SU1092177A1 - Plate cooler for metallurgical furnace - Google Patents

Abstract

PLATE REFRIGERATOR of a METALLURGICAL OVEN with a ribbed heat-absorbing surface, characterized in that, in order to increase the durability of refrigerators by reducing internal stresses in the working surface of the plate and improving the conditions of retention and distribution of garnish, the working surface is divided by edges into hexagonal or oval shapes. TO

Description

The invention relates to ferrous metallurgy, in particular, to devices for cooling metallurgical furnaces4 Known plate cooler with ribbed heat sink with longitudinal ribs. A disadvantage of the known design is the low resistance of the slab cooling plates caused by a decrease in the width of the plate section between the ribs. variable heat loads cause stresses that destroy the stove; horizontal cracks in the body of the refrigerator are observed. In addition, the often horizontal ribs are not sufficiently filled with garnish, which leads to a rapid disintegration of the slab. The closest in technical essence and achievable positive effect to the invention is a refrigerator containing a ribbed heat absorbing surface C2J The disadvantage of this design is the low resistance of the cooling plates caused by the presence of stresses of the first leading to buckling of the plate. When heated garnissage he will drain from the inclined ribs, completely bare plate. The purpose of the invention is to increase the stability of the bone by reducing internal stress in the working surface and improving the conditions for holding and distributing garnish. The goal is achieved by separating the working surface in a slab refrigerator of a metallurgical furnace with a ribbed heat surface into hexagonal or oval shaped cells. With the cellular structure of the working surface, the stresses arising due to temperature loads are distributed along the edges of the cell in different directions and uniformly load the surface of the plate without causing significant deformations. The mesh structure of the surface uniformly increases the cross-sectional area of the slab, and therefore its strength, as can be seen from the formula of the resistance of materials to bending strength. Flexural strength condition of maximum tensile stresses .br. J where y) is the maximum tensile stress that should not be allowed to translate; Mi "bending moment; Pr is the distance to the most remote from the neutral axis of the expanded fiber; J SpYdf - Shment inertia relatively neutral about si. From the formula of the moment of inertia it can be seen that a decrease in the cross-sectional area leads to a decrease in the moment of inertia. And from the strength conditions, it follows that a decrease in the moment of inertia J leads to an increase in tensile stresses. Cellular structure of the working surface increases: em moment of inertia by about 25%, and therefore the strength of the plate and its service life. The garnish filling the cells is evenly distributed over the surface of the plate and fulfills the functions of the refractory pack. Figure 1 shows the stove-top cooler on the side of the working surface; in fig. 2 - section А-А on / 4в1г. one; in fig. 3 shows an embodiment of the working surface of the plate with an oval cup. Position 1 in Fig.}, 2 and 3 denoted by the edges. The proposed design of the cooling plate in comparison with the base object will allow reducing internal directions in the body of the plate; increase its service life; improve conditions for the formation of garnish. The annual economic effect will be 560 thousand rubles.

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Claims (1)

(54) A PLATED METALLURGIC FURNACE REFRIGERATOR with a finned heat-absorbing surface, characterized in that, in order to increase the stability of refrigerators by reducing internal stresses in the working surface of the stove and improving the conditions for holding and distributing the skull, the working surface is divided by ribs into hexagonal or oval cells.