CN117772507A - Automatic processing equipment is used in inductance material production - Google Patents

Abstract

The invention relates to the field of inductance processing, in particular to automatic processing equipment for producing inductance materials. The technical problems to be processed are as follows: the conventional method cannot effectively fix the color ring inductor when the lead part is bent, the color ring inductor cannot rotate after being fixed, and excessive paint adhered to the surface of the color ring inductor is easy to drip. The technical proposal is as follows: an automatic processing device for producing an inductance material comprises a fixed shell, a feed hopper and the like; the middle part of the rear side of the fixed shell is fixedly connected with a feed hopper. According to the invention, through improving the method to a vertical painting mode of the inductor and adopting the attached roller to paint, the problem that excessive paint scraped by a horizontally placed scraper in the prior art can fall back to the surface of the color ring inductor again due to gravity is solved; the first fixing block and the second fixing block are respectively provided with a clamping block and an elastic piece which are bilaterally symmetrical, the color ring inductor is clamped, and preliminary limiting of the color ring inductor in the front-back direction is achieved.

Description

Automatic processing equipment is used in inductance material production

Technical Field

The invention relates to the field of inductance processing, in particular to automatic processing equipment for producing inductance materials.

Background

An inductor is an element capable of converting electric energy into magnetic energy and storing the magnetic energy, and generally consists of a framework, a winding, a shielding case, an encapsulating material, a magnetic core and the like. The color ring inductor is used as one of the inductors, and the color on the color ring inductor represents the multiplying power and the error level. In the production process of the color ring inductor, the color ring inductor needs to be painted, that is to say, colored. In the prior art, the method for painting the color ring inductor is as follows: a plurality of color ring inductors are horizontally arranged on a conveyor belt, the color ring inductors are driven to move in the horizontal direction by the conveyor belt, and when the color ring inductors move, the color ring inductors are enabled to rotate by a poking piece which is fixed by a bolt and can swing up and down, and then the color ring inductors are jacked up by the large idler wheels through the two large idler wheels with paint, so that the color ring inductors roll and paint.

However, in the above prior art, during the rolling and painting process of the color ring inductor which is horizontally placed, excessive surface painting is easily caused when the color ring inductor is rolled and painted, and when the scraping roller above the color ring inductor is arranged to scrape the surface of the color ring inductor, it is unavoidable that the scraped paint falls back to the surface of the color ring inductor again due to gravity; aiming at the chromatic circle inductance when the lead part is bent, the conventional mode cannot provide effective fixation, and the chromatic circle inductance during painting cannot be rotated in a fixed and blocked state, so that the chromatic circle inductance is unevenly painted under the above reasons; and excessive paint adhered to the surface of the color ring inductor, and in the subsequent conveying process, the excessive paint drops downwards on the surface of the equipment due to gravity, so that the equipment is difficult to clean.

Disclosure of Invention

The invention provides automatic processing equipment for producing an inductance material, which aims to overcome the defects that a conventional mode cannot effectively fix a chromatic circle inductor when a lead part is bent, the chromatic circle inductor cannot rotate after being fixed, and excessive paint adhered to the surface of the chromatic circle inductor is easy to drip.

The technical proposal is as follows: an automatic processing device for producing an inductance material comprises a fixed shell, a feed hopper, a first fixed plate and a second fixed plate; the middle part of the rear side of the fixed shell is fixedly connected with a feed hopper; the lower side of the first fixed plate is fixedly connected with a fixed shell; the second fixing plate is arranged on the lower side of the first fixing plate; the middle part of the fixed shell is connected with a second fixed plate; a slurry pool is arranged at the bottom of the inner side of the fixed shell; the device also comprises rollers, a conveying pipe, a sliding rail, an electric sliding block, a fixing component, a limiting block, a gear and a rack; the inner side of the fixed shell is provided with a plurality of rollers for painting the color ring inductor, each roller is made of felt material, and paint oozed out of the surface of each roller is used for painting the color ring inductor; a conveying pipe is connected between the top side of each roller and the slurry pool; the lower side of the first fixed plate and the upper side of the second fixed plate are fixedly connected with a sliding rail; each sliding rail is connected with an electric sliding block in a sliding way; a fixing component is arranged between the first fixing plate and the second fixing plate and is used for fixing the wires at the upper end and the lower end of the color ring inductor; a plurality of limiting blocks are fixedly connected to the fixed assembly, and every two limiting blocks on the same side are connected through a C-shaped block; each limiting block is provided with a first vertical groove; each limiting block is rotatably connected with a gear; each gear is provided with a second vertical groove; a plurality of racks are fixedly connected to the first fixing plate, a plurality of other racks are fixedly connected to the second fixing plate, and the racks are evenly distributed on the left side and the right side of the fixing shell; the length of each rack is exactly equal to the circumference of one gear.

