Alloy ingot casting mould with cooling device and ingot casting method thereof

A technology of alloy ingot and cooling device, applied in the field of smelting, can solve the problems of small volume of hoisting iron core, long cooling time, easy explosion of alloy ingot, etc., so as to improve product quality, product yield, surface finish and flatness Increase and decrease the effect of elemental composition segregation

Active Publication Date: 2010-09-29
CHIFENG ZHONGSE ZINC IND CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The surface cooling methods of alloy ingots in the prior art mainly include natural cooling method, direct water cooling method, heat preservation and cooling method with cover, atomization cooling method, etc. The disadvantages of these methods are that the uniformity of alloy ingot components is not ideal, the surface quality is poor, and the alloy ingot Cracks, bubbles, etc. are easy to form on the surface
The process of the alloy ingot condensing from liquid to solid requires a long cooling time, which is likely to cause segregation and volume shrinkage of certain components. Many macroscopic shrinkage cavities and cracks appear on the upper surface of the alloy ingot, which affects product quality and yield.
In particular, the hoisting iron core is small in size, fast in temperature and slow in cooling. The section in contact with the alloy forms a gap after the alloy melt cools and shrinks, and the cooling of the gap is relatively slow. A large number of macro shrinkage cavities and cracks are formed on the wall, especially the macro shrinkage cavities are prone to water ingress, and the alloy ingots are prone to explosion during the secondary melting process, causing safety accidents to manufacturers using zinc alloy ingots

Method used

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  • Alloy ingot casting mould with cooling device and ingot casting method thereof
  • Alloy ingot casting mould with cooling device and ingot casting method thereof
  • Alloy ingot casting mould with cooling device and ingot casting method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0024] Embodiment 1: as figure 1 , 2 , 3 and 4, a alloy ingot mold with a cooling device, it includes a pouring trough 1 with a small mouth at the bottom of the inner cavity 11 and a large inverted convex glyph 1, and positioning protrusions are set on the steps 12 on both sides of the inner cavity 11 Lift 13, respectively place a conical hoisting iron core 2 with a large diameter at the lower end and a small diameter at the upper end on the two positioning protrusions 23, the hoisting iron core 2 has a cooling hollow 21 with an upper end opening, and the upper end of the hoisting iron core 2 is higher than the ingot There is a through hole 22 at the center of the vertical axis at the position of the upper mouth of the mold, and there is a pit 23 corresponding to the positioning protrusion 13 at the lower end of the hoisting iron core 2 . The alloy ingot mold also includes two cooling funnels 3, the cooling funnel 3 includes a funnel cup 31, below the cup 31 is a cylinder 33 ...

Embodiment 2

[0025] Embodiment 2: a kind of ingot casting method using the alloy ingot mold with cooling device, it comprises the steps:

[0026] (1) Casting: Place two conical hoisting iron cores 2 on the steps 12 on both sides of the inner cavity 11 of the pouring tank 1, and slowly inject the molten alloy into the inner cavity 11 of the casting tank 1;

[0027] (2) Cooling: insert the drain pipes 32 of the two cooling funnels 3 into the cooling hollows 21 of the two hoisting iron cores 2 respectively, inject coolant into the drain cups 31 of the cooling funnels 3, and the coolant flows slowly through the drain pipes 32 The cooling hollow 21 of the hoisting iron core 2 cools the hoisting iron core 2, and the coolant flows out from the upper opening of the hoisting iron core 2 and flows along the cylinder 33 below the leaky cup 3 to the top of the alloy ingot hoisting hole, and the coolant is on the surface of the alloy The upper surface of the diffusion cooling alloy; the ratio of the ra...

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Abstract

The invention discloses an ingot casting mould with a cooling device and an ingot casting method thereof. The alloy ingot casting mould comprises a pouring groove which takes a reverse convex shape due to a small inner cavity bottom and a large inner cavity opening; the steps of both sides of the inner cavity are respectively provided with a truncated-cone-shaped hoisting iron core of which the diameter at the lower end is large and the diameter at the upper end is small; the hoisting iron core is provided with a cooling open hole with an opening at the top end; and the cooling open holes areinserted with a cooling hopper respectively. The ingot casting method comprises a pouring process, a cooling process and a mould-release process. In the cooling process, a water solution of sodium dodecylsulphate and an anionic surface active agent is applied to cool the hoisting iron cores and the upper surface of the alloy by the cooling hoppers. The invention can facilitate the even adding of acooling agent and even cooling of the whole alloy ingot, reduce the segregation of elemental composition and eliminate the wrinkles, cracks, bubbles and macro shrinkages on the surface of the alloy ingot and on the lateral walls of a hoisting hole, thereby improving product quality and rate of finished goods.

Description

technical field [0001] The invention relates to the technical field of smelting, in particular to an alloy ingot mold with a cooling device and an ingot casting method. Background technique [0002] At present, a large alloy ingot mold is used in the pouring process of larger alloy ingots. The inner cavity of this alloy ingot mold is in the shape of an inverted convex shape with a small bottom and a large mouth. A conical hoisting iron core with a large diameter at the lower end and a small diameter at the upper end, the upper end of the hoisting iron core is higher than the upper opening of the ingot mould, and there is a through hole with a vertical axis. After the molten alloy is poured and cooled, the hoisting machine can easily remove the alloy ingot and transport it to a suitable position by pulling the hoisting iron core. After the hoisting iron core is smashed, hoisting holes are formed on both sides of the alloy ingot. It can facilitate the secondary loading and us...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B22D7/12B22D7/06
Inventor 王凤朝李龙蔡永志冯国军李向东魏登文朱永良白音王波
Owner CHIFENG ZHONGSE ZINC IND CO LTD
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