CN212099461U

CN212099461U - Connector backplate processing equipment

Info

Publication number: CN212099461U
Application number: CN202020486245.0U
Authority: CN
Inventors: 严烨华; 钱彦骅; 张厚岳
Original assignee: Kunshan Sanzhida Automation Equipment Technology Co ltd
Current assignee: Kunshan Sanzhida Automation Equipment Technology Co ltd
Priority date: 2020-04-07
Filing date: 2020-04-07
Publication date: 2020-12-08
Anticipated expiration: 2030-04-07

Abstract

The utility model relates to a connector backboard processing device, which comprises a bottom plate, a bottom material feeding mechanism, a first processing mechanism, a shifting mechanism, a second processing mechanism, an adjusting mechanism, a packaging mechanism and two rim material feeding mechanisms, wherein the first processing mechanism, the shifting mechanism, the second processing mechanism, the adjusting mechanism and the packaging mechanism are arranged on the bottom plate from left to right in sequence; through the cooperation of the first processing mechanism and the second processing mechanism, the quick alignment and pressing of the backing material and the rim material can be realized, and the processing and assembling efficiency is high; through the cooperation of packagine machine structure, second processing agency and adjustment mechanism, can detect the tow sides of product, it is high to detect the precision.

Description

Connector backplate processing equipment

Technical Field

The utility model relates to a connector field, in particular to connector backplate processing equipment.

Background

The high-speed backplane connector is used for large-scale communication equipment, ultrahigh-performance servers, giant computers, industrial computers, high-end storage equipment and the like, along with the rapid development of communication, electronics and internet industries, the market scale of the high-speed connector grows rapidly, the assembly of the conventional backplane connector is generally manual alignment, machine pressing is carried out, the assembly efficiency is low, and the assembly precision is poor.

Therefore, it is necessary to provide a connector backplane processing apparatus.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a connector backplate processing equipment can effectual improvement processing packaging efficiency and processing equipment precision.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a connector backplate processing equipment, its includes bottom plate, bed charge feed mechanism, first processing agency, shift mechanism, second processing agency, adjustment mechanism, packagine machine construct and two rim charge feed mechanisms, first processing agency, shift mechanism, second processing agency, adjustment mechanism and packagine machine construct and turn right from a left side and set gradually on the bottom plate, bed charge feed mechanism and two rim charge feed mechanisms set gradually in first processing agency one side from last to down, bed charge feed mechanism is connected with first processing agency, shift mechanism connects the second processing agency, adjustment mechanism connects second processing agency and packagine machine construct, and in two rim charge feed mechanisms, one of them rim charge feed mechanism is connected with first processing agency, and another rim charge feed mechanism is connected with second processing agency.

Specifically, bed charge feed mechanism includes the charging tray, with the bed charge runner of charging tray intercommunication, detector, ratchet unit, cuts the unit and transport the unit, detector, ratchet unit, cut the unit and transport the unit and set gradually on the bed charge runner.

Specifically, the rim charge feeding mechanism comprises a charging tray, a rim charge flow channel communicated with the charging tray, a detector, a ratchet wheel unit, a cutting unit and a conveying unit, the detector, the ratchet wheel unit, the cutting unit and the conveying unit are sequentially arranged on the rim charge runner, the cutting unit comprises a bracket, a first motor fixed at the top of the bracket, a guide post arranged on the bracket, an upper template driven by the first motor and moving along the guide post, and a lower template fixed at the bottom of the bracket and corresponding to the upper template, the conveying unit comprises a supporting plate, a second motor fixed to the top of the supporting plate, a rotating frame driven by the second motor to rotate, a moving shaft hinged to the rotating frame, a lifting plate fixed to the moving shaft, a moving plate, a plurality of suction plates and buffer positions, wherein the suction plates and the buffer positions are arranged below the lifting plate, a vertical groove is formed in the moving plate, and the moving shaft penetrates through the vertical groove.

Specifically, first processing agency is including carrying out rotatory first graduated disk, spacing unit, carrying seat and pressfitting unit, spacing unit is including fixing spacing cylinder on first graduated disk and the stopper that removes and correspond with carrying the seat by spacing cylinder drive, carry the seat including fixing main part on first graduated disk, set up in the main part and with stopper fixed limiting plate, fix the first fixture block on the limiting plate and fix the second fixture block in the main part, pressfitting unit is including fixing the support frame on the bottom plate, fixing pressfitting cylinder and the pressfitting cylinder drive on the support frame and go up and down the pressfitting board.