Further, each roller is arranged in a shape attached to the outer surface of the color ring inductor, namely, the middle part of the roller is arranged in a cylindrical shape, the upper end and the lower end of the roller are arranged in a convex shape, and cambered surface transition is arranged between the cylindrical shape of the middle part and the convex parts at the two ends.

Further, the fixing assembly comprises a first fixing block, a second fixing block and a limiting unit; the lower side of the electric sliding block positioned at the lower side of the first fixed plate is fixedly connected with a first fixed block; the upper side of the electric sliding block positioned on the upper side of the second fixed plate is fixedly connected with a second fixed block; limiting units are arranged on opposite sides of the first fixed block and the second fixed block.

Further, the limiting unit comprises a clamping block and an elastic piece; at least two first grooves are formed in the inner side of the first fixing block; at least two second grooves are formed in the inner side of the second fixing block; an elastic piece is fixedly connected in each of the first groove and the second groove; each elastic piece is fixedly connected with one clamping block.

Further, the device also comprises a friction wheel; the upper side and the lower side of each roller are fixedly connected with a friction wheel.

Further, the clamping block is arranged as a trapezoid body.

Further, the device also comprises a scraping plate, a collecting hopper and a first baffle; one half of the outer surface of each roller is provided with a smooth surface for painting, and the other half of the outer surface is provided with a plurality of scraping plates; the lower side of each roller is provided with a collecting hopper; a first baffle is arranged at the edge of the lower side of each collecting hopper; and each first baffle is provided with a drainage port.

Further, the collecting hopper is arranged in a semicircular shape, and the guide surface is arranged in an arc surface.

Further, the cleaning device also comprises a second baffle and a scraping blade; a plurality of second baffles are arranged on one side of each collecting hopper close to the color ring inductor; a channel for the lower end part of the inductor to normally pass through is formed between two adjacent second baffles; the upper side and the lower side of each roller are fixedly connected with a plurality of scraping blades; each scraping blade is closely attached to the surfaces of adjacent wires at the upper end part and the lower end part of the inductor of the coloring ring when rotating.

Further, the wiper blade is provided in a detachable structure.

The invention has the beneficial effects that: according to the invention, through improving the method to a vertical painting mode of the inductor and adopting the attached roller to paint, the problem that excessive paint scraped by a horizontally placed scraper in the prior art can fall back to the surface of the color ring inductor again due to gravity is solved;

the inner sides of the first fixing block and the second fixing block are respectively provided with a clamping block and an elastic piece which are bilaterally symmetrical, the color ring inductor is clamped, the preliminary limit of the color ring inductor in the front-back direction is realized, the color ring inductor is prevented from sliding in the front-back direction, the gear and the rack are matched for work, the rack enables the rotation degree of the gear, the upper bending part and the lower bending part of the color ring inductor are locked together with the limiting block, the inductor is prevented from being staggered in the horizontal and vertical directions, the inductor is extruded by external force to be bent during painting, the inductor is prevented from eccentric rotation during painting, and the painting quality is ensured;

the lead wire of the color ring inductor is rubbed by the friction wheel which is arranged on the upper side and the lower side of the roller and rotates in the same direction, so that the color ring inductor can rotate when being painted on the premise that the first fixed block, the second fixed block, the limiting block and the gear are clamped, and the paint can be painted fully;

the roller attached to the color ring inductor is utilized to realize the attachment of painting, when the roller rotates for half a circle, the friction wheel is driven to rotate for half a circle, the color ring inductor rotates for a plurality of circles under the rubbing action of the friction wheel on the lead wire, the surface of the color ring inductor is fully painted with paint, but the surface of the color ring inductor is easy to be painted with excessive paint, then the roller rotates for half a circle to enable a scraper blade of the second half circle to work, the excessive paint on the surface of the color ring inductor is scraped, the subsequent excessive paint is prevented from being dropped on the surface of a second fixed plate and difficult to clean, and the excessive paint is guided to slide into a slurry pool for recycling through an arc surface arranged on a collecting bucket;

through setting up the doctor-bar, when the gyro wheel carries out the roll painting to chromatic circle inductance, the doctor-bar follows the gyro wheel motion, scrapes the wire of chromatic circle inductance upper and lower extreme to unnecessary paint, combines the guide effect of collecting the bucket, prevents that chromatic circle inductance follow-up transportation in-process, unnecessary paint from dripping on chromatic circle inductance lower extreme wire and being difficult to the clearance.

