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Copper wire clamp stacking mechanism and copper wire stacking equipment with mechanism

A copper wire and fixture technology, used in mechanical conveyors, conveyors, stacking of objects, etc., can solve the problems of poor product consistency, high labor costs, and low yield of finished products, achieve stable quantity, improve production efficiency, To achieve the effect of automatic switching

Pending Publication Date: 2019-04-26
GUANGDONG TOPSTAR TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the field of thin-film optoelectronics technology, the thin-film manufacturing of optoelectronics is particularly critical, and the most critical part is that the copper wires are neatly distributed in the thin film at a consistent height and spacing. At present, this process is realized by manual semi-automatic winding and stacking, and the labor cost is high. Limited to manual operation, poor product consistency, low yield rate and low production capacity

Method used

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  • Copper wire clamp stacking mechanism and copper wire stacking equipment with mechanism
  • Copper wire clamp stacking mechanism and copper wire stacking equipment with mechanism
  • Copper wire clamp stacking mechanism and copper wire stacking equipment with mechanism

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0081] Such as Figures 1 to 7 ,as well as Figure 13 As shown, a copper wire clamp stacking mechanism B includes a main frame B1 and a clamp C, and a stacking part B11 is provided on the main frame B1, and the stacking part B11 includes a first track B111 and a second track B112. The first rail B111 is parallel to the second rail B112, the front driving gear B21 is arranged on both sides of the entrance of the stacking part B11, and the rear driving gear B31 is arranged on both sides of the outlet of the stacking part B11, and the clamp C is placed In the stacking part B11, the clamp C includes several chain groups connected end to end in sequence, and the adjacent chain groups are alternately placed on the first track B111 and the second track B112. There is also a third track B12 on the main frame B1, the third track B12 is located at the entrance side of the stacking part B11, and the third track B12 communicates with the first track B111 and the second track B112 at the ...

Embodiment 2

[0088] The difference between this embodiment and Embodiment 1 is:

[0089] Such as Figures 14 to 20 As shown, the clamp C includes several chain groups connected end to end in sequence, and the chain group includes a first installation rod C1, a second installation rod C2, a first connection block C3, a second connection block C4 and a chuck C7. The chuck C7 includes a body C71, a driving block C72 and a driven block C73 installed on the body C71, the middle part of the driving block C72 is hinged to the body C71, and the driving block C72 is connected to the body C71 A return spring C74 is also provided between them, and a lock C723 is provided on the driving block C72. One end of the driven block C73 is hinged to the body C71, and the middle part of the driven block C73 is connected to the driving block C72. Hinged, the other end of the driven block C73 is provided with a fastener C731, and the fastener C731 abuts against the lock C723 in a clamped state. When the drivin...

Embodiment 3

[0095] The difference between this embodiment and embodiment one or embodiment two is:

[0096] Such as Figures 8 to 12 As shown, the driving mechanism A of the copper wire clamp also includes an installation shaft A5, and the installation shaft A5 includes a central shaft A51 and an outer rotating shaft A52 sleeved on the radially outer side of the central shaft A51, and the central shaft A51 is connected to the outer shaft A51. The rotating shaft A52 is coaxial. The end of the outer rotating shaft A52 away from the main driving disk A1 is provided with a driving gear A53, and the driving gear A53 is in transmission connection with a power source. The length of the central shaft A51 is greater than the length of the outer shaft A52, the two ends of the central shaft A51 exceed the ends of the outer shaft A52, and the main drive disk A1 is fixedly connected to the outer shaft A52, so The cam disc A2 is fixedly connected with the central shaft A51. Specifically, by setting ...

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PUM

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Abstract

The invention belongs to the technical field of automatic equipment, and discloses a copper wire clamp stacking mechanism. A body frame and a clamp are included. The body frame is provided with a stacking part. The stacking part comprises a first track and a second track which are parallel. Front drive gears are arranged on the two sides of an inlet of the stacking part, and rear drive gears are arranged on the two sides of an outlet of the stacking part. The clamp is placed in the stacking part and comprises a plurality of chain sets which are sequentially connected in an end-to-end manner, wherein the adjacent chain sets are alternately placed in the first track and the second track. According to the scheme, copper wire stacking equipment with the above mechanism is further disclosed. According to the scheme, through the arrangement of the first track and the second track, the adjacent chain sets alternately get in and are placed in the first track and the second track, automatic clamp stacking is achieved, and the production efficiency is improved.

Description

technical field [0001] The invention relates to the technical field of automation equipment, in particular to a copper wire clamp stacking mechanism and copper wire stacking equipment equipped with the mechanism. Background technique [0002] In the field of thin-film optoelectronics technology, the thin-film manufacturing of optoelectronics is particularly critical, and the most critical part is that the copper wires are neatly distributed in the thin film at a consistent height and spacing. At present, this process is realized by manual semi-automatic winding and stacking, and the labor cost is high. Limited to manual operation, the product consistency is poor, the finished product yield rate is low, and the production capacity is low. [0003] Based on the above situation, it is necessary for us to design a copper wire stacking equipment for automatic production. Contents of the invention [0004] An object of the present invention is to provide a copper wire clamp sta...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B65G57/00B65G35/00
CPCB65G35/00B65G57/00
Inventor 王中桥田大喜刘伟华田琪琦张学坤吴丰礼
Owner GUANGDONG TOPSTAR TECH