontally arranged through bolts, and the top inner wall and the bottom inner wall of the heating demagnetizing box are both fixedly provided with electric heating screen plates.

Preferably, the bottom inner wall of the carbon fiber magnetic suction box is fixedly provided with a horizontally arranged spraying and conveying bottom pipe through bolts, one end position of the spraying and conveying bottom pipe is fixedly provided with a vertical upward vertical spraying nozzle, the two sides of the top of the vertical spraying nozzle are respectively provided with an obliquely arranged spraying opening, the two sides of the middle of the conveying table are respectively fixedly provided with a semicircular spraying baffle through bolts, and the spraying and conveying bottom pipe is communicated with one side of the carbon fiber conveying cylinder.

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

The beneficial effects of the invention are as follows:

1. according to the automobile hardware stamping part, the carbon fiber is attached to the outer surface of the stamping part through the static electromagnetic absorption method, the high rigidity can be improved due to the addition of the material of the automobile hardware stamping part, the rigidity of the whole stamping part can be improved due to the fact that the carbon fiber is attached to the outer surface of the carbon fiber, the carbon fiber has the characteristics of high rigidity, high tensile strength, low weight, high chemical resistance and high temperature and low thermal expansion resistance, and the use strength of the automobile stamping part can be improved after the stamping part is wrapped.

2. This car hardware stamping workpiece through the carbon fiber magnetism that sets up inhale the case, is located the inside defeated material jack-up electric connection of carbon fiber magnetism and has static, and carbon fiber mixes oily ferroferric oxide powder after smashing, forms the mixed powder that has magnetism, through spraying and the effect that magnetism was inhaled, can adsorb the even spraying of mixed powder at the surface of stamping workpiece.

3. This car hardware stamping workpiece, through the spiral feeding tray that sets up, and the circumference one end of spiral feeding tray is provided with the branch material shelves pole, and the arc cutting baffle is installed to the other end position of branch material shelves pole, cooperatees with the cutting sword at top, can become the quick cutting of the carbon fiber of feeding into carbon fiber powder material, the follow-up mixed powder's of being convenient for formation and the process of absorption spraying.

4. This car hardware stamping workpiece through the semicircle material baffle that spouts that sets up, in the mixed powder spraying adsorption process of stamping workpiece bottom, can return the spraying route with the mixed powder of partly, can carry out the collision spraying that iterates through the bottom of transport table medial surface and stamping workpiece, with the spraying of mixed powder more even.

Drawings

FIG. 1 is a schematic diagram of a body structure of an automotive hardware stamping part according to the present invention;

fig. 2 is a schematic diagram of the overall structure of a processing device for an automobile hardware stamping part provided by the invention;

fig. 3 is a schematic diagram of a feeding structure of a processing device for an automotive hardware stamping part provided by the invention;

fig. 4 is a schematic structural diagram of a reciprocating feeding mechanism of an automobile hardware stamping part provided by the invention;

fig. 5 is a schematic diagram of a carbon fiber feeding structure of an automotive hardware stamping part according to the present invention;

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

In the figure: the device comprises a supporting column 1, a conveying table 2, a conveying top column 3, a heating demagnetizing box 4, a carbon fiber magnetic suction box 5, a carbon fiber feeding box 6, a telescopic material blocking block 7, a material blocking groove 8, a feeding deflector rod 9, a vibration material tray 10, an arc material blocking plate 11, a rotary material tray 12, a feeding round box 13, a conveying groove 14, an electric telescopic rod 15, a first connecting rod 16, a tilting rod 17, a horizontal material conveying plate 18, a material blocking block 19, a second connecting rod 20, a material spraying and conveying bottom pipe 21, a material spraying top pipe 22, a carbon fiber conveying cylinder 23, a spiral material conveying tray 24, a rotary center shaft 25, a semicircular material spraying baffle 26, a material spraying opening 27, a vertical material spraying pipe 28, a gas inlet connecting pipe 29, an arc cutting baffle 30 and a material separating stop lever 31.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-6, an automobile hardware stamping part, includes the hardware stamping part body, and the hardware stamping part body uses iron as main element, and the hardware stamping part body still includes zinc, aluminium, carbon and nickel metal material, and its component is according to the 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, wherein a carbon fiber layer is magnetically adsorbed on the outer surface of the metal stamping part.