Drawings

Fig. 1 is a front view of an automated processing apparatus for producing an inductive material of the present invention;

fig. 2 is a rear view of an automated processing apparatus for producing an inductive material of the present invention;

FIG. 3 is a schematic perspective view of a first portion of the present invention;

FIG. 4 is a schematic perspective view of a second portion of the present invention;

FIG. 5 is a schematic view of a roller wheel perspective structure according to the present invention;

FIG. 6 is a schematic perspective view of a rack and pinion combination of the present invention;

FIG. 7 is a schematic perspective view of a friction wheel according to the present invention;

FIG. 8 is a cross-sectional view of a second securing block of the present invention;

FIG. 9 is a schematic perspective view of a scraper and bucket combination according to the present invention;

fig. 10 is a schematic perspective view of a wiper blade according to the present invention.

Reference numerals: the device comprises a 1-fixed shell, a 2-feeding hopper, a 3-first fixed plate, a 4-second fixed plate, a 5-roller, a 6-conveying pipe, a 7-limiting block, a 7001-first vertical groove, an 8-gear, a 8001-second vertical groove, a 9-rack, a 10-color ring inductor, a 10 a-upper bending part, a 10 b-lower bending part, a 10 c-inductor upper end part, a 10 d-inductor lower end part, a 10 e-wire end part, a 101-first fixed block, a 10101-third vertical groove, a 10102-first groove, a 102-second fixed block, a 10201-fourth vertical groove, a 10202-second groove, a 103-friction wheel, a 104-clamping block, a 105-elastic piece, a 106-sliding rail, a 107-electric sliding block, a 201-scraping plate, a 202-collecting hopper, a 203-first baffle, a 204-second baffle and a 301-scraping plate.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

As shown in fig. 1 to 7, an automatic processing device for producing an inductance material comprises a fixed shell 1, a feed hopper 2, a first fixed plate 3 and a second fixed plate 4; a feed hopper 2 is welded in the middle of the rear side of the fixed shell 1; the lower side of the first fixed plate 3 is welded with a fixed shell 1; the second fixing plate 4 is arranged on the lower side of the first fixing plate 3; the middle part of the fixed shell 1 is connected with a second fixed plate 4; a slurry pool is arranged at the bottom of the inner side of the fixed shell 1;

the device also comprises a roller 5, a conveying pipe 6, a sliding rail 106, an electric sliding block 107, a fixed component, a limiting block 7, a gear 8 and a rack 9; two rollers 5 are arranged on the inner side of the fixed shell 1, each roller 5 is made of felt material, and paint oozed out of the surface of the rollers is used for painting the color ring inductor 10; a conveying pipe 6 is connected between the top side of each roller 5 and the slurry pool; the lower side of the first fixing plate 3 and the upper side of the second fixing plate 4 are both connected with a sliding rail 106 through bolts; each sliding rail 106 is connected with an electric sliding block 107 in a sliding way; a fixing component is arranged between the first fixing plate 3 and the second fixing plate 4 and is used for fixing the wires at the upper end and the lower end of the color ring inductor 10; the fixed component is driven to horizontally move by controlling the electric slide block 107 to work, so that the color ring inductor 10 is driven to horizontally move; two limiting blocks 7 are connected to the fixing component through bolts, and the limiting blocks 7 on each two same sides are connected through a C-shaped block; a first vertical groove 7001 is formed in each limiting block 7; each limiting block 7 is rotatably connected with a gear 8; a second vertical groove 8001 is formed in each gear 8; four racks 9 are connected to the first fixing plate 3 through bolts, the other four racks 9 are connected to the second fixing plate 4 through bolts, and the racks 9 are evenly distributed on the left side and the right side of the fixing shell 1; the length of each rack 9 is exactly equal to the circumference of one gear wheel 8.