Specifically, the shifting mechanism comprises a third motor, a first transmission assembly driven by the third motor to work, a lifting cylinder arranged on the first transmission assembly, a lifting block driven by the lifting cylinder to lift, a sucker arranged below the lifting block and a middle position used for placing a product.

Specifically, the second processing mechanism comprises a second dividing plate, a compaction unit, a riveting unit and a first detection unit, wherein the second dividing plate is fixed on the bottom plate and driven by the outside to rotate, the compaction unit, the riveting unit and the first detection unit are sequentially arranged around the second dividing plate, the second dividing plate is provided with a limiting unit and a carrying seat, the compaction unit comprises a compaction cylinder and a compaction plate driven by the compaction cylinder to lift, and the riveting unit comprises a riveting cylinder and a riveting plate driven by the riveting cylinder to lift.

Specifically, the adjusting mechanism comprises a rotating unit and a moving unit, the rotating unit is arranged between the moving unit and the second dividing plate, the rotating unit comprises a rotating cylinder and two bearing blocks driven by the rotating cylinder to rotate, and the moving unit comprises a second transmission assembly, an electric cylinder arranged on the second transmission assembly, a fourth motor driven by the cylinder to lift, a suction block driven by the fourth motor to rotate, a waste material box arranged below the second transmission assembly and a second detection unit.

The packaging mechanism comprises a third transmission assembly fixed on the bottom plate, a first limiting column arranged on the bottom plate, a limiting cylinder fixed on the bottom plate and arranged between the two first limiting columns, a limiting block driven by the limiting cylinder to move, a second limiting column arranged on the bottom plate, a fourth transmission assembly arranged between the first limiting column and the second limiting column, a fifth motor arranged on the fourth transmission assembly, a clamping cylinder driven by the fifth motor to rotate, a clamping jaw driven by the clamping cylinder to work, a jacking cylinder arranged between the two second limiting columns, a jacking block driven by the jacking cylinder to lift and a material tray, and a recovery block arranged on the second limiting column.

The utility model relates to a connector backboard assembling device and a connector backboard assembling process, which have the advantages that,

1. through the matching of the bottom material feeding mechanism and the rim material feeding mechanism, the quick feeding, the accurate feeding and the quick cutting of the product can be realized, and the occupied space is small;

2. through the cooperation of the first processing mechanism and the second processing mechanism, the quick alignment and pressing of the backing material and the rim material can be realized, and the processing and assembling efficiency is high;

3. through the cooperation of packagine machine structure, second processing agency and adjustment mechanism, can detect the tow sides of product, it is high to detect the precision.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the connector back plate processing equipment of the present invention;

fig. 2 is a schematic structural diagram of a backing material feeding mechanism of the connector backplane processing equipment of the present invention;

fig. 3 is a schematic structural diagram of the rim charge feeding mechanism of the connector back plate processing equipment of the present invention;

fig. 4 is a schematic structural diagram of a cutting unit of the connector back plate processing apparatus of the present invention;

fig. 5 is a schematic structural view of a ratchet unit of the connector back plate processing device of the present invention;

fig. 6 is a schematic structural diagram of a first processing mechanism of the connector back plate processing device of the present invention;

fig. 7 is a schematic structural diagram of a pressing unit of the connector back plate processing device of the present invention;

fig. 8 is a schematic structural view of a carrier of the connector back plate processing equipment of the present invention;

fig. 9 is a schematic structural diagram of a shifting mechanism of the connector back plate processing device of the present invention;

fig. 10 is a schematic view of the connection structure of the second processing mechanism, the adjusting mechanism and the packing mechanism of the connector back plate processing device of the present invention;

fig. 11 is a schematic structural diagram of a second processing mechanism of the connector back plate processing device of the present invention;

fig. 12 is a schematic structural diagram of an adjusting mechanism of the connector back plate processing device of the present invention;

fig. 13 is a schematic structural view of a packing mechanism of the connector back plate processing device of the present invention;

in the figure: 1. a bottom plate, 2, a bottom material feeding mechanism, 21, a bottom material runner;

