RU1768907C - Molten metal transfer device - Google Patents

Abstract

The invention relates to the field of metallurgy of metals having a low melting point, e.g. lead. An object of the invention is to increase the productivity of a device. The device for pumping molten metal contains a solenoid, a magnetic circuit and a chamber having a cover, a side wall and a bottom with an inlet and hermetically connected to the inlet and outlet metal circuits. The side wall of the chamber is made of non-magnetic conductive material, the chamber cover is made of ferromagnetic material and an insulating coating is applied to its inner surface, and the bottom of the chamber is made of ferromagnetic material and the inner surface of which is insulated with a gasket for electrical isolation of the input metal wire from the side of the chamber, and the gasket is hermetically connected to the electrical insulating coating of the inner surface of the bottom Skane constant current through the solenoid device is immersed into the melt chamber to fill the latter, in the gap between the lid and the bottom of a magnetic field. When a constant voltage is applied between the chamber wall (for example, through metal through the wire) and the molten bath, current la flows, when it interacts with the magnetic field, the force F acts on the melt in the chamber. Under the action of the force F, the metal in the chamber begins to rotate, resulting in a pressure drop occurs between the input and output metal wires and the metal is pumped in the direction from the input to the output metal wire 2 sludge. w o 00 o

Description

The invention relates to metallurgy and can be used for pumping molten metals, for example, lead and its alloys, from furnaces, electrolysis baths, etc.

The purpose of the invention is to increase the productivity of a device.

In FIG. 1 shows a section of a device; in FIG. 2 is a current distribution diagram.

The device contains a solenoid 1, covering the casing 2 of the magnetic circuit, which is mounted on the upper disk 3 of the magnetic circuit. The magnetic circuit also includes a pipe 4 and a lower disk 5, while all the details of the magnetic circuit are made of ferromagnetic material. A chamber is sealed in the gap between the highlander of the rod 2 and the lower disk 5, which is hermetically connected to the input 6 and output 7 metal wires. The side wall 8 of the chamber is hermetically connected to the cover 9 and the bottom 10 of the chamber, made of ferromagnetic material, with insulating coatings 11 and 12 deposited on their inner end surfaces. A gasket 13 of electrical insulation material is hermetically connected to the cover 12 of the bottom. The gasket 13 can be placed anywhere on the bottom, in particular at the junction of the bottom with the side wall 8 of the chamber.

The device operates as follows.

Before starting work, the device is immersed in a molten bath so that the chamber is completely filled with metal. When the direct current And passes through the solenoid 1, a magnetic field arises in the gap between the inner surfaces of the cover 9 and the bottom 10. Since the lid and bottom of the chamber are made of ferromagnetic material, they, together with the magnetic conduit, form a magnetic system that provides the maximum possible field at a given value of the current through the solenoid.

When a constant voltage is applied between the side wall 8 of the chamber (for example, through metal wire 7) and the molten bath, current 2 flows along the path: a bath with a melt — metal wire 6 — metal in the chamber — wall 8 of the chamber. Thanks to the gasket 13 and the coatings 11 and 12, the current h is directed along the radius of the chamber perpendicular to its axis. When the current 2 and the magnetic field interact, a force F acts on the melt in the chamber, directed perpendicular to the plane of the drawing, under which the metal begins to rotate in the chamber, as a result of which a pressure drop arises between the input and output metal wires, and the metal is pumped in the direction from the input to output metal wire.

Claims (1)

SUMMARY OF THE INVENTION A device for pumping molten metal comprising a solenoid, a magnet wire, a chamber with a lid, a side wall and a bottom, hermetically connected to the input and output metal wires, characterized in that, in order to increase productivity, it is provided with an insulating gasket, placed in the bottom of the camera, coaxial to the input metal wire, the cover and the bottom of the camera are made of ferromagnetic material with an insulating coating deposited on the inner surfaces of the bottom and cover, and the gasket and the bottom covering is hermetically connected to each other. FIG. 2.