SU1272076A1 - Furnace for rapid convection heating of billets - Google Patents

Abstract

The invention relates to the field of heat engineering, in particular to industrial furnaces for heating or heat treatment of billets of steel and special alloys, and may find application in the engineering, metallurgical industry, in the building materials industry, as well as in other areas of national economy. The purpose of the invention is to improve the reliability and strengthening of the furnace. The furnace of high-speed convective heating of the workpieces contains a lined working chamber 1, including a heated zone 2 with j5ac burners 3 installed in the roof and a methodical zone with a flue gas channel 5, under, made in the form of walking beams with moving and stationary sections, loading windows 8 and unloading ( not shown). The methodical zone is provided with a double-sloped intermediate perforated arch 9. resting on a fixed portion of the hearth, the ridge 10 of the dual-slope arch 9 is located at a height of 0.6-0.8 of the height of the working chamber, the distance from the exit from the methodical zone 3 is 0.5-1.0 width of the working chamber. Inter (6 arch space of the methodical zone (L is connected to the smoke outlet channel 5. Intermediate perforated roof 9 is made of variable height, decreasing in the loading window direction with jejeHHeM extreme heights of 0.7-0.9. Intermediate roof 9 is installed with the formation of a slit gap 12 with a thorium furnace kiln with a side loading window 8. equal to the perforation diameter of the intermediate dome and connected to the inter-arborized methodical zone. 2 Cp f-fla. 4 d. OO5

Description

The invention relates to heat engineering, in particular to industrial furnaces for heating or heat treatment of billets made of steels and special alloys, and can find application in the engineering, metallurgical industry, in the construction materials industry, as well as in several other areas of the national economy.

The aim of the invention is to increase the reliability and simplification of furnaces.

In FIG. 1 is a schematic representation of the proposed device; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a schematic illustration of the proposed device with an intermediate arch of variable height; in FIG. 4 is a section BB in FIG. 3.

The convective high-speed convection heating furnace contains a lined working chamber 1, including a heated zone 2 with burner devices 3 located in the arch and a method zone 4 with smoke exhaust ducts 5, under, made in the form of walking beams with movable 6 and 7 stationary sections, loading windows 8 and unloading (not shown). The method zone 4 is equipped with a gable intermediate arch 9, resting on a fixed hearth section 7, the crest 10 of the gable arch 9 is located at a height of 0.6-0.8 of the height of the working chamber, the distance from the exit from the method zone 4 to the nearest burner device 3 is 0, 5-1.0 width of the working chamber.

The inter-arch space 11 of the methodical zone 4 is connected to the smoke exhaust channel 5.

The intermediate perforated arch 9 is made of variable height, decreasing in the direction of the loading window with a ratio of extreme heights of 0.7-0.9. The intermediate arch 9 is installed with the formation of a slit gap 12 with the end of the furnace from the side of the loading window 8, equal to the diameter of the perforation of the intermediate arch and connected to the interspersion space 11 of the methodical zone 4.

The proposed device operates as follows.

Formed in the burner devices 3, the products of combustion of fuel enter the heated zone 2 of the working chamber 1 of the furnace, washing the workpieces located in this zone and heating them to a predetermined temperature. From the heated zone 2, the combustion products enter the methodical zone 4, where, passing through the perforation of the gable intermediate vault 9, they give him part of their heat by heating it, which allows maintaining the surface temperature of the gable intermediate vault 9 at a sufficiently high level and contributes to an increase in heat transfer from this 4 billets located in the methodical zone.

¹ Exhaust combustion products, passing through the perforation of the intermediate arch 9, enter the interspersed space 11. The rest of the combustion products located in zone 4 is directed to. the loading window 8, where due to the pressure in the furnace it prevents the penetration of atmospheric air into the furnace, then through the slotted gap 12 enters the interspersion space 11.

Evacuation of waste combustion products (flue gases) from the interspersed space 11 is carried out through the flue channel 5.

The implementation of the proposed device improves the thermal efficiency. operation of the furnace and reduce energy costs for the process.

Claims (3)

The invention relates to heat engineering, in particular, to industrial furnaces for heating or heat treatment of billets of steel and special alloys, and may find application in the engineering, metallurgical industry, in the building materials industry, as well as in a number of other areas of national economy. The aim of the invention is to improve the reliability and simplification of furnaces. FIG. 1 shows a schematic representation of the proposed device; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a schematic representation of the proposed device with an intermediate set of variable height; in fig. 4 shows a section BB in FIG. 3. The furnace of high-speed convective heating of the workpieces contains a lined working chamber 1 including a heated zone 2 with burning devices 3 located in the arch and a methodical zone 4 with smoke exhaust channels 5, under, made in the form of walking beams with movable 6 and fixed 7 sections, windows load 8 and unload (not shown). The methodical zone 4 is equipped with a double-slope intermediate arch 9, supported on a fixed 7 bottom section, the ridge 10 of the dual-slope arch 9 is located at a height of 0.6-0.8 of the height of the working chamber, the distance from the exit from the methodical zone 4 to the nearest burner 3 is 0.5-1.0 width of the working chamber. The inter-arch space 11 of the methodical zone 4 is connected to the smoke exhaust channel 5. The intermediate perforated roof 9 is made of variable height, decreasing in the direction of the loading window with the ratio of extreme heights of 0.7-0.9. Intermediate arch 9 is installed with the formation of a slotted gap 12 with the butt end of the furnace from the side of the loading window 8, equal to the perforation diameter of the intermediate arch and connected to the inter-arched space 11 of the methodical zone 4. The proposed device works as follows. The fuel products formed in the burners 3 enter the heated zone 2 of the working chamber 1 of the furnace, washing the blanks in this zone and heating them to a predetermined temperature. From the heated zone 2, the combustion products enter the methodical zone 4, where the passage through the perforation of the dual-slope intermediate roof 9 gives it some of its heat, heating it, which allows maintaining the surface temperature of the dual-slope intermediate roof 9 at a high enough level and contributes to an increase in heat transfer from This surface is located in the methodical zone 4 blanks. The spent combustion products, having passed through the perforation of the intermediate arch 9, enter the inter-arborized space 11. The rest of the combustion products in zone 4 are directed to the loading window 8, where due to the pressure in the furnace the furnace, then through the slit gap 12 enters the inter-articulated space 11. Evacuation of the spent combustion products (flue gases) from the inter-articular space 11 is carried out through the exhaust duct 5. The introduction of the proposed device allows to increase the efficiency of the heat operation of the furnace and reduce energy consumption for the process. Claim 1. A furnace for high-speed convective heating of billets, comprising a lined working chamber with loading and unloading windows, including a heated zone equipped with burner devices, and a methodical zone with an intermediate perforated roof and a smoke outlet, and under, In order to improve the reliability and simplify the furnace, the intermediate perforated roof is made double-sided and supported on the furnace, with the ridge of the double-sided roof located at a height of 0.6-0.8 of the height of the working chamber, The distance from the exit from the methodical zone to the nearest burner is 0.5-1.0 of the chamber width. 2. The furnace according to claim 1, is distinguished (and with the fact that under it is made in the form of and agay beams. 3. The furnace according to claim 1, wherein the intermediate perforated dome is made of the BEjicoTbi variable, decreasing in the direction of the loading window with a ratio. extreme heights of 0.7-0.9. Aa - (.   -4- - -F- -e- -f- - -h -4- f-