CN109663711B

CN109663711B - Automatic gluing device for motor magnetic frame, gluing method of automatic gluing device and motor assembling equipment

Info

Publication number: CN109663711B
Application number: CN201910066492.7A
Authority: CN
Inventors: 高鑫斌; 何国标
Original assignee: Wenling Sainthood Electric Co ltd
Current assignee: Wenling sainthood Electric Co.,Ltd.
Priority date: 2019-01-24
Filing date: 2019-01-24
Publication date: 2020-06-26
Anticipated expiration: 2039-01-24
Also published as: CN109663711A

Abstract

The invention relates to the technical field of electromagnetism, in particular to an automatic gluing device for a motor magnetic frame, a gluing method of the automatic gluing device and motor assembling equipment. An automatic gluing device for a motor magnetic frame comprises a magnetic frame positioning module and a gluing module, wherein the magnetic frame positioning module comprises a magnetic frame positioning support, a magnetic frame positioning rotating rod, a magnetic frame positioning rotating frame, a magnetic frame positioning motor, a magnetic frame positioning seat, a magnetic frame positioning cylinder and a magnetic frame positioning connecting rod; the magnetic frame positioning rotating frame is hinged with the magnetic frame positioning bracket through a magnetic frame positioning rotating rod; the magnetic frame positioning motor is fixedly arranged on the magnetic frame positioning rotating frame and is connected with the magnetic frame positioning seat; the magnetic frame positioning cylinder is arranged on the magnetic frame positioning support and is connected with the magnetic frame positioning connecting rod, and the magnetic frame positioning connecting rod is hinged with the magnetic frame positioning rotating frame. According to the invention, the magnetic frame is automatically glued through the matching of the magnetic frame positioning module and the gluing module; the glue is convenient to glue and is uniform; the structure is simple and convenient, and the redundant positioning equipment and labor cost are reduced.

Description

Automatic gluing device for motor magnetic frame, gluing method of automatic gluing device and motor assembling equipment

Technical Field

The invention relates to the technical field of electromagnetism, in particular to an automatic gluing device for a motor magnetic frame, a gluing method of the automatic gluing device and motor assembling equipment.

Background

In modern industrial manufacturing, many complex machines are manually assembled, including mobile phones and computers in the electronic industry, and also including automobile manufacturing and other household appliances. In the industrial manufacturing, a plurality of small assembling links are required to be combined together, particularly, the magnetic frame and the magnetic strip are assembled together by manually gluing the inner ring of the magnetic frame, manually winding the magnetic strip into a ring shape, and then assembling the magnetic frame and the magnetic strip together, so that the phenomenon of infirm assembly or assembly dislocation is very easy to occur in the manual assembling process, the effects of the aspects of appearance uniformity, consistency, accuracy and the like after manual assembly are not good, the quality of the assembled product is difficult to ensure, the technical requirements on the assembly of workers are very high, and the labor cost is also very high. And a few manufacturers also assemble the magnetic strip through automatic equipment, but the magnetic strip is only pressed into the magnetic ring after the magnetic frame is coated with glue through a simple assembly mode, so that the assembly process is too simple, and the precision and the quality are far from enough. The manufacturer also conveys the assembled finished product to a magnetizing position for magnetizing through manpower or equipment, so that the labor cost and the equipment cost are high. Moreover, the existing assembly equipment is not stable enough, is easy to be affected in transportation and has low whole assembly efficiency.

Disclosure of Invention

The purpose of the invention is: aiming at the defects in the prior art, the automatic gluing device for the magnetic frame of the motor, the gluing method and the assembling equipment thereof are provided, wherein the automatic gluing device for the magnetic frame, the gluing of the inner ring of the magnetic frame are convenient, the gluing is uniform, the assembling is stable, and the assembling efficiency and the assembling quality are improved.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose:

an automatic gluing device for a motor magnetic frame comprises a magnetic frame positioning module and a gluing module, wherein the magnetic frame positioning module is matched with the gluing module, the magnetic frame positioning module is used for positioning the magnetic frame to a position to be glued, and the gluing module is used for gluing an inner ring of the magnetic frame; the magnetic frame positioning module comprises a magnetic frame positioning bracket, a magnetic frame positioning rotating rod, a magnetic frame positioning rotating frame, a magnetic frame positioning motor, a magnetic frame positioning seat, a magnetic frame positioning cylinder and a magnetic frame positioning connecting rod; the bottom of the rear end of the magnetic frame positioning rotating frame is hinged with the upper part of the magnetic frame positioning bracket through a magnetic frame positioning rotating rod; the magnetic frame positioning motor is fixedly arranged on the bottom surface of the top of the magnetic frame positioning rotating frame, and a rotating shaft of the magnetic frame positioning motor penetrates through the top of the magnetic frame positioning rotating frame and is fixedly connected with the bottom of the magnetic frame positioning seat; the magnetic frame positioning cylinder is arranged at the lower part of the magnetic frame positioning bracket through a magnetic frame positioning cylinder seat, the moving part of the magnetic frame positioning cylinder is fixedly connected with the lower end of the magnetic frame positioning connecting rod, and the upper end of the magnetic frame positioning connecting rod is hinged with the front end of the top of the magnetic frame positioning rotating frame; the magnetic frame positioning cylinder can drive the magnetic frame positioning rotating frame to rotate.

