SU1749674A1 - Furnace roof - Google Patents

Abstract

Use: in the industry of building materials for blocking the firing channels of furnaces of the periodic and stationary principle of action. The invention g overlap in the vault has a flat surface parallel to the horizontal beam of the frame 2 and is made of thermally insulating elements 1 shaped, having parallel upper edges and non-parallel, tapered downwards, lower edges, which creates a hinged connection of elements 1 along the neutral line of the heat shield and thus, when the temperature rises above 500 ° C, it is possible to avoid deformation of the elements by closing the lower wedge gap b and opening the top 3 sludge.

Description

The invention relates to the building materials industry and can be used to cut off the firing channels of furnaces for temperature variable and constant operation with both mechanized and manual charging of raw materials and an exhibition of fired products.

The aim of the invention is to increase the service life of the overlap in temperature and temperature conditions.

The invention is illustrated in the drawings, where in FIG. 1 shows the upper roof of the furnace after assembly and temperature rise up to 500 ° C; FIG. 2 - the same, when the operating temperature is more than 500 ° C, and in FIG. 3 is a general view of the insulating element of a figure-shaped form.

Thermal insulation overlap is assembled from individual thermal insulating elements of 1 figure-shaped form. The extreme heat insulating elements 1 are supported on console canals 5, which repeat their shape and are fixed on

the bottom of the uprights of a rigid metal frame 2.

For the manufacture of thermally insulating elements of 1 figure-shaped form, any known thermal insulation materials with a strength of at least 0.5 MPa can be used, either made by extrusion (based on expanded vermiculite or perlite), or by pouring into appropriate formwork (lightweight, heat-resistant concrete)

The metal frame 2 can be made from rolled products (channels, I-beams, angles, etc.), the dimensions of which are selected in each particular case.

In order to reduce the labor intensity of manufacturing the furnace roof and reduce the time it takes to repair it during operation, the assembly of the heat insulating overlap is carried out without the use of a binder solution - the tight fit of the surface of the heat insulating faces

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Copies 1 of the same shape provide reliable heat insulation.

Example. The design described was tested with a detachable overlap for an annular furnace. As thermal insulation elements 1, ceramic vermiculite products were used: top and bottom thickness 120 mm and 115 mm, respectively, height 250 mm and length 500 mm.

Ceramic-vermiculite products with an average density of 400 kg / m3 are characterized by a strength of 0.5 MPa and high thermal insulation properties. To build the furnace roof, a flat platform was used. Extreme along the length of the structure, elements 1 were supported on metal supports 5, reinforced with a cantilever in the lower part of frame 2 and repeating contour elements 1. Frame 2 was made of channel No. 20, the arch was fixed in a horizontal plane. consisting of coupling 3 and two rods 4. having right and left threads at the ends. After assembling elements 1, a small knob was inserted into a specially drilled hole in coupling 3 and, rotating it, the arch was folded.

During assembly, the articulated joint of the heat insulating elements 1 is created along their neutral line, and thus wedge air gaps b are formed along the bottom of the heat insulating overlap. This allows, when exposed to high temperatures, to neutralize the stresses arising in thermal insulation

elements 1 as a result of thermal expansion of the material due to the angular displacement relative to the neutral axis by closing the lower wedge air gap 6 and opening the upper one, which leads to the formation of an arch and protection from cracking and destruction of the heat shield overlap.

The temperature inside the furnace and on the surface of the heat shield was 1050 ° C and 65 ° C, respectively.

After five burning cycles, no leakage was observed. Compared with the known technical solutions, the described construction differs, all other conditions being equal, by an increase in the overhaul cycle of operation in temperature-varying conditions, lower weight, simplicity of manufacture, lower labor costs during assembly.

Claims (1)

Claims of the invention Upper roof of the furnace containing a rigid metal frame of vertical posts and a horizontal beam with drags and the overlap of individual figured heat insulating elements, characterized in that, in order to increase the service life of the overlap in temperature varying conditions - full-shaped with parallel upper side edges and non-parallel lower side edges narrowed downwards.  7Ј fie.Z