SU523265A1 - Sealing device - Google Patents

Description

one

The invention relates to the field of metal smelting in electric arc furnaces and smelting furnaces, and more specifically to devices for preventing the release of hot gases from steel-smelting furnaces through leakages between arches and electrodes.

Various designs of sealing devices for intergap gaps are known: for example, those in which the metal ring rests loosely on a water-cooled glass, or made in the form of an electromagnetic device, a water-cooled coil, a conical funnel with asbestos cable or granulated material 1.

However, these seals have not been used in industry. due to the low efficiency and complexity of maintenance.

Sealing devices with self-tightening sectors are known, consisting of a welded water-cooled box having an inclined upper surface on which 6-8 sectors made of non-magnetic steel slide. The plane of the joints of adjacent sectors is planed in such a way that the sectors form a closed conical lid that slides over the paclon surface of the box and is pressed against the electrode. Sectors have hooks bent down to prevent them falling into the furnace when changing electrodes.

A disadvantage of the known device is that as the electrode is worn, the sealing of the seal is lost. In addition, the significant weight of the device represents the load for the roof and reduces its service life. The fabrication of the guide funnel and the sectors from the metal leads to the formation of an arc between the sector and the funnel when the insulation between the sealing ring and the roof frame is broken, which leads to their release.

In order to increase the durability and reliability of the sealing ring in the proposed device, the sealing sectors are made of refractory material with a guide groove along the axis of symmetry of the sector, and the metal funnel is made with guide lugs and provided with an emphasis located on the side of the furnace chute.

FIG. 1 shows the proposed device, a general view; in fig. 2 is a section along A-A in FIG. one.

The device has a cup 1 of refractory concrete, which is part of the roof, cooled by a tubular coil 2. On the upper conical surface of the cup 1, a guide funnel 3 is fixed, having a horizontal angle of 35-40 ° from the horizontal. On the part of the side surface of the funnel, on the side of the drain toe, a stop is mounted 4

working surface — centering protrusions 5. Sectors 6 are installed on the guide funnel, having a protrusion 7 on one side face, groove 8 on the other side, and a centering groove 9 on the lower surface. On the side of a large radius, sectors have stops 10 that prevent the sector from falling oven when changing electrodes.

The sealing ring works as follows.

During the movement and oscillation of the electrodes 11, the sectors 6 move along the guide funnel in the radial direction upward under the action of the electrode, downward under the action of gravity, so that the inside surfaces of the sectors are all the time pressed to the electrodes. In operation, the inner surface of the sectors is worn out, as a result of which the sectors descend along the inclined surface of the guide cone until the entire gap between the lateral edges of the sectors and the lateral planes of the sectors are closed. When this position is reached, the sectors are replaced. When the furnace is tilted during metal drainage, a stop 4 serves to prevent the sectors from falling. To fix the sectors when changing electrodes and to install the electrodes after the build-up, stops 10 and the taper of the working edge of the sectors are used.

Claims (2)

1.Stroganov A.I. and others. Arc electric furnaces. M., “Metallurgists, 1975, pp. 106-107. 2. Edneral F. P. Electrometallurgists of steel and ferroalloys, M., “Metallurgists, 1950, p. 35. W