SU772680A1 - Pattern set - Google Patents

Description

The invention relates to foundry, in particular, to model tooling for the manufacture of shell molds. A known model kit for the manufacture of shell molds with a ferromagnetic powder, containing a model plate and a hollow model, in the cavity of which an electromagnet 11 is installed. to keep the ferromagnetic powder on its surface between the two poles of the magnet, which leads to an increased consumption of the ferromagnetic powder and reduces the cooling efficiency. The purpose of the invention is to reduce the consumption of ferromagnetic powder while simultaneously increasing the efficiency of cooling. This goal is achieved by the fact that the model is made of alternating layers of ferromagnetic and nonmagnetic materials, for example, steel and copper layers with a thickness of 1 mm. FIG. 1 shows a variant of the design of the model kit; in fig. 2 - magnetic field lines. between two poles when performing a model of alternating layers of ferromagnetic and nonmagnetic materials. The model kit contains a model PLATE of ferromagnetic material (for example, steel), on which model 2 is cast, made of alternating layers of sheet steel and copper, or a toli-other 1 mm. These layers are located in the model only in those places where it is necessary to hold the powder, in this example, along the vertical wall where the defects in the casting are concentrated. This simplifies the design of the model and reduces the consumption of powder. Inside the model there is an electromagnet winding 3 and a steel core 4, which is also a bolt tightening the entire structure. When current is passed through the winding of the electromagnet 3 around the latter, a magnetic field is excited, the shape of the power lines of which, due to the fact that the casting model is made of alternating layers, provides

Claims (1)

Claim A model kit for the manufacture of shell forms with ferromagnetic powder, containing model ¹ plate and a hollow model, in the cavity of which an electromagnet is installed, characterized in that, in order to reduce the consumption of ferromagnetic powder while simultaneously increasing the cooling efficiency, the model is made of alternating layers of ferromagnetic and non-magnetic ·: Materials.