Magnetic shoe stator assembling machine capable of continuously feeding
Original application No.: 201611220328X
Application date of the original case: 2016, 12 months and 26 days
The original case applicant: dongguan City Rong Industrial Automation technology Co Ltd
The original application name: a magnetic shoe stator assembling machine capable of improving the utilization rate of equipment.
Technical Field
The invention relates to the field of stator processing equipment, in particular to a magnetic shoe stator assembling machine capable of continuously feeding materials.
Background
With the wide application of the engine, the demand of parts in the engine is increasing, and in the field of motors and starters, a rotor and a stator are often needed, and the stator is divided into a magnetic shoe stator consisting of a cylinder and magnetic shoes and a coil stator consisting of coils, and generally, the magnetic shoe stator is more widely used.
In the course of working of magnetic shoe stator, at first need artifically pass through the checkpost with the magnetic shoe and block into the drum in, then carry out subsequent punching press again and compress tightly, detect and magnetize the process, but current equipment mostly all is the operation of a process, needs the manual work to get and puts, consequently, needs a plurality of manpower stations to consume, and the efficiency of equipment is not high simultaneously to probably influence the yields of product because manual operation.
Disclosure of Invention
The invention aims to provide a magnetic shoe stator assembling machine capable of continuously feeding, which is provided with a material transferring device, wherein the material transferring device consists of an automatic universal arm and a clamp holder, and further can be ingeniously butted with a stamping device, a detection device and a magnetizing device, so that the integrated automatic operation of a plurality of processes is realized, and the utilization efficiency of the material transferring device can be improved by the design of two groups of stamping devices, and the assembly efficiency can be further improved by matching with double-line stamping.
In order to achieve the above purpose, the invention adopts the technical scheme that: a magnetic shoe stator assembling machine capable of continuously feeding materials comprises a machine frame (8) and a power distribution control box (1) arranged on the machine frame, wherein a stamping device (3) used for pressing magnetic shoes is arranged on the machine frame (8), a detection device (5) and a magnetizing device (7) are respectively arranged on two sides of the front portion of the machine frame, a material transferring device (4) matched with the stamping device (3), the detection device (5) and the magnetizing device (7) is arranged on the front side of the machine frame, the material transferring device (4) comprises an automatic universal arm (21) with the lower end fixed, a material transferring connecting plate (22) is connected to the upper end of the automatic universal arm (21), a clamp holder (23) matched with a product (65) is arranged below the material transferring connecting plate (22), the clamp holder (23) comprises a clamping cylinder (24) arranged below the material transferring connecting plate (22), and clamping movable blocks (25) are connected to two sides of the clamping cylinder (24), clamping blocks (26) which are matched with each other are arranged below the clamping movable block (25), a feeding device (2) which is matched with a product (65) is arranged on the rack (8), the feeding device (2) is matched with the stamping devices (3) through a feeding manipulator (6), two groups of stamping devices (3) are arranged on the rack (8), and the feeding device (2) is matched with each group of stamping devices (3) through the feeding manipulator (6); the automatic magnetizing device is characterized in that the stamping device (3), the detection device (5), the magnetizing device (7), the automatic universal arm (21), the clamping cylinder (24), the feeding device (2) and the feeding manipulator (6) are connected to the power distribution control box (1).
Further, change material connecting plate (22) on be provided with the centre gripping limiting plate, the one end of centre gripping limiting plate seted up centre gripping spacing groove (27), be provided with on changeing a movable grip block (25) of holder (23) in material device (4) with centre gripping spacing groove (27) complex centre gripping gag lever post (28).
Furthermore, the stamping device (3) comprises a stamping movable plate (11) and a stamping seat (18) which are arranged on the frame (8), a stamping clamping cylinder (12) is arranged on the stamping movable plate (11), the stamping clamping cylinder (12) is connected with a stamping clamping block (13), a ballast material flushing block (14) is arranged between the two stamping clamping blocks (13), the ballast material flushing block (14) is connected with a stamping lifting cylinder (15) arranged on the stamping movable plate (11), a stamping cylinder (19) is arranged on the stamping seat (18), a stamping head (20) matched with a product (65) on the stamping press block (14) is connected on the stamping cylinder (19), the stamping clamping cylinder (12), the stamping lifting cylinder (15) and the stamping cylinder (19) are connected to the power distribution control box (1).
