SU977502A1 - Charging apparatus for blast furnace - Google Patents

Description

(54) SPARE DEVICE OF A DOMAIN FURNACE

one

The invention relates to ferrous metallurgy, in particular, to devices for loading shaft furnaces, and can be used in blast furnace production.

Typical charging devices of the USSR are widely used for blast furnaces, with a life of 5 to 8–10 months.

A typical backfill consists of a cone and a bowl. The bowl is made flexible so that, with elastic and residual deformations of the cone, it can ensure a tight, secure gas seal 1.

Blast furnace filling devices operate at 500-800 ° C under gas-abrasive wear conditions.

To increase the service life, surfacing of contact S surfaces of cones and cups with expensive material PL-AP111 is currently performed. But due to warping of the cones and bowls, this does not lead to a significant increase in service life.

The main reason for the failure of the charging unit 2o of the apparatus is the overheating and temperature difference between different parts of the cone, as well as along the wall thickness.

The thermal stresses arising in this case lead to a progress, a distortion. The warping contributes to the formation of blow-outs and the development of cracks present on the weld contact surface. When a blowout occurs, the charging unit is quickly out of service.

Closest to the proposed technical essence and the achieved result are charging devices containing a cone and a thicket, in which attempts are made to reduce the cone buckling by protecting it from high temperature by using a screen 2 installed from below.

Thermal protection is carried out through the installation of the screen, slightly reduces overheating and temperature differences, but does not provide a significant reduction in the warping and, consequently, an increase in service life.

The purpose of the invention is to increase the service life of the charging unit by reducing the cone warping during operation.

The goal is achieved by the fact that in the backfill apparatus of a blast furnace, including a cone and a bowl, the cone is provided with a cast iron ring of rigidity, installed in

its base and the contacting side surface with the inner surface of the base of the cone, the ratio of the cross-sectional areas of the ring of stiffness and the base of the cone in contact with it is 1.5-3.0.

After casting the cone or its bottom (often the cone is made of two parts to be welded) and heat treated, the inner side surface and the horizontal base rib are machined at the seat of the stiffening ring.

In the ring of stiffness, the side surface and the base are machined.

The drawing shows the filling apparatus, the incision.

The filling device consists of a cone 1 with a bowl 2. In the lower part of the base of the cone 1 there is a stiffening ring 3 in contact with its lateral surface 4 with the inner lateral surface of the cone 1, the stiffness ring 3 is mounted on the fastening ring 5.

After machining, a stiffening ring 3 is placed in the base of the cone 1, then a steel fastening ring 5 (solid or by sectors) is made of a sheet with a thickness of 10-20 mm.

Thereafter, at the junction of the inner side surface of the base of the cone 1 and the side surface of the ring 5 of the mount, the latter is welded to the cone 1.

Subsequent operations: welding of the two parts of the cone, surfacing, heat treatment, mechanical treatment — are performed in the established order.

The presence of a ring of stiffness eliminates warping of the hull, which usually accompanies the cladding and subsequent thermal processing.

During the operation of the charging apparatus, the temperature difference across the wall thickness and the circumference of the base of the cone is 50-150 ° C. When the channel course of the furnace differential can be higher. This causes the occurrence of significant thermal stresses resulting in cone buckling.

In this case, the stiffening ring is deformed elastically and makes it more difficult to deform the base of the cone. When aligning the temperatures along the wall thickness as well as along the length of the base circumference, the cast iron ring of rigidity takes on the initial configuration and causes the inner side surface of the base of the cone to adopt the same configuration and thus significantly reduce the distortion.

At the same time, in the zone of interaction of the lateral inner surface of the base of the cone and the lateral surface of the stiffening ring, a considerable pressure (P) acts on the latter.

Therefore, a correctly chosen ratio of the cross-sectional areas of the ring of stiffness and the base of the cone is of great importance.

The cross-sectional area of the stiffness ring (made mainly of cast iron) should be 1.5-3.0 of the cross-sectional area of the adjacent base of the cone.

If the ratio is less than 1.5, then the contact force interactions arising between the elements will lead to the destruction of the ring stiffness. Increasing this ratio by more than 3,, 0 is not rational, since it will cause the design to become loose and make balancing and operation of the ring more difficult.

Thus, due to the cone provided with a ring of stiffness with the above ratios, the service life of the charging apparatus will significantly increase.

The expected economic effect from the use of the invention will be 263.0 thousand rubles.

Claims (2)

1. D.Shorozhik and others. Manufacturing and operation of boot devices for blast furnaces. M., 1973, p. 60-61, fig. 35 2. Shtepa, E.D., et al. Collection of works of DonNIIchermet, vol. 8, "Metallurgists, with. 280-287.