3. the device comprises an edge material feeding mechanism, 31, an edge material flow passage, 32, a detector, 33, a ratchet wheel unit, 34, a cutting unit, 341, a support, 342, a first motor, 343, a guide column, 344, an upper template, 345, a lower template, 35, a conveying unit, 351, a support plate, 352, a second motor, 353, a rotating frame, 354, a moving shaft, 355, a lifting plate, 356, a moving plate, 357, a suction plate and 358, a buffer position;

4. the machining device comprises a first machining mechanism, 41, a first indexing disc, 42, a limiting cylinder, 43, a limiting block, 44, a carrier seat, 441, a main body, 442, a limiting plate, 443, a first fixture block, 444, a second fixture block, 45, a supporting frame, 46, a pressing cylinder and 47, a pressing plate;

5. the device comprises a shifting mechanism, 51, a third motor, 52, a first transmission assembly, 53, a lifting cylinder, 54, a lifting block, 55, a sucker and 56, a middle position;

6. the second processing mechanism 61, the second dividing plate 62, the compacting unit 63, the riveting unit 64 and the first detection unit;

7. the automatic detection device comprises an adjusting mechanism, 71 rotating cylinders, 72 bearing blocks, 73 fourth motors, 74 suction blocks, 75 waste boxes, 76 second detection units, 77 second transmission assemblies and 78 electric cylinders;

8. the packaging mechanism comprises a packaging mechanism, 801, a third transmission assembly, 802, a first limiting column, 803, a limiting cylinder, 804, a limiting block, 805, a fourth transmission assembly, 806, a fifth motor, 807, a clamping cylinder, 808, a material tray, 809, a second limiting column, 810, a jacking cylinder, 811, a jacking block and 812, a recovery block;

91. and an edge material belt, 92, a bottom material belt.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in FIG. 1, a connector backplane processing device comprises a bottom plate 1, a bottom material feeding mechanism 2, a first processing mechanism 4, a shifting mechanism 5, a second processing mechanism 6, an adjusting mechanism 7, a packaging mechanism 8 and two rim material feeding mechanisms 3, wherein the first processing mechanism 4, the shifting mechanism 5, the second processing mechanism 6, the adjusting mechanism 7 and the packaging mechanism 8 are sequentially arranged on the bottom plate 1 from left to right, the bottom material feeding mechanism 2 and the two rim material feeding mechanisms 3 are sequentially arranged on one side of the first processing mechanism 4 from top to bottom, the bottom material feeding mechanism 2 is connected with the first processing mechanism 4, the shifting mechanism 5 is connected with the second processing mechanism 6, the adjusting mechanism 7 is connected with the second processing mechanism 6 and the packaging mechanism 8, one of the two rim material feeding mechanisms 3 is connected with the first processing mechanism 4, the other rim charge feeding mechanism 3 is connected with a second processing mechanism 6.

As shown in fig. 2, the bed material feeding mechanism 2 includes a feeding tray 808, a bed material flow path 21 communicating with the feeding tray 808, a detector 32, a ratchet unit 33, a cutting unit 34, and a carrying unit 35, and the detector 32, the ratchet unit 33, the cutting unit 34, and the carrying unit 35 are arranged in this order on the bed material flow path 21.

As shown in fig. 3 to 5, the rim charge feeding mechanism 3 includes a charging tray 808, a rim charge flow path 31 communicated with the charging tray 808, a detector 32, a ratchet unit 33, a cutting unit 34, and a conveying unit 35, the detector 32, the ratchet unit 33, the cutting unit 34, and the conveying unit 35 are sequentially disposed on the rim charge flow path 31, the cutting unit 34 includes a support 341, a first motor 342 fixed on the top of the support 341, a guide column 343 disposed on the support 341, an upper mold 344 driven by the first motor 342 and moving along the guide column 343, and a lower mold 345 fixed on the bottom of the support 341 and corresponding to the upper mold 344, the conveying unit 35 includes a support plate 351, a second motor 352 fixed on the top of the support plate 351, a rotating frame 353 driven to rotate by the second motor 352, a moving shaft 354 hinged to the rotating frame 353, and a lifting plate 355 fixed to the moving shaft 354, The device comprises a moving plate 356, a plurality of suction plates 357 arranged below a lifting plate 355 and a buffer position 358, wherein a vertical slot is formed in the moving plate 356, and a moving shaft 354 penetrates through the vertical slot. The edge material belt 91 is moved to the edge material flow passage 31 by the material loading plate 808, the edge material belt 91 is sequentially loaded by the ratchet wheel unit 33, the moving quantity of the edge material is detected by the detector 32, the cutting unit 34 works, the first motor 342 drives the upper template 344 to press downwards, the edge material belt 91 is cut off through the upper template 344 and the lower template 345, the conveying unit 35 works, the second motor 352 drives the rotating frame 353 to rotate, the moving shaft 354 rotates, the lifting plate 355 and the moving plate 356 are driven to reciprocate, and therefore the product is moved to the next station.

