SU1700779A1 - Contact cheek-piece of electric arc furnace - Google Patents

Abstract

This invention relates to electrothermal conditions. The cheek channels are made in the form of two V-shaped loops located in two vertical planes, the lower points of which are located at the same level in height and offset from the central vertical axis with a distance between them equal to 0.3-0.35 of the slab width, and the outlets of the loops are located symmetrically relative to the vertical axis of the cheek. 4 or

Description

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WITH

This invention relates to electrothermal conditions.

The purpose of the invention is to increase the life of the cheek.

FIG. 1 shows a contact cheek in a section, a general view; figure 2 is the same, top view; fig.Z - the same, side view; figure 4 - the upper part of the cheek.

The contact cheek contains a plate 1, two vertical V-shaped drilled channels 2 and 3 located in two planes parallel to the working contact surface of the cheek 4. Copper current-supply pipes 5 are welded into the outlet openings of channels 2 and 3. the surface of the cheek, located opposite to its working surface, is attached to the pad 6 with the help of bolts 7,

A steel plate 8 is installed in the patch, which is electrically insulated from

plate 1 gasket 9. Channels 2 and 3 are connected in series by a jumper 10 welded to the pipe 5 (figure 2).

Acceptance conventions; B is the width of the cheek, B is the distance between the lower points of the loops of channels 2 and 3, h is the distance from the lower points of the loops of channels 2 and 3 to the lower edge 1. are the angles of the bevels on the upper edge of the plate 1.

Contact cheek works as follows.

During operation of the electric furnace, cooling water is constantly circulating in the V-shaped channels 2 and 3 of the contact cheeks. The water is supplied and discharged through the current-supplying pipes 5, which are welded into channels 2 and 3. First, water enters the V-shaped channel 3, located closer to the working surface A of plate 1, then through jumper 10

Xj

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vj vj h

passes into another V-shaped channel 2 and through pipe 5 enters the water-cooled system of the current lead,

The advantage of the proposed design of the contact cheek is that it lacks a horizontal channel with a plug (stopper), which virtually eliminates the possibility of depressurization of channels 2 and 3, i.e. increases the life of the cheek.

The slopes on the upper edge of the plate 1 are made at angles a and / so that the drill bit is set perpendicular to the plane. The angles are determined depending on the geometric dimensions of the plate 1.

To ensure uniform cooling of the lower part of the plate 1, the lower points of the channels 2 and 3 should be located at the same height as the offset relative to the central vertical plane perpendicular to the plane of the loops, the size being 3-0.35 V.

At B 0.3V, the cooling of the lateral ends of plate 1 is deteriorated, and at B 0.35 V, the central part of plate 1 is less efficiently cooled.

In the manufacture of V-shaped channels 2 and 3, it is advisable to make the diameter of one of the branches of the loop equal to 1.05-1.1 of the diameter of the other branch. Suppose that the diameter of one of the branches is $ 32 mm, then the diameter of the other branch of the loop is 1.05-1.1 33.6-35.2 mm.

Such a process allows for a certain offset of the hole when drilling.

The range that determines the distance, 3-0.4V, is optimal.

When 3, the water-cooled channel comes too close to the lower edge of plate 1. Therefore, when the lower edge burns out (the most thermally stressed part of plate 1), the channel will depressurize and water will enter the furnace bath, which is unacceptable according to safety conditions. At 4 V, the heat removal of the most heat-stressed portion of Plate 1 will deteriorate, which is also not advisable.

The line connecting the centers of adjacent holes of channels 2 and 3 is parallel to the lateral surface of the plate 1 and is separated from it by an amount equal to 1.3-1.5

the diameter of the hole channel. At a distance of less than 1.3 of the channel diameter, the hole will come too close to the side surface of the plate 1, which is non-technological, and at

a distance greater than 1.5 times the diameter of the hole will reduce the cooling of the side surface of the plate 1.

The proposed jaw design allows both sequential cooling of channels 2 and 3, as well as parallel cooling.

It may be reasonable to connect the internal channel 3 only with a water cooling system, i.e. without a current lead to it, and the supply of current to the cheek is carried out by pipes 5, entrusted to the outer channel 2.

During operation of the furnace, the contact surface of the cheek 4 is exhausted and, ultimately, this can lead to depressurization of channel 2. In this case, cooling of channel 2 can be stopped, and the contact cheek can be operated for some time, since the current supply to it is carried out through the external channel 2 .

From the point of view of safety, the proposed cheek also has certain advantages over the well-known one, not only due to the fact that it does not have a tight canal plug in the working area.

cheeks, but also the ability to connect cooling circuits both sequentially and in parallel with each other, and also because lifting and gravitational forces are used rationally in the x branch

cooling circuit.

Claims (1)

Claims of the invention: Contact cheek of an electric arc furnace containing a plate with interconnected water-cooled loop-shaped channels in the outlet openings x of which, at the upper end of the plate, current-carrying pipes are installed, so that, in order to increase the service life of the cheek, the channels are made in the form of two V-shaped loops located in two vertical planes parallel to its wide faces, the low points of which are located at the same level in height symmetrically with respect to the vertical axis plates with a distance between them equal to 0.3-0.35 the width of the plate, and the outlets of the loops are also located symmetrically relative to the vertical axis of the plate. Sodbi Supply J 5-0,0.358 Phage. one FIG. 2 Fi.Z