Further, an automobile hardware stamping workpiece processingequipment still includes an automobile article stamping workpiece processingequipment, an automobile article stamping workpiece processingequipment includes feeding round box 13, bottom one side of feeding round box 13 is fixed with the transport platform 2 that the level set up through the bolt fastening, the circumference inner wall bottom of feeding round box 13 is fixed with the rotation charging tray 12 that the level set up through the bearing, the fender material recess 8 that circumference array set up has been seted up between the top and the bottom of rotation charging tray 12, and the one end top of carrying platform 2 is located the vertical projection bottom position that keeps off material recess 8, the bottom of carrying platform 2 and feeding round box 13 all is fixed with support column 1, circumference inner wall top one side position of feeding round box 13 is fixed with the feeding driving lever 9 that the level set up, circumference inner wall one side of feeding round box 13 is fixed with the arc striker plate 11 of vertical setting through the bolt fastening, the top intermediate position of rotation charging tray 12 is fixed with the vibration charging tray 10 that the level set up, in the in-process of using, through the top through adding the material that keeps off material to feed round box 13, and the fender material recess 8 that sets up matches with stamping workpiece, the ejection of compact and feeding tray 10 and feeding striker plate 9 and feeding round box 13 are fixed with the cooperation of stamping workpiece 8, can make the arc blanking recess and stamping workpiece 8.

Further, the two sides of the top of the conveying table 2 are respectively provided with a conveying groove 14 which is horizontally arranged, the two side inner walls of the conveying table 2 are respectively connected with a first connecting rod 16 through bearings, one end of the two side inner walls of the conveying table 2, which are positioned at the first connecting rod 16, is fixedly provided with a second connecting rod 20 through bearings, a horizontally arranged oblique moving rod 17 is connected between the top of the second connecting rod 20 and the bottom of the first connecting rod 16 through bearings, a horizontal conveying plate 18 which is horizontally arranged is fixedly arranged between the tops of the two oblique moving rods 17 through bearings, the horizontal conveying plate 18 is positioned at the bottom inner wall of the conveying groove 14, the top array of the horizontal conveying plate 18 is fixedly provided with a vertically arranged conveying jack post 3, the top of the circumferential outer wall of the conveying jack post 3 is respectively sleeved and fixedly provided with a horizontally arranged material stop 19, the two side inner walls of the rotating material disc 12, which are positioned at the material stop groove 8, are respectively provided with a sliding groove, and sliding joint has flexible fender piece 7 that the level set up between the top and the bottom inner wall of slip recess, the one end of flexible fender piece 7 is located the inside of rotating charging tray 12 and is fixed with two electric telescopic handle 15 that the level set up, and the other end of two electric telescopic handle 15 is fixed with the circumference inner wall of rotating charging tray 12, when the top one end of carrying platform 2 is rotated to the rotation charging tray 12 of top position, directly shrink through electric telescopic handle 15, make flexible fender piece 7 pack up, can directly let the stamping workpiece both ends place the top at the conveying recess 14 of bottom, through the rotation process of second connecting rod 20, can make oblique movable rod 17 rotate, drive the horizontal conveying board 18 reciprocating motion's in top process, carry the stamping workpiece that will fall to the other end position in proper order in the conveying process.

Further, one end position between two sides of the conveying table 2 is fixedly provided with a carbon fiber magnetic suction box 5 which is arranged horizontally through bolts, the inner wall of the top of the carbon fiber magnetic suction box 5 is fixedly provided with a carbon fiber conveying cylinder 23 through bolts, a conveying jack post 3 positioned in the carbon fiber magnetic suction box 5 is electrically connected with an electrostatic wire, the inner walls of two ends of the carbon fiber conveying cylinder 23 are sleeved with a rotating center shaft 25 which is arranged horizontally through a bearing, the circumferential outer wall of the rotating center shaft 25 is fixedly provided with a spiral conveying tray 24 which is arranged horizontally, one end spiral surface of the spiral conveying tray 24 is fixedly provided with a material grading baffle 31 which is arranged horizontally in an array, one end spiral surface of the spiral conveying tray 24 is positioned at one end of the material grading baffle 31 and is fixedly provided with an arc-shaped cutting baffle 30 which is arranged in an array, one side of the top of the carbon fiber magnetic suction box 5 is fixedly provided with a carbon fiber feeding box 6 which is arranged vertically, the top inner wall and the bottom inner wall of the carbon fiber conveying cylinder 23 are fixedly provided with vertically arranged cutting sheets at one end, the cutting sheets are staggered with the arc-shaped cutting baffle plate 30, the bottom of the circumferential outer wall of the carbon fiber conveying cylinder 23 is connected with a horizontally arranged spray jacking pipe 22, the top inner wall of the spray jacking pipe 22 is communicated with an air pump, in the conveying process, the carbon fiber can be conveyed by the carbon fiber conveying cylinder 23 arranged in the carbon fiber magnetic suction box 5, and the carbon fiber of the finished product can be directly carded into filaments through the material-distributing baffle rod 31, the cutting sheets and the cutting sheets at the top are mutually staggered and cut into short particles through the arc-shaped cutting baffle plate 30, which can be directly called as a telomere powder state, and ferroferric oxide powder is doped in the carbon fiber feeding process, and conveyed into the spray conveying bottom pipe 21 at the bottom of the spray jacking pipe 22 level, and the conveying jacking pipe 3 positioned in the carbon fiber magnetic suction box 5 is provided with static electricity, the carbon fiber and the ferroferric oxide powder can be uniformly adsorbed on the outer wall of the stamping part through the electrostatic adsorption process in the spraying process of the carbon fiber and the ferroferric oxide powder.