Preferably, the gluing module comprises a gluing bracket, a gluing moving plate, a gluing cylinder and a rubber tube; the gluing device comprises a magnetic frame positioning bracket, a gluing cylinder, a gluing moving plate, a gluing cylinder and a gluing cylinder, wherein the gluing bracket is positioned in front of the magnetic frame positioning bracket, the gluing bracket is provided with two gluing guide rods, the gluing moving plate is arranged on the gluing guide rods, the fixed part of the gluing cylinder is arranged on the gluing bracket through a gluing cylinder fixing plate, the moving part of the gluing cylinder is fixedly connected with the bottom of the gluing moving plate, and the gluing cylinder can drive the gluing moving plate to slide on the gluing guide rods; the rubber tube is fixedly arranged on the gluing moving plate through a rubber tube fixing plate.

Preferably, a magnetic frame positioning baffle is arranged at the lower part of the magnetic frame positioning seat.

Preferably, a magnetic frame positioner matched with the magnetic frame positioning baffle is arranged at one side of the magnetic frame positioning baffle at the top of the magnetic frame positioning rotating frame.

Preferably, two magnetic frame fixing blocks for fixing the magnetic frame are arranged at the top of the magnetic frame positioning seat.

Preferably, the magnetic frame positioning cylinder is obliquely arranged on the magnetic frame positioning cylinder seat.

Preferably, the magnetic frame positioning connecting rod is V-shaped, and an included angle between two root rods of the magnetic frame positioning connecting rod is an obtuse angle.

A gluing method of an automatic gluing device for a motor magnetic frame comprises the steps that a magnetic frame is conveyed to a magnetic frame positioning seat through a magnetic frame conveying module, the front end and the rear end of the magnetic frame are limited by the magnetic frame through a magnetic frame fixing block, a magnetic frame positioning connecting rod is driven by a magnetic frame positioning cylinder to enable a magnetic frame positioning rotating frame to rotate downwards and enable the magnetic frame to incline; the rubber tube is moved downwards to the inner ring of the magnetic frame through the gluing cylinder, the magnetic frame positioning base is driven to rotate through the rotation of the magnetic frame positioning motor, so that the whole inner ring of the magnetic frame is uniformly coated with glue, after the gluing is finished, the rubber tube is lifted, and the magnetic frame positioning rotating frame is rotated upwards to return to the original position.

The equipment comprises a rack, a magnetic frame feeding and conveying device, a magnetic frame conveying device, a rotating disc device, a magnetic strip winding assembly device, a magnetizing device and a motor magnetic frame automatic gluing device, wherein the motor magnetic frame automatic gluing device is as described in any one of the above.

Preferably, the magnetic strip winding assembly device comprises a magnetic strip feeding module, a magnetic strip pushing module, a magnetic strip winding assembly module and a dust removal and reinforcement module; the magnetic strip pushing module is positioned at the discharge end of the magnetic strip feeding module, the magnetic strip feeding module is used for conveying and feeding magnetic strips, the magnetic strip pushing module is used for pushing the magnetic strips into the magnetic strip winding assembly module, the feed end of the magnetic strip winding assembly module is connected with the magnetic strip pushing module, and the magnetic strip winding assembly module is used for assembling magnetic strip windings; the dust removal reinforcing module is positioned above the magnetic strip winding assembly module and is used for removing dust and reinforcing the assembled finished product.

Compared with the prior art, the invention has the beneficial effects that:

(1) the magnetic frame is automatically glued through the matching of the magnetic frame positioning module and the gluing module;

(2) the glue is convenient to glue and is uniform;

(3) the structure is simple and convenient, and the redundant positioning equipment and labor cost are reduced.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of a magnetic frame feeding module.

Fig. 3 is a schematic structural diagram of the magnetic frame conveying module.

Fig. 4 is a schematic structural diagram of an automatic gluing device for a motor magnetic frame.

FIG. 5 is a schematic structural diagram of a magnetic frame transfer device.

Fig. 6 is a schematic configuration diagram of a rotary disk apparatus.

Fig. 7 is a schematic structural diagram of a magnetic stripe winding assembly device.

Fig. 8 is a schematic structural diagram of a magnetic stripe winding assembly module.

Fig. 9 is a schematic structural diagram of the magnetizing apparatus.

Detailed Description

In order to make the invention more comprehensible, the following detailed description is given with reference to the accompanying drawings.

As shown in figure 1, the motor magnetic frame and magnetic stripe assembling equipment comprises a rack 1, a magnetic frame feeding and conveying device 2, a motor magnetic frame automatic gluing device 3, a magnetic frame conveying device 4, a rotating disc device 5, a magnetic stripe winding assembling device 6 and a magnetizing device 7. Magnetic frame feeding conveyor 2 sets up in the frame, and magnetic frame feeding conveyor 2 includes magnetic frame feeding module and magnetic frame transport module, and the discharge end of magnetic frame feeding module links up with the feed end of magnetic frame transport module mutually. The magnetic frame feeding module is used for feeding the magnetic frame, and the magnetic frame conveying module is used for conveying the magnetic frame to the automatic gluing device of the motor magnetic frame. The automatic gluing device 3 for the motor magnetic frame comprises a magnetic frame positioning module and a gluing module, wherein the magnetic frame positioning module and the gluing module are respectively arranged on the frame 1, the magnetic frame positioning module is matched with the gluing module, the magnetic frame positioning module is used for positioning the magnetic frame to a position to be glued, and the gluing module is used for gluing an inner ring of the magnetic frame. The rotating disk device 5 is provided with four stations, and the four stations include a first station 501, a second station 502, a third station 503 and a fourth station 504. The magnetic frame conveying device 4 is arranged on the rack 1 and located on the outer side of the first station 501, the magnetic frame conveying module conveys the magnetic frame coated with glue to the magnetic frame conveying device 4, the magnetic frame conveying device 4 is used for conveying the magnetic frame to the first station 501 in the rotary disc device 5, the magnetic strip winding assembling device 6 is arranged on the rack 1 and located on the outer side of the second station 502, and the magnetic strip winding assembling device 6 is used for assembling the magnetic frame and the magnetic strip. The magnetizing device 7 is arranged on the frame 1 and located outside the third station 503, and the magnetizing device 7 is used for magnetizing the assembled finished product. A discharge channel is arranged on the frame 1 below the fourth station 504.

