CN114101740B

CN114101740B - Carrier processing device of mobile phone vibration motor

Info

Publication number: CN114101740B
Application number: CN202111439717.2A
Authority: CN
Inventors: 高家银; 李娟�; 周艳
Original assignee: Suzhou Changming Automation Technology Co ltd
Current assignee: Suzhou Changming Automation Technology Co ltd
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-12-06
Anticipated expiration: 2041-11-30
Also published as: CN114101740A

Abstract

The invention discloses a carrier processing device of a mobile phone vibration motor, which belongs to the technical field of carrier processing equipment and comprises a drilling device, a supporting platform, a clamping device, a positioning device and a driving device, wherein the drilling device is arranged at the upper end of the clamping device, the clamping device is arranged on the supporting platform, the clamping device comprises an upper clamping component and a lower clamping component, the upper clamping component is positioned above the lower clamping component, the positioning device is arranged in the upper clamping component, the driving device is arranged in the supporting platform, the driving device comprises a lifting component and a rotating component, and the lifting component is arranged on the rotating component.

Description

Carrier processing device of mobile phone vibration motor

Technical Field

The invention relates to the technical field of carrier processing equipment, in particular to a carrier processing device of a mobile phone vibration motor.

Background

As is well known, a motor is generally required to be fixed on a motor carrier when being installed, so that the motor can be conveniently installed, and the motor carrier is required to be processed, the conventional processing mode mainly comprises the steps of drilling the carrier, fixing the carrier on a drilling machine by a worker, controlling the drilling machine to drill holes at a specified position on the carrier, wherein the number of carrier hole positions is large, the worker needs to adjust the carrier position for multiple times for processing, the physical consumption of the worker is large, the drilling working time is long, the working efficiency is low, meanwhile, the carrier position moves for multiple times, the accuracy of the hole positions on the carrier is reduced, the carrier processing quality is poor, and the motor is not easy to install on the carrier.

The shape of motor carrier has a lot of varieties, this device is worked to a square shape of motor, because motor carrier volume is less, in the carrier course of working of motor, it just becomes very important to press from both sides tight the carrier, must ensure that the clamping force can not too big cause the carrier to appear warping, and if to the little condition of carrier clamp force, it causes the processing of carrier skew in the carrier course of working to be difficult to avoid, make the carrier cause the damage in the course of working, and when the carrier was the square state, drilling equipment need the round trip movement, to the hole site processing of corresponding carrier, reduce work efficiency.

Disclosure of Invention

The embodiment of the invention provides a carrier processing device of a mobile phone vibration motor, which aims to solve the technical problems that in the prior art, a carrier is damaged in the processing process, the carrier is square, a drilling device needs to move back and forth, hole positions of the corresponding carrier are processed, and the working efficiency is reduced.

The embodiment of the invention adopts the following technical scheme: the drilling device comprises a drilling device, and further comprises a supporting platform, a clamping device, a positioning device and a driving device, wherein the drilling device is arranged at the upper end of the clamping device, the clamping device is arranged on the supporting platform, the clamping device comprises an upper clamping assembly and a lower clamping assembly, the upper clamping assembly is positioned above the lower clamping assembly, the positioning device is arranged inside the upper clamping assembly, the driving device is arranged inside the supporting platform, the driving device comprises a lifting assembly and a rotating assembly, and the lifting assembly is arranged on the rotating assembly.

Further, lower clamping unit is including pressing from both sides tight pneumatic cylinder, lower clamp plate, lower floor's board and lower rack, supporting platform is inside to be hollow structure, the last two sliding trays that are equipped with of supporting platform, it is equipped with two, two to press from both sides tight pneumatic cylinder symmetry and set up supporting platform in supporting platform's inside and output, lower clamp plate sets up on the output that presss from both sides tight pneumatic cylinder, the both ends of lower clamp plate be located the sliding tray and with sliding tray sliding fit, the plywood is fixed to be set up under on the clamp plate, the rack is equipped with two down, two the rack symmetry sets up under on the plywood.

