RU2686750C1 - Method for installation of heat-insulating insert into blowing channel of air tuyere of blast furnace - Google Patents

Abstract

FIELD: metallurgy.SUBSTANCE: invention relates to metallurgy and can be used in installation of heat-insulating ceramic insert in blowing channel of air tuyere of blast furnace. Proposed method comprises application of compensating heat-insulating material with adhesive and waterproofing properties to weld seams of inner sleeve on the side of blowing channel and external surface of heat-insulating insert and introduction of heat-insulating insert into blowing channel, wherein scale is removed from surface of blowing channel adjacent to insert and heat-insulating material is applied locally on cleaned surface, and after insertion into blowing channel it is centered relative to outlet section of gas branch pipe and inner sleeve.EFFECT: invention increases resistance of the ceramic insert.1 cl, 1 dwg

Description

The invention relates to the field of metallurgy and can be used when installing a heat insulating (ceramic) insert in the blow channel of the air tuyere of a blast furnace.

The closest in technical essence is a method of installing a ceramic insert in the blast channel of an air tuyere of a blast furnace, including applying a compensation insulating material with adhesive and waterproofing properties to the welds of the inner cup from the blast channel, local application of it to the outer surface of the insert and inserting it in the blast channel [Patent RU No. 163423, IPC SW 7/16, 2016].

The local application of a compensatory heat-insulating material to the welds of the inner cup from the side of the blast channel and the outer surface of the insert is not enough to prevent the insert from moving relative to the inner cup during the entire period of operation of the tuyere. In addition, due to the lack of centering of the insert relative to the inner cup and its local contact with it, a jump of thermal stresses occurs in the insert, which can lead to its premature destruction. The offset of the hole in the insert relative to the gas nozzle also leads to its premature destruction.

The technical result of the invention is to increase the durability of the heat insulating insert.

The technical result is achieved by the fact that in the method of installing a heat insulating insert in the blowing channel of an air tuyere of a blast furnace, including applying a compensation insulating material having adhesive and waterproofing properties to the welds of the inner glass from the side of the blowing channel and to the outer surface of the heat insulating insert and inserting a heat insulating insert According to the invention, scale is removed from the surface of the blowing channel adjacent to the insert in the blowing channel The above-mentioned compensating heat-insulating material is locally applied to the cleaned surface, and after inserting the insert into the blowing channel, it is centered relative to the outlet section of the gas nozzle and the inner cup.

In order to prevent the insert from moving relative to the inner cup during the entire period of lance operation, a compensatory heat-insulating material, except for local deposition on the outer surface of the insert, is locally applied to the surface of the blast channel adjacent to the insert. But since the surface of the blast channel is covered with scale, formed after the heat treatment of the tuyere, it is removed, since it can be exfoliated together with the compensation insulating material. And in order to eliminate the local fit of the insert to the inner cup and the displacement of the hole in it relative to the outlet cross section of the gas port, it is centered relative to the inner cup and outlet cross section of the gas socket. All these signs together contribute to the prevention of premature destruction of the insert, and, consequently, increase its durability, thus ensuring the achievement of a technical result.

The method is as follows. Descaling is removed from the surface of the blowing channel of the air tuyere adjacent to the insert. Next, a compensatory heat-insulating material is locally applied to the cleaned surface, the welds of the inner glass are covered from the side of the blowing channel, locally applied to the outer surface of the insert and injected into the blowing channel. After that, the insert is centered relative to the output section of the gas pipe and the inner cup.

The invention is illustrated in the drawing, which shows a cross section of an air tuyere of a blast furnace with a heat insulating insert.

The lance consists of an outer (1) and inner (2) cups welded at the edges with a rifle (3) and a flange (4). A ceramic insert (6) is installed in the blowing channel (5) to form an air gap (7) between the blowing channel (5) and the ceramic insert (6).

Example 1

From the surface of the blast channel, adjacent to the insert, the air tuyere was removed the scale, formed after its heat treatment, with a grinding machine. Next, the silicone sealant was locally applied to the cleaned surface, the welds of the inner glass were covered with them from the side of the blowing channel and locally applied to the outer surface of the insert. After that, the insert was inserted into the blowing channel and centered relative to the outlet section of the gas tube and the inner cup. Collected tuyere with insert set in a blast furnace. The lance was removed from the furnace after 135 days according to the technology. The insert was left without visible damage.

Example 2 (prototype).

Silicone sealant covered the welds of the inner glass tuyere from the side of the blowing channel and locally applied it to the outer surface of the insert. After that, the insert was inserted into the blowing channel. The assembled tuyere with insert was installed in a blast furnace simultaneously with the tuyere in example 1. The tuyere was also removed from the furnace after 135 days according to the technology. The insert was covered with cracks, and its part above the gas nozzle collapsed.

Consequently, the removal of scale from the surface of the blowing channel of the tuyere adjacent to the insert, local application to the cleaned surface of a compensatory heat-insulating material with subsequent coating of welded joints of the inner cup from the blowing channel, local application to the outer surface of the insert and centering the insert relative to the gas outlet section nozzle and inner cup contribute to its durability.

Claims (1)

The method of installing a heat insulating insert in the blast channel of the air tuyere of a blast furnace, comprising applying a compensatory thermal insulating material with adhesive and waterproofing properties to the welds of the inner cup from the side of the blast channel and on the outer surface of the heat insulating insert and inserting the heat insulating insert into the blow channel, characterized by that the scale is removed from the surface of the blast channel adjacent to the insert and is locally applied to the cleaned surface at omyanuty compensation insulating material, and after the introduction of inserts into the blow channel of its center relative to the inner nozzle and the outlet section of the gas pipe disposed in the inner glass.

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