As shown in fig. 6 to 8, the first processing mechanism 4 includes a first index plate 41 capable of rotating, a limiting unit, a carrier seat 44 and a pressing unit, the limiting unit includes a limiting cylinder 80342 fixed on the first index plate 41 and a limiting block 80443 driven by a limiting cylinder 80342 to move and corresponding to the carrier seat 44, the carrier seat 44 includes a main body 441 fixed on the first index plate 41, a limiting plate 442 disposed in the main body 441 and fixed to the limiting block 80443, a first fixture 443 fixed on the limiting plate 442 and a second fixture 444 fixed on the main body 441, and the pressing unit includes a support frame 45 fixed on the bottom plate 1, a pressing cylinder 46 fixed on the support frame 45 and a pressing cylinder 46 driven to lift and lower the pressing plate 47. The limiting unit is mainly matched with the carrier seat 44 to limit the bottom materials and the edge materials in the carrier seat 44.

As shown in fig. 9, the shifting mechanism 5 includes a third motor 51, a first transmission assembly 52 driven by the third motor 51 to operate, a lifting cylinder 53 disposed on the first transmission assembly 52, a lifting block 54 driven by the lifting cylinder 53 to lift, a suction cup 55 disposed below the lifting block 54, and a middle position 56 for placing a product. The lifting cylinder 53 drives the lifting block 54 to move downwards, the suction cup 55 sucks the product, and the third motor 51 drives the first transmission assembly 52 to work, so that the lifting cylinder 53 moves, and the product moves from the first dividing plate 41 to the second dividing plate 61.

As shown in fig. 10 to 11, the second processing mechanism 6 includes a second scale 61 fixed on the bottom plate 1 and driven by the outside to rotate, a compacting unit 62, a riveting unit 63 and a first detecting unit 64 sequentially arranged around the second scale 61, the second scale 61 is provided with a limiting unit and a loading seat 44, the compacting unit 62 includes a compacting cylinder and a compacting plate driven by the compacting cylinder to move up and down, and the riveting unit 63 includes a riveting cylinder and a riveting plate driven by the riveting cylinder to move up and down.

As shown in fig. 12, the adjusting mechanism 7 includes a rotating unit and a moving unit, the rotating unit is disposed between the moving unit and the second indexing plate 61, the rotating unit includes a rotating cylinder 71 and two receiving blocks 72 driven by the rotating cylinder 71 to rotate, and the moving unit includes a second transmission assembly 77, an electric cylinder 78 disposed on the second transmission assembly 77, a fourth motor 73 driven by the electric cylinder 78 to move up and down, a suction block 74 driven by the fourth motor 73 to rotate, a waste material box 75 disposed below the second transmission assembly 77, and a second detection unit 76. The electric cylinder 78 drives the fourth motor 73 to descend, the suction block 74 sucks the product, the fourth motor 73 drives the suction block 74 to rotate, the angle of the product is adjusted, the second transmission assembly 77 works to move the product, and the second detection unit 76 detects the back of the product to be qualified and then places the back of the product on the bearing block 72 of the rotation unit.

