CN210723657U

CN210723657U - High-speed backboard connector backboard assembling device

Info

Publication number: CN210723657U
Application number: CN201922118698.8U
Authority: CN
Inventors: 楼其忠; 杨闯
Original assignee: Kunshan Sanzhida Automation Equipment Technology Co ltd
Current assignee: Kunshan Sanzhida Automation Equipment Technology Co ltd
Priority date: 2019-12-02
Filing date: 2019-12-02
Publication date: 2020-06-09
Anticipated expiration: 2029-12-02

Abstract

The utility model relates to a high-speed backboard connector backboard assembling device, which comprises a bottom board, a rotating disk, a limiting component, a shaping component, a riveting component, a detection component, a blanking box, a second sensor, a rotating component, three supporting boards and a plurality of carriers, wherein the rotating component is fixed with the rotating disk, the three supporting boards are fixed on the bottom board, the top of the supporting boards is provided with a roller which is abutted against the rotating disk, the carriers are circumferentially and uniformly distributed on the rotating disk, the high-speed backboard connector backboard assembling device can lead a material sheet and a plastic shell to rapidly pass through the limiting component, the shaping component, the riveting component and the detection component through the matching of the rotating component and the rotating disk, does not need to move and carry in midway, improves the assembling efficiency, and can press down the two sides of the material sheet through the matching of the riveting component and the detection component to prevent the edge, the assembly precision of the product is improved.

Description

High-speed backboard connector backboard assembling device

Technical Field

The utility model relates to a connector field, in particular to high-speed backboard connector backplate assembly device.

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 and poor assembly precision, products need to be moved to different assembly stations through workers, and the assembly efficiency is low.

Therefore, it is desirable to provide a high-speed backplane connector backplane assembly apparatus to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-speed backplane connector backplate assembly device can effectual improvement packaging efficiency and equipment precision.

The utility model provides a technical scheme that its technical problem adopted is: a high-speed backboard connector backboard assembling device comprises a bottom plate, a rotating disk, a limiting component, a shaping component, a riveting component, a detection component, a blanking box, a second sensor, a rotating component, three supporting plates and a plurality of carriers, wherein the rotating component is fixed with the rotating disk, the three supporting plates are fixed on the bottom plate, rollers are arranged at the tops of the supporting plates and are abutted against the rotating disk, the carriers are circumferentially and uniformly distributed on the rotating disk, the limiting component, the shaping component, the riveting component, the detection component and the blanking box are sequentially arranged around the rotating disk, and the rotating component is fixed on the bottom plate;

the riveting assembly comprises a bottom riveting mechanism, a top riveting mechanism and three bearing plates, and the three bearing plates are used for fixing the bottom riveting mechanism and the top riveting mechanism with the rotating disc;

the bottom riveting mechanism comprises an upper bottom riveting cylinder, a lower bottom riveting cylinder, a jacking block driven by the lower bottom riveting cylinder to lift, and a bottom riveting unit driven by the upper bottom riveting cylinder to move, wherein the bottom riveting unit comprises a lower pressing block connected with the upper bottom riveting cylinder, a translation cylinder arranged on the jacking block, a horizontal block driven by the translation cylinder to move, and a plurality of bottom riveting columns fixed on the horizontal block, and the lower pressing block corresponds to the carrier;

the top riveting mechanism comprises an upper top riveting cylinder, a lower top riveting cylinder, a supporting block driven by the upper top riveting cylinder to lift and a top riveting unit driven by the upper top riveting cylinder, the top riveting unit comprises a lower moving block driven by the upper top riveting cylinder, an auxiliary bottom riveting unit and a plurality of top riveting columns fixed on the lower moving block, and the auxiliary bottom riveting unit comprises an auxiliary cylinder fixed on the supporting block, an auxiliary sliding block driven by the auxiliary cylinder to move and a plurality of auxiliary riveting columns arranged on the auxiliary sliding block.

Specifically, spacing subassembly is including fixed cylinder and the fixed frame that is carried out the removal by fixed cylinder drive.

Specifically, the detection assembly comprises a detection camera and a displacement unit for driving the detection camera to move.

Specifically, the second sensor is arranged below the carrier opposite to the blanking box.