Further, go up clamping unit and include upper fixing frame, upper gear, go up and press from both sides tight post, go up clamp plate, top plate and upper rack, supporting platform's both sides all are equipped with two slip posts, the upper fixing frame is equipped with two, two the upper fixing frame symmetry sets up the both sides at supporting platform, it is equipped with two, two to go up the setting that the gear all corresponds and rotate with the upper fixing frame on last mount and be connected, two go up the gear all with the lower rack toothing that corresponds, go up and press from both sides tight post and be equipped with a plurality of, a plurality of go up the setting that the clamp plate all corresponds and just with slip post sliding fit in the slip post, go up the clamp plate and set up in a plurality of go up on pressing from both sides tight post, the top plate sets up the lower extreme at last clamp plate, it is equipped with two to go up the rack symmetry and set up the lower extreme at last clamp plate and with the last gear meshing that corresponds.

Further, all be equipped with the drilling groove on clamp plate, lower plywood, upper clamp plate and the upper plate board down, the drilling groove axle center of upper clamp plate, upper plate board, lower clamp plate and lower plywood is the same and from top to bottom sets gradually, all be equipped with the drive groove on clamp plate and the lower plywood down.

Further, positioner includes positioning motor, positioning gear, location fluted disc, positioning track, locating lever, reference column and locating plate, the inside of upper plate and upper clamp plate is hollow structure, the positioning motor sets up the one side that is located drilling groove on upper plate and upper clamp plate and is located the inside of upper plate and upper clamp plate, the positioning gear sets up on the output of positioning motor, the positioning fluted disc sets up in the inside of upper plate and upper clamp plate and the lower extreme of positioning fluted disc is connected with the inside rotation of upper plate and upper clamp plate, the positioning track is equipped with a plurality of, a plurality of the positioning track all encircles the below of laying at the positioning fluted disc, the reference column is equipped with a plurality of, a plurality of the setting that the reference column all corresponds just with positioning track sliding fit in the positioning track, the locating lever is equipped with a plurality of, a plurality of the one end of locating lever encircles the connection that sets up in the upper end of positioning fluted disc and the other end all corresponds and is located the inboard of location, a plurality of the locating plate that the setting that the locating plate all corresponds is in one end of reference column.

Further, the lifting assembly comprises a lifting seat, a lifting motor, a first helical gear, a second helical gear, a lifting screw, a lifting column, a lifting frame, a lifting sleeve, a lifting disc and a lifting block, the lifting seat is arranged inside the supporting platform, the lifting motor is arranged on the lifting seat, the first helical gear is arranged at the output end of the lifting motor, the lifting column is arranged at the upper end of the lifting seat, the lifting frame is arranged on the lifting column, the lifting sleeve is arranged inside the lifting frame and in sliding fit with the lifting frame, the lifting screw is arranged inside the lifting sleeve and in threaded connection with the lifting sleeve, the lifting screw penetrates through the lifting column, the second helical gear is arranged at one end of the lifting screw and in meshed engagement with the first helical gear, the second helical gear is in rotary connection with the lower end of the lifting seat, the lifting block is arranged at the upper end of the lifting sleeve and in rotary connection with the lifting sleeve, and the lifting disc is arranged on the lifting block.

Further, rotating assembly includes rotating electrical machines, first runner, second runner, driving belt and telescopic link, rotating electrical machines sets up the inside at the lift seat, first runner sets up on rotating electrical machines's output, the second runner cover is established on the lift post and is connected with the lift post rotation, driving belt cover is established on first runner and second runner, the telescopic link is equipped with two, two the telescopic link symmetry sets up in the upper end of second runner, two the lower extreme at the lifting disk is connected to the one end of telescopic link.

Furthermore, the lifting disc and the lower plate are at the same horizontal height.

The embodiment of the invention adopts at least one technical scheme to achieve the following beneficial effects:

when the carrier is clamped and fastened, the carrier is firstly placed on a driving device, a lower clamping plate on the output end of a clamping hydraulic cylinder is driven to move upwards by the operation of the clamping hydraulic cylinder, a lower layer plate is driven to move upwards by the upward movement of the lower clamping plate, and a lower rack is driven to move upwards at the same time.