As shown in fig. 13, the packaging mechanism 8 includes a third transmission assembly 801 fixed on the bottom plate 1, a first limiting post 802 disposed on the bottom plate 1, a limiting cylinder 80342 fixed on the bottom plate 1 and disposed between the two first limiting posts 802, a limiting block 80443 driven by a limiting cylinder 80342 to move, a second limiting post 809 disposed on the bottom plate 1, a fourth transmission assembly 805 disposed between the first limiting post 802 and the second limiting post 809, a fifth motor 806 disposed on the fourth transmission assembly 805, a clamping cylinder 807 driven by the fifth motor 806 to rotate, a clamping jaw driven by the clamping cylinder 807 to operate, a jacking cylinder 810 disposed between the two second limiting posts 809, a jacking block 811 driven by the jacking cylinder 810 to lift, and a tray 808, wherein the second limiting post 809 is provided with a recovery block 812. The empty tray 808 is placed in the first limiting column 802, when the tray 808 needs to be replaced, the limiting cylinder 80342 drives the limiting block 80443 to withdraw, the tray 808 falls, the limiting cylinder 80342 drives the limiting block to push out, the tray 808 above is clamped, the third transmission assembly 801 works, so that the tray 808 moves to the lower part of the fourth transmission assembly 805, the fifth motor 806 works to drive the clamping cylinder 807 to rotate 90 degrees, the clamping cylinder 807 drives the clamping jaws to clamp the product on the bearing block, the fifth motor 806 drives the clamping cylinder 807 to recover, the fourth transmission assembly 805 moves the fifth motor 806 and the product to the upper part of the tray 808, the clamping cylinder 807 releases the clamping jaws, so that the product falls into the tray 808, when the material tray 808 is full, the third transmission assembly 801 drives the material tray 808 to move continuously into the second limiting column 809, the jacking cylinder 810 drives the jacking block 811 to move upwards to push the material tray 808 upwards, and the recovery block 812 can prevent the material tray 808 from falling.

The working principle of the connector back plate processing equipment is as follows: firstly, the front surface assembly of the backing material: the bed material feeding mechanism 2 cuts the bed material strip 92 into bed materials and places the bed materials in the carrier seat 44; the first index plate 41 rotates by 90 degrees, and the carrier seat 44 with the bottom material is moved to the position of the rim charge mechanism 3; the rim charge feeding mechanism 3 cuts the rim charge strip 91 into rim charge and places the rim charge above the bottom material; the first index plate 41 rotates by 90 degrees, the carrier seat 44 moves to the lower part of the pressing unit, and the pressing unit presses the rim charge on the front surface of the backing material to form a semi-finished product;

then, surface assembly of the backing material: the rim charge feeding mechanism 3 cuts the rim charge strips 91 into rim charges and places the rim charges in the carrying seats 44; the second dividing plate 61 rotates by 90 degrees, and the carrier seat 44 with the rim charge is moved to the displacement mechanism 5; the first dividing disc 41 rotates 90 degrees, and the shifting mechanism 5 moves the semi-finished product on the first dividing disc 41 to the carrier seat 44 with the rim charge; the second index plate 61 rotates by 45 degrees, the carrier seat 44 is moved to the compacting unit 62, and the compacting unit 62 presses the rim charge on the back of the backing material; the second index plate 61 rotates by 45 degrees, the carrier seat 44 is moved to the riveting unit 63, and the riveting unit 63 performs secondary riveting on the rim charge and the base charge on two sides, so that the fixing effect is improved; the second index plate 61 rotates 45 degrees, the carrying seat 44 is moved to the first detection unit 64, and the first detection unit 64 detects the front surface of the product; the second index plate 61 rotates 45 degrees to move the carrier seat 44 to the adjusting mechanism 7;

and finally, product packaging: the adjustment mechanism 7 grasps and moves the product; the second detection unit 76 detects the back of the product, if the product is qualified, the adjusting mechanism 7 moves the product to the rotating unit, and if the product is not qualified, the adjusting mechanism 7 puts the product into the waste box 75; the packaging mechanism 8 loads the adjusted position product on the rotary unit into the tray 808.

Compared with the prior art, the connector back plate processing equipment,

1. through the matching of the bottom material feeding mechanism 2 and the rim material feeding mechanism 3, the quick feeding, the accurate feeding and the quick cutting of the product can be realized, and the occupied space is small;

2. through the matching of the first processing mechanism 4 and the second processing mechanism 6, the quick alignment and pressing of the backing material and the rim charge can be realized, and the processing and assembling efficiency is high;

3. through the cooperation of packagine machine 8, second processing agency 6 and adjustment mechanism 7, can detect the tow sides of product, it is high to detect the precision.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a connector backplate processing equipment, its characterized in that, includes bottom plate, bed charge feed mechanism, first processing agency, shift mechanism, second processing mechanism, adjustment mechanism, packagine machine construct and two rim charge feed mechanisms, first processing agency, shift mechanism, second processing mechanism, adjustment mechanism and packagine machine construct and turn right from a left side and set gradually on the bottom plate, bed charge feed mechanism and two rim charge feed mechanisms set gradually on one side of first processing mechanism from last to down, bed charge feed mechanism is connected with first processing mechanism, shift mechanism connects the second processing mechanism, adjustment mechanism connects second processing mechanism and packagine machine construct, and in two rim charge feed mechanisms, one of them rim charge feed mechanism is connected with first processing mechanism, and another rim charge feed mechanism is connected with second processing mechanism.