As shown in fig. 1, 2 and 3, the magnetic frame feeding module is used for conveying and feeding the magnetic frame, and includes a feeding bracket 211, a feeding connector plate 212, a magnetic frame feeding vibration plate, a magnetic frame stage 213, a feeding moving bracket 214 and a feeding cylinder 215. The feeding brackets 211 are respectively fixedly arranged on the machine frame 1. The feed engaging plates 212 are provided on the feed support 211, and a feed limit stopper 2121 and a feed limit stopper 2122 are provided on the top of the feed engaging plates 212. The discharge end of the magnetic frame feeding vibration disc is connected with the feeding end of the feeding connection plate 212. The feeding end of the magnetic frame object stage 213 is connected with the discharging end of the feeding connection plate 212, and a first feeding limiting block 2131 and a second feeding limiting block 2132 are arranged on the magnetic frame object stage 213. The top of the feeding moving frame 214 is fixedly connected to the bottom of the magnetic frame stage 213, and the lower portion of the feeding moving frame 214 is slidably connected to the feeding bracket 211 by a feeding guide rod 2141. The fixed part of the feeding cylinder 215 is fixedly arranged on the feeding bracket 211, and the moving part of the feeding cylinder 215 is connected with the bottom surface of the top of the feeding moving frame 214. The magnetic frame conveying module comprises a magnetic frame conveying bracket 221, a magnetic frame conveying cylinder 222, a magnetic frame conveying slide rail 223, a magnetic frame conveying U-shaped connecting plate 224, a magnetic frame conveying finger cylinder 225 and a magnetic frame conveying lifting cylinder 226. Magnetic frame transport support 221 sets up on frame 1, and magnetic frame transport cylinder 222 sets up on magnetic frame transport support 221, and magnetic frame carries slide rail 223 to carry fixed plate 2231 and magnetic frame transport cylinder 222 fixed connection through magnetic frame, and magnetic frame carries slide rail 223 to be two, and a magnetic frame carries slide rail 223 to set up at the feeding end portion that magnetic frame carried fixed plate 2231, and another magnetic frame carries slide rail 223 to set up at the ejection of compact tip that magnetic frame carried fixed plate 2231. The fixed part of the magnetic frame conveying lifting cylinder 226 is arranged in the middle of the magnetic frame conveying fixed plate 2231 through a lifting cylinder connecting plate 2261, and the moving part of the magnetic frame conveying lifting cylinder 226 is fixedly connected with the middle of the magnetic frame conveying U-shaped connecting plate 224. U type connecting plate 224 is carried through two magnetism frame and is carried slide rail 223 and magnetism frame and carry fixed plate 2231 sliding connection to magnetism frame, and the both sides that U type connecting plate 224 is carried to magnetism frame are all carried finger cylinder connecting block 2251 and magnetism frame through magnetism frame and are carried finger cylinder 225 fixed connection, and magnetism frame is carried and is provided with first magnetism frame on the finger cylinder 225 and carry clamping jaw 2252 and second magnetism frame and carry clamping jaw 2253.

When the automatic gluing device works, the magnetic frame is conveyed and fed by the magnetic frame feeding vibration disc and conveyed to the feeding connection plate 212, the feeding limit baffle 2121 and the feeding limit block 2122 enter the magnetic frame object stage 213 through the feeding limit block 2131 and the second feeding limit block 2132 to fix and limit the front end and the rear end of the magnetic frame, the feeding cylinder 215 lifts the magnetic frame object stage 213 to enable the magnetic frame to be located between the first magnetic frame conveying clamping jaw 2252 and the second magnetic frame conveying clamping jaw 2253, the first magnetic frame conveying clamping jaw 2252 and the second magnetic frame conveying clamping jaw 2253 clamp the left end and the right end of the magnetic frame through the magnetic frame conveying finger cylinder 225, the magnetic frame is lifted up by the magnetic frame object stage 213 through the magnetic frame conveying lifting cylinder 226 and is taken down, and the magnetic frame is conveyed into the motor magnetic frame automatic gluing device 3 through the magnetic frame conveying cylinder 222 to move rightwards.

The device can solve the problem that the magnetic frame is unstable when being conveyed and easily blocks up a conveying channel, and is limited by the first feeding limiting block 2131 and the second feeding limiting block 2132, and can enable the magnetic frame object stage 213 to move up and down through the feeding air cylinder 215, so that the stable conveying of the magnetic frame can be prevented from being blocked or blocked, and the conveying efficiency can be improved by arranging two magnetic frame conveying finger air cylinders 225.

