CS228454B1 - Kiln aggregate wall panel - Google Patents

Abstract

The invention solves the problem of perfect utilization of thermal insulation capabilities of thermal insulation materials, eliminating the possibility of thermal bridges. The wall panel consists of a metal shell and an inner insulating layer. The metal shell consists of at least two parts. The essence of the invention lies in the fact that the contact surfaces of the parts (1, 2] of the metal shell are provided with insulating material (7). This insulating material (7) extends at least to the level of the connection of the outer edges of the parts (1, 2) of the metal shell. The lower part (1) of the shell can be provided with at least one bend ending in a flange. The upper part (2) of the shell is then provided with an opposing flange.

Description

(! 54, Wall panel of furnace aggregates

The invention solves the perfect utilization of thermal insulating capabilities of thermal insulating materials, eliminating the possibility of thermal bridges.

The wall panel consists of a metal sheath and an inner insulating layer. The metal sheath consists of at least two parts. The invention is characterized in that the contact surfaces of the metal sheath parts (1, 2) are provided with an insulating material (7), which insulating material (7) extends at least to the connecting line of the outer edges of the metal sheath part (1, 2). The upper part (2) of the jacket is then provided with an opposing border.

The invention relates to a wall thermal insulation panel for the insulation of furnace aggregates where low weight, minimum heat loss and hence high thermal insulation capacity is required.

The prior art known embodiment of the thermal aggregate elements is based on the use of conventional refractory materials or fiber insulation or products made from them. In the case of using fibrous materials, the aggregate generally consists of a metal sheath provided with metal mandrels to which the individual layers of insulation are attached. These metal mandrels form continuous thermal bridges, thereby substantially increasing heat losses to the surroundings. The steel shell of the thermal aggregate of this construction is characterized by a considerable weight, which places additional demands on the foundation of the whole aggregate and thus reduces the economic efficiency of the whole construction.

These disadvantages of existing structures are overcome by the solution according to the invention.

The wall panel of the furnace aggregates consists of a metal jacket and an inner insulating layer. The metal sheath consists of at least two parts, the inner insulating layer of at least one free insulating fiber layer, for example basalt or ceramic. SUMMARY OF THE INVENTION The contact surfaces of the metal sheath portions are provided with an insulating material. The insulating material extends at least to the level of the connecting edge of the outer edges of the metal sheath parts. It is also advantageous if the lower part of the housing is provided with at least one bend on the open side. This bend is terminated by a skirt and the upper part of the sheath is then provided with a skirt opposite.

The panel according to the invention has a low weight, low accumulated heat value and, at the same time, high thermal insulating ability compared to conventional lining.

The high insulating properties of the panel are achieved mainly by the fact that the constructional solution enables highly efficient use of the thermal insulating properties of the panel thermal insulation. This design excludes continuous thermal bridges.

The thermal bridge is a local disturbance of the homogeneity of the insulation in the direction of heat flow through the body of thermal conductivity significantly greater than the thermal conductivity of the insulation itself.

Thermal bridges can be divided into passageways and impassable and also broken and uninterrupted.

A continuous thermal bridge connects the working space of the heat generator with the environment, thus transferring heat from the working space to the environment, thus reducing thermal efficiency and increasing heat loss.

By using the wall panel of the furnace aggregates according to the invention, the heat-insulating properties of the heat-insulating materials are perfectly utilized and the heat losses to the surroundings are optimized, which results in increased thermal efficiency of the whole aggregate.

This wall panel enables the modular design of the whole aggregate, its weight reduction, and the development of type series of aggregates assembled from the same furnace modules and walls.

An exemplary embodiment of the invention is illustrated in the accompanying drawings, in which Figures 1 to 3 show in cross-section an exemplary embodiment of a wall panel of furnace aggregates.

An exemplary embodiment of a wall panel according to the invention consists of a metal sheath having two parts. The lower part 1 of the metal casing of the panel is provided on the open side with at least one bend which is terminated by a flange, wherein between this flange and the opposing flange of the upper part of the metal casing there is an insulating material 7 forming a broken thermal bridge. If necessary, a third panel housing part 3 can be used, which can be attached to the lower and upper parts 1, 2 by a screw. It is necessary to provide a screw or similar connecting element with a ceramic bushing at the points of contact with the metal parts of the sheath.

The thermal insulating panel according to the invention may be part of a variety of thermal aggregates, for example ceramic tunnel kilns, brick kilns, metallurgical kilns, especially heating and annealing furnaces and the like.

Particularly suitable for applications where easy replacement is required and frequent repairs are required due to the working environment. These are especially glass aggregates, kiln cars of tunnel or kiln chambers.

Claims (2)

Subject Wall panel of furnace aggregates, wherein the metal panel of the panel consists of at least two parts and the inner insulating layer is formed of at least one layer of loose insulating fiber, for example basalt or ceramic, characterized in that the contact surfaces of the metal jacket parts (1, 2) they are provided with an insulating material (7j) which at least extends to the level of the connecting edge of the outer edges of the metal shell parts (1, 2). Wall panel of furnace aggregates according to claim 1, characterized in that the lower part (1j) is provided on the open side with at least one bend which is terminated by a rim and the upper part (2J) is provided with a opposing rim.