Secondly, when the carrier is drilled, the carrier is firstly placed on the driving device and the lower clamping plate, one corner of the carrier to be drilled corresponds to the axis of the drilling groove, then the positioning motor operates to drive the positioning gear on the output end of the positioning motor to rotate, the positioning gear rotates to drive the positioning fluted disc to rotate, the positioning fluted disc rotates to drive the positioning rod to rotate, the positioning rod rotates to drive the positioning column to move outwards or outwardly on the positioning track, so that the positioning plate is driven to move outwards or outwardly, the size of the carrier to be drilled is adjusted to be in a proper state before the carrier is drilled, and then the carrier is drilled through the drilling device, so that the drilling operation effect of the carrier is improved, the carrier can be accurately drilled, and the drilling deviation cannot be caused during the carrier drilling operation.

Thirdly, the lifting block is rotationally connected with the lifting sleeve, the lifting disc can rotate, when one corner of the carrier is drilled, the carrier is loosened through operation of the clamping device, the first bevel gear on the output end of the lifting motor is driven to rotate through operation of the lifting motor, the second bevel gear drives the second bevel gear to rotate, the lifting screw is driven to rotate, the lifting sleeve is driven to rotate on the lifting screw through rotation of the second bevel gear, the lifting sleeve is driven to move upwards, the carrier is supported by the lifting disc in a lining mode and moves upwards, the carrier can be separated from the lower layer plate at the moment, the carrier on the lifting disc is rotated ninety degrees through operation of the rotating assembly, the other corner of the carrier needing to be drilled corresponds to the axis of the drilling groove, the carrier on the lifting disc is moved to enable the lifting disc and the lower layer plate to be at the same horizontal height, the carrier is clamped through the clamping device, drilling operation of the other corner of the carrier is performed through the drilling device, and after one corner drilling operation of the carrier is completed, drilling operation of the carrier can be repeatedly circulated, and drilling operation of the four corners of the carrier can be achieved.

Fourthly, when the carrier rotates ninety degrees, the rotating motor operates to drive the first rotating wheel on the output end of the rotating motor to rotate, the first rotating wheel rotates to drive the second rotating wheel to rotate through the transmission belt, the second rotating wheel rotates to drive the telescopic rod to rotate, and the telescopic rod rotates to drive the lifting disc to rotate, so that the carrier on the lifting disc is driven to rotate ninety degrees.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not limit the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a first schematic sectional view of the present invention;

FIG. 3 is a schematic sectional view of the present invention;

FIG. 4 is a perspective view of the lower clamp assembly of the present invention;

FIG. 5 is a perspective view of the upper clamp assembly of the present invention;

FIG. 6 is a perspective view of a clamping device according to the present invention;

FIG. 7 is a first perspective view of the positioning device of the present invention;

FIG. 8 is a schematic perspective view of a second exemplary embodiment of a positioning device of the present invention;

FIG. 9 is a perspective view of the lift assembly of the present invention;

FIG. 10 is a perspective view of the rotating assembly of the present invention;

fig. 11 is a schematic perspective view of a driving device according to the present invention.

Reference numerals

The drilling device 1, the supporting platform 11, the sliding groove 12, the sliding column 13, the clamping device 2, the lower clamping assembly 21, the clamping hydraulic cylinder 211, the lower clamping plate 212, the lower plate 213, the lower rack 214, the drilling groove 215, the upper clamping assembly 22, the upper fixing frame 221, the upper gear 222, the upper clamping column 223, the upper clamping plate 224, the upper plate 225, the upper rack 226, the positioning device 3, the positioning motor 31, the positioning gear 32, the positioning toothed disc 33, the positioning rail 34, the positioning rod 35, the positioning post 36, the positioning plate 37, the driving device 4, the lifting assembly 41, the lifting seat 411, the lifting motor 412, the first helical gear 413, the second helical gear 414, the lifting screw 415, the lifting column 416, the lifting rack 417, the lifting sleeve 418, the lifting disc 419, the lifting block 491, the rotating assembly 42, the rotating motor 421, the first rotating wheel 422, the second rotating wheel 423, the transmission belt 424 and the telescopic rod 425.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to be exhaustive or exhaustive. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the invention provides a carrier processing device of a mobile phone vibration motor, which comprises a drilling device 1, a supporting platform 11, a clamping device 2, a positioning device 3 and a driving device 4, wherein the drilling device 1 is arranged at the upper end of the clamping device 2, the clamping device 2 is arranged on the supporting platform 11, the clamping device 2 comprises an upper clamping component 22 and a lower clamping component 21, the upper clamping component 22 is positioned above the lower clamping component 21, the positioning device 3 is arranged in the upper clamping component 22, the driving device 4 is arranged in the supporting platform 11, the driving device 4 comprises a lifting component 41 and a rotating component 42, the lifting component 41 is arranged on the rotating component 42, when the device is used for drilling a carrier, the upper surface and the lower surface of the carrier can be completely clamped, so that the problems of processing offset and carrier damage can not occur during the carrier drilling operation, the drilling device 1 only needs to be fixed at one position, and the drilling operation can be completed on four corners of the carrier by driving the carrier to rotate.