Furthermore, frame (8) that the punching press fly leaf (11) be located the reverse side of punching press seat (18) be provided with dash product (65) complex punching press striker block (16) on ballast block (14), punching press fly leaf (11) be connected with punching press movable cylinder (17) that set up on frame (8), punching press movable cylinder (17) be connected to distribution control box (1).
Further, detection device (5) including detecting seat (41), the bottom of detecting seat (41) be provided with product (65) complex lower rotary disk (46), the below of lower rotary disk (46) be provided with carousel pivot (47), carousel pivot (47) be connected to carousel motor (48), the upper portion of detecting seat (41) be provided with mutually support detect lift seat (44) and detect lift cylinder (42), and detect lift seat (44) and detect detection lift slide rail (43) cooperation on seat (41), detection lift seat (44) on be provided with lower rotary disk (46) mutually support last rotary disk (45), and detect the position that seat (41) are located between two rotary disks and be provided with detection camera (49) with product (65) complex, detection lift cylinder (42), The turntable motor (48) and the detection camera (49) are connected to the power distribution control box (1).
Further, detection lift seat (44) on be provided with through slide rail (50) around detecting movable seat (51), detection front and back movable seat (51) on be provided with and detect lift seat (44) and be connected detection front and back movable cylinder (52), detection front and back movable seat (51) on be provided with gearbox (53), the front and back side of gearbox (53) be connected with respectively through the axle detect hand wheel (54) and with product (65) on hole site complex detection round pin head (55) seted up, detection front and back movable cylinder (52) be connected to distribution control box (1).
Furthermore, the magnetizing device (7) comprises a magnetizing seat (31), a magnetizing device (32) is arranged on the magnetizing seat (31), a material pressing frame (33) is arranged on the magnetizing device (32), a material pressing cylinder (34) matched with a product (65) in the magnetizing device (32) is arranged on the material pressing frame (33), a material ejecting cylinder (35) matched with the product (65) in the magnetizing device (32) is arranged on the magnetizing seat (31), and the magnetizing device (32), the material pressing cylinder (34) and the material ejecting cylinder (35) are connected to the power distribution control box (1).
Further, loading attachment (2) including setting up feeding seat (61) on frame (8), feeding seat (61) on be provided with material loading lift cylinder (67) and material loading lift seat (66) of mutually supporting, feeding lift seat (66) on install material loading trip shaft (63), material loading trip shaft (63) on cup jointed material loading roll-over stand (64), material loading roll-over stand (64) on be provided with product (65) complex holder (23), material loading roll-over stand (64) and material loading seat (61) on the material loading roll-over stand (62) cooperation of slope setting, material feeding manipulator (6), material loading lift cylinder (67) and material loading roll-over cylinder (62) be connected to distribution control box (1).
Further, pay-off manipulator (6) including setting up feeding seat (71) on frame (8), feeding seat (71) on be provided with feeding motor (72) and feeding belt (73) of mutually supporting, feeding belt (73) be connected with around the pay-off movable block (74), around the pay-off movable block (74) be connected with around movable seat (75), around movable seat (75) on be provided with pay-off lift cylinder (76), pay-off lift cylinder (76) below be connected with pay-off lifter block (77), pay-off lifter block (77) below be connected with product (65) complex holder (23), feeding motor (72) and pay-off lift cylinder (76) be connected to distribution control box (1).
The invention has the beneficial effects that:
1. be provided with and change the material device, change the material device and constitute by automatic every phenomenon of earth arm and holder, and then can carry out ingenious butt joint with stamping device, detection device and magnetization device, realized the integrative automation mechanized operation of a plurality of processes, reduced the manpower consumption, improved the packaging efficiency, the yields that simultaneously can also effectual improvement product, and two sets of stamping device's design, can improve the utilization efficiency who changes the material device, can cooperate the double-line punching press, further improve the efficiency of equipment.