Further, the top other end position of the conveying table 2 is fixedly provided with a heating demagnetizing box 4 which is horizontally arranged through bolts, and the top inner wall and the bottom inner wall of the heating demagnetizing box 4 are both fixedly provided with electric heating screen plates, after the process of conveying the sprayed and adsorbed stamping parts, the magnetism of the carbon fiber and ferroferric oxide adsorption layer can be eliminated after passing through the heating demagnetizing box 4, and the ferroferric oxide is heated and oxidized to form an outer protective film.

Further, the bottom inner wall of the carbon fiber magnetic suction box 5 is fixed with a horizontally arranged spraying material conveying bottom pipe 21 through bolts, one end position of the spraying material conveying bottom pipe 21 is fixed with a vertical spraying nozzle 28 which is vertically upwards, inclined spraying openings 27 are respectively arranged at two sides of the top of the vertical spraying nozzle 28, semicircular spraying baffles 26 are respectively fixed at two sides of the middle of the conveying table 2 through bolts, the spraying material conveying bottom pipe 21 is communicated with one side of a carbon fiber conveying cylinder 23, the bottom of the carbon fiber magnetic suction box 5 and the bottom inner wall of the spraying material conveying bottom pipe 21 are sleeved with an air inlet connecting pipe 29 which is vertically arranged, the air outlet end of the air inlet connecting pipe 29 faces the top position of the vertical spraying nozzle 28, carbon fibers and ferroferric oxide powder entering the bottom spraying material conveying bottom pipe 21 can be sprayed and sprayed through the air inlet connecting pipe 29, and part of carbon fibers and ferroferric oxide powder can be returned to a spraying path through the semicircular spraying baffles 26, and the spraying process is more evenly and fully rebounded between the stamping parts and the conveying table 2.

The invention is used when: the operating personnel is fixed stable and connect only the power with whole device at first, in the use, the stamping workpiece that the operating personnel will need process is placed in the top position of feeding round box 13, through the vibration process of vibration charging tray 10, can vibrate the process with the stamping workpiece, through the spacing process of stopping of feeding driving lever 9 and arc striker plate 11, can push away the stamping workpiece to the inside of keeping off material recess 10, and gomphosis with it, when the top one end of transport platform 2 is moved to the rotating charging tray 12, directly can pack up flexible fender piece 7 through the shrink of electric telescopic handle 15, put down the top of the transport recess 14 of bottom position with the stamping workpiece, through the horizontal reciprocating motion of horizontal conveying plate 18, can carry out the process of carrying out the stamping workpiece in proper order, in the transportation, because the transport jack post 3 of inside is the connection static when the case 5 is absorbed through the carbon fiber and the ferroferric oxide powder coating, the spraying of cooperation bottom, can carry out the parcel of carbon fiber with the whole, when moving to the case 4 of demagnetizing, inside heating part carries out the heating, and can improve the oxidation surface, can form the oxidation film.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. Automobile hardware stamping workpiece processingequipment, its characterized in that: the automatic feeding device comprises a feeding round box (13), wherein a conveying table (2) horizontally arranged is fixedly arranged on one side of the bottom of the feeding round box (13) through a bolt, a rotating material tray (12) horizontally arranged is fixedly arranged on the bottom of the inner circumferential wall of the feeding round box (13) 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), one end top of the conveying table (2) is positioned at the bottom position of the vertical projection of the material blocking groove (8), support columns (1) are fixedly arranged on the bottoms of the conveying table (2) and the feeding round box (13), a feeding deflector (9) horizontally arranged is fixedly arranged on one side of the top of the inner circumferential wall of the feeding round box (13), an arc-shaped material blocking plate (11) vertically arranged is fixedly arranged on one side of the inner circumferential wall of the feeding round box (13) through a bolt, and a vibrating material tray (10) horizontally arranged is fixedly arranged on the middle position of the top of the rotating material tray (12);