As shown in fig. 1 and 4, the automatic gluing device 3 for the motor magnetic frame comprises a magnetic frame positioning module and a gluing module, wherein the magnetic frame positioning module comprises a magnetic frame positioning support 311, a magnetic frame positioning rotating rod 312, a magnetic frame positioning rotating frame 313, a magnetic frame positioning motor 314, a magnetic frame positioning seat 315, a magnetic frame positioning cylinder 316 and a magnetic frame positioning connecting rod 317. The magnetic frame positioning bracket 311 is arranged on the machine frame 1, and the bottom of the rear end of the magnetic frame positioning rotating frame 313 is hinged with the upper part of the magnetic frame positioning bracket 311 through a magnetic frame positioning rotating rod 312. The magnetic frame positioning motor 314 is fixed on the bottom surface of the top of the magnetic frame positioning rotating frame 313, and the rotating shaft of the magnetic frame positioning motor 314 passes through the top of the magnetic frame positioning rotating frame 313 and is fixedly connected with the bottom of the magnetic frame positioning seat 315. A magnetic frame positioning baffle 3151 is arranged at the lower part of the magnetic frame positioning seat 315, a magnetic frame positioner 3152 matched with the magnetic frame positioning baffle 3151 is arranged at one side of the magnetic frame positioning baffle 3151 at the top of the magnetic frame positioning rotating frame 313, and two magnetic frame fixing blocks 3153 for fixing the magnetic frame are arranged at the top of the magnetic frame positioning seat 315. The magnetic frame positioning cylinder 316 is arranged at the lower part of the magnetic frame positioning support 311 through a magnetic frame positioning cylinder seat 3161, the magnetic frame positioning cylinder 316 is obliquely arranged on the magnetic frame positioning cylinder seat 3161, the moving part of the magnetic frame positioning cylinder 316 is fixedly connected with the lower end of the magnetic frame positioning connecting rod 317, and the upper end of the magnetic frame positioning connecting rod 317 is hinged with the front end of the top of the magnetic frame positioning rotating frame 313. The frame positioning cylinder 316 can drive the frame positioning rotating frame 313 to rotate. The gluing module comprises a gluing bracket 321, a gluing moving plate 322, a gluing cylinder 323 and a rubber tube 324. The gluing bracket 321 is arranged on the frame 1 and in front of the magnetic frame positioning bracket 311, the gluing bracket 321 is provided with two gluing guide rods 3211, the gluing moving plate 322 is arranged on the gluing guide rods 3211, the fixing part of the gluing cylinder 323 is arranged on the gluing bracket 321 through a gluing cylinder fixing plate 3231, the moving part of the gluing cylinder 323 is fixedly connected with the bottom of the gluing moving plate 322, and the gluing cylinder 321 can drive the gluing moving plate 322 to slide on the gluing guide rods 3211. The rubber tube 324 is fixedly arranged on the gluing moving plate 322 through a rubber tube fixing plate 3241.

During operation, the magnetic frame is conveyed to the magnetic frame positioning seat 315 through the magnetic frame conveying module, the front end and the rear end of the magnetic frame are limited through the magnetic frame fixing block 3153, the magnetic frame positioning connecting rod 317 is driven by the magnetic frame positioning cylinder 316 to enable the magnetic frame positioning rotating frame 313 to rotate downwards, and the magnetic frame is inclined. The rubber tube 324 is moved downwards to the inner ring of the magnetic frame through the gluing cylinder 323, the magnetic frame positioning motor 314 rotates to drive the magnetic frame positioning seat 315 to uniformly coat the glue on the whole inner ring of the magnetic frame, after the gluing is finished, the rubber tube 324 is lifted, the magnetic frame positioning rotating frame 313 rotates upwards to return to the original position, and the magnetic frame is conveyed to the magnetic frame conveying device 4 through the magnetic frame conveying finger cylinder 225 at the discharge end to be conveyed.

The device can solve the problems that the inner ring of the manual magnetic frame is inconvenient to glue, the inner ring of the magnetic ring is not uniform to glue and a gluing positioning mechanism is too complex. The magnetic frame positioning cylinder 316 can drive the magnetic frame positioning rotating frame 313 to rotate, so that the magnetic frame can be conveniently inclined, the rubber tube needle head on the rubber tube 324 can be better matched with the magnetic frame to uniformly glue, the cost of an excessive positioning mechanism is reduced, and the gluing quality and the gluing efficiency are improved.

As shown in fig. 1 and 5, the magnetic frame conveying apparatus 4 includes a conveying bracket 41, a conveying motor 42, a conveying driving gear 43, a conveying driven gear 44, a conveying driving roller 45, a conveying driven roller 46, and a conveying belt 47. The conveying bracket 41 is arranged on the rack 1, a conveying limit plate 411 is arranged on the conveying bracket 41, and a conveying sensor 412 is arranged on the conveying limit plate 411. The discharge end of the conveying bracket 41 is also provided with a conveying discharge baffle. The conveying motor 42 is arranged at the rear part of the feeding end of the conveying support 41, the conveying driving gear 43 is connected with the rotating shaft of the conveying motor 42, the conveying driven gear 44 is meshed with the conveying driving gear 43, the conveying driving roller 45 is arranged at the feeding end part of the conveying support 41, the conveying driving roller 45 is connected with the conveying driven gear 44, the conveying driven roller 46 is arranged at the discharging end part of the conveying support 41, and the conveying driven roller 46 is connected with the conveying driving roller 45 in a tensioning mode through the conveying belt 47.

During operation, carry finger cylinder 225 through the magnetic frame of discharge end to carry the magnetic frame to the conveyer belt 47 of conveying support 41 feed end on, it is rotatory to drive conveying driving gear 43 through conveying motor 42, conveying driving gear 43 is rotatory to drive conveying driven gear 44 rotatory, conveying driven gear 44 is rotatory to drive conveying driving roller 45 rotatory, conveying driving roller 45 and conveying driven roller 46 cooperate and drive conveyer belt 47 and carry, make the magnetic frame carry to the discharge end of conveyer belt 47 by the feed end of conveyer belt 47.

The device can solve the problems of instability during magnetic frame conveying and frequent blockage or dislocation during magnetic frame conveying. The magnetic frame can be stably conveyed to the rotating disc device 5 by the conveyor belt 47, and the conveying discharge baffle, the conveying limit plate 411 and the conveying sensor 412 are arranged on the conveying support 41, so that the problem that the magnetic frame is frequently blocked or misplaced during conveying can be effectively prevented.

As shown in fig. 1 and 6, the rotary disk device 5 includes a rotary disk support 51, a rotary disk moving frame 52, a rotary disk lifting cylinder 53, a rotary cylinder 54, a cross dial 55, and a rotary disk finger cylinder 56. The rotating disc support 51 is fixedly arranged at the bottom of the machine frame 1, the rotating disc moving frame 52 is arranged on the rotating disc support 51, the rotating disc moving frame 52 can move on the rotating disc support 51 through a rotating disc moving guide rod 521, the moving part of the rotating disc lifting cylinder 53 is arranged on the bottom surface of the top of the rotating disc moving frame 52 through a rotating disc lifting cylinder connecting block 531, the rotating cylinder 54 is fixedly arranged on the top surface of the rotating disc moving frame 52, the cross-shaped rotating disc 55 is arranged on the rotating cylinder 54 through a connecting rotary drum 551, four stations are respectively arranged on the bottom of the outer ring of the cross-shaped rotating disc 55, the bottom of each station is fixedly connected with the rotating disc finger cylinder 56, and each rotating disc finger cylinder 56 is connected with a first rotating disc clamping.

When the magnetic frame clamping device works, the magnetic frame conveyed from the magnetic frame conveying device 4 is clamped by the first rotary disc clamping jaw 561 and the second rotary disc clamping jaw 562 on the rotary disc finger cylinder 56, the cross-shaped rotary disc 55 is driven to ascend by the rotary disc lifting cylinder 53, the cross-shaped rotary disc 55 drives the rotary disc finger cylinder 56 to ascend, the cross-shaped rotary disc 55 is driven by the rotary cylinder 54 to rotate clockwise, the magnetic frame is fed from the first station 501, moved to the second station 502 for assembly, moved to the third station 503 for magnetization, moved to the fourth station 504, and released by the first clamping jaw rotary disc 561 and the second rotary disc clamping jaw 562, so that the magnetic frame falls into the discharging channel for discharging.

The device can solve the problem that the magnetic frame can not be conveyed to a plurality of stations for respective processing and assembling. By providing four stations, different processes can be performed on the magnetic frame, respectively, and the magnetic frame can be rotationally moved in all directions by the rotating disk lifting cylinder 53 and the rotating cylinder 54.