2. The connector backplane manufacturing apparatus of claim 1, wherein the bed material feeding mechanism includes a loading tray, a bed material flow path communicating with the loading tray, a detector, a ratchet unit, a cutting unit, and a carrying unit, the detector, the ratchet unit, the cutting unit, and the carrying unit being disposed in this order on the bed material flow path.

3. The connector back plate processing device according to claim 2, wherein the rim charge feeding mechanism comprises a charging tray, a rim charge runner communicated with the charging tray, a detector, a ratchet unit, a cutting unit and a conveying unit, the detector, the ratchet unit, the cutting unit and the conveying unit are sequentially arranged on the rim charge runner, the cutting unit comprises a support, a first motor fixed on the top of the support, a guide column arranged on the support, an upper template driven by the first motor and moving along the guide column, and a lower template fixed on the bottom of the support and corresponding to the upper template, the conveying unit comprises a support plate, a second motor fixed on the top of the support plate, a rotating frame driven by the second motor to rotate, a moving shaft hinged with the rotating frame, a lifting plate fixed with the moving shaft, a moving plate, a plurality of suction plates arranged below the lifting plate and a buffer position, the movable plate is provided with a vertical groove, and the movable shaft penetrates through the vertical groove.

4. The connector backplane processing apparatus according to claim 1, wherein the first processing mechanism includes a first index plate, a limiting unit, a carrying seat and a pressing unit, the first index plate is rotatable, the limiting unit includes a limiting cylinder fixed on the first index plate and a limiting block driven by the limiting cylinder to move and corresponding to the carrying seat, the carrying seat includes a main body fixed on the first index plate, a limiting plate disposed in the main body and fixed to the limiting block, a first clamping block fixed on the limiting plate and a second clamping block fixed on the main body, and the pressing unit includes a supporting frame fixed on the bottom plate, a pressing cylinder fixed on the supporting frame and a pressing plate driven by the pressing cylinder to move up and down.

5. The connector backplane processing apparatus of claim 1, wherein the displacement mechanism comprises a third motor, a first transmission assembly driven by the third motor to operate, a lifting cylinder disposed on the first transmission assembly, a lifting block driven by the lifting cylinder to lift, a suction cup disposed below the lifting block, and a middle position for placing the product.

6. The connector backplane processing apparatus according to claim 4, wherein the second processing mechanism includes a second index fixed on the bottom plate and driven to rotate by an external drive, a compacting unit, a riveting unit and a first detecting unit sequentially disposed around the second index, the second index is provided with a limiting unit and a loading seat, the compacting unit includes a compacting cylinder and a compacting plate driven by the compacting cylinder to move up and down, and the riveting unit includes a riveting cylinder and a riveting plate driven by the riveting cylinder to move up and down.

7. The connector back plate processing apparatus according to claim 1, wherein the adjusting mechanism includes a rotating unit and a moving unit, the rotating unit is disposed between the moving unit and the second index plate, the rotating unit includes a rotating cylinder and two receiving blocks driven by the rotating cylinder to rotate, and the moving unit includes a second transmission assembly, an electric cylinder disposed on the second transmission assembly, a fourth motor driven by the cylinder to ascend and descend, a suction block driven by the fourth motor to rotate, a waste material box disposed below the second transmission assembly, and a second detecting unit.

8. The connector back plate processing device according to claim 1, wherein the packaging mechanism comprises a third transmission assembly fixed on the bottom plate, a first limit post arranged on the bottom plate, a limit cylinder fixed on the bottom plate and arranged between the two first limit posts, a limit block driven by the limit cylinder to move, a second limit post arranged on the bottom plate, a fourth transmission assembly arranged between the first limit post and the second limit post, a fifth motor arranged on the fourth transmission assembly, a clamping cylinder driven by the fifth motor to rotate, a clamping jaw driven by the clamping cylinder to work, a jacking cylinder arranged between the two second limit posts, a jacking block driven by the jacking cylinder to lift, and a material tray, and the second limit post is provided with a return block.