The utility model relates to a high-speed backplane connector backplate assembly device's beneficial effect is, through the cooperation of rotatory subassembly with the rotary disk, can be so that tablet and plastic shell can be fast through spacing subassembly, plastic subassembly, riveting subassembly and determine module, need not to remove the transport midway, improved the packaging efficiency, in addition through the cooperation of riveting subassembly and determine module, can push down the tablet both sides, prevent to stick up the limit, promote the equipment precision of product.

Drawings

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

Fig. 1 is a schematic structural diagram of an assembling mechanism of the connector backplane assembling apparatus of the present invention;

fig. 2 is a schematic structural view of a rotating disc of the connector backplane assembly apparatus of the present invention;

fig. 3 is a schematic structural view of a rotating disc of the connector backplane assembly apparatus of the present invention;

fig. 4 is a schematic structural diagram of a riveting component of the connector backplane assembly apparatus of the present invention;

fig. 5 is a schematic structural view of a bottom riveting unit of the connector backplane assembly apparatus of the present invention;

fig. 6 is a schematic structural view of a top riveting unit of the connector backplane assembly apparatus of the present invention;

in the figure: 80. the automatic riveting device comprises a supporting plate, 81, a rotating plate, 82, a shaping assembly, 83, a limiting assembly, 831, a fixed cylinder, 832, a fixed frame, 84, a riveting assembly, 841, a bearing plate, 842, an upper bottom riveting cylinder, 843, a lower bottom riveting cylinder, 844, a jacking block, 845, a bottom riveting unit, 8451, a lower pressing block, 8452, a translation cylinder, 8453, a horizontal block, 8454, a bottom riveting column, 846, an upper top riveting cylinder, 847, a lower top riveting cylinder, 848, a supporting block, 849, a top riveting unit, 8491, a lower moving block, 8492, a top riveting column, 8493, an auxiliary cylinder, 8494, an auxiliary sliding block, 8495, an auxiliary riveting column, 85, a detection assembly, 86, a lower magazine, 87, a carrier, 88, a second sensor and 89, a rotating assembly.

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. 1-3, a high-speed backplane connector backplane assembly apparatus includes a rotating disc 81, a limiting component 83, a shaping component 82, a riveting component 84, a detecting component 85, a blanking box 86, a second sensor 88, a rotating component 89, three supporting plates 80 and a plurality of carriers 87, wherein the rotating component 89 is fixed to the rotating disc 81, the three supporting plates 80 are fixed to the backplane 1, rollers are disposed on the top of the supporting plates 80 and abut against the rotating disc 81, the carriers 87 are circumferentially and uniformly distributed on the rotating disc 81, the limiting component 83, the shaping component 82, the riveting component 84, the detecting component 85 and the blanking box 86 are sequentially disposed around the rotating disc 81, and the rotating component 89 is fixed to the backplane 1;

as shown in fig. 4-6, the riveting assembly 84 includes a bottom riveting mechanism, a top riveting mechanism, and three bearing plates 841, wherein the three bearing plates 841 are used for fixing the bottom riveting mechanism and the top riveting mechanism with the rotating disc 81;

the bottom riveting mechanism comprises an upper bottom riveting cylinder 842, a lower bottom riveting cylinder 843, a jacking block 844 which is driven by the lower bottom riveting cylinder 843 to lift, and a bottom riveting unit 845 which is driven by the upper bottom riveting cylinder 842 to move, wherein the bottom riveting unit 845 comprises a lower pressing block 8451 connected with the upper bottom riveting cylinder 842, a translation cylinder 8452 arranged on the jacking block 844, a horizontal block 8453 which is driven by the translation cylinder 8452 to move, and a plurality of bottom riveting columns 8454 fixed on the horizontal block 8453, and the lower pressing block 8451 corresponds to the carrier 87;

the top riveting mechanism comprises an upper top riveting cylinder 846, a lower top riveting cylinder 847, a supporting block 848 driven by the upper top riveting cylinder 846 to ascend and descend, and a top riveting unit 849 driven by the upper top riveting cylinder 846, wherein the top riveting unit 849 comprises a lower moving block 8491 driven by the upper top riveting cylinder 846, an auxiliary bottom riveting unit 845 and a plurality of top riveting columns 8492 fixed on the lower moving block 8491, and the auxiliary bottom riveting unit 845 comprises an auxiliary cylinder 8493 fixed on the supporting block 848, an auxiliary sliding block 8494 driven by the auxiliary cylinder 8493 to move and a plurality of auxiliary riveting columns 8495 arranged on the auxiliary sliding block 8494.