2. The design of centre gripping limiting plate and centre gripping gag lever post can ensure that the track that the centre gripping movable block moves can not take place the skew when the activity, and then improves the precision of centre gripping.
3. The design of the stamping device can realize the lifting movement of the stamping material block, so that the stamping device can conveniently discharge materials, and the stamping efficiency is improved.
4. The design of the stamping material blocking block and the stamping movable air cylinder can enable a product on the stamping material carrying block to be supported, so that the stamping effect is ensured, and the yield is improved.
5. Detection device's simple structure, convenient operation, and adopt and go up the rotary disk and make the product rotate with lower rotary disk, very big guarantee the steady rotation of product in the testing process, and then improve the detection effect of product.
6. The design of the detection pin head can well detect whether the hole site on the stator shell is blocked, and the detection precision is further improved.
7. The magnetizing device is simple in structure and convenient to operate, and can automatically press and take materials.
8. The design of loading attachment, the convenient material loading that can be very big to realize shifting on through feeding manipulator, loading attachment is progressively overturned through the upset cylinder simultaneously, can not destroy the magnetic shoe structure in the product.
9. The feeding manipulator has simple structure and convenient operation, and can accurately send the product to be processed to the ballast block of the stamping device.
Drawings
Fig. 1 is a schematic perspective view of a magnetic shoe stator assembling machine capable of continuously feeding materials.
Fig. 2 is a perspective view of the punching device.
Fig. 3 is a schematic perspective view of the material transferring device.
Fig. 4 is a perspective view of a gripper in the transfer device.
Fig. 5 is a perspective view of the magnetizing apparatus.
Fig. 6 is a perspective view of the detecting device.
Fig. 7 is a partially enlarged view of B in fig. 6.
Fig. 8 is a partial enlarged view of a in fig. 6.
Fig. 9 is a schematic perspective view of the feeding device.
Fig. 10 is a perspective view of the feeding robot.
The text labels shown in the figures are represented as: 1. a power distribution control box; 2. a feeding device; 3. a stamping device; 4. a material transferring device; 5. a detection device; 6. a feeding manipulator; 7. a magnetizing device; 8. a frame; 11. stamping a movable plate; 12. stamping a clamping cylinder; 13. stamping a clamping block; 14. pressing a material block; 15. stamping a lifting cylinder; 16. stamping a material blocking block; 17. stamping a movable cylinder; 18. punching a seat; 19. punching a cylinder; 20. punching a head; 21. an automatic universal arm; 22. transferring a connecting plate; 23. a holder; 24. a clamping cylinder; 25. clamping the movable block; 26. a clamping block; 27. clamping a limiting groove; 28. clamping a limiting rod; 31. A magnetizing base; 32. a magnetizer; 33. a material pressing frame; 34. a material pressing cylinder; 35. a material ejection cylinder; 41. a detection seat; 42. detecting a lifting cylinder; 43. detecting a lifting slide rail; 44. detecting a lifting seat; 45. rotating the rotary disc upwards; 46. a lower rotating disk; 47. a turntable spindle; 48. a turntable motor; 49. detecting a camera; 50. detecting a front movable sliding rail and a rear movable sliding rail; 51. detecting the front and rear movable seats; 52. detecting a front movable cylinder and a rear movable cylinder; 53. a gearbox; 54. detecting a hand wheel; 55. detecting a pin head; 61. a feeding seat; 62. a feeding overturning cylinder; 63. a feeding turnover shaft; 64. a feeding roll-over stand; 65. producing a product; 66. a feeding lifting seat; 67. a feeding lifting cylinder; 71. a feeding seat; 72. a feeding motor; 73. a feeding belt; 74. a front and a rear movable blocks for feeding; 75. a movable seat before and after feeding; 76. a feeding lifting cylinder; 77. and a feeding lifting block.
Detailed Description
The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.
As shown in fig. 1 to 10, the specific structure of the present invention is: a magnetic shoe stator assembling machine capable of continuously feeding comprises a machine frame 8 and a power distribution control box 1 on the machine frame, wherein a stamping device 3 used for pressing magnetic shoes is arranged on the machine frame 8, a detection device 5 and a magnetizing device 7 are respectively arranged on two sides of the front portion of the machine frame, a material transferring device 4 matched with the stamping device 3, the detection device 5 and the magnetizing device 7 is arranged on the front side of the machine frame, the material transferring device 4 comprises an automatic universal arm 21 with the lower end fixed, a material transferring connecting plate 22 is connected to the upper end of the automatic universal arm 21, a clamper 23 matched with a product 65 is arranged below the material transferring connecting plate 22, the clamper 23 comprises a clamping cylinder 24 arranged below the material transferring connecting plate 22, clamping movable blocks 25 are connected to two sides of the clamping cylinder 24, clamping blocks 26 matched with each other are arranged below the clamping movable blocks 25, a feeding device 2 matched with the product 65 is arranged on the machine frame 8, the feeding device 2 is matched with the stamping devices 3 through the feeding mechanical arm 6, two groups of stamping devices 3 are arranged on the rack 8, and each group of stamping devices 3 is matched with the feeding device 2 through the feeding mechanical arm 6; the stamping device 3, the detection device 5, the magnetizing device 7, the automatic universal arm 21, the clamping cylinder 24, the feeding device 2 and the feeding manipulator 6 are connected to the power distribution control box 1.
Preferably, the material transferring connecting plate 22 is provided with a clamping limiting plate, one end of the clamping limiting plate is provided with a clamping limiting groove 27, and a movable clamping block 25 of the clamp 23 in the material transferring device 4 is provided with a clamping limiting rod 28 matched with the clamping limiting groove 27.
Preferably, the stamping device 3 includes a stamping movable plate 11 and a stamping seat 18 which are arranged on the frame 8, the stamping movable plate 11 is provided with a stamping clamping cylinder 12, the stamping clamping cylinder 12 is connected with a stamping clamping block 13, a stamping clamping block 14 is arranged between the two stamping clamping blocks 13, the stamping loading block 14 is connected with a stamping lifting cylinder 15 which is arranged on the stamping movable plate 11, the stamping seat 18 is provided with a stamping cylinder 19, the stamping cylinder 19 is connected with a stamping head 20 which is matched with a product 65 on the stamping loading block 14, and the stamping clamping cylinder 12, the stamping lifting cylinder 15 and the stamping cylinder 19 are connected to the power distribution control box 1.
Preferably, the frame 8 of the movable stamping plate 11 located at the opposite side of the stamping seat 18 is provided with a stamping material blocking block 16 matched with a product 65 on the stamping material blocking block 14, the movable stamping plate 11 is connected with a movable stamping cylinder 17 arranged on the frame 8, and the movable stamping cylinder 17 is connected to the power distribution control box 1.
Preferably, detection device 5 including detecting seat 41, the bottom of detecting seat 41 be provided with product 65 complex lower rotary disk 46, the below of lower rotary disk 46 be provided with carousel pivot 47, carousel pivot 47 be connected to carousel motor 48, the upper portion of detecting seat 41 be provided with mutually supporting detect lift seat 44 and detect lift cylinder 42, and detect lift seat 44 and detect the cooperation of lift slide rail 43 on the seat 41, the detection lift seat 44 on be provided with the lower rotary disk 46 mutually supporting go up rotary disk 45, and detect the position that seat 41 is located between two rotary disks and be provided with product 65 complex detection camera 49, detection lift cylinder 42, carousel motor 48 and detection camera 49 be connected to distribution control box 1.
Preferably, the detection lifting seat 44 is provided with a detection front and rear movable seat 51 through a detection front and rear slide rail 50, the detection front and rear movable seat 51 is provided with a detection front and rear movable cylinder 52 connected with the detection lifting seat 44, the detection front and rear movable seat 51 is provided with a gearbox 53, the front and rear sides of the gearbox 53 are respectively connected with a detection hand wheel 54 and a detection pin head 55 matched with a hole site arranged on a product 65 through a shaft, and the detection front and rear movable cylinder 52 is connected to the power distribution control box 1.
Preferably, the magnetizing device 7 includes a magnetizing base 31, a magnetizing device 32 is disposed on the magnetizing base 31, a material pressing frame 33 is disposed on the magnetizing device 32, a material pressing cylinder 34 matched with a product 65 in the magnetizing device 32 is disposed on the material pressing frame 33, a material ejecting cylinder 35 matched with the product 65 in the magnetizing device 32 is disposed on the magnetizing base 31, and the magnetizing device 32, the material pressing cylinder 34, and the material ejecting cylinder 35 are connected to the power distribution control box 1.
Preferably, the feeding device 2 includes a feeding seat 61 arranged on the frame 8, the feeding seat 61 is provided with a feeding lifting cylinder 67 and a feeding lifting seat 66 which are matched with each other, the feeding lifting seat 66 is provided with a feeding turnover shaft 63, the feeding turnover shaft 63 is sleeved with a feeding turnover frame 64, the feeding turnover frame 64 is provided with a clamp 23 matched with a product 65, the feeding turnover frame 64 is matched with a feeding turnover cylinder 62 which is arranged on the feeding seat 61 in an inclined manner, and the feeding manipulator 6, the feeding lifting cylinder 67 and the feeding turnover cylinder 62 are connected to the power distribution control box 1.
Preferably, the feeding manipulator 6 includes the feeding seat 71 arranged on the frame 8, the feeding seat 71 is provided with a feeding motor 72 and a feeding belt 73 which are matched with each other, the feeding belt 73 is connected with a feeding front and rear movable block 74, the feeding front and rear movable block 74 is connected with a front and rear movable seat 75, the front and rear movable seat 75 is provided with a feeding lifting cylinder 76, the feeding lifting cylinder 76 is connected with a feeding lifting block 77 below, the feeding lifting block 77 is connected with a gripper 23 matched with the product 65 below, and the feeding motor 72 and the feeding lifting cylinder 76 are connected to the power distribution control box 1.
When the automatic stamping device is used, a product 65 with magnetic tiles is vertically arranged on a clamp 23 of a feeding device 2, then the product 65 is adjusted to a proper height through a feeding lifting cylinder 67, then the product 65 is turned by 90 degrees through a feeding turning cylinder 62, then the product is clamped through the clamp 23 of a feeding manipulator 6 and is sent to a stamping material loading block 14 through the feeding manipulator 6, then the stamping material loading block 14 is lowered to a proper height through a material loading lifting cylinder 15, then the stamping clamping block 13 is driven to clamp the product 65 through a stamping clamping cylinder 12, then a stamping movable plate 11 is driven to move through a stamping movable cylinder 17, so that one end of the product 65 is abutted against a stamping material blocking block 16, then a stamping head 20 is driven to move through a stamping cylinder 19, then the magnetic tiles in the product are compacted through the stamping head, then the stamping device 3 is returned to the original position, and the automatic universal arm 21 moves, the product 65 is clamped by the clamp 23 on the material transferring device 4, the product is conveyed to the lower rotary disc 46 of the detecting device 5 by the automatic universal arm 21, then the detecting lifting cylinder 42 drives the detecting lifting seat 44 to move downwards, so that the upper rotary disc 45 is pressed tightly against the product, then the rotating motor 48 drives the lower rotary disc 47 to rotate, so as to drive the product 65 to rotate, further the product is detected by the detecting camera 49, meanwhile, the detecting front and rear movable seats 51 can be driven to move forwards by the detecting front and rear movable cylinders 52, further whether the hole site of the product 65 is blocked is detected by the hole site of the detecting pin head inserted into the product 65, the whole detecting process is completed, if the product is detected to be a good product, the product is transferred to the magnetizing device 7 by the material transferring device 4 to be magnetized, and if the product is detected to be a bad product, the product is transferred to the waste product conveying groove by the material transferring device 4, the magnetized product 65 is transferred to the non-defective product transfer chute by the transfer device 4.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the technical features described above may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.