CN117644223B - Corrosion-resistant automobile brake shoe processing method - Google Patents

Abstract

The invention relates to the technical field of brake shoe processing, and provides a processing method of a corrosion-resistant automobile brake shoe, which comprises the following steps of placing the brake shoe on top walls of conveyor belts on two conveyor devices, starting the two conveyor devices, rotating the conveyor belts arranged on the conveyor devices so as to convey the brake shoe into a drilling device for drilling, conveying the brake shoe onto a glue spraying device by the conveyor belts for glue spraying, wherein the drilling device comprises a machine body, the top wall of the machine body is connected with an organic top cover, a first machine cavity and a second machine cavity are formed in the machine body, the first machine cavity is communicated with the second machine cavity, a piece conveying channel is formed in the outer wall of the machine body, the piece conveying channel penetrates through the first machine cavity, a drilling mechanism is arranged in the first machine cavity, and a screening mechanism is arranged in the second machine cavity. According to the invention, the functions of punching single holes and punching double holes can be realized for the brake shoe, and when the single hole punching mode and the double hole punching mode are switched, only one cylinder is needed to drive, so that the brake shoe is convenient and quick, and complicated installation and disassembly work by means of an external tool is not needed.

Description

Corrosion-resistant automobile brake shoe processing method

Technical Field

The invention relates to the technical field of brake shoe machining, in particular to a method for machining a corrosion-resistant automobile brake shoe.

Background

The brake shoe refers to a fitting which is pushed to be outwards unfolded by the action of a brake cam or a push rod to press the brake bulge to brake, is arranged on a brake drum, and is one of key safety parts in an automobile brake system.

At present, when the brake shoe is produced, a plurality of processes are generally required to be carried out, wherein the processes comprise punching and glue spraying, and a drilling device is usually required to be used for punching, but the existing drilling device can only realize single hole punching or double hole punching, and can not realize rapid switching between a single hole punching mode and a double hole punching mode.

Disclosure of Invention

Aiming at the technical problems, the invention aims to provide a processing method of a corrosion-resistant automobile brake shoe, which is realized by adopting the following technical scheme:

A processing method of a corrosion-resistant automobile brake shoe comprises the following steps:

placing the brake shoes on the top walls of the conveyor belts on the two conveyor devices, starting the two conveyor devices, rotating the conveyor belts arranged on the conveyor devices so as to convey the brake shoes into the drilling device for drilling, and conveying the brake shoes onto the glue spraying device by the conveyor belts for glue spraying;

the drilling device comprises a machine body, the top wall of the machine body is connected with an organic top cover, a first organic cavity and a second organic cavity are formed in the machine body, the first organic cavity is communicated with the second organic cavity, a piece conveying channel is formed in the outer wall of the machine body, the piece conveying channel penetrates through the first organic cavity, a drilling mechanism and a spray head are arranged in the first organic cavity, the spray head is connected with an external liquid supply system, a screening mechanism is arranged in the second organic cavity, and the two conveying devices penetrate through the piece conveying channel.

Further, the drilling mechanism comprises a cylinder, a first movable plate, a connecting plate, a first motor, a first drill rod, a fixed plate and a second movable plate, wherein the cylinder is fixedly connected to the bottom wall of the top cover of the machine, the first movable plate is fixedly connected to a piston rod of the cylinder, the connecting plate is fixedly connected to the bottom wall of the first movable plate, the first motor is fixedly connected to the bottom wall of the connecting plate, the first drill rod is fixedly connected to an output shaft of the first motor, a first spur gear is fixedly connected to the first drill rod, the fixed plate is fixedly connected to the inner wall of the first machine cavity, a first permanent magnet plate is fixedly connected to the bottom wall of the fixed plate, a second permanent magnet plate is fixedly connected to the top wall of the second movable plate, and the top wall of the second permanent magnet plate is magnetically connected with the bottom wall of the first permanent magnet plate;

The first movable plate is provided with a first transmission cavity, a second transmission cavity, a third transmission cavity and a locking groove, the second transmission cavity and the third transmission cavity are communicated with the first transmission cavity, the inner wall of the first transmission cavity is connected with a first wedge-shaped block and a first permanent magnet in a sliding manner, the first permanent magnet is connected with the inner wall of the first transmission cavity through an elastic piece, the inner wall of the second transmission cavity is connected with a second wedge-shaped block and a second permanent magnet in a sliding manner, the second wedge-shaped block is fixedly connected with the second permanent magnet, the second wedge-shaped block is connected with the top wall of the second transmission cavity through an elastic piece, the first movable plate is connected with a first slide rod in a sliding manner, the upper end of the first slide rod extends into the first transmission cavity, the upper end of the first slide rod is fixedly connected with a third wedge-shaped block, the lower end of the slide rod extends to the lower part of the movable plate, the lower end of the slide rod is fixedly connected with a pressing piece, the pressing piece is fixedly connected with the bottom wall of the first movable plate through an elastic piece, and a pressing type elastic self-locking mechanism matched with the locking piece is arranged in the locking groove;

the side wall of the connecting plate is provided with a connecting groove, and the inner wall of the connecting groove is fixedly connected with a permanent magnet V;

The fixing plate is rotationally connected with a first rotating rod and a second rotating rod, the fixing plate is fixedly connected with two limiting rods, the first rotating rod is propped against one of the limiting rods, the first rotating rod is fixedly connected with a third permanent magnet and a raised strip, a long-strip-shaped channel is formed in the second rotating rod, the raised strip is slidingly connected to the inner wall of the long-strip-shaped channel, the second rotating rod is fixedly connected with a convex ring body, the second rotating rod is slidingly connected with a compression piece, the compression piece is propped against the raised strip, and the compression piece is connected with the convex ring body through a fourth elastic piece;

The second movable plate is fixedly connected with a rotary rod mounting plate, the front wall of the rotary rod mounting plate is fixedly connected with two extension plates, the bottom wall of the rotary rod mounting plate is rotationally connected with a second drill rod, the second drill rod is fixedly connected with a second spur gear, and the side wall of the second movable plate is fixedly connected with a fourth permanent magnet.

The extension piece is fixedly connected to an inner wall of the machine cavity.

Further, the first transmission groove and the collection channel have been seted up to the second inner wall of machine chamber, the second transmission groove has been seted up to the first inner wall of machine chamber, screening mechanism includes lug, spacing piece, slide bar second, atress piece, elastic component fifth, filter, annular collecting box and liquid reserve tank, the lug rigid coupling in fly leaf first lateral wall, spacing piece sliding connection in the first inner wall of transmission groove, spacing piece extend to in the second machine chamber, slide bar second rigid coupling in spacing piece roof, slide bar second upper end extends to in the second transmission groove, atress piece rigid coupling in slide bar second upper end, atress piece sliding connection in transmission groove second inner wall, the atress piece extends to in the first machine chamber, the atress piece roof is connected through elastic component fifth and transmission groove second roof, rotates to connect in quick-witted chamber second lateral wall, inlays on the filter and has the filter screen, filter diapire and spacing piece roof counterbalance, annular collecting box detachable connection in on the organism, collection channel and annular collecting box intercommunication, liquid reserve tank detachable connection in the second inner wall of machine chamber.

Further, the first inner wall sliding connection of machine chamber has movable detritus ware, first inner wall rigid coupling of machine chamber has the drive tooth, set up wind chamber and transmission groove three on the movable detritus ware, wind chamber passes through air-out passageway and activity detritus ware outer wall intercommunication, wind chamber roof is inlayed and is had motor two, the gangbar rigid coupling is on motor two's output shaft, the rigid coupling has the fan blade on the gangbar, the gangbar lower extreme extends to in the transmission groove three, the rigid coupling of transmission groove three inner wall has the reduction gear, the input shaft and the gangbar lower extreme rigid coupling of reduction gear, the rigid coupling has the spur gear three on the output shaft of reduction gear, spur gear three and drive tooth meshing, the movable detritus ware diapire has the impact head through six connections of elastic component, the rigid coupling of filter roof has the atress head.

Further, a limiting strip is fixedly connected to the front wall of the permanent magnet plate, and another limiting strip is fixedly connected to the rear wall of the permanent magnet plate.

Further, the outer wall of the movable chip remover is fixedly connected with an air guide pipe, the air guide pipe is obliquely arranged, and the air guide pipe is communicated with the air outlet channel.

Further, the first rotating rod is rotatably connected to the front wall of the fixed plate through a rotating shaft, and the second rotating rod is rotatably connected to the front wall of the fixed plate through a rotating shaft.

Further, the top cover is connected to the top wall of the machine body through bolts.

Further, more than two clamping mechanisms are arranged on the two conveyor belts.

Further, the glue spraying device sprays corrosion-resistant glue to the brake shoe.

The invention has the following beneficial effects:

According to the invention, the functions of punching single holes and double holes can be realized for the brake shoe, when the single hole punching mode and the double hole punching mode are switched, only one cylinder is needed to drive, the brake shoe is convenient and quick, complicated installation and disassembly work is not needed by manpower by means of an external tool, and the punching and production efficiency is improved; the screening of piece and coolant liquid can be realized to the filter screen through a cylinder, can realize the motion of activity detritus ware and produce wind through a motor two, improves the multi-angle clearance function of realization to brake shoe roof piece, can shake off the piece on the filter screen through the striking head simultaneously, improves the piece rate of recovery.

Drawings

The invention will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the invention, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

FIG. 1 is a perspective view of a drilling apparatus in a method of machining a corrosion resistant automotive brake shoe in accordance with the present invention;

FIG. 2 is a schematic view showing the internal structure of the drilling apparatus of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the invention at A in FIG. 2;

FIG. 4 is an enlarged view of the invention at B in FIG. 2;

FIG. 5 is an enlarged view of the invention at C in FIG. 3;

FIG. 6 is an enlarged view of the invention at D in FIG. 4;

FIG. 7 is a perspective view of the first permanent magnet plate and the stop bar of FIG. 3 according to the present invention;

Fig. 8 is a top view of the second chamber of fig. 2 according to the present invention.

Reference numerals: 1. a body; 2. a top cover; 3. a first machine cavity; 4. a second machine cavity; 5. a transfer device; 6. a conveyor belt; 7. a clamping mechanism; 8. a cylinder; 9. a first movable plate; 10. a connecting plate; 11. a first motor; 12. a first drill rod; 13. a spur gear I; 14. a fixing plate; 15. a second movable plate; 16. a first transmission cavity; 17. a transmission cavity II; 18. a transmission cavity III; 19. wedge block one; 20. a permanent magnet I; 21. an elastic piece I; 22. wedge block two; 23. an elastic piece II; 24. a permanent magnet II; 25. a first slide bar; 26. wedge-shaped block III; 27. pressing the slices; 28. an elastic member III; 29. a locking piece; 30. a locking groove; 31. a tab; 32. a first rotating rod; 321. a limit rod; 33. a permanent magnet III; 34. a convex strip; 35. a second rotating rod; 36. a strip-shaped channel; 37. a pressure receiving member; 38. a convex ring body; 39. a fourth elastic member; 40. a first rotating shaft; 41. a second rotating shaft; 42. a permanent magnet plate I; 43. a permanent magnet plate II; 44. an extension plate; 45. a second drill rod; 451. a rotating rod mounting plate; 46. a spur gear II; 47. a permanent magnet IV; 48. a connecting groove; 49. an extension piece; 50. a first transmission groove; 51. a limiting piece; 52. a second slide bar; 53. a stress piece; 54. an elastic member V; 55. a transmission groove II; 56. a filter plate; 57. a filter screen; 58. a permanent magnet; 59. a force-bearing head; 60. an elastic member six; 61. a movable chip remover; 62. a wind chamber; 63. an air outlet channel; 64. a transmission groove III; 65. a second motor; 66. a linkage rod; 67. a fan blade; 68. a speed reducer; 69. a spur gear III; 70. an impact head; 71. an air guide pipe; 72. a drive tooth; 73. a collection channel; 74. an annular collection box; 75. a liquid storage tank; 76. a transfer passage; 77. a bolt; 78. a limit bar; 79. a spray head.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "vertical", "upper", "lower", "horizontal", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element in question must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," "fourth," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, mechanically connected, electrically connected, directly connected, connected via an intermediary, or connected by communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 1-8, a method for processing a corrosion-resistant automobile brake shoe comprises the following steps:

Placing the brake shoes on the top walls of the conveyor belts 6 on the two conveyor devices 5, starting the two conveyor devices 5, rotating the conveyor belts 6 arranged on the conveyor devices 5 so as to convey the brake shoes into the drilling device for drilling, and conveying the brake shoes onto the glue spraying device by the conveyor belts 6 for glue spraying;

The drilling device comprises a machine body 1, wherein the top wall of the machine body 1 is connected with an organic top cover 2, a first organic cavity 3 and a second organic cavity 4 are formed in the machine body 1, the first organic cavity 3 is communicated with the second organic cavity 4, a piece conveying channel 76 is formed in the outer wall of the machine body 1, the piece conveying channel 76 penetrates through the first organic cavity 3, a drilling mechanism and a spray head 79 are arranged in the first organic cavity 3, the spray head 79 is connected with an external liquid supply system, a screening mechanism is arranged in the second organic cavity 4, and the two conveying devices 5 penetrate through the piece conveying channel 76.

The transmission passage 76 is provided through the body 1.

According to an alternative embodiment of the present invention, the drilling mechanism includes a cylinder 8, a first movable plate 9, a connecting plate 10, a first motor 11, a first drill rod 12, a fixed plate 14, and a second movable plate 15, where the cylinder 8 is fixedly connected to the bottom wall of the top cover 2, the first movable plate 9 is fixedly connected to the piston rod of the cylinder 8, the connecting plate 10 is fixedly connected to the bottom wall of the first movable plate 9, the first motor 11 is fixedly connected to the bottom wall of the connecting plate 10, the first drill rod 12 is fixedly connected to the output shaft of the first motor 11, a first spur gear 13 is fixedly connected to the first drill rod 12, the fixed plate 14 is fixedly connected to the inner wall of the first machine cavity 3, a first permanent magnet plate 42 is fixedly connected to the bottom wall of the fixed plate 14, a second permanent magnet plate 43 is fixedly connected to the top wall of the second movable plate 15, and the top wall of the second permanent magnet plate 43 is magnetically connected to the bottom wall of the first permanent magnet plate 42;

the first movable plate 9 is provided with a first transmission cavity 16, a second transmission cavity 17, a third transmission cavity 18 and a locking groove 30, the second transmission cavity 17 and the third transmission cavity 18 are communicated with the first transmission cavity 16, the inner wall of the first transmission cavity 16 is slidably connected with a first wedge block 19 and a first permanent magnet 20, the first wedge block 19 is fixedly connected with the first permanent magnet 20, the first permanent magnet 20 is connected with the inner wall of the first transmission cavity 16 through an elastic piece 21, the inner wall of the second transmission cavity 17 is slidably connected with a second wedge block 22 and a second permanent magnet 24, the second wedge block 22 is fixedly connected with the second permanent magnet 24, the second wedge block 22 is connected with the top wall of the second transmission cavity 17 through an elastic piece 23, the first movable plate 9 is slidably connected with a first slide rod 25, the upper end of the first slide rod 25 extends into the first transmission cavity 16, the upper end of the first slide rod 25 is fixedly connected with a third wedge block 26, the lower end of the first slide rod 25 extends to the lower part of the first movable plate 9, the lower end of the first slide rod 25 is fixedly connected with a pressing piece 27, the pressing piece 27 is fixedly connected with the bottom wall of the first movable plate 9 through an elastic piece 28 and the bottom wall of the first movable plate 9, the top wall of the pressing piece 27 is fixedly connected with a locking piece 29, the top wall of the pressing piece 29 is matched with the pressing elastic self-locking mechanism in the locking groove 30;

The side wall of the connecting plate 10 is provided with a connecting groove 48, and the inner wall of the connecting groove 48 is fixedly connected with a permanent magnet V58;

The fixed plate 14 is rotationally connected with a first rotating rod 32 and a second rotating rod 35, the fixed plate 14 is fixedly connected with two limiting rods 321, the first rotating rod 32 is propped against one of the limiting rods 321, the first rotating rod 32 is fixedly connected with a third permanent magnet 33 and a raised strip 34, the second rotating rod 35 is provided with a long strip-shaped channel 36, the raised strip 34 is slidably connected to the inner wall of the long strip-shaped channel 36, the second rotating rod 35 is fixedly connected with a convex ring body 38, the second rotating rod 35 is slidably connected with a compression piece 37, the compression piece 37 is propped against the raised strip 34, and the compression piece 37 is connected with the convex ring body 38 through a fourth elastic piece 39;

the second movable plate 15 is fixedly connected with a second rotary rod mounting plate 451, the front wall of the second rotary rod mounting plate 451 is fixedly connected with two extension plates 44, the bottom wall of the second rotary rod mounting plate 451 is rotatably connected with a second drill rod 45, the second drill rod 45 is fixedly connected with a second spur gear 46, and the side wall of the second movable plate 15 is fixedly connected with a fourth permanent magnet 47.

The extension piece 49 is fixedly connected to the inner wall of the machine cavity 3.

According to an alternative embodiment of the present invention, the inner wall of the first machine cavity 4 is provided with the transmission groove 50 and the collection channel 73, the inner wall of the first machine cavity 3 is provided with the transmission groove 55, the screening mechanism includes a protruding piece 31, a limit piece 51, a second slide bar 52, a stress piece 53, an elastic piece five 54, a filter plate 56, an annular collection box 74 and a liquid storage box 75, the protruding piece 31 is fixedly connected to the side wall of the first movable plate 9, the limit piece 51 is slidably connected to the inner wall of the first transmission groove 50, the limit piece 51 extends into the second machine cavity 4, the second slide bar 52 is fixedly connected to the top wall of the limit piece 51, the upper end of the second slide bar 52 extends into the transmission groove 55, the stress piece 53 is fixedly connected to the upper end of the second slide bar 52, the stress piece 53 is slidably connected to the inner wall of the transmission groove 55, the stress piece 53 extends into the first machine cavity 3, the top wall of the filter plate 53 is rotatably connected to the side wall of the second machine cavity 4 through the elastic piece five 54, the filter plate 56 is embedded with the top wall 57, the bottom wall of the filter plate 56 and the liquid storage box 74 is detachably connected to the annular collection box 74, and the annular collection box 74 is detachably connected to the inner wall of the second machine cavity 75, and the machine cavity 75 is detachably connected to the inner wall of the machine cavity 75.

According to an alternative embodiment of the invention, the inner wall of the first machine cavity 3 is slidably connected with the movable chip remover 61, the inner wall of the first machine cavity 3 is fixedly connected with the transmission gear 72, the movable chip remover 61 is provided with the air cavity 62 and the transmission groove III 64, the air cavity 62 is communicated with the outer wall of the movable chip remover 61 through the air outlet channel 63, the top wall of the air cavity 62 is embedded with the second motor 65, the linkage rod 66 is fixedly connected to the output shaft of the second motor 65, the linkage rod 66 is fixedly connected with the fan blade 67, the lower end of the linkage rod 66 extends into the transmission groove III 64, the inner wall of the transmission groove III 64 is fixedly connected with the speed reducer 68, the input shaft of the speed reducer 68 is fixedly connected with the lower end of the linkage rod 66, the output shaft of the speed reducer 68 is fixedly connected with the spur gear III 69, the spur gear III 69 is meshed with the transmission gear 72, the bottom wall of the movable chip remover 61 is connected with the impact head 70 through the elastic piece III 60, and the top wall of the filter plate 56 is fixedly connected with the stress head 59.

In an alternative embodiment of the present invention, a limiting bar 78 is fixedly connected to the front wall of the first permanent magnetic plate 42, and another limiting bar 78 is fixedly connected to the rear wall of the first permanent magnetic plate 42.

According to an alternative embodiment of the present invention, an air duct 71 is fixedly connected to the outer wall of the movable chip remover 61, the air duct 71 is obliquely arranged, and the air duct 71 is communicated with the air outlet channel 63.

In an alternative embodiment of the present invention, the first rotating rod 32 is rotatably connected to the front wall of the fixed plate 14 through the first rotating shaft 40, and the second rotating rod 35 is rotatably connected to the front wall of the fixed plate 14 through the second rotating shaft 41.

In an alternative embodiment according to the invention, the top cover 2 is connected to the top wall of the machine body 1 by means of bolts 77.

In an alternative embodiment according to the invention, two conveyor belts 6 are each provided with more than two gripping means 7.

In an alternative embodiment of the invention, the glue spraying device sprays the corrosion-resistant glue solution on the brake shoe.

The implementation process comprises the following steps:

The brake shoe is placed on the top wall of a conveyor belt 6 of the two conveying devices 5, the brake shoe is clamped by a clamping mechanism 7, and the conveyor belt 6 conveys the brake shoe into the first machine cavity 3.

In the initial state, as shown in fig. 1, the second permanent magnet plate 43 is magnetically connected with the first permanent magnet plate 42, the first rotating rod 32 is abutted against the right limiting rod 321, the lower end of the second rotating rod 35 extends between the two extending plates 44, the locking piece 29 is separated from the locking groove 30, and the fourth permanent magnet 47 is separated from the connecting groove 48.

When a single hole needs to be punched, the cylinder 8, the motor I11 and the spray head 79 are started, a piston rod on the cylinder 8 is extended, so that the movable plate I9, the connecting plate 10, the motor I11 and the drill rod I12 are driven to move downwards, the pressing piece 27 cannot be propped against the extending piece 49, the output shaft of the motor I11 drives the drill rod I12 and the spur gear I13 to rotate quickly, so that a single hole is punched on a brake shoe, cooling liquid sprayed by the spray head 79 can cool the drill rod I12, fragments generated by the hole and part of cooling liquid fall onto the filter screen 57, the other part of cooling liquid can be accumulated on the top wall of the brake shoe, the motor II 65 is started, the output shaft of the motor II 65 drives the linkage rod 66 and the fan blade 67 to rotate quickly, the linkage rod 66 drives the spur gear III 69 to rotate slowly through the speed reduction of the speed reducer 68, the spur gear III 69 is meshed with the transmission gear 72, so that the movable dust remover 61 moves around the inner wall of the first machine cavity 3, wind generated by the fan blades 67 is guided by the wind outlet channel 63 through the wind guide pipe 71 and then blown to the top wall of the brake shoe, the fragments on the top wall of the brake shoe are blown to the top wall of the filter screen 57, the wind guide pipe 71 rotates to blow the fragments to the top wall of the brake shoe from different angles, so that the blowing amount of the fragments is improved, the cooling liquid can fall into the liquid storage box 75 through the filter screen 57, the fragments can be accumulated on the top wall of the filter screen 57, then the motor I11 stops running, the piston rod on the cylinder 8 is shortened, the connecting plate 10 and the movable plate I9 move upwards, the lug 31 on the movable plate I9 can push the stressed piece 53 to move upwards against the elastic force of the elastic piece I54 when moving upwards, so that the slide rod II 52 and the limiting piece 51 move upwards, the limiting piece 51 drives the filter plate 56 to rotate, the filter plate 56 and the filter screen 57 incline leftwards, the fragments on the top wall of the filter screen 57 can fall into the collecting channel 73 to enter the annular collecting box 74 for recycling, the impact head 70 collides the force-bearing head 59 when passing through the force-bearing head 59, so that the filter plate 56 and the filter screen 57 vibrate, chips on the filter screen 57 are shaken down into the annular collecting box 74, the recovery rate is improved, excessive clamping of the chips on the filter screen 57 is prevented, the brake shoes after the conveying belt 6 is conveyed and punched leave the collecting channel 73, and the brake shoes enter the glue spraying device for spraying corrosion-resistant glue solution.

When the movable plate I9 moves downwards again, the stress piece 53, the slide rod II 52 and the limiting piece 51 can reset under the elastic force of the elastic piece V54, so that the filter plate 56 and the filter screen 57 are restored to the horizontal state for resetting.

When double holes are needed to be drilled, when no brake shoe is arranged in the first machine cavity 3, the piston rod of the air cylinder 8 is controlled to extend, so that the pressing piece 27 moves downwards and is propped against the extending piece 49, the pressing piece 27 moves upwards relative to the first movable plate 9 against the elastic force of the third elastic piece 28 under the thrust of the extending piece 49, the locking piece 29 is inserted into the locking groove 30, the locking piece 29 and the pressing elastic self-locking mechanism in the locking groove 30 are locked, then the locking piece 29 can rebound for a small distance, the third wedge 26 moves upwards to push the first wedge 19 and the first permanent magnet 20 to move leftwards, the first wedge 19 pushes the second wedge 22 and the second permanent magnet 24 to move upwards against the elastic force of the second elastic piece 23 and be accommodated in the second transmission cavity 17, then the piston rod of the air cylinder 8 is controlled to shorten, so that the first permanent magnet 20 moves to the same horizontal plane as the third permanent magnet 33, and the magnetic attraction of the first permanent magnet 20 is attracted to the third permanent magnet 33 because the first permanent magnet 20 has moved leftwards, the first rotating rod 32 rotates clockwise around the first rotating shaft 40, the raised strips 34 slide on the inner wall of the strip-shaped channel 36, the raised strips 34 push the pressure receiving piece 37 to move downwards against the elastic force of the fourth elastic piece 39, when the first movable plate 9 moves upwards to the upper limit position, the fourth elastic piece 39 is just compressed to the limit length which can be compressed by the raised strips 34, the third permanent magnet 33 moves rightly to the right of the first rotating shaft 40, the pressure receiving piece 37 slides upwards to reset quickly along the second rotating rod 35 under the elastic force of the fourth elastic piece 39, so that the raised strips 34 are pushed to drive the first rotating rod 32 to rotate clockwise until the first rotating rod 32 abuts against the left Fang Xianwei rod 321, the lower end of the second rotating rod 35 pushes the right extending plate 44 to move rightwards, so that the second movable plate 15 and the fourth permanent magnet 47 move rightwards, the fourth permanent magnet 47 is inserted into the connecting groove 48, the fourth permanent magnet 47 is connected with the fifth permanent magnet 58 magnetically, the second spur gear 46 is meshed with the first spur gear 13, when a piston rod on the air cylinder 8 stretches, the movable plate I9 moves downwards and drives the movable plate II 15 to move downwards, the permanent magnet plate II 43 and the permanent magnet plate I42 are disconnected with each other by magnetic force, and the spur gear I13 rotates to drive the spur gear II 46 and the drill rod II 45 to rotate rapidly, so that double-hole punching operation is performed by using the drill rod II 45 and the drill rod I12. The principle of screening scraps and cooling liquid is the same as that of punching single holes.

When the single hole punching mode needs to be switched back, when no brake shoe is in the first machine cavity 3, the piston rod of the air cylinder 8 is controlled to extend, so that the pressing piece 27 moves downwards and is propped against the extending piece 49, the pressing piece 27 moves upwards for a small distance relative to the first movable plate 9 against the elastic force of the third elastic piece 28 under the thrust of the extending piece 49, the locking piece 29 can release the locking of the pressing elastic self-locking mechanism in the locking groove 30, the piston rod of the air cylinder 8 is shortened, the first movable plate 9 moves upwards, the pressing piece 27 moves downwards and returns under the elastic force of the third elastic piece 28, the locking piece 29 is separated from the locking groove 30, the first wedge-shaped block 19 and the first permanent magnet 20 move rightwards under the elastic force of the first elastic piece 21, the second wedge-shaped block 22 and the second permanent magnet 24 move downwards into the first transmission cavity 16 under the elastic force of the second elastic piece 23, when the second permanent magnet 24 moves up to the same horizontal plane as the third permanent magnet 33, the first permanent magnet 20 moves right and does not generate magnetic attraction force on the third permanent magnet 33, the second permanent magnet 24 generates magnetic repulsion force on the third permanent magnet 33, the first rotating rod 32 rotates anticlockwise around the first rotating shaft 40 and resets to be propped against the right limiting rod 321, the second rotating rod 35 rotates clockwise around the second rotating shaft 41, the lower end of the second rotating rod 35 pushes the left extending plate 44 to move left so as to enable the second movable plate 15 to move left, the second permanent magnet plate 43 is magnetically connected with the first permanent magnet plate 42 at the moment, the second permanent magnet plate 43 moves left along the bottom wall of the first permanent magnet plate 42, the limiting strip 78 can realize a sliding limiting function on the second permanent magnet plate 43, the fourth permanent magnet 47 is separated from the connecting groove 48, and the marking Kong Caozuo can be performed.

According to the invention, the functions of punching single holes and double holes can be realized for the brake shoe, when the single hole punching mode and the double hole punching mode are switched, only one cylinder 8 is needed to drive, the brake shoe is convenient and quick, complicated installation and disassembly work is not needed by manpower by means of an external tool, and the punching and production efficiency is improved; the screening of piece and coolant liquid can be realized to the filter screen 57 through a cylinder 8, can realize the motion of activity chipbreaker 61 and produce wind through a motor two 65, improves the multi-angle clearance function of realization to brake shoe roof piece, can shake off the piece on the filter screen 57 through striking head 70 simultaneously, improves the piece rate of recovery.

According to an alternative embodiment of the present invention, the left wall of the second transmission cavity 17 is provided with a magnetic blocking piece, so that the second permanent magnet 24 is prevented from generating magnetic repulsive force to the third permanent magnet 33 after being received in the second transmission cavity 17, and the clockwise rotation of the third permanent magnet 33 is prevented from being affected.

The components, modules, mechanisms and devices of the invention, which do not describe the structure in detail, are all common standard components or components known to those skilled in the art, and the structure and principle thereof are all known to those skilled in the art through technical manuals or through routine experimental methods.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims (9)

1. The processing method of the corrosion-resistant automobile brake shoe is characterized by comprising the following steps of:

Placing the brake shoes on the top walls of the conveyor belts (6) on the two conveyor devices (5), starting the two conveyor devices (5), rotating the conveyor belts (6) arranged on the conveyor devices (5) so as to convey the brake shoes into the drilling device for drilling, and conveying the brake shoes onto the glue spraying device by the conveyor belts (6) for glue spraying;

The drilling device comprises a machine body (1), wherein the top wall of the machine body (1) is connected with an organic top cover (2), a first organic cavity (3) and a second organic cavity (4) are formed in the machine body (1), the first organic cavity (3) is communicated with the second organic cavity (4), a piece conveying channel (76) is formed in the outer wall of the machine body (1), the piece conveying channel (76) penetrates through the first organic cavity (3), a drilling mechanism and a spray head (79) are arranged in the first organic cavity (3), the spray head (79) is connected with an external liquid supply system, a screening mechanism is arranged in the second organic cavity (4), and two conveying devices (5) penetrate through the piece conveying channel (76);

The drilling mechanism comprises a cylinder (8), a movable plate I (9), a connecting plate (10), a motor I (11), a drill rod I (12), a fixed plate (14) and a movable plate II (15), wherein the cylinder (8) is fixedly connected to the bottom wall of the top cover (2), the movable plate I (9) is fixedly connected to a piston rod of the cylinder (8), the connecting plate (10) is fixedly connected to the bottom wall of the movable plate I (9), the motor I (11) is fixedly connected to the bottom wall of the connecting plate (10), the drill rod I (12) is fixedly connected to an output shaft of the motor I (11), a spur gear I (13) is fixedly connected to the drill rod I (12), a fixed plate (14) is fixedly connected to the inner wall of the machine cavity I (3), a permanent magnet plate I (42) is fixedly connected to the bottom wall of the fixed plate II (15), a permanent magnet plate II (43) is fixedly connected to the top wall of the movable plate II (42), and an extension piece (49) is fixedly connected to the inner wall of the machine cavity I (3).

A first transmission cavity (16), a second transmission cavity (17), a third transmission cavity (18) and a locking groove (30) are formed in the first movable plate (9), the second transmission cavity (17) and the third transmission cavity (18) are all communicated with the first transmission cavity (16), a first wedge block (19) and a first permanent magnet (20) are connected to the inner wall of the first transmission cavity (16) in a sliding manner, the first wedge block (19) and the first permanent magnet (20) are fixedly connected, the first permanent magnet (20) is connected with the inner wall of the first transmission cavity (16) through an elastic piece (21), the inner wall of the second transmission cavity (17) is connected with a second wedge block (22) and a second permanent magnet (24) in a sliding manner, the second wedge block (22) is connected with the top wall of the second transmission cavity (17) through an elastic piece (23), a first slide bar (25) is connected to the upper end of the first transmission cavity (16) in a sliding manner, a third wedge block (26) is fixedly connected to the upper end of the first slide bar (25) in a sliding manner, a second wedge block (25) is connected to the lower end of the first movable plate (9) through a second wedge block (22) and a second permanent magnet (24) in a sliding manner, a third slide bar (27) is fixedly connected with the upper wall of the second wedge block (22) through a second elastic piece (23) and a second slide bar (17) in a sliding manner, a third slide bar (27) is fixedly connected to the second slide bar (27) in a sliding manner, the lock groove (30) is internally provided with a push type elastic self-locking mechanism which is matched with the lock piece (29); the side wall of the connecting plate (10) is provided with a connecting groove (48), and the inner wall of the connecting groove (48) is fixedly connected with a permanent magnet V (58);

the fixing plate (14) is rotationally connected with a first rotating rod (32) and a second rotating rod (35), the fixing plate (14) is fixedly connected with two limiting rods (321), the first rotating rod (32) is propped against one of the limiting rods (321), a third permanent magnet (33) and a convex strip (34) are fixedly connected to the first rotating rod (32), a long strip-shaped channel (36) is formed in the second rotating rod (35), the convex strip (34) is slidingly connected to the inner wall of the long strip-shaped channel (36), a convex ring body (38) is fixedly connected to the second rotating rod (35), a compression piece (37) is slidingly connected to the second rotating rod (35), the compression piece (37) is propped against the convex strip (34), and the compression piece (37) is connected with the convex ring body (38) through a fourth elastic piece (39);

a rotating rod mounting plate (451) is fixedly connected to the second movable plate (15), two extension plates (44) are fixedly connected to the front wall of the rotating rod mounting plate (451), a second drill rod (45) is rotatably connected to the bottom wall of the rotating rod mounting plate (451), a second spur gear (46) is fixedly connected to the second drill rod (45), and a fourth permanent magnet (47) is fixedly connected to the side wall of the second movable plate (15).

2. The method for processing the anti-corrosion automobile brake shoe according to claim 1, wherein the inner wall of the first machine cavity (4) is provided with a transmission groove (50) and a collection channel (73), the inner wall of the first machine cavity (3) is provided with a transmission groove (55), the screening mechanism comprises a lug (31), a limiting piece (51), a second sliding rod (52), a stress piece (53), an elastic piece five (54), a filter plate (56), an annular collection box (74) and a liquid storage tank (75), the lug (31) is fixedly connected with the side wall of the first movable plate (9), the limiting piece (51) is slidably connected with the inner wall of the first transmission groove (50), the limiting piece (51) extends into the second machine cavity (4), the second sliding rod (52) is fixedly connected with the top wall of the limiting piece (51), the upper end of the sliding rod (52) extends into the second transmission groove (55), the stress piece (53) is fixedly connected with the upper end of the second sliding rod (52), the stress piece (53) is slidably connected with the inner wall of the transmission groove (55), the stress piece (53) extends into the first machine cavity (3) and the top wall (56) is rotatably connected with the filter plate (56) through the upper wall of the second filter plate (54), the bottom wall of the filter plate (56) is propped against the top wall of the limiting piece (51), the annular collecting box (74) is detachably connected to the machine body (1), the collecting channel (73) is communicated with the annular collecting box (74), and the liquid storage box (75) is detachably connected to the inner wall of the machine cavity II (4).

3. The method for machining the corrosion-resistant automobile brake shoe according to claim 2, wherein the inner wall of the first machine cavity (3) is slidably connected with the movable chip remover (61), the inner wall of the first machine cavity (3) is fixedly connected with the transmission gear (72), the movable chip remover (61) is provided with the air cavity (62) and the transmission groove III (64), the air cavity (62) is communicated with the outer wall of the movable chip remover (61) through the air outlet channel (63), the top wall of the air cavity (62) is inlaid with the second motor (65), the linkage rod (66) is fixedly connected to an output shaft of the second motor (65), the fan blade (67) is fixedly connected to the linkage rod (66), the lower end of the linkage rod (66) extends into the transmission groove III (64), the inner wall of the transmission groove III (64) is fixedly connected with the speed reducer (68), the input shaft of the speed reducer (68) is fixedly connected with the lower end of the linkage rod (66), the output shaft of the speed reducer (68) is fixedly connected with the third spur gear (69), the third spur gear (69) is meshed with the transmission gear (72), the movable chip remover (61) is fixedly connected with the top wall (56) through the elastic piece (60), and the top wall is fixedly connected with the top wall (56).

4. A method of manufacturing a corrosion resistant automotive brake shoe according to claim 3, wherein a first stop bar (78) is fixedly connected to the front wall of the first permanent magnet plate (42), and a second stop bar (78) is fixedly connected to the rear wall of the first permanent magnet plate (42).

5. The method for machining the corrosion-resistant automobile brake shoe according to claim 4, wherein the outer wall of the movable chip remover (61) is fixedly connected with an air guide pipe (71), the air guide pipe (71) is obliquely arranged, and the air guide pipe (71) is communicated with the air outlet channel (63).

6. The method of claim 5, wherein the first lever (32) is rotatably coupled to the front wall of the fixed plate (14) via a first shaft (40), and the second lever (35) is rotatably coupled to the front wall of the fixed plate (14) via a second shaft (41).

7. The method of claim 6, wherein the top cover (2) is attached to the top wall of the housing (1) by bolts (77).

8. The method for manufacturing a corrosion resistant automotive brake shoe according to any one of claims 1 to 7, characterized in that two conveyor belts (6) are each provided with more than two clamping mechanisms (7).

9. The method of claim 8, wherein the glue spraying device sprays the anti-corrosion glue solution on the brake shoe.