Preferably, lower clamping unit 21 includes clamping hydraulic cylinder 211, lower clamping plate 212, lower floor plate 213 and lower rack 214, supporting platform 11 is inside to be hollow structure, be equipped with two sliding tray 12 on supporting platform 11, clamping hydraulic cylinder 211 is equipped with two, two clamping hydraulic cylinder 211 symmetry sets up in supporting platform 11's inside and output passes supporting platform 11, lower clamping plate 212 sets up on clamping hydraulic cylinder 211's output, the both ends of lower clamping plate 212 are located sliding tray 12 and with sliding tray 12 sliding fit, lower floor plate 213 is fixed to be set up on lower clamping plate 212, lower rack 214 is equipped with two, two lower rack 214 symmetry sets up on lower floor plate 213, drives lower clamping plate 212 upward movement on clamping hydraulic cylinder 211 output through clamping hydraulic cylinder 211 operation, and lower clamping plate 212 upward movement drives lower floor plate upward movement, and simultaneously, drives lower rack 214 upward movement to drive upper clamping unit 22 and lower clamping unit 21 symmetric movement, clamp the carrier and fix the operation.

Preferably, the upper clamping assembly 22 includes an upper fixing frame 221, an upper gear 222, two upper clamping columns 223, two upper clamping plates 224, an upper plate 225 and two upper racks 226, two sliding columns 13 are disposed on both sides of the supporting platform 11, two upper fixing frames 221 are disposed, two upper fixing frames 221 are symmetrically disposed on both sides of the supporting platform 11, two upper gears 222 are disposed, two upper gears 222 are correspondingly disposed on the upper fixing frame 221 and rotatably connected to the upper fixing frame 221, two upper gears 222 are respectively engaged with the corresponding lower racks 214, two upper clamping columns 223 are disposed, a plurality of upper clamping columns 223 are correspondingly disposed in the sliding columns 13 and slidably engaged with the sliding columns 13, the upper clamping plates 224 are disposed on the plurality of upper clamping columns 223, the upper plate 225 is disposed at the lower end of the upper clamping plates 224, two upper racks 226 are disposed, two upper racks 226 are symmetrically disposed at the lower end of the upper clamping plates 224 and engaged with the corresponding upper clamping columns 222, when the upper clamping carrier is clamped and fastened, the upper clamping drive device 221 and the lower clamping plates 221 to drive the upper clamping plates to move up and down, and the upper clamping plates 222 to drive the upper clamping plates to move, so that the upper clamping plates 221 and the lower clamping plates 222 and the upper clamping plates do not move, and the upper clamping plates and the lower clamping plates do not damage to the upper clamping plates 213, thereby the upper clamping devices and the upper clamping devices.

Preferably, all be equipped with drilling groove 215 on lower clamping plate 212, lower floor's board 213, upper clamping plate 224 and the upper plate 225, the drilling groove 215 axle center of upper clamping plate 224, upper plate 225, lower clamping plate 212 and lower floor's board 213 is the same and from top to bottom sets gradually, all be equipped with the driving groove on clamping plate 212 and the lower floor's board 213 down, drilling equipment 1 can be convenient for through the drilling groove 215 that sets up carries out drilling operation to the carrier of fixing between lower floor's board 213 and upper plate 225, can make drive arrangement 4 when moving through the driving groove that sets up, hold the carrier in line and rotate ninety degrees to be convenient for drilling equipment 1 carries out whole drilling operation, the work efficiency of improvement to four angles of carrier.

