SU976276A1 - Furnace roof detachable panel - Google Patents

Description

The invention relates to the field of construction of industrial production facilities, including the building materials industry, and relates to the overlapping of rotary and ring furnaces intended for heating metal or burning of various building products and materials in furnaces, during operation of which it is necessary to periodically remove the ceiling panels, for example, in a rotary kiln. with a rotating hearth to obtain expanded clay.

A constructive solution is known for an annular heating furnace with a rotating hearth, the overlap of which is made in the form of a flat suspension arch of piece shaped refractories hinged by means of special hangers on the elements of the metal frame of the furnace 1.

The main disadvantages of this furnace are its high metal consumption and the considerable cost of manual labor, which is not necessary for a large volume. 1.ladochny works from small-piece bricks and shaped refractories.

The closest in technical essence and the achieved result

To the proposed is the design of removable panels to overlap the annular brick kiln.

In this known structural design of a heat-resistant reinforced concrete removable panel, the supporting element is a horizontal metal frame, to which a 4 mm thick continuous steel sheet with metal transverse stiffeners is welded. A lining plate with ribs of heavy and filling of light heat-resistant concrete is attached to the sheet using reinforcing cages and steel anchors. Thus, the removable panel consists of a reinforced plate of heat-resistant concrete with ribs and supporting metal elements 2.

A disadvantage of the known construction of the panel is its increased metal content. In addition, the supporting metal frame, working on the weight of the structure as a bendable element, significantly sags from its uneven heating along the height of the section, which leads to a significant opening of cracks and the integrity of the concrete lining.

The aim of the invention is to reduce the metal and improve the operational reliability of the removable panel blocking the kiln firing channel.

The goal is achieved by the fact that in a removable ceiling panel, including a reinforced slab of heat-resistant concrete with ribs and supporting metal elements, the metal elements are made in the form of vertical L-shaped frames rigidly connected to the slab, having in plan a shape of an isosceles trapezium with bevels along the edges the larger base, perpendicular to the lateral sides, with the help of fixing plates located on the ribs at a distance of 1 / 6-1 / 8 of the plate length and in the middle of the bevels and connected to each other by inclined rods, and this, the frames passing over the edges of the slab, parallