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Die structure for producing and processing high-performance electrode copper

A high-performance, electrode-based technology, applied in manufacturing tools, metal processing equipment, casting molding equipment, etc., can solve the problems of reducing the efficiency of electrode copper production and processing, low production efficiency of electrode cylinders, and long time for complete pouring, etc. Achieve the effects of improving efficiency, improving curing molding efficiency, and improving discharging efficiency

Inactive Publication Date: 2022-07-01
深圳市中建金属制品有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The existing mold structure for production and processing of high-performance electrode copper, in the process of use, usually opens a pouring cavity inside the mold, uses pouring equipment to pour copper water into the pouring cavity and performs cooling and casting to shape, actually in the pouring process, For multiple sets of pouring cavities, it is usually necessary to pour each set of pouring cavities continuously, and complete the copper water pouring of all the pouring cavities in turn. When the number of pouring cavities is large, it takes a long time to actually complete the pouring, and the production efficiency of the electrode cylinder low, poor use
[0004] In addition, the existing high-performance mold structure for electrode copper production and processing requires sequential pouring during use. After all pouring cavities are poured, the curing time of each group of electrode copper is different, which is affected by the operating time interval. There is an interval between the complete forming time of the group electrode copper, and it is necessary to wait for all the solidification before the unified discharge can be carried out. The actual discharge efficiency is low, which further reduces the efficiency of the production and processing of the electrode copper.

Method used

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  • Die structure for producing and processing high-performance electrode copper
  • Die structure for producing and processing high-performance electrode copper
  • Die structure for producing and processing high-performance electrode copper

Examples

Experimental program
Comparison scheme
Effect test

no. 1 example

[0034] The first embodiment: as figure 1 , figure 2 , image 3 , Figure 4 and Figure 5 As shown, when electrode copper is produced, copper water is poured into the feed box 12, and the copper water enters the interior of the fixed box 3 through the entry hole 14 on the control rod 13 in the feed box 12, and then the fan 8 is started, so that the The fan 8 sucks air and blows it into the inside of the installation box 6, so that the air entering the inside of the installation box 6 pushes the No. 1 rod 10 in the fixed pipe 5 to move, so that the No. 1 rod 10 drives the push plate 11 to move, thereby making The push plate 11 squeezes the copper water in the fixed box 3, so that the copper water flows into the pouring cavity 2 in equal amounts through the multiple groups of through holes 4, and then manually pushes the connecting plate 20, so that the connecting plate 20 drives the multiple groups of push rods 18 to move. , so that the push rod 18 slides along the sleeve h...

no. 2 example

[0039] Second embodiment: as figure 1 , figure 2 , image 3 , Figure 4 and Figure 5 As shown in the figure, after the copper water is evenly poured in the pouring cavity 2, the fan 8 continues to supply air, and the control valve 25 is activated at the same time, so that the control valve 25 is opened, so that the bottom pipe 24 is communicated with the curved pipe 26. Feeding, the inflowing air volume enters the bellows 23 through the curved pipe 26, and enters the heat exchange tank 21 through the side groove 22, the temperature of the continuously circulating air volume increases, the temperature of the pouring cavity 2 decreases rapidly, and the electrode copper is rapidly formed .

[0040] First, by fixing and communicating the bottom pipe 24 on the bottom surface of the fixed pipe 5, and fixing the communicating curved pipe 26 on the side surface of the bottom pipe 24, and opening a heat exchange groove 21 in the interior of the mold box 1, the side grooves 22 are...

no. 3 example

[0045] The third embodiment: as figure 1 , figure 2 and Figure 7 As shown, after the electrode cylinder is formed, start the No. 1 telescopic rod 28 to drive the top rod 37 to move up, so that the top rod 37 pushes the electrode cylinder to move up and loosen, stop the No. 1 telescopic rod 28 and start the No. 2 telescopic rod 35, so that the pumping The suction pipe 34 moves to the inside of the pouring cavity 2 and contacts the top surface of the electrode cylinder, and the air pump 30 is started to suck air, so that the electrode cylinder is adsorbed and fixed on the bottom surface of the suction pipe 34, and the No. 2 telescopic rod 35 is started to move up to achieve Quick and uniform discharge of multiple groups of electrode copper.

[0046] First, by using the No. 1 telescopic rod 28 to drive the ejector rod 37 to push the electrode copper, the electrode copper is loosened, and cooperates with the No. 2 telescopic rod 35 to make the suction pipe 34 move into the cas...

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Abstract

The invention belongs to the technical field of electrode container production and processing equipment, and discloses a high-performance electrode copper production and processing mold structure which comprises a mold box, a pouring cavity is formed in the top face of the mold box, a through hole is formed in the side face of the mold box, and a fixing box is fixedly connected to the side face of the mold box. The side face of the fixing box is fixedly connected with a fixing pipe. A push plate is movably connected in a fixed box in a sleeved mode, molten copper is placed in the fixed box during pouring, a draught fan is used for blowing a large amount of air into a fixed pipe, the push plate is made to move under the thrust effect, the molten copper in the fixed box is squeezed into a through hole, and the molten copper evenly flows into a pouring cavity through the through hole; and the push rod is matched to push molten copper remaining in the through hole into the pouring cavity, so that convenient and effective equal-quantity unified pouring is realized, the pouring efficiency under the actual condition of multiple groups of pouring cavities is greatly improved, the actual production and processing efficiency is improved, and the use effect is good.

Description

technical field [0001] The invention belongs to the technical field of electrode cylinder production and processing equipment, in particular to a mold structure for high-performance electrode copper production and processing. Background technique [0002] Copper is a metal element and a transition element, chemical symbol, English, atomic number 29, pure copper is a soft metal, the surface is red-orange with metallic luster when it is just cut, the element is purple-red, and has good ductility. It has high thermal conductivity and electrical conductivity, so it is the most commonly used material in cables and electrical and electronic components. It can also be used as a building material and can be composed of many kinds of alloys. Copper alloys have excellent mechanical properties and low resistivity, the most important of which are bronze and brass. In addition, copper is also a durable metal that can be recycled many times without compromising its mechanical properties, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B22C9/06B22C9/22B22C9/20B22D39/00B22D27/04B22D29/04
CPCB22C9/06B22C9/22B22C9/20B22D39/00B22D27/04B22D29/04
Inventor 谭政谭汉平张小青
Owner 深圳市中建金属制品有限公司