SU835598A1 - Vertical slot ingate system - Google Patents

Description

one

The invention relates to foundry production, in particular to gating systems.

Vertical-slotted gating systems are known, which are intended for the production of directional solidification castings, including one hundred, one-way runner, one-way back and one-way feeder, which are based on different metal consumption through the bottom and top parts of the feeder when casting mold 1. Such gating systems combine the simplicity of their manufacture with the ability to create directional solidification of the casting.

A significant disadvantage of the known vertical-slot gating systems is the predominant supply of metal through the lower and middle parts of the slit feeder, which has a negative effect on the directional solidification of the castings.

Various devices of gating systems are also known that allow the supply of metal to the meniscus zone to be organized.

Closest to the invention but the technical essence is a gating system, including one hundred, one reverse, and a slit feeder, the walls of which

made in the type of coolers narrowed upwards.

The use of refrigerators installed in a slotted feeder, most of which are located at the bottom of the mold, does not always ensure reliable operation of the gating system, especially when pouring metal-intensive forms, since the temperature of the metal coming from the casting ladle is reduced and it is impossible to choose the size of the refrigerators for consistent overflowed the slit feeders from bottom to top and thus ensure their layer-by-layer filling.

The aim of the invention is to increase the reliability of operation of the gating system when pouring metal-intensive forms.

To do this, in the gating system, which includes a hundred to, reverse to hundred, slit feeder and refrigerator installed in the slotted feeder, the refrigerator is made as separate elements interconnected by fusible inserts. The drawing shows schematically

proposed vertical-slotted gating system.

It includes one hundred to one, one hundred to two reverse, slotted runner 3. Metal enters the cavity of the mold 4 through

1Business feeder 5 and fusible inserts 6, installed between the individual elements 7. Fusible inserts 6 and elements 7 are installed in the channel 8, made in the slotted feeder 5.

Litnikov system works as follows.

The cavity of the mold 4 is filled with metal through a hundred to 1 and reverse hundred to 2, interconnected by a slit die 3, and then through a slit feeder 5.

The slit-feeder 5 overlaps with the refrigerator elements successively from bottom to top after alternately melting the inserts 6 with the cast metal. In this case, the rate of melting of the inserts corresponds to the rate of rise of the metal level in the mold.

For normal operation of the device, it is necessary that the density and melting point of the material of the refrigerators be higher than that of the metal being poured.

When choosing the material of the melted inserts, one should proceed from the condition of the intensity of their melting by the cast metal, as well as the degree of influence of their decomposition products on the quality of the cast billet.

Depending on the particular castings, elements of various shapes and cross sections are used.

When choosing the dimensions of the elements of the refrigerator, they are based on the condition of ensuring their stable entry into the channel of the return flow, the ability to take heat from the molten metal and to refreeze stagnant zones around them.

The practice of using elements of a refrigerator of various heights has shown that their height must be at least half the cross section of the backflow. The use of elements of smaller height can lead to misalignment of their location in the channel of the return flow and thus will not provide reliable overlapping and freezing of the slit feeder.

The height of the melted elements must not exceed the height of the refrigerators.

It is desirable that the total height of the elements of the refrigerator correspond to the height of the casting before profit, and the height of the set of elements and melted inserts does not exceed the height of the backflow.

The use of the proposed device regulates the process of freezing the slit feeder from below.

upwards - and creates optimal conditions for the directional solidification of castings.

Claims (2)

1. Vasilevsky PF Steel casting technology. - M., 1974, p. 130-131. 2. USSR author's certificate number 356567, cl. In 22C 9/08, 1971.