SU1571073A1 - Unit securing cooling plate to blast furnace jacket - Google Patents

Abstract

This invention relates to ferrous metallurgy, in particular to cooling devices for blast furnaces. The purpose of the invention is to increase the gas density of the attachment unit of the cooling plate to the casing of the blast furnace and to protect the hollow stud and the casing of the blast furnace from ruptures due to thermal deformations and stresses. The fastening assembly of the cooling plate 1 comprises a hollow stud 3 connected to the inflow slot 5 of the cooling plate. The middle part of the stud through the flange 6 is welded to the cooling plate, the outer end 7 of the stud is connected to the casing 2 by a nut 8. Between the casing 2 of the blast furnace and the flange 6 a compensation gasket is installed in the form of an elastic dish-shaped spring 9. Increasing gas density and stability of the node during thermal stresses x is achieved by deformations and rotation of the spring 9. 3 Cp f-ly, 1 ill.

Description

The invention relates to the field of ferrous metallurgy, in particular to cooling devices of blast furnaces.

The aim of the invention is to increase the gas density of the attachment unit of the cooling plate to the casing of the blast furnace and to protect the core bar and the casing of the blast furnace from ruptures due to thermal deformations and stresses.

The drawing shows a vertical section of the device.

The fastening assembly of the cooling plate 1 and the blast furnace casing 2 comprises a hollow hairpin 3 with an axial channel 4. One end of the hairpin is connected to the nest 5 of the inflow of the cooling plate, which is made on its outer side. The middle part of the stud is welded to the cooling plate through the flange b. The outer end 7 of the stud is connected to the refrigerant supply pipe and the nut 8. The flange b is made with corrugations 9 located along the axis of the stud. At least the wall of one of the corrugations is made with corrugations 10 located in its plane. The spaces 11 between the corrugations on the inner side are filled with elastic-elastic (for example, graphite mass with chips of non-ferrous metals), and the spaces 12 between the corrugations on the outer side are filled with a porous refractory mass. The end of the corrugations 13 is rigidly connected with the corrugations 10 located in the plane, for example by welding (pos. 14 and 15). A gap 16 is made between the furnace casing 2 and the hollow stud and is blocked by a sealing washer 17.

The mount is as follows.

The stud 3 is rigidly attached to the cooling plate 1. When plate 1 is attached to the casing 2, the misalignment of the stud and the holes in the casing are fixed by means of a gap 16, which is blocked outside by a sealing washer 17. With the help of a nut 8, the outer wall of the corrugation 9 of the flange 6 tightly presses to wall of the blast furnace casing. Possible distortions of the studs are compensated for by the deformations of the corrugations 9, while the axis of the studs at the location of the corrugations 9 is bent and gas-tight attachment of the cooling plate to the wall of the casing is provided. When the refrigerator is operating, the cooling liquid is supplied through the nozzle to the outer end 7 of the stud 3 and through the channel enters the interior of the hollow plate 1 and cools it. At temperature deformations of the plate 1, its body is lengthened and curved. Due to the rigid attachment of the stud 3 to the slab to the stud, and through it large shear are transferred to the casing

and bending forces that can cause destruction of the stud material and furnace casing. All these forces, which are transmitted from the plate 1 to the inner end of the stud 3, are compensated by deformations

corrugations 9 and 10, as a result, the impact on the joint with the casing is reduced and its gas tightness is ensured throughout the entire campaign of the furnace. To increase the deformation of the corrugation, the stud should be made of a material with high plastic properties, for example, of mild steel. The spaces between the corrugations on the inner side are filled with an elastic material with high deformative properties (for example, non-ferrous metal chips with a graphite mass).

The application of the invention makes it possible to increase the gas-tightness of the attachment points of refrigeration stoves, reduce the number of accidents of refrigerators and the associated downtime of blast furnaces, and extend their service life.

Claims (4)

1. Knot of fastening of a refrigerating plate to blast furnace casing containing a hollow stud with radial holes and with a flange located between the cooling plate and the casing v welded to the hollow body of the cooling plate, characterized in that, in order to increase the gas tightness of the mount of the cooling plate to the casing of the blast furnace and to prevent the core and the casing of the blast furnace from ruptures due to thermal deformations and stresses, the flange of the hairpin is corrugated along the axis of the hairpin. 2. A unit according to claim 1, characterized in that at least the wall of one of the corrugations flange is made corrugated in its plane. 3. Node on PP.1 and 2, characterized in that the stud with corrugations made 0 from a material with high plastic properties. 4. A unit according to claims 1 to 3, characterized in that the spaces between the corrugations on the inner side are filled with elastic material.