the conveying device is characterized in that conveying grooves (14) which are horizontally arranged are formed in the positions of two sides of the top of the conveying table (2), first connecting rods (16) are connected to the inner walls of two sides of the conveying table (2) through bearings, second connecting rods (20) are fixed to the inner walls of two sides of the conveying table (2) at one end of the first connecting rods (16) through bearings, oblique moving rods (17) which are horizontally arranged are connected between the top of the second connecting rods (20) and the bottom of the first connecting rods (16) through bearings, horizontal conveying plates (18) which are horizontally arranged are identical are fixedly arranged between the tops of the two oblique moving rods (17) through bearings, and the horizontal conveying plates (18) are located at the inner walls of the bottom of the conveying grooves (14);

a vertical conveying jacking column (3) is fixed at the top array of the horizontal conveying plate (18), and a horizontally arranged material stop block (19) is sleeved and fixed at the top of the circumferential outer wall of the conveying jacking column (3);

the rotary material tray (12) is provided with sliding grooves on the inner walls of the two sides of the material blocking groove (8), a horizontally arranged telescopic material blocking block (7) is clamped between the inner walls of the top and the bottom of the sliding grooves in a sliding manner, two horizontally arranged electric telescopic rods (15) are fixed in the rotary material tray (12) at one end of the telescopic material blocking block (7), and the other ends of the two electric telescopic rods (15) are fixed with the inner wall of the circumference of the rotary material tray (12);

the utility model discloses a carbon fiber feeding box, including conveying platform (2), carbon fiber magnetism case (5) that one end position between the both sides of conveying platform (2) was fixed with same level setting through the bolt, the top inner wall of carbon fiber magnetism case (5) is fixed with carbon fiber conveying section of thick bamboo (23) through the bolt, and has cup jointed rotation axis (25) that the level set up through the bearing between the both ends inner wall of carbon fiber conveying section of thick bamboo (23), the circumference outer wall of rotation axis (25) is fixed with spiral conveying tray (24) that the level set up, the array is fixed with the branch material shelves pole (31) that the level set up on the one end helicoid of spiral conveying tray (24), and the one end helicoid of spiral conveying tray (24) is located the one end of branch material shelves pole (31) is fixed with arc cutting baffle (30) that the array set up, top one side of carbon fiber magnetism case (5) is fixed with carbon fiber feeding box (6) that the vertical setting.

2. The processing device for the automobile hardware stamping parts according to claim 1, wherein the positions of one end of the top inner wall and one end of the bottom inner wall of the carbon fiber conveying cylinder (23) are both fixed with vertically arranged cutting pieces, 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), and the top inner wall of the spraying jacking pipe (22) is communicated with an air pump.

3. The processing device for the automobile hardware stamping parts according to claim 1, wherein a heating demagnetizing box (4) horizontally arranged is fixed at the other end of the top of the conveying table (2) through bolts, and an electric heating screen is fixed on the inner wall of the top and the inner wall of the bottom of the heating demagnetizing box (4).

4. The processing device for the automobile hardware stamping parts according to claim 1, wherein a spraying material conveying bottom pipe (21) horizontally arranged is fixed on the bottom inner wall of the carbon fiber magnetic suction box (5) through bolts, a vertical spraying nozzle (28) vertically upwards is fixed at one end position of the spraying material conveying bottom pipe (21), inclined spraying openings (27) are respectively arranged at two sides of the top of the vertical spraying nozzle (28), semicircular spraying baffles (26) are respectively fixed at two sides of the top of the middle of the conveying table (2) through bolts, and the spraying material conveying bottom pipe (21) is communicated with one side of a carbon fiber conveying cylinder (23).

5. The processing device for the automobile hardware stamping parts according to claim 4, wherein the bottom of the carbon fiber magnetic suction box (5) and the bottom inner wall of the spraying material conveying bottom pipe (21) are sleeved with an air inlet connecting pipe (29) which is vertically arranged, and the air outlet end of the air inlet connecting pipe (29) faces to the top position of the vertical spraying nozzle (28).