Specifically, the limiting assembly 83 includes a fixing cylinder 831 and a fixing frame 832 driven by the fixing cylinder 831 to move. The fixing cylinder 831 drives the fixing block 832 to press downwards, so that the plastic shell is limited on the carrier, and the plastic shell is prevented from displacing during assembly.

Specifically, the detection assembly 85 includes a detection camera and a displacement unit that drives the detection camera to move. The displacement unit drives the detection camera to move, and whether the product is qualified is detected.

Specifically, the second sensor 88 is disposed below the carrier facing the lower magazine 86.

The working principle of the high-speed backplane connector backplane assembly device is as follows: the rotating assembly 89 drives the rotating disc 81 to rotate so that the plastic shell rotates by 45 degrees, the second sensor 88 detects whether the carrier 87 has the plastic shell, and the plastic shell continues to rotate by 45 degrees and enters the lower part of the shaping assembly 82 for shaping; the plastic shell continues to rotate by 90 degrees, and enters the limiting component 83 to be fixed so as to receive the material sheet, and the material sheet is placed in and pre-pressed by the carrying mechanism 7 to form an assembly; the assembly rotates by 45 degrees and enters the riveting assembly 84, bottom riveting is firstly carried out, a bottom riveting mechanism works, an upper bottom riveting cylinder 842 and a lower bottom riveting cylinder 843 work, the jacking block 844 and the lower pressing block 8451 are close to the carrier 87, the lower pressing block 8451 presses the assembly, the jacking block 844 pushes a protruding needle on the back surface of a column material sheet, the translation cylinder 8452 drives the horizontal block 8453 to move, so that the bottom riveting column 8454 bends the protruding needle, and the material sheet is fixed with the plastic shell; the rear assembly rotates by 45 degrees to carry out top riveting, a top riveting mechanism works, an upper top riveting cylinder 846 works, a downward moving block 8491 presses downward, a top riveting column 8492 compacts two sides of the material sheet to prevent the two sides of the material sheet from tilting, and the product processing is finished at this moment; the product rotates by 45 degrees and enters a detection component 85 to be qualified; the product is rotated 45 degrees and if the product is acceptable, the product is removed and if the product is unacceptable, the product is placed into the discharge bin 86.

Compared with the prior art, this high-speed backplane connector backplate assembly device, through the cooperation of rotatory subassembly 89 and rotary disk 81, can be so that tablet and plastic shell can be fast through spacing subassembly 83, plastic subassembly 82, riveting subassembly 84 and detection components 85, need not to remove the transport midway, improved the packaging efficiency, in addition through the cooperation of riveting subassembly 84 and detection components 85, can push down tablet both sides, prevent to stick up the limit, promote the equipment precision of product.

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. A high-speed backboard connector backboard assembling device is characterized by comprising a bottom board, a rotating disk, a limiting component, a shaping component, a riveting component, a detection component, a blanking box, a second sensor, a rotating component, three supporting plates and a plurality of carriers, wherein the rotating component is fixed with the rotating disk, the three supporting plates are fixed on the bottom board, rollers are arranged at the tops of the supporting plates and are abutted against the rotating disk, the carriers are circumferentially and uniformly distributed on the rotating disk, the limiting component, the shaping component, the riveting component, the detection component and the blanking box are sequentially arranged around the rotating disk, and the rotating component is fixed on the bottom board;

2. The assembly apparatus of claim 1, wherein the retainer assembly includes a fixed cylinder and a fixed frame that is driven by the fixed cylinder to move.

3. The high-speed backplane connector backplane assembly apparatus of claim 1, wherein the inspection assembly comprises an inspection camera and a displacement unit for driving the inspection camera to move.

4. The high-speed backplane connector backplane assembly of claim 1, wherein the second sensor is disposed below the carrier opposite the lower magazine.