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A self-propelled wire take-up machine for copper-clad aluminum wire storage

A copper-clad aluminum, self-propelled technology, applied in the field of wire take-up machine, can solve the problems of reducing the qualified rate of finished products, tearing or separation, and affecting the electrical performance of finished products, so as to improve the quality and yield of finished products, increase the service life, good practical effect

Inactive Publication Date: 2018-11-06
HENAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, due to the differences in hardness, ductility, thermal expansion and mechanical properties of the two metals in the copper-clad aluminum conductor, high-frequency pulling and twisting actions during the preparation process such as wire drawing and winding will promote the structure of the copper-clad aluminum conductor. Changes will seriously affect the electrical performance of the finished product, especially when the torsion is excessive, it will also cause tearing or separation of the copper layer wrapped in some areas of the wire, reducing the qualified rate of the finished product

Method used

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  • A self-propelled wire take-up machine for copper-clad aluminum wire storage

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specific Embodiment approach

[0015] A self-propelled take-up machine for storing copper-clad aluminum wires, comprising a frame 1 and a drive motor 2 arranged on the frame 1. The output shaft of the drive motor 2 is driven by the reduction gear of the reducer 3 and the take-up shaft 4 Connected, the take-up shaft 4 is sleeved with an I-wheel 5 for winding to the copper-clad aluminum wire, and the frame 1 is also provided with a traction device 6 which is connected to the end of the I-wheel 5 through its traction sleeve The disc 501 of the part is fixedly connected, the end of the traction sleeve connected with the disc 501 of the I-shaped wheel 5 is in the shape of a truncated cone, and the front end of the frustum is also provided with an holding friction to prevent slippage between the traction sleeve and the I-shaped wheel 5 The winding shaft 4 is also provided with two travel switches 7, the distance between the two travel switches 7 is twice the length of the spool 5, the spool 5 can be traction device...

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Abstract

The invention discloses a self-propelled wire winding machine for storing a copper-clad aluminum wire. The self-propelled wire winding machine comprises a stand and a drive motor, the output shaft of the drive motor is connected with a wire winding shaft through a speed reducer, a spool sleeves the wire winding shaft, the stand is provided with a traction device, the traction device is firmly connected with a disc at the end of the spool through a traction sleeve which sleeves the wire winding shaft, the end of a traction shaft connected with the spool disc is frustum-shaped, and a holding friction ring is arranged at the front end of the frustum; the wire winding shaft is provided with two travel switches, the distance between the two travel switches doubles the length of the spool, the spool can reciprocally move between the two travel switches in a uniform speed under the traction of the traction device, and moreover, when the disc of the spool touches the travel switch, the travel switch can transmit signals to the traction device to control the reversing thereof. The wire winding machine effectively avoids a mass of pull and torsional moment of the wire and enables the yield of the finished wire product to be improved.

Description

Technical field [0001] The invention relates to a wire take-up machine for winding metal wires used in the wire and cable industry, in particular to a self-propelled wire take-up machine for storing copper-clad aluminum wires. Background technique [0002] With the development of the wire and cable industry, high speed, high efficiency, low cost, and strong process adaptability have become the pursuit goals of manufacturers. The wire take-up machine is a device used to wind wires and cables onto an I-shaped take-up reel, which generally includes a power mechanism, a transmission mechanism, a wire arranging mechanism and a wire take-up mechanism. Most of the existing wire-winding machines use the back and forth movement of the wire-arranging mechanism to sequentially wind the wires to be wound onto the spool reel. However, the back and forth movement of the wire driven by the arranging mechanism causes the pulling of the copper-clad aluminum wire and a large amount of torsion mom...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B65H54/12B65H63/00H01B13/00H01B13/22
Inventor 郝希平李贺贺李秋泽
Owner HENAN UNIV OF SCI & TECH
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