Production technology of copper and aluminum composite transition connection terminal

A kind of terminal, copper-aluminum composite technology, applied in connection, conductive connection, contact manufacturing and other directions, can solve the problems of complex production process, low mechanization strength, low production yield and other problems, achieve simple production process, strong penetration performance, The effect of improving corrosion resistance

Active Publication Date: 2016-10-26
金锚电力控股有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Friction welding has the disadvantage of excessive copper consumption, complicated production process, difficult quality control and easy scrapping, and friction welding products are easy to fall off under the impact of accumulated or short-term high current, which brings potential risks to use; the heat resistance of brazed joints Relatively poor, greatly affected by temperature, relatively low joint strength, relatively high requirements for surface cleaning and weldment assembly quality during brazing; explosive welding annealing is difficult, and the production yield is low
The source of materials is difficult, most of them work in the open air in the field, the mechanization intensity is low, the working conditions are poor, and it is also limited by the weather conditions. The price is relatively high and the scrap rate is high.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] The production process of the copper-aluminum composite transition terminal of the present invention comprises the following steps:

[0016] The first step: put the solid copper into the melting furnace to melt into liquid copper, then enter the constant temperature furnace for degassing and slag treatment, and then the liquid copper enters the crystallization in the composite casting device under the vacuum state through the draft tube In the device, and solidified into a copper tube in the crystallizer;

[0017] Step 2: Put the solid aluminum into the melting furnace to melt into liquid aluminum, and then the liquid aluminum enters the constant temperature furnace for degassing and slag treatment, then the liquid aluminum enters the copper in the crystallizer through the draft tube and then through the pouring tube In the tube, and condensed with the copper tube to form a copper-aluminum composite material, one end of the copper-aluminum composite material is tubular,...

Embodiment 2

[0024] Wherein the passivation liquid mass percent of the 4th step in the production technique of above-mentioned embodiment 1 is composed of sodium polydithiodipropane sulfonate 0.4%, polydimethylamide group sodium sulfonate 0.3%, hydroxy ethylidene diphosphonic acid 0.1%, nano silicon oxide 2.1%, dioctyloxypyrophosphate group 15%, and the balance is water.

Embodiment 3

[0026] Wherein the passivation liquid mass percent of the 4th step in the production technique of above-mentioned embodiment 1 is composed of sodium polydithiodipropane sulfonate 0.6%, polydimethylamide group sodium sulfonate 0.35%, hydroxy ethylidene diphosphonic acid 6%, nano silicon oxide 2.5%, dioctyloxypyrophosphate group 18%, and the balance is water.

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Abstract

The invention relates to a production technology of a copper and aluminum composite transition connection terminal, and aims at providing the production technology of the copper and aluminum composite transition connection terminal which is simple in production technology and high in yield rate. The production technology comprises the following steps that step one: firstly solid copper is put in a melting furnace to be melted into liquid copper and then the liquid copper enters the crystallizer of a composite casting device in the vacuum state and is solidified into a copper pipe in the crystallizer; step two: solid aluminum is put into the melting furnace to be melted into liquid aluminum, then the liquid aluminum enters a constant temperature furnace to perform degassing and slagging and then enters the copper pipe in the crystallizer, and the liquid aluminum and the copper pipe are condensed into a whole to form copper and aluminum composite material, wherein one end of the copper and aluminum composite material is tubular and the other end is flat; and step three: the copper and aluminum composite material is pulled out of the crystallizer through a traction mechanism, and then the middle position of the flat end of the copper and aluminum composite material is drilled by a drilling machine so that the copper and aluminum composite transition connection terminal is formed.

Description

technical field [0001] The invention relates to a production process of conductive fittings, in particular to a production process of a copper-aluminum composite transition terminal. Background technique [0002] The copper-aluminum transition terminal is a conductive fitting used to connect the conductor at the end of the cable to the terminal of the electrical device. One end connected to the aluminum conductor of the cable is tubular, and the other end connected to the copper device is a flat plate of a specific shape. Copper equipment is connected to aluminum wires, and there will be two kinds of metal electrical transitions with different point differences, which will cause galvanic corrosion during operation. In order to avoid galvanic corrosion, the measures currently taken are copper-aluminum transition terminals connected to wires and equipment, which are used in the market The current copper-aluminum transition terminals are mainly friction welding, explosive weldi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01R43/16H01R4/62
CPCH01R4/625H01R43/16
Inventor 叶选乐吴济真叶夏磊陈琼南陈斌
Owner 金锚电力控股有限公司
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