SU436703A1 - Metal casting mold - Google Patents

Description

one

The invention relates to the field of foundry and can be applied in foundries of engineering plants.

Currently, there are solid metal forms (molds, chill molds). During operation, significant thermal stresses develop in their walls due to the presence of temperature differences in thickness, height and perimeter of the cross section. These stresses are caused by unrealized thermal deformations of the rigidly bonded wall and lead to the appearance of cracks and the failure of the metal mold.

Metal casting molds are known, consisting of an outer shell and inserts fixed by wedges. Strengthening of metal molds (reinforcement, banding, stiffening ribs) does not eliminate the occurrence of thermal stresses, and lish increases the forces that prevent deformation forces. In some structures of metal forms, using a special tool, they create a field of residual stresses, which is obviously greater than the floor of the working stresses, i.e., they again increase the magnitude of the forces that prevent deformation.

The purpose of the invention is to increase the durability of the forms. For this, the wedges are made with a double-sided taper of 10-25 °.

FIG. 1 shows the proposed form, in section; in fig. 2 - the same, top view.

The form consists of a steel shell I, inserts 2 of heat-resistant material and wedges 3.

During assembly, the inserts fit snugly together due to metal or graphite wedges inserted into the recess by the insert and the shell. In this case, the outer surface of the insert and the inner surface of the shell have a reverse taper, so that the wedge fully touches their two planes of surfaces.

When the liquid metal is filled into the cavity, about) with inserts, the latter are heated and. expand, press on the surface of the wedge. Due to the existing two-sided taper, the wedge under the action of thermal expansion forces of the insert, overcoming friction, squeezes out the space between the insert and the shell. A gap is formed between the inserts. The metal, however, cannot squeeze into the gap, since it is formed by a crust. After complete casting crystallization, the mold is easily disassembled. The wedge must move freely.

under the action of thermal expansion of the inserts, for this wedge should be graphite or metal, having the lowest possible coefficient of friction in the nara with material vetaki and shell. To reduce the friction coefficient, metal wedges are dyed with graphite, and the two-sided taper of the wedges is made so that their displacement {10-25 °) can be easily performed. In this case, the surfaces of the wedges can be both flat and made along the radius, which makes it possible to regulate the friction forces. In the latter case, the joints

the wedge with the jack and insert is also radial.

Subject invention

The metal mold containing the outer shell and the inserts fastened with wedges, is characterized in that in order to relieve thermal stresses and increase the durability of the mold, the wedge is made with a double-sided taper of 10-25 °.