Preferably, the positioning device 3 includes a positioning motor 31, a positioning gear 32, a positioning fluted disc 33, a positioning rail 34, a positioning rod 35, a positioning column 36 and a positioning plate 37, the interiors of the upper plate 225 and the upper clamping plate 224 are hollow structures, the positioning motor 31 is disposed on one side of a drilling groove 215 on the upper plate 225 and the upper clamping plate 224 and is disposed inside the upper plate 225 and the upper clamping plate 224, the positioning gear 32 is disposed on an output end of the positioning motor 31, the positioning fluted disc 33 is disposed inside the upper plate 225 and the upper clamping plate 224, a lower end of the positioning fluted disc 33 is rotatably connected with the interiors of the upper plate 225 and the upper clamping plate 224, the positioning rail 34 is provided with a plurality of positioning rails 34, the positioning rails 34 are all arranged around the lower portion of the positioning fluted disc 33, the positioning column 36 is provided with a plurality of positioning columns 36, the positioning columns 36 are correspondingly disposed in the positioning rail 34 and are in sliding fit with the positioning rail 34, the positioning rods 35 are provided with a plurality of positioning rods 35, one ends of the positioning rods 35 are arranged at the upper end of the positioning fluted disc 33 in a surrounding manner, the other ends of the positioning rods 35 are correspondingly connected to the positioning columns 36, the positioning plates 37 are provided with a plurality of positioning plates 37, the positioning plates 37 are correspondingly arranged at one ends of the positioning columns 36 and are positioned at the inner sides of the positioning fluted disc 33, when a carrier is drilled, the carrier is firstly required to be placed on the driving device 4 and the lower clamping plate 212, one corner of the carrier required to be drilled corresponds to the axis of the drilling groove 215, then the positioning motor 31 operates to drive the positioning gear 32 on the output end of the positioning motor 31 to rotate, the positioning gear 32 rotates to drive the positioning fluted disc 33 to rotate, the positioning fluted disc 33 rotates to drive the positioning rods 35 to rotate, and the positioning columns 36 are driven by the positioning rods 35 to move outwards or outwards on the positioning rails 34, thereby drive locating plate 37 outwards or outside motion to make the carrier before the drilling operation, adjust suitable state with the size of required carrier drilling, rethread drilling equipment 1 carries out the drilling operation to the carrier, has improved the drilling operation effect of carrier, also can be accurate carry out the drilling operation to the carrier, can not cause the drilling skew when carrying the drilling operation.

Preferably, the lifting assembly 41 includes a lifting base 411, a lifting motor 412, a first bevel gear 413, a second bevel gear 414, a lifting screw 415, a lifting column 416, a lifting frame 417, a lifting sleeve 418, a lifting disk 419, and a lifting block 491, the lifting base 411 is disposed inside the support platform 11, the lifting motor 412 is disposed on the lifting base 411, the first bevel gear 413 is disposed on an output end of the lifting motor 412, the lifting column 416 is disposed on an upper end of the lifting base 411, the lifting frame 417 is disposed on the lifting column 416, the lifting sleeve 418 is disposed inside the lifting frame 417 and slidably engaged with the lifting frame 417, the lifting screw 415 is disposed inside the lifting sleeve 418 and threadedly connected with the lifting sleeve 418, the lifting screw 415 passes through the lifting column 416, the second bevel gear 414 is disposed on an end of the lifting screw 415 and engaged with the first bevel gear 413, the second bevel gear 414 is rotatably connected with a lower end of the lifting base 411, the lifting block 491 is disposed on an upper end of the lifting sleeve 418 and rotatably connected with the lifting sleeve 418, the lifting sleeve 415 and rotatably drives the lifting block 419 to rotate the lifting sleeve 418 to rotate the lifting support via the lifting screw, when the lifting block 418 rotates the lifting support column 418 to rotate the lifting support, the lifting support 213, the lifting support 413, the lifting support 420, the lifting support is rotated to rotate, the lifting support column 418, the lifting support 414, the lifting support is rotated by the lifting sleeve 413, the lifting support 414, the lifting support 413, the lifting support column 418, the lifting support 414, the lifting support 420, the lifting support column 418, the lifting support 420, the lifting support is rotated to rotate, the lifting support column 420, the carrier on the lifting disc 419 is rotated by ninety degrees through the operation of the rotating assembly 42, so that the other corner of the carrier, which needs to be drilled, corresponds to the axis of the drilling groove 215, at this time, the carrier on the lifting disc 419 is moved to the position that the lifting disc 419 and the next layer plate are at the same horizontal height, the carrier is clamped through the clamping device 2, so that the drilling operation is performed on the other corner of the carrier through the drilling device 1, and after the drilling operation of one corner of the carrier is completed, the drilling operation can be performed on the four corners of the carrier through repeated circulation, so that the drilling operation on the carrier is realized.

