PL108471B2 - Electromagnetic device for metering liquid metals - Google Patents

Description

The subject of the invention is an electromagnetic dispenser for liquid metals with a high lifting height. Known types of electromagnetic dispensers, i.e. dispensers with electromagnetic chute, conduction, electrodynamic, induction single-phase or with electromagnetic pumps have complex magnetic circuits and ceramic parts and a relatively low lifting height too small for emptying tall tanks and melting or standing furnaces. They also require, in some solutions, additional heating circuits to prevent the metal in the channels from solidifying during longer dosing breaks. The electromagnetic dispenser according to the invention for liquid metals has a magnetic circuit consisting of a magnetic core and a multi-section three-phase winding, the circuit being the magnetic is placed inside the ceramic shape. The multi-section three-phase winding is fed by an alternating three-phase current and is located along the height of the liquid metal channel. Preferably, the ceramic body is connected to the pipe connecting the tank or furnace containing the liquid metal, so that the liquid metal is taken from the lower layers of the tank or furnace. The electromagnetic dispenser according to the invention is reliable in operation and has a high lifting height for the liquid metal, and also great dosing accuracy and efficiency. It is simple in construction, also because it does not contain additional heating elements maintaining a constant temperature of the liquid metal in the feeder channel during breaks in dosing, because for this purpose the three-phase winding is switched to single-phase operation, which causes inductive heating of the liquid In addition, the multi-section three-phase winding can be switched on in a reversible manner to change the direction of the traveling field so that the device works as a solenoid valve. The subject of the invention is shown in the example embodiment in the drawing, in which Fig. 1 shows a vertical section of the dispenser and Fig. 2 is a plan view thereof.2 108471 The ceramic body 2 has a cylindrical channel 4 in which there is a liquid metal 5, a pipe connecting the channel 6 to the liquid metal reservoir 7. The top of the channel 4 is covered with a ceramic cover 9. Inside the ceramic shape 2 there is a magnetic circuit of the dispenser, consisting of a stepped magnetic core 1 and a multi-section three-phase winding 3. The space between the winding 3 and the wall of the ceramic form is filled with a layer of heat-insulating material 8. The whole device is on a supporting structure. 10. The dispenser works as follows. The three-phase current flowing through the winding 3 of the dispenser creates a running magnetic field which induces an alternating current in the liquid metal. The interaction of this current with the running field is a source of electromagnetic forces and pressures, which, with the appropriate connection of the winding to the three-phase network, cause the lifting of the liquid metal 5 in the channel 4. After crossing the upper edge of the pouring gutter 11, the liquid metal flows by gravity to the mold or casting machine 12. During long dosing interruptions, in order to avoid solidification of the liquid metal in the channel 4, the sequence of the three-phase feed is changed, which causes the electromagnetic force to reverse and, as a result, force the liquid metal from the feeder channel back into the tank. After switching the winding section to series connection and single-phase supply, induction heating is obtained during dosing breaks, which prevents the metal from solidifying in the channel. Patent claims 1. Electromagnetic dispenser for liquid metals having a magnetic core and a ceramic shape, characterized by the fact that its electromagnetic circuit consisting of the magnetic core column (1) and the multi-section three-phase winding (3) is placed inside the ceramic shape (2). 2. The dispenser according to claim A method as claimed in claim 1, characterized in that its multi-section three-phase winding (3) is fed with a three-phase alternating current and is arranged along the height of the liquid metal channel (4) (5). 3. The dispenser according to claim The method of claim 1, characterized in that its ceramic form (2) is connected to a connecting pipe (6) with a tank or furnace (7) containing liquid metal (5) so that the liquid metal is taken from the lower layers of the tank or furnace. Typographer. UP PRL, circulation 120 + 18 Price PLN 45 PL

Claims (3)

Claims 1. An electromagnetic dispenser for liquid metals having a magnetic core and a ceramic shape, characterized in that its electromagnetic circuit consisting of a magnetic core column (1) and a multi-section three-phase winding (3) is placed inside the ceramic shape (2). ). 2. The dispenser according to claim A method as claimed in claim 1, characterized in that its multi-section three-phase winding (3) is fed with a three-phase alternating current and is located along the height of the liquid metal channel (4) (5). 3. The dispenser according to claim A method as claimed in claim 1, characterized in that its ceramic form (2) is connected to a connecting tube (6) with a tank or furnace (7) containing liquid metal (5) so that the liquid metal is taken from the lower layers of the tank or furnace. Wash. Typographer. UP PRL, circulation 120 + 18 Price PLN 45 PL