As shown in fig. 1, 7 and 8, the magnetic stripe winding assembling device 6 includes a magnetic stripe feeding module, a magnetic stripe pushing module, a magnetic stripe winding assembling module and a dust removing and reinforcing module. The magnetic stripe pushes away the discharge end that the material module is located magnetic stripe feeding module, and magnetic stripe feeding module is used for carrying the feeding with the magnetic stripe, and the magnetic stripe pushes away the material module and is arranged in pushing the magnetic stripe winding equipment module, and the feed end and the magnetic stripe that the magnetic stripe winding equipment module pushed away the material module and link up mutually, and magnetic stripe winding equipment module is with the magnetic stripe winding and with magnetic stripe and magnetism frame equipment. The magnetic strip feeding module comprises a magnetic strip feeding channel 611, a magnetic strip feeding cylinder 612 and a magnetic strip feeding push block 613. The dust removal reinforcing module is located above the magnetic strip winding assembly module and used for removing dust and reinforcing assembled finished products. The magnetic stripe passageway 611 sets up in frame 1, and magnetic stripe feeding cylinder 612 passes through magnetic stripe feeding connecting plate 6121 to be fixed in frame 1, and magnetic stripe feeding ejector pad 613 and the removal portion fixed connection of magnetic stripe feeding cylinder 612, magnetic stripe ejector pad 613 set up on magnetic stripe feeding passageway 611, and magnetic stripe ejector pad 613 can move on magnetic stripe feeding passageway 611. The magnetic stripe pushing module comprises a magnetic stripe pushing base 621, a magnetic stripe pushing slide rail 622, a magnetic stripe pushing cylinder 623, a magnetic stripe pushing moving block 624 and a magnetic stripe pushing plate 625. The magnetic stripe pushes away the material base 621 setting in frame 1 and links up with the ejection of compact end of magnetic stripe passageway 611, the magnetic stripe pushes away the fixed part that the material cylinder 623 and pushes away material connecting plate 6231 through the magnetic stripe and fixes on the magnetic stripe pushes away material base 621, the magnetic stripe pushes away the removal portion that the material cylinder 623 and the magnetic stripe and pushes away material movable block 624 fixed connection, the magnetic stripe pushes away material movable block 624 and pushes away material base 621 sliding connection through the magnetic stripe material slide rail 622 and magnetic stripe, magnetic stripe push pedal 625 sets up on the magnetic stripe pushes away material movable block 624, magnetic stripe push pedal 625 is the zigzag shape, the rear end of magnetic stripe push. The magnetic strip winding assembly module comprises a magnetic strip winding fixing frame 631, a magnetic strip winding moving frame 632, a magnetic strip winding air cylinder 633, a magnetic strip winding push rod 634 and a magnetic strip winding seat 635. Magnetic stripe winding mount 631 sets up on the bottom surface of frame 1 and is located the outside of second station 502, and magnetic stripe winding removes frame 632 and sets up on magnetic stripe winding mount 631, and magnetic stripe winding removes frame 632 and can remove at magnetic stripe winding mount 631 through magnetic stripe winding guide 6321, and magnetic stripe winding cylinder 633 sets up the bottom surface at magnetic stripe winding removes frame 632 top through magnetic stripe winding connecting plate 6331, and magnetic stripe winding push rod 634 sets up the top surface that removes frame 632 at the magnetic stripe winding. The magnetic stripe is around circle seat 635 and is fixed the setting on frame 1 through magnetic stripe winding bottom plate 6351, and the magnetic stripe is provided with magnetic stripe winding groove 6352 around circle seat 635, and magnetic stripe winding push rod 634 can pass magnetic stripe winding bottom plate 6351 and enter into magnetic stripe winding groove 6352, and magnetic stripe winding seat 635 is provided with the magnetic stripe groove 6353 that is used for the magnetic stripe to enter, and magnetic stripe groove 6353 communicates with each other with magnetic stripe winding groove 6352, and the entry and the magnetic stripe push pedal 625 of magnetic stripe groove 6353 align the setting. The top of the magnetic strip coil seat 635 is further provided with a magnetic frame limit plate 6354 for limiting the magnetic frame. The dust removing and reinforcing module comprises a dust removing support 641, a dust removing air cylinder 642 and a dust removing and reinforcing joint 643, wherein the dust removing support 641 is arranged on the frame 1, the dust removing air cylinder 642 is arranged on the dust removing support 641, a moving part of the dust removing air cylinder 642 is fixedly connected with the dust removing and reinforcing joint 643 through the dust removing support 641, and the dust removing and reinforcing joint 643 is positioned right above the magnetic stripe winding seat 635. The dust removing reinforcement joint 643 is provided with a plurality of air holes.

In operation, the magnetic blocks are transported to the magnetic strip winding seat 635 by the rotating disk device 5, and are limited by the magnetic frame limiting plate 6354. The magnetic stripe drives the magnetic stripe feeding push block 613 to push the magnetic stripe to the discharging end of the magnetic stripe feeding channel 611 through the feeding cylinder 612. When the magnetic stripe is pushed to the gap between the discharge end of the magnetic stripe feeding channel 611 and the magnetic stripe pushing base 621, the magnetic stripe pushing cylinder 623 drives the magnetic stripe pushing plate 625 on the magnetic stripe pushing moving block 624 to be pushed leftwards, so that the magnetic stripe pushing plate 625 is connected with the right end of the magnetic stripe. Rise to magnetic stripe winding groove 6352 middle part with magnetic stripe winding push rod 634 through magnetic stripe winding cylinder 633, and enter into magnetic stripe winding groove 6352 through magnetic stripe groove 6353 with magnetic stripe winding push rod 634 and link up mutually, magnetic stripe push plate 625 and magnetic stripe groove 6353 phase-match, continuously push the magnetic stripe through magnetic stripe push plate 625, the magnetic stripe is twined around magnetic stripe winding push rod 634, push the magnetic stripe and twine when pushing, push the magnetic stripe completely, the magnetic stripe winding is accomplished the back, it makes the magnetic stripe winding push rod 634 rise to make the magnetic stripe of winding stick to the outer lane of magnetic block to through magnetic stripe winding cylinder 633, and consolidate the dust removal and solidify glue through dust removal joint 643, make magnetic stripe and magnetic block paste more firm.

The device can solve the problem that the magnetic stripe is manually wound and manually filled into the magnetic frame and the problem that the magnetic frame and the magnetic stripe are not firmly adhered. Push away the material module cooperation through magnetic stripe feeding module and magnetic stripe and carry the magnetic stripe to assemble on the magnetic stripe winding equipment module to consolidate through removing dust the reinforcement module and remove dust, can promote packaging efficiency, equipment quality and solve the problem that magnetism frame and magnetic stripe paste insecurely.

As shown in fig. 9, the magnetizing device 7 includes a magnetizing support 71, a magnetizing moving frame 72, a magnetizing cylinder 73, a magnetic sleeve 74 and a magnetizing cylinder 75, the magnetizing support 71 is disposed on the frame 1 and located outside the third station 503, the magnetizing moving frame 72 is disposed on the top of the magnetizing support 71 through a magnetizing guide 721, the magnetizing moving frame 72 can move on the magnetizing support 71 through the magnetizing guide 721, and a moving portion of the magnetizing cylinder 73 is fixedly connected to the bottom of the magnetizing moving frame 72 through a magnetizing connection plate 731. The magnetic sleeve 74 is disposed on the bottom surface of the magnetizing moving frame 72, and the magnetizing cylinder 75 is disposed on the machine frame 1 and directly below the magnetic sleeve 74.