Each roller 5 is arranged in a shape which is fit with the outer surface of the color ring inductor 10, namely, the middle part of the roller 5 is arranged in a cylindrical shape, the upper end and the lower end are arranged in a convex shape, and cambered surface transition is arranged between the cylindrical shape of the middle part and the convex parts at the two ends.

The fixing assembly comprises a first fixing block 101, a second fixing block 102 and a limiting unit; the first fixed block 101 is connected to the lower side of the electric sliding block 107 positioned on the lower side of the first fixed plate 3 through bolts; the upper side of the electric sliding block 107 positioned on the upper side of the second fixed plate 4 is connected with a second fixed block 102 through bolts; the opposite sides of the first fixing block 101 and the second fixing block 102 are provided with a limiting unit.

The limiting unit comprises a clamping block 104 and an elastic piece 105; two first grooves 10102 which are bilaterally symmetrical are formed in the inner side of the first fixed block 101; two bilaterally symmetrical second grooves 10202 are formed in the inner side of the second fixed block 102; an elastic piece 105 is fixedly connected in each of the first groove 10102 and the second groove 10202, and the elastic piece 105 is a spring; each elastic member 105 is fixedly connected with one clamping block 104.

Also included is friction wheel 103; the upper side and the lower side of each roller 5 are fixedly connected with a friction wheel 103; the outer side of each friction wheel 103 is made of rubber.

The clip 104 is configured as a trapezoid to facilitate the engagement of the lead end 10 e.

The specific workflow of fixing and painting the color ring inductor 10 is as follows: when a pump is arranged in the slurry tank, the pump is controlled to work, paint in the slurry tank is conveyed to the inside of the roller 5 through the conveying pipe 6, then the wire end 10e of the color ring inductor 10 is clamped into the third vertical groove 10101 on the first fixing block 101 and the fourth vertical groove 10201 on the second fixing block 102 respectively through a manual or machine, initially, the elastic piece 105 is in a natural state, the corresponding clamping blocks 104 inside each first groove 10102 and each second groove 10202 are extruded by the wire end 10e of the color ring inductor 10 to shrink inwards, so that the elastic piece 105 inside is extruded, when the color ring inductor 10 moves into the third vertical groove 10101 and the second groove 10202 respectively, the corresponding elastic piece 105 returns to the natural state, the clamping blocks 104 are pushed to move towards each other, so that the wire end 10e of the color ring inductor 10 is clamped, preliminary fixing is carried out, and the color ring inductor 10 is prevented from sliding in the front-back direction;

at this time, the upper bending part 10a of the color ring inductor 10 is clamped into the first vertical groove 7001 of the adjacent limiting block 7 and the second vertical groove 8001 of the gear 8, meanwhile, the lower bending part 10b of the color ring inductor 10 is also clamped into the first vertical groove 7001 of the adjacent limiting block 7 and the second vertical groove 8001 of the gear 8, the electric slider 107 is controlled to work, the first fixing block 101 and the second fixing block 102 are driven to move from left to right, the color ring inductor 10 is driven to move from left to right, in the process of moving the color ring inductor 10 to the roller 5, the gear 8 contacts with the corresponding rack 9, the gear 8 rotates by one hundred eighty degrees, the gear 8 acts together with the adjacent limiting block 7, the upper end and the lower end of the upper bending part 10a and the lower bending part 10b of the color ring inductor 10 are respectively provided with the limiting block 7 and the gear 8, through the operation, the upper bending part 10a and the lower bending part 10b are clamped, namely, at this moment, the first vertical groove 7001 of the limiting block 7 and the second vertical groove 8001 of the gear 8 are in opposite forms, so that the upper bending part 10a and the lower bending part 10b are wrapped, the color ring inductor 10 is prevented from bending or dislocating in the vertical direction, when the color ring inductor 10 moves between the two rollers 5, the rollers 5 are driven to work by a motor arranged on the rollers 5, when the two rollers 5 rotate in the same direction for half a circle, the friction wheels 103 on the upper side and the lower side of the rollers 5 are driven to rotate in the same direction for half a circle, namely, the friction wheels 103 rub the wires of the color ring inductor 10, so that the color ring inductor 10 rotates for a plurality of circles in the opposite direction, the surface of the color ring inductor 10 is fully painted by the rollers 5, the color ring inductor 10 is painted, the color ring inductor 10 continues to move rightward after the color ring inductor 10 is painted, the gear 8 rotates and the locking of the color ring inductor 10 is relieved by the other rack 9, and the transfer work of the color ring inductor 10 is facilitated.