Preferably, the rotating assembly 42 includes a rotating motor 421, a first rotating wheel 422, a second rotating wheel 423, a transmission belt 424 and a telescopic rod 425, the rotating motor 421 is disposed inside the lifting seat 411, the first rotating wheel 422 is disposed at an output end of the rotating motor 421, the second rotating wheel 423 is sleeved on the lifting column 416 and is rotatably connected with the lifting column 416, the transmission belt 424 is sleeved on the first rotating wheel 422 and the second rotating wheel 423, the telescopic rod 425 is provided with two telescopic rods 425, the two telescopic rods 425 are symmetrically disposed at an upper end of the second rotating wheel 423, one end of the two telescopic rods 425 is connected to a lower end of the lifting disc 419, the lifting disc 419 can be lifted through the set telescopic rod 425, when the carrier rotates ninety degrees, the first rotating wheel 422 on the output end of the rotating motor 421 is driven to rotate through the rotating motor 421, the second rotating wheel 423 is driven to rotate through the transmission belt 424, the second rotating wheel 423 drives the telescopic rod 425 to rotate, the telescopic rod 425 rotates to drive the lifting disc 419 to rotate, and thereby driving the carrier on the lifting disc 419 to rotate ninety degrees.

Preferably, the lifting disc 419 and the lower plate 213 are at the same horizontal height, when the carrier is placed on the lower plate 213 and the lifting disc 419, the lifting disc 419 and the lower plate 213 are at the same horizontal height, and simultaneously, in the operation process of the clamping device 2, the lifting assembly 41 synchronously operates, so that the lifting disc 419 and the lower plate 213 are always at the same horizontal height, thereby facilitating the drilling operation of the carrier.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. The carrier processing device of the mobile phone vibration motor comprises a drilling device (1) and is characterized by further comprising a supporting platform (11), a clamping device (2), a positioning device (3) and a driving device (4), wherein the drilling device (1) is arranged at the upper end of the clamping device (2), the clamping device (2) is arranged on the supporting platform (11), the clamping device (2) comprises an upper clamping component (22) and a lower clamping component (21), the upper clamping component (22) is positioned above the lower clamping component (21), the positioning device (3) is arranged inside the upper clamping component (22), the driving device (4) is arranged inside the supporting platform (11), the driving device (4) comprises a lifting component (41) and a rotating component (42), the lifting component (41) is arranged on the rotating component (42), the lower clamping component (21) comprises a clamping hydraulic cylinder (211), a lower clamping plate (212), a lower plate (213) and a lower rack (214), the supporting platform (11) is internally provided with a supporting structure, the two sliding grooves (11) are symmetrically arranged on the supporting platform (11), and two hydraulic cylinders (211) are symmetrically arranged on the supporting platform (11), the lower clamping plate (212) is arranged at the output end of the clamping hydraulic cylinder (211), two ends of the lower clamping plate (212) are positioned in the sliding groove (12) and are in sliding fit with the sliding groove (12), the lower layer plate (213) is fixedly arranged on the lower clamping plate (212), two lower racks (214) are arranged, two lower racks (214) are symmetrically arranged on the lower layer plate (213), the upper clamping assembly (22) comprises an upper fixing frame (221), two upper gears (222), two upper clamping columns (223), two upper clamping plates (224), an upper layer plate (225) and two upper racks (226), two sliding columns (13) are arranged on two sides of the supporting platform (11), the upper fixing frame (221) is provided with two upper gears (222), the two upper gears (222) are correspondingly arranged on the upper fixing frame (221) and are rotatably connected with the upper fixing frame (221), the two upper gears (222) are correspondingly arranged on the upper fixing frame (13), the upper gears (223) are correspondingly arranged on the upper fixing frame (13), the upper gears (222) are correspondingly arranged on the lower clamping columns (223), and are respectively matched with the plurality of the upper sliding columns (223), the utility model discloses a hollow structure, including upper clamping plate (224), upper plate (225), upper rack (226) are equipped with two, two upper rack (226) symmetry sets up the lower extreme and the meshing of last gear (222) that correspond at upper clamping plate (224), all be equipped with drilling groove (215) on lower clamping plate (212), lower floor's board (213), upper clamping plate (224) and upper plate (225), drilling groove (215) the axle center of upper clamping plate (224), upper plate (225), lower clamping plate (212) and lower floor's board (213) is the same and from top to bottom set gradually, all be equipped with the drive groove on lower clamping plate (212) and lower floor's board (213), positioner (3) are including positioning motor (31), location gear (32), location fluted disc (33), location track (34), locating lever (35), reference column (36) and locating plate (37), the inside of upper clamping plate (225) and upper clamping plate (224) is the hollow structure, positioning motor (31) sets up drilling groove (225) and upper clamping plate (215) and upper plate (224) set up the output of upper plate (224), upper plate (225) and upper plate (225) set up the output gear (224) and upper plate (225) and upper clamping plate (31) and upper plate (225) set up the output gear (225) and upper plate (225) and output gear (225) and upper plate (31) and upper plate (225) set up the upper clamping plate (225) and output gear (225) ) The inside and the inside rotation of the lower extreme of location fluted disc (33) and upper plate (225) and last clamp plate (224) are connected, location track (34) are equipped with a plurality of, a plurality of location track (34) all encircle to lay in the below of location fluted disc (33), reference column (36) are equipped with a plurality of, a plurality of the setting that reference column (36) all correspond just with location track (34) sliding fit in location track (34), locating lever (35) are equipped with a plurality of, a plurality of the one end of locating lever (35) is encircleed and is laid in the connection that the upper end of location fluted disc (33) and the other end all correspond and on reference column (36), locating plate (37) are equipped with a plurality of, a plurality of the setting that locating plate (37) all correspond is served and is located the inboard of location fluted disc (33) in the one of reference column (36).

