TH84890A - Kiln with a revolving furnace floor - Google Patents

Abstract

DC60 problems that have been fixed. To equip a kiln with a revolving hearth with a simple furnace structure Which the kiln will not be damaged even if the kiln has been used for a long time While showing the general equation where Allowance for thermal expansion can be determined in a furnace with a rotary hearth. Enough rounds Solution Between the heat-resistant material, the corner part of the outer circumference or That is the inner circumference and the heat-resistant material or between the heat-resistant material Allowance for expansion The body due to heat in the radial direction X, determined by the subsequent equation 2, is determined. And if the width of the refractory corner of the outer circumference 7 is defined as A and the height of the cast section 11 of the refractory corner 7 is given as B. equation Where 1 follows true X + A < Square square root of (A2 + B2) Equation 1 X = ([XO =] the distance between the outer ends of the cast portion of the hearth edge of the side. That is The outer circumference 11 and the inner end of the casting part of the hearth edge of the inner circumference 12 at operating temperature) - ([X1 =] total length range of refractory 6 and resistant material. Heating multiple 7 and 8 angles in a radial direction at room temperature): equation 2, solved problem To equip a kiln with a revolving hearth with a simple furnace structure Which the kiln will not be damaged even if the kiln has been used for a long time While showing the general equation where Allowance for thermal expansion can be determined in a furnace with a rotary hearth. Enough rounds Solution Between the heat-resistant material, the corner part of the outer circumference or That is the inner circumference and the heat-resistant material or between the heat-resistant material Allowance for expansion The body due to heat in the radial direction X, determined by the subsequent equation 2, is determined. And if the width of the refractory corner of the outer circumference 7 is defined as A and the height of the cast section 11 of the refractory corner 7 is given as B. equation Where 1, the following is true, X + A is less than (Symbol) (A2 + B2): Equation 1 X = ([XO =] The distance between the outer ends of the cast portion of the hearth edge of Side that is Outer circumference 11 and inner end of the castings of the hearth edge of the inner circumference 12 at operating temperature) - ([X1 =] total length range of heat-resistant material 6 And many heat-resistant materials 7 and 8 angles in radial direction at room temperature): Equation 2:

Claims (1)

1. A kiln with a revolving furnace in which a revolving furnace floor is arranged between the walls of a waiting line. The outer wall and the inner circumference wall This includes the ring-shaped hob frame, the heat insulating material of the hearth arranged on the hob frame, several pieces of the heat-resistant material arranged. On the heat insulating material of the hearth, the refractory part of the corner of the outer circumference side where Arranged on the outer circumference of the revolving hearth through the castings of the hearth and the heat-resistant material.