RU139748U1 - Blast furnace air lance - Google Patents

Abstract

1. An air lance of a blast furnace containing a ceramic insert installed in the blast channel and a compensating heat-insulating material located in the air gap between the ceramic insert and the surface of the lance on the side of the blast channel, characterized in that a compensating heat-insulating material with adhesive and waterproofing properties is used with which the ceramic insert is locally coated before installing it in the blast channel. 2. The air lance according to claim 1, characterized in that silicone sealant is used as the mentioned material.

Description

The utility model relates to the field of metallurgy and can be used in preparation for operation of air tuyeres of blast furnaces.

Known air lance of a blast furnace with a ceramic insert in the blow channel (JP 2779514 B2 2240207 A, C21B 7/16, 03/13/89).

However, when the lance is installed in the furnace, the fragile ceramic insert located in the blow channel does not withstand the shock load on the lance and collapses.

Closest to the proposed technical essence is an air lance of a blast furnace with a ceramic insert in the blast channel and compensating heat-insulating material between the ceramic insert and the surface of the lance from the side of the blast channel (patent No. 2067999, C21B 7/16, 02.17.94).

However, the heat-insulating gasket is not effective enough to reduce heat loss through the surface of the tuyere from the side of the blow channel and does not prevent the flow of water in the event of a crack along the welds from the side of the blow channel.

The technical result is to reduce heat loss through the surface of the lance from the side of the blast channel and increase the service life of the lance due to the appearance of cracks in the welds from the side of the blast channel.

The technical result is achieved in that in an air lance of a blast furnace with a ceramic insert in the blast channel and compensating heat-insulating material between the ceramic insert and the surface of the lance from the blast channel side, the compensating heat-insulating material has adhesive and waterproofing properties and locally fills the air gap between the ceramic insert and the surface tuyeres from the side of the blow channel. At the same time, silicone sealant can be used as an adhesive, waterproofing, compensation and heat-insulating material.

The utility model is valid for both a cylindrical and a conical blow channel.

A useful model for a cylindrical blast channel is illustrated in the figure. The lance consists of the outer (1) and inner (2) glasses, welded along the edges with the snout (3) and flange (4). A ceramic insert (6) is installed in the blow channel (5) with the formation of an air gap (7) between the blow channel (5) and the insert (6). The air gap is locally filled with adhesive, waterproofing, compensation and heat-insulating material (8).

The air gap between the blast channel and the insert is an excellent heat insulator. The insert is glued to the inner glass to prevent its movement relative to the blast channel during installation of the lance in the furnace, which can lead to destruction of the insert. The bonding material also has high thermal insulation properties. In this case, to prevent the insert from moving relative to the blast channel, to reduce the impact of the shock load when installing the tuyere in the furnace, it is sufficient that the adhesive, compensation, heat-insulating material partially fill the gap between the blast channel and the insert. Since air has better heat-insulating properties than a gasket, local filling of the air gap between the blow channel and the insert with adhesive, compensating heat-insulating material helps to reduce heat loss through the surface of the tuyere from the side of the blow channel. At the same time, the material, which has adhesive and waterproofing properties, protects the lance from water leakage in the event of a crack along the welds from the side of the blast channel, which increases the service life of the lance. All these features together provide the achievement of a technical result.

The ceramic insert is locally coated with adhesive, waterproofing, compensation and heat-insulating material and installed in the blowing channel of the lance.

Example.

The ceramic insert was locally coated with silicone sealant and installed in the blow channel of the lance. A lance with an insert was installed in the furnace. During the operation of the tuyeres, a decrease in the water temperature at the outlet of the tuyere device was established in comparison with the tuyere in which a gasket was used (according to the prototype), which corresponded to a reduction in heat loss. Both lances were replaced due to the formation of a weld crack between the inner cup and the snout. Since the silicone sealant protected the tuyere from water leakage, the service life of the tuyere with sealant was longer than with a gasket that does not have waterproofing properties.

The use of a ceramic insert on the side of the blower channel of the lance with an air gap between them, which is locally filled with adhesive, waterproofing, compensation and heat-insulating material, increases the durability of the lance due to the appearance of cracks in the welds from the side of the blow channel and to reduce heat loss through its surface from the side blow channel.

In addition, the local filling of the air gap between the insert and the blast channel with adhesive, waterproofing, compensation and heat-insulating material reduces the complexity of the process of fixing the insert.

Claims (2)

1. An air lance of a blast furnace containing a ceramic insert installed in the blast channel and a compensating heat-insulating material located in the air gap between the ceramic insert and the surface of the lance on the side of the blast channel, characterized in that a compensating heat-insulating material with adhesive and waterproofing properties is used with which the ceramic insert is locally coated before it is installed in the blast channel. 2. The air lance according to claim 1, characterized in that silicone sealant is used as the mentioned material.

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