SU1488111A1 - Cooler top for ingot mould - Google Patents

Abstract

The invention relates to ferrous metallurgy and can be used in the casting of forge ingots. The purpose of the invention is to increase the yield of a suitable metal. The proposed extension fridge to a mold for a forge ingot has a variable cross-sectional shape along its longitudinal axis. At the same time at the upper end it is made in the form of a wavy contour with the ratio of the diameters of the circles inscribed in the contour of the depressions and protrusions, 0.5-0.9, and at the lower end in the form of a circle. This makes it possible to reduce the consumption of metal for the formation of the upper part of the ingot used in the forging process as a pin for a chuck forging key. The transverse size of the shrinkage shell is significantly reduced. 4 il.

Description

(21) 4137A85 / 23-02

(22) 10/20/86

(46) 06.23.89. Bul № 23 (72) S.I. Zhulev, V.I.Sergeev and A.Yu. Petunia

(53) 621.746.3 (088.8)

(56) USSR Copyright Certificate No. 766738, cl. B 22 D 7/10, 1978.

USSR Author's Certificate No. 1222401, cl. B 22 D 7/10, 1983.

(54) SUPPORT-HOLOSCHSHNIK TO POSITION

(57) The invention relates to ferrous metallurgy and can be used in the casting of forged ingots. The purpose of the invention is to increase the yield of a suitable metal. The proposed extension cooler to the mold for forging-1-O ingot has a variable cross-sectional shape along its longitudinal axis. At the same time, at the upper end, it is made in the form of a wavy contour with the ratio of the diameters of the circles inscribed in the contour of the depressions and protrusions, 0.5-0.9, and at the lower end, in the form of a circle. This makes it possible to reduce the consumption of metal for the formation of the upper part of the ingot used in the forging process, in the quality of a trunnion for the cartridge of a forging manipulator. The transverse size of the shrinkage shell is significantly reduced. 4 il.

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The invention relates to the field of ferrous metallurgy and can be used in the casting of forge ingots.

The aim of the invention is to increase the yield of the metal.

Figure 1 shows the extension-fridge, general view; Fig. 2 shows an extension fridge with an outer surface that follows the shape of its inner surface; on fig.Z - the same, with a heat insulating coating, made on its outer surface; figure 4 is the same, with a heat insulating coating, made on its inner surface.

The extension contains a metal housing 1 having a variable cross-sectional shape of the working cavity.

along its longitudinal axis. At the lower end, the cross-section of the extension-cooler is made in the form of a circle 2, and at the top - in the form of a wavy contour 3 with a ratio of the diameters of the depressions and protrusions equal to 0.5-0.9.

The outer wall 4 of the extension cooler may be cylindrical or follow the contour of the working cavity.

The metal body of the extension cooler can also be lined with a layer 5 of heat insulating material. This layer can also be made in the lower part of the working surface of the wall.

The proposed cooler allows you to get a piece of ingot with

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satisfactory strength of the hardened crust of the upper end due to the variable heat sink along the height of the extension, increasing from bottom to top of the extension, and reduce the amount of metal hardened in the lower part of the extension.

With this design of the extension cooler, the heat sink from the solidified metal will be uniformly reduced from top to bottom. In the upper section, having the form of a fibrous contour, the heat sink will be maximum, and in the lower section, having the form of a circle, is minimal.

In the solidified ingot, the level of the liquid metal in the extension cooler is constantly lowered, therefore in the underlying horizons the time for the formation of the solidified metal crust will be greater than that of the upper ones. Reducing the rate of solidification of the metal in the extension-cooler from the top to the bottom makes it possible to obtain the same thickness, the crust on the head, strong enough to use the head under the trunnion forging. Reducing the amount of metal hardened in the extension-cooler increases its flow into those ingots to compensate for shrinkage, and consequently, reduces the diameter of the shrinkage shell in the ingot body.

When making the upper section with a ratio of 1 meter of troughs and protrusions greater than 0.9, it is impossible to achieve a decrease in heat removal from the top to the bottom and a decrease in the quality of the metal hardened in the head section, when making the upper section with a ratio of the diameters of the troughs and protrusions less than 0.5 hardened crust at the top of the fridge top.

For large ingots, when the accumulating capacity of the extension is not enough to solidify the metal in the head, the outer surface of the extension cooler repeats the shape of its inner surface.

In order to better feed the ingot body with liquid metal, a heat insulating coating is made on the outer surface of the extension-cooler.

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Such a cooler in the first solidification period works as a cooler to form a dense crust, allowing the head of the ingot to be used for the capture of a pulley. Thermal insulation coating made on the outer surface of the extension cooler prevents heat from its outer surface, therefore, when heated, the extension cooler acts as a profitable extension, making it difficult for the heat from the top of the ingot to become difficult.

With the same purpose, a layer of thermal insulation coating is applied on the bottom of the inner wall of the extension cooler. At the same time, in the first period, when the volume solidification rate is maximum, the level of the liquid metal in the head part of the ingot rapidly decreases, and a maximum heat removal is required to form a thick crust in this area. As the mold warms up and a hardened crust forms in the body of the ingot, the rate of solidification decreases and the cooler during this period plays the role of profit.

Thus, the proposed cooler allows reducing the consumption of metal for the formation of the upper part and used in the forging process as a pin for a chuck of a forging manipulator. In addition, the transverse size of the shrinkage shell is significantly reduced. All this allows to reduce metal losses in the casting of the ingot AND in the process of its redistribution.

Claims (1)

Invention Formula A cooler extension to a mold for a blacksmith's ingot having a variable cross-sectional shape along its longitudinal axis, characterized in that, in order to increase the yield of suitable metal, its working cavity in the cross-section at the upper end is made in the form of a wavy contour with the ratio of the diameters of the circles inscribed in the contour of the depressions and protrusions, 0.5-0.9, and at the bottom end - in the form of a circle. . / ig.Z Phie, 2 3 2 Ftie. if