When the magnetic sleeve magnetizing device works, an assembled finished product is sleeved on the magnetizing cylinder 75 through the rotating disc device 5, the magnetic sleeve 74 descends through the magnetizing cylinder 73, the magnetic sleeve 74 is sleeved on the assembled finished product, and the finished product is magnetized through the matching of the magnetizing cylinder 75 and the magnetic sleeve 74.

The device can solve the problem that the finished product cannot be directly magnetized. And magnetizing the finished product through the cooperation of the magnetizing cylinder 75 and the magnetic sleeve 74. Finished products do not need to be collected uniformly and conveyed to a magnetizing position for magnetizing, and labor and equipment transportation and finished products of the labor and the equipment are reduced.

When the whole equipment works, the magnetic frame is conveyed and fed through the magnetic frame feeding module in the magnetic frame feeding and conveying device 2, the magnetic frame is conveyed to the automatic gluing device 3 of the magnetic frame of the motor through the magnetic frame conveying module, the magnetic frame is uniformly glued through the matching of the magnetic frame positioning module and the gluing module, the magnetic frame is conveyed to the magnetic frame conveying device 4 to be conveyed to the rotary disc device 5 through the magnetic frame conveying module after the gluing is finished, the rotary disc device 5 is lifted and rotated to the second station 502, and the magnetic frame is assembled through the magnetic strip winding assembling device 6. The rotating disc device 5 rotates to the third station 503 through lifting, and finished products are magnetized through the magnetizing device 7. The rotating disc device 5 rotates to the fourth station 504 through lifting, and the finished product is discharged through the discharging channel.

To sum up, this equipment passes through magnetism frame feeding conveyor 2, can stably carry, promotes conveying efficiency. The magnetic frame is automatically glued through the matching of the magnetic frame positioning module and the gluing module. And automatically winding the magnetic strip by a magnetic strip winding assembly 6 device and automatically assembling the magnetic strip into the magnetic frame. The finished product is directly magnetized through the magnetizing device 7, and the assembling efficiency and the assembling quality are improved.

Claims

1. The automatic assembling equipment for the motor magnetic frame and the magnetic stripe is characterized by comprising a rack (1), a magnetic frame feeding and conveying device (2), a magnetic frame conveying device (4), a rotating disc device (5), a magnetic stripe winding assembling device (6), a magnetizing device (7) and an automatic motor magnetic frame gluing device;

the automatic gluing device for the motor magnetic frame comprises a magnetic frame positioning module and a gluing module, wherein the magnetic frame positioning module is matched with the gluing module, the magnetic frame positioning module is used for positioning the magnetic frame to a position to be glued, and the gluing module is used for gluing an inner ring of the magnetic frame; the magnetic frame positioning module comprises a magnetic frame positioning bracket (311), a magnetic frame positioning rotating rod (312), a magnetic frame positioning rotating frame (313), a magnetic frame positioning motor (314), a magnetic frame positioning seat (315), a magnetic frame positioning cylinder (316) and a magnetic frame positioning connecting rod (317); the bottom of the rear end of the magnetic frame positioning rotating frame (313) is hinged with the upper part of the magnetic frame positioning bracket (311) through a magnetic frame positioning rotating rod (312); the magnetic frame positioning motor (314) is fixedly arranged on the bottom surface of the top of the magnetic frame positioning rotating frame (313), and a rotating shaft of the magnetic frame positioning motor (314) penetrates through the top of the magnetic frame positioning rotating frame (313) to be fixedly connected with the bottom of the magnetic frame positioning seat (315); the magnetic frame positioning cylinder (316) is arranged at the lower part of the magnetic frame positioning support (311) through a magnetic frame positioning cylinder seat (3161), the moving part of the magnetic frame positioning cylinder (316) is fixedly connected with the lower end of a magnetic frame positioning connecting rod (317), and the upper end of the magnetic frame positioning connecting rod (317) is hinged with the front end of the top of the magnetic frame positioning rotating frame (313); the magnetic frame positioning cylinder (316) can drive the magnetic frame positioning rotating frame (313) to rotate; the top of the magnetic frame positioning seat (315) is provided with two magnetic frame fixing blocks (3153) for fixing the magnetic frame;

the gluing module comprises a gluing bracket (321), a gluing moving plate (322), a gluing cylinder (323) and a rubber tube (324); the magnetic frame positioning device is characterized in that the gluing support (321) is positioned in front of the magnetic frame positioning support (311), two gluing guide rods (3211) are arranged on the gluing support (321), the gluing moving plate (322) is arranged on the gluing guide rods (3211), the fixing part of the gluing cylinder (323) is arranged on the gluing support (321) through a gluing cylinder fixing plate (3231), the moving part of the gluing cylinder (323) is fixedly connected with the bottom of the gluing moving plate (322), and the gluing cylinder (321) can drive the gluing moving plate (322) to slide on the gluing guide rods (3211); the rubber tube (324) is fixedly arranged on the gluing moving plate (322) through a rubber tube fixing plate (3241);

the magnetic frame is conveyed to the magnetic frame positioning seat (315) through the magnetic frame conveying module, the front end and the rear end of the magnetic frame are limited through the magnetic frame fixing block (3153), and the magnetic frame positioning cylinder (316) drives the magnetic frame positioning connecting rod (317) to enable the magnetic frame positioning rotating frame (313) to rotate downwards and enable the magnetic frame to incline; the rubber tube (324) is moved downwards to the inner ring of the magnetic frame through the gluing cylinder (323), the magnetic frame positioning motor (314) rotates to drive the magnetic frame positioning seat (315) to enable the whole inner ring of the magnetic frame to be evenly coated with glue, after gluing is finished, the rubber tube (324) is lifted, and the magnetic frame positioning rotating frame (313) rotates upwards to return to the original position;

