SU1072764A1 - Electrode holder of electroslag melting furnace - Google Patents

Abstract

The ELECTROSLAG FACTORY FURNACE ELECTRODE HOLDER A contains a housing with two openings in which current-carrying shoes are installed through insulating pads, each of which are connected to the ON-O power of the transformer winding, and an inventory head made of two insulated two from one another. Parallel racks installed with the upper section of the trapezoidal shape, each of which is electrically connected with one of the said shoes, are aphid and so that, in order to expand the technological remelting opportunities by getting TIPS of various sizes, it is equipped with two metal brackets rigidly connected to the shoes, mechanically connected to each other by means of insulated insert hairpins, on the surfaces of the brackets facing one another are bevelled, the response section of the upper section of racks installed between them, and the joint venture each rack is isolated from one of the brackets.

Description

This invention relates to electrothermal, in particular, electroslag remelting (ESR) furnaces.

Known electric holder of the furnace ESR containing a prismatic beam; to which the two polarity current-carrying plates are attached on two sides and on which the inventory heads of the electrodes are suspended.

The disadvantages of the atoro electrode method are the complexity of the design and the limited size of the melted ingot.

The closest in technical essence to the invention is the electrode holder of an ESR furnace, comprising a housing with two openings in which current-carrying

shoes, each of which is connected by a pipe pipe to ONE OF the winding pins

About the transformer, and the inventory head,

Vl, made in the form of / two insulated XJs, one from the other in parallel with the installed racks with the upper section of the trapezoidal shape, each of which is electrically connected with ONE of the indicated shoes.

The disadvantage of this electrode-containing step is the limited size of the produced INGOTS.

The aim of the invention is to expand the technological capabilities of remelting by making ingots of various sizes.

The goal is achieved due to the fact that the electrode holder is equipped with two metal brackets rigidly connected to the shoes, mechanically

interconnected by means of insulated studs and inserts, on the surfaces of the brackets facing one another, the bevels of the form are made, the cross section of the upper section of the racks installed between them, each rack being isolated from one of the brackets,

FIG. 1 shows a general view of the pre-raeiMoro electrode holder of an ESR metal installation; in fig. 2 is the same, top view; in fig. 3 - section A-A in FIG. 4, neither of FIG. 4 is a section BB in FIG. one; in fig. 5 is a sectional view BB in FIG. one.

The electrode holder of an ESR metal installation comprises a housing 1 fixed on the carriage 2 and having two wedge holes 3, current-carrying support shoes 4 fixed to the housing through insulating gaskets 5, and pipe 6 for connection to the shoes 4 of one output hole a, and to shoes 4 - second output x.

In Holes x3 of case 1, current-carrying brackets 7 are fixed, parallelly arranged with a gap and rigidly interconnected by means of insulated pins 8 and inserts 9. Bevels 10 are formed on the internal contact surfaces of brackets 7 facing one another, forming a wedge 11, where the inventory head 12 is installed. The insulating plates 13 are fixed to the bevels of the 10 contact surfaces of the brackets 7. The insulating plates 13 are oppositely displaced relative to one another, which provides Chiva connection terminals a and x corresponding to the current carrying parts of the inventory of the head 12.

The device works as follows.

The current-carrying brackets 7 with wedge protrusions fastened together with a gap are inserted into the holes 3.

the bodies 1 and are rigidly connected to the shoes 4 by means of a threaded joint. A multielectrode inventory head 12 is installed in the wedge 11 formed between the brackets 7, the current-carrying parts of which are connected: one with the output a and the transformer windings, and the other with the output x. In this way, current is supplied through the respective pipes 6, the shoes 4, the brackets 7, the current-carrying parts of the inventory head 12 to the consumable electrodes. When current is supplied to the multi-electrode inventory head 12, various purposes are smelted,

configuration and size of ingots.

The use of the proposed electrode holder will significantly expand the technological capabilities

Installation of ESR metals, which will provide various in purpose, configuration and size of ingots with a large melt surface.

Expected economic effect from

use of the proposed electrode holder 69300 rubles.

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Claims (1)

ELECTRIC KEEPER HOLDER FOR ELECTRIC SLAG REFINING FURNACE, comprising a housing with two holes in which current-carrying shoes are installed through insulating gaskets, each of which is connected by a pipe with