CS205709B1 - Packing of the inner area of the bell furnace with the protective atmosphere - Google Patents

Description

The invention relates to the sealing of the interior space of a protective atmosphere hood furnace arranged between the protective hood and the pedestal.

Until now, seals against leakage of the protective atmosphere from the interior of the furnace have been provided with loose sealing material such as sand, fluid, elastic materials in combination with or without cooling of the bearing surfaces and fibrous material.

The gasket was placed around the lower edge of the shroud cover, between the shroud flanges and the pedestal, in the U-shaped grooves located in the heater furnace pedestal, in the inverted U-shaped grooves located on the bottom of the shroud.

The sealing effect was achieved by low air permeability of the loose sealing material. by sealing the gasket mechanically or by using the weight of the protective hood.

The disadvantage of these embodiments was a large leakage of the protective atmosphere from the inner space of the lid furnace; sealing fluids had to be refilled. Sometimes there was a disruption of the technological process of processing the charge by the vapor of the sealing fluid and thus to a greater or lesser value of the charge.

When using elastic materials, it was necessary to cool the bearing surfaces and mostly it was necessary to press the seals mechanically, as the weight of the protective cover was not sufficient to produce the required sealing effect.

When using seals made of fibrous materials placed in the U-shaped grooves in the base of the lid furnace, the seal was contaminated with deposits and contaminated impurities, which were difficult to remove and thereby shortened the life of the seal and its sealing ability.

These disadvantages are overcome by the sealing of the interior space of the protective atmosphere hood furnace according to the invention, which consists in the fact that it is formed in the lower part of the protective hood placed underneath the open channel provided with angular strips. a reinforced refractory material on which the padding of fibrous insulating material rests, wherein the reinforced flexible refractory material layer is in contact with a horizontal support provided with a sealing support arranged on the base.

The advantage of the seal according to the invention is that it is not contaminated with scale and other operational contaminants, so that its optimum service life is ensured.

The fibrous insulating material from which one layer of sealant is made is resistant to high temperatures, so there is no need to cool the gasket with a coolant.

The assembly and replacement of the angular strips, by means of which the sealant is fastened in the duct, is quick and simple.

The sealing effect is due to the weight of the protective hatch; pressing mechanisms must be used. _x .

The sealing of the interior space of the furnace with a protective atmosphere is shown in the attached drawings.

Fig. 1 is a vertical cross-sectional view of the furnace in the operating position.

FIG. 2 is a cross-sectional view of the seal of the interior space of the hood furnace showing the location of the bottom open channel at the bottom of the protective hood and the arrangement of the bilayer sealant therein. .

As can be seen, the seal of the furnace chamber 1 is located between the protective hood 2 and the base 3. The furnace chamber 1 is filled with a protective atmosphere. In the lower part, the protective cover 2 is provided with a channel 4 underneath. The horizontal walls 5 of the channel 4 are fastened horizontally by angular strips 6, for example made of wire cloth.

Claims (1)

Subject Sealing of the interior space of the protective atmosphere hood furnace, arranged between the protective hood and the base, characterized in that it is formed in the lower part of the protective hood (2) located below the open channel (4j) provided with angular strips (6) (5) a horizontally arranged layer (7) of reinforced elastic refractory material is fastened to the open channel (4). A padding layer of fibrous insulating material 7 rests on the layer 7 of reinforced refractory material. in contact with the horizontal support 9 provided with the sealing support 10 arranged on the pedestal 3. On the protective cover 2 a roof 11 is provided, which is provided at the end with a metal ring 12. On the outer circumference of the pedestal 3 is a lower channel 13: 3 is at the time of oh Eve deployed annealing and the cover 14 during the cooling period of cooling unshown cover. The base 3 consists of the 15th batch. '' ¹ After placing the charge 15 on the pedestal 3, a protective cover 2 is put on, which creates the necessary sealing effect. The annealing hatch 14 is then fitted and replaced by a cooling hatch (not shown) at the end of the heating period. The cooling period is then not shown pump located under the base 3, the coolant pumped over the top of the protective hood 2, ^r from which trickles down the roof 11 and along the metal ring 12 into the lower channel 13 from where it is pumped out. OF THE INVENTION of a reinforced flexible refractory material upon which a padding layer (8) of fibrous insulating material rests, wherein the reinforced flexible refractory material layer (7-j) is in contact with the horizontal support (9) provided with the sealing support (10) arranged on a pedestal (3).