SU1478022A1 - Bell-type furnace for annealing metal - Google Patents

Abstract

The invention relates to devices for heat treatment of metal and can be used in the metallurgical and other industries of the industry. The goal is to increase the productivity of the furnace and the quality of the metal. A longitudinal U-shaped channel and transverse channels connecting the longitudinal channel with the under-muffled space are made in the stand of the bell-type furnace. The U-shaped channel is provided with a protective gas circulator, e.g. an injector. The implementation of a longitudinal U-shaped channel and transverse channels in the test bench allows for the organization of intensive gas circulation around the metal foot. As a result of convective heat exchange, the productivity of the furnace and the quality of metal heating increase. 1 hp f-ly, 2 ill.

Description

one

The invention relates to devices for the heat treatment of metal and can be used in the metallurgical and other industries.

The purpose of the invention is to increase the furnace productivity and the quality of the metal.

Figure 1 shows the bell furnace, general view; Fig. 2 shows a stand with channels and a circulation booster.

The bell furnace contains a heating hood 1, lined with refractory material, with gas burners 2, a metal muffle 3, a stand 4 with sand closures 5 and a bench stove 6 located on a stand 4 and intended to install a foot of annealed metal 7 (cages).

A U-shaped longitudinal horizontal channel 8, in which the circulation booster 9 is located, is connected to the under-muffled space 10 by lateral transverse channels 11 and 12.

The injector is selected as a circulation driver, in which the nozzle 13 is connected to the gas supply pipeline 14 (gas movement is indicated by arrows, FIG. 2). The circulation booster divides the U-shaped longitudinal horizontal channel into two zones A and B.

Kolpakova oven works as follows.,

It is installed on a bench slab from a metal cage, which is closed with a muffle and a cap. Through the gas supply line and the nozzle, gas is supplied under operating pressure. Prod4

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The purge of the under-muffled space is allowed for 2 hours, after which the heating of the metal begins. The gas leaves the nozzle 13 at high speed through the injector 9 and enters the zone A of the U-shaped channel, where an elevated pressure is created. From zone A, along the lateral transverse channels 11, the gas is directed to the dummy space. The gas flow rises between the muffle and the surface of the cage upward, passes over the cage, and then goes down and through the side channels 12 returns to the zone B of the U-shaped channel and enters the injector, which creates a vacuum in the zone B of the channel (the movement of gases is indicated by arrows , figure 2).

Circulation of protective gas around the metal foot leads to the appearance of convective heat exchange between the hot muffle and the charge; heating time is shortened. In addition, when gas moves along channels 8, 11 and 12, additional convective heating of the bench plate and the base of the metal foot occurs under the bench plate.

After completion of heating, the cap is removed and cooling is performed under the muffle. The cooling time is reduced by the occurrence of convective heat exchange between the charge and the muffle during the circulation of protective gas and the additional cooling of the foot base.

Using the proposed design of a bell-type furnace for annealing metal in the foot provides an increase in

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kiln productivity due to circulating protective gas around the charge and the occurrence of convective heat exchange, leading to a reduction in heating time from 28 to 24 hours and cooling time from 56 to 28 hours. Taking into account the annealing technology in cap furnaces, the productivity increases by 10 - 14%.

An additional effect is achieved by improving the quality of the metal. - When gas circulates under the bench plate, the base of the metal is accelerated by heating the foot, the possibility of underheating is eliminated, as a result of which the temperature difference across the foot section is reduced, the homogeneity of the metal structure is reversed and the sheet mechanical properties are improved.

Claims (2)

1. Kolpakov oven for metal annealing, containing a cap with heating devices, a muffle with closures, a stand that is characterized by the fact that, in order to improve the furnace performance and metal quality, a longitudinal U-shaped channel and transverse channels are made in the upper part of the stand, connecting the longitudinal channel with the bummed space. 2. The furnace according to claim 1, characterized in that it is provided with an injector installed in the U-shaped longitudinal channel. Editor I. Derbak Compiled by V. Berbenev Tehred M. Khodanich Proofreader I. Muska Order 2351/39 Circulation 533 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 to 7 L FIG. g Subscription