Example 2

As shown in fig. 7 and 9, on the basis of embodiment 1, a scraper 201, a collecting bucket 202 and a first baffle 203 are further included; one half of the outer surface of each roller 5 is provided with a smooth surface for painting, and the other half of the outer surface is provided with a plurality of scraping plates 201; a collecting hopper 202 is arranged on the lower side of each roller 5; a first baffle 203 is arranged at the lower edge of each collecting hopper 202; each first baffle 203 is provided with a drainage port.

The collecting hopper 202 is arranged in a semicircular shape, the guide surface is arranged in an arc surface, so that the guiding effect on the dropped paint is facilitated, in the process that the paint slides down, the first baffle 203 and the second baffle 204 are utilized to prevent the dropped paint from sliding down on the second fixing plate 4 along the edge of the collecting hopper 202, and therefore the paint is guided into a slurry pool at the bottom of the fixing shell 1 from a drainage port formed in the middle of the first baffle 203.

The specific workflow of scraping off the excess paint on the surface of the color ring inductor 10 in painting is as follows: after the color ring inductor 10 is painted by utilizing the half circle of smoothness for painting on the roller 5, excessive paint remains on the surface of the color ring inductor 10, and the two rollers 5 rotate in the same direction for half circle again, a plurality of scrapers 201 on the roller 5 scrape the excessive paint on the color ring inductor 10, normal painting work of the color ring inductor 10 is not affected, the excessive paint slides down along the roller 5 into a collecting bucket 202 below and then slides down along the cambered surface of the collecting bucket 202, but due to the blocking of the scrapers 201 at the edge of the collecting bucket 202, the excessive paint cannot slide down from any edge of the collecting bucket 202 and only can slide down from a drainage port formed in the middle of the first baffle 203, so that the excessive paint falls into a slurry pool for recycling.

Example 3

As shown in fig. 1, 2, 9 and 10, the cleaning device further comprises a second baffle 204 and a wiper 301 on the basis of embodiment 2; two second baffles 204 are arranged on one side of each collecting hopper 202 close to the color ring inductor 10; a channel for the inductor lower end 10d to normally pass through is formed between two adjacent second baffles 204; the upper side and the lower side of each roller 5 are fixedly connected with a plurality of scraping blades 301; each wiper 301 abuts against the surface of the adjacent wire of the upper inductor end 10c and the lower inductor end 10d of the coloring ring inductor 10 when rotated.

The scraping blade 301 is in a detachable structure, and after the operation of continuously scraping off the excessive paint, the surface of the scraping blade 301 solidifies more paint, so that the scraping blade is convenient to replace.

The specific work flow for scraping paint sputtered on the upper side and the lower side of the color ring inductor 10 when the color ring inductor 10 is painted is as follows: when the color ring inductor 10 performs painting work, the roller 5 rotates, paint on the surface of the roller 5 splashes on the upper side and the lower side of the color ring inductor 10 due to rotation, meanwhile, paint on the lower side of the color ring inductor 10 slides down due to the fact that the paint on the surface of the color ring inductor 10 slides down, so that excessive paint on the lower side of the color ring inductor 10 is piled up, a plurality of scraping blades 301 are arranged on the upper side and the lower side of the roller 5, when the roller 5 rotates, the plurality of scraping blades 301 also rotate along with the roller 5, the scraping blades 301 cling to the surface of a lead of the color ring inductor 10, paint on the upper side and the lower side of the color ring inductor 10 can be scraped off, and in order to prevent the scraped paint from dropping down on the lead of the lower side of the color ring inductor 10 due to gravity, a second baffle 204 is arranged on one side of the collecting hopper 202 close to the lead, and the upper side of the second baffle 204 is flush with the lower side of the scraping blades 301, namely the excessive paint scraped off by the scraping blades 301 falls on the collecting hopper 202 along the second baffle 204 and then falls into a slurry pool below through the guide of the cambered surface.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An automatic processing device for producing an inductance material is characterized by comprising a fixed shell (1); the fixed shell (1) is fixedly connected with a feed hopper (2); the lower side of the first fixed plate (3) is fixedly connected with a fixed shell (1); the lower side of the first fixed plate (3) is provided with a second fixed plate (4); the middle part of the fixed shell (1) is connected with a second fixed plate (4); a slurry pool is arranged at the bottom of the inner side of the fixed shell (1); the device also comprises a roller (5); a plurality of rollers (5) for painting the color ring inductor (10) are arranged on the inner side of the fixed shell (1), each roller (5) is made of felt, and paint oozed out of the surface of the roller is used for painting the color ring inductor (10); a conveying pipe (6) is connected between the top side of each roller (5) and the slurry pool; the lower side of the first fixed plate (3) and the upper side of the second fixed plate (4) are fixedly connected with a sliding rail (106); each sliding rail (106) is connected with an electric sliding block (107) in a sliding way; a fixing component is arranged between the first fixing plate (3) and the second fixing plate (4), and the fixing component is used for fixing the wires at the upper end and the lower end of the color ring inductor (10); a plurality of limiting blocks (7) are fixedly connected to the fixed assembly, and each two limiting blocks (7) on the same side are connected through a C-shaped block; each limiting block (7) is provided with a first vertical groove (7001); each limiting block (7) is rotatably connected with a gear (8); a second vertical groove (8001) is formed in each gear (8); a plurality of racks (9) are fixedly connected to the first fixing plate (3), a plurality of other racks (9) are fixedly connected to the second fixing plate (4), and the racks (9) are evenly distributed on the left side and the right side of the fixing shell (1); the length of each rack (9) is exactly equal to the circumference of one gear (8).