the magnetic strip winding assembly device (6) comprises a magnetic strip feeding module, a magnetic strip pushing module, a magnetic strip winding assembly module and a dust removal reinforcing module; the magnetic strip feeding module comprises a magnetic strip feeding channel (611), a magnetic strip feeding cylinder (612) and a magnetic strip feeding push block (613); the magnetic strip feeding channel (611) is arranged on the rack (1), the magnetic strip feeding cylinder (612) is fixed on the rack (1) through a magnetic strip feeding connecting plate (6121), the magnetic strip feeding push block (613) is fixedly connected with a moving part of the magnetic strip feeding cylinder (612), the magnetic strip feeding push block (613) is arranged on the magnetic strip feeding channel (611), and the magnetic strip feeding push block (613) can move on the magnetic strip feeding channel (611); the magnetic strip pushing module comprises a magnetic strip pushing base (621), a magnetic strip pushing slide rail (622), a magnetic strip pushing cylinder (623), a magnetic strip pushing moving block (624) and a magnetic strip push plate (625); the magnetic strip pushing base (621) is arranged on the rack (1) and is connected with the discharge end of the magnetic strip feeding channel (611); the fixing part of the magnetic stripe pushing cylinder (623) is fixed on a magnetic stripe pushing base (621) through a magnetic stripe pushing connecting plate (6231), the moving part of the magnetic stripe pushing cylinder (623) is fixedly connected with the magnetic stripe pushing moving block (624), the magnetic stripe pushing moving block (624) is in sliding connection with the magnetic stripe pushing base (621) through the magnetic stripe pushing sliding rail (622), a magnetic stripe pushing plate (625) is arranged on the magnetic stripe pushing moving block (624), the magnetic stripe pushing plate (625) is Z-shaped, and the rear end of the magnetic stripe pushing plate (625) is connected with the discharge end of a magnetic stripe feeding channel (611); the magnetic strip winding assembly module comprises a magnetic strip winding fixing frame (631), a magnetic strip winding moving frame (632), a magnetic strip winding air cylinder (633), a magnetic strip winding push rod (634) and a magnetic strip winding seat (635); the magnetic strip winding fixing frame (631) is arranged on the bottom surface of the rack (1) and located on the outer side of the second station (502), the magnetic strip winding moving frame (632) is arranged on the magnetic strip winding fixing frame (631), the magnetic strip winding moving frame (632) can move on the magnetic strip winding fixing frame (631) through a magnetic strip winding guide rod (6321), the magnetic strip winding air cylinder (633) is arranged on the bottom surface of the top of the magnetic strip winding moving frame (632) through a magnetic strip winding connecting plate (6331), and the magnetic strip winding push rod (634) is arranged on the top surface of the magnetic strip winding moving frame (632); the magnetic strip winding seat (635) is fixedly arranged on the rack (1) through a magnetic strip winding bottom plate (6351), a magnetic strip winding groove (6352) is formed in the magnetic strip winding seat (635), a magnetic strip winding push rod (634) can penetrate through the magnetic strip winding bottom plate (6351) to enter the magnetic strip winding groove (6352), a magnetic strip groove (6353) for a magnetic strip to enter is formed in the magnetic strip winding seat (635), the magnetic strip groove (6353) is communicated with the magnetic strip winding groove (6352), and an inlet of the magnetic strip groove (6353) is aligned with the magnetic strip push plate (625); the top of the magnetic strip coil seat (635) is also provided with a magnetic frame limiting plate (6354) for limiting the magnetic frame; the dust removal reinforcing module comprises a dust removal bracket (641), a dust removal cylinder (642) and a dust removal reinforcing joint (643), the dust removal bracket (641) is arranged on the frame (1), the dust removal cylinder (642) is arranged on the dust removal bracket (641), the moving part of the dust removal cylinder (642) penetrates through the dust removal bracket (641) to be fixedly connected with the dust removal reinforcing joint (643), and the dust removal reinforcing joint (643) is positioned right above the magnetic strip winding seat (635); the dust removal reinforcing joint (643) is provided with a plurality of air holes.

2. The automatic assembling equipment for the motor magnetic frame and the magnetic strip is characterized in that a magnetic frame positioning baffle (3151) is arranged at the lower part of the magnetic frame positioning seat (315).

3. The automatic assembling equipment for the motor magnetic frame and the magnetic strip according to claim 2, characterized in that a magnetic frame positioner (3152) matched with the magnetic frame positioning baffle (3151) is arranged at one side of the magnetic frame positioning baffle (3151) at the top of the magnetic frame positioning rotating frame (313).

4. The automatic assembling equipment for the motor magnetic frame and the magnetic strip according to claim 1, characterized in that the magnetic frame positioning cylinder (316) is obliquely arranged on the magnetic frame positioning cylinder seat (3161).

5. The automatic assembling equipment for the motor magnetic frame and the magnetic strip according to claim 1, wherein the magnetic frame positioning connecting rod (317) is in a V shape, and an included angle between two root rods of the magnetic frame positioning connecting rod (317) is an obtuse angle.