2. The carrier processing device of a mobile phone vibration motor according to claim 1, wherein the lifting assembly (41) comprises a lifting base (411), a lifting motor (412), a first bevel gear (413), a second bevel gear (414), a lifting screw (415), a lifting column (416), a lifting frame (417), a lifting sleeve (418), a lifting disk (419) and a lifting block (491), the lifting base (411) is disposed inside the supporting platform (11), the lifting motor (412) is disposed on the lifting base (411), the first bevel gear (413) is disposed on an output end of the lifting motor (412), the lifting column (416) is disposed at an upper end of the lifting base (411), the lifting frame (417) is disposed on the lifting column (416), the lifting sleeve (418) is disposed inside the lifting frame (417) and is in sliding fit with the lifting frame (417), the lifting screw (415) is disposed inside the lifting sleeve (418) and is in threaded connection with the lifting sleeve (418), the lifting screw (415) passes through the second bevel gear (415) and is engaged with the lifting screw (414), and the lifting screw (414) is engaged with the second bevel gear (414), the lifting block (491) is arranged at the upper end of the lifting sleeve (418) and is rotationally connected with the lifting sleeve (418), and the lifting disc (419) is arranged on the lifting block (491).

3. The carrier processing device of a mobile phone vibration motor as claimed in claim 2, wherein the rotating assembly (42) comprises a rotating motor (421), a first rotating wheel (422), a second rotating wheel (423), a transmission belt (424) and a telescopic rod (425), the rotating motor (421) is disposed inside the lifting seat (411), the first rotating wheel (422) is disposed at an output end of the rotating motor (421), the second rotating wheel (423) is sleeved on the lifting column (416) and rotatably connected with the lifting column (416), the transmission belt (424) is sleeved on the first rotating wheel (422) and the second rotating wheel (423), the telescopic rod (425) is provided with two telescopic rods (425) symmetrically disposed at an upper end of the second rotating wheel (423), and one end of each telescopic rod (425) is connected to a lower end of the lifting disc (419).

4. The carrier processing device for mobile phone vibration motor as claimed in claim 3, wherein said lifting plate (419) is at the same level with the lower plate (213).