2. An automated processing apparatus for producing an inductance material according to claim 1, wherein each roller (5) is provided in a shape conforming to an outer surface of the color ring inductor (10), i.e., a middle portion of the roller (5) is provided in a cylindrical shape, upper and lower ends are provided in a convex shape, and a cambered surface transition is provided between the cylindrical shape of the middle portion and the convex portions of both ends.

3. The automatic processing device for producing the inductance material according to claim 1, wherein the fixing assembly comprises a first fixing block (101), a second fixing block (102) and a limiting unit; the lower side of the electric sliding block (107) positioned at the lower side of the first fixed plate (3) is fixedly connected with a first fixed block (101); the upper side of an electric sliding block (107) positioned on the upper side of the second fixed plate (4) is fixedly connected with a second fixed block (102);

limiting units are arranged on opposite sides of the first fixed block (101) and the second fixed block (102).

4. An automated processing apparatus for producing an inductance material according to claim 3, wherein the limiting unit comprises a clamping block (104) and an elastic member (105); at least two first grooves (10102) are formed in the inner side of the first fixed block (101); at least two second grooves (10202) are formed in the inner side of the second fixing block (102); an elastic piece (105) is fixedly connected in each of the first groove (10102) and the second groove (10202); each elastic piece (105) is fixedly connected with one clamping block (104).

5. An automated processing apparatus for the production of inductive materials according to claim 2, further comprising a friction wheel (103); the upper side and the lower side of each roller (5) are fixedly connected with a friction wheel (103).

6. An automated processing apparatus for producing an inductive material according to claim 4, wherein the fixture block (104) is provided as a trapezoid.

7. The automated processing equipment for producing an inductive material according to claim 5, further comprising a scraper (201), a collection bucket (202) and a first baffle (203); one half of the outer surface of each roller (5) is provided with a smooth surface for painting, and the other half of the outer surface is provided with a plurality of scraping plates (201); the lower side of each roller (5) is provided with a collecting hopper (202); a first baffle (203) is arranged at the lower side edge of each collecting hopper (202); and each first baffle (203) is provided with a drainage port.

8. An automated processing apparatus for producing an inductive material according to claim 7, wherein the collecting hopper (202) is arranged in a semicircular shape and the guiding surface is arranged in a cambered surface.

9. An automated processing apparatus for producing an inductive material according to claim 7, further comprising a second baffle (204) and a wiper blade (301); a plurality of second baffles (204) are arranged on one side of each collecting hopper (202) close to the color ring inductor (10); a channel for the lower end part (10 d) of the inductor to normally pass through is arranged between two adjacent second baffles (204); the upper side and the lower side of each roller (5) are fixedly connected with a plurality of scraping blades (301); each wiper (301) is in close contact with the surfaces of adjacent wires at the upper end (10 c) and the lower end (10 d) of the inductor (10) of the coloring ring inductor (10) when rotating.

10. An automated processing apparatus for the production of inductive materials according to claim 9, wherein the wiper blade (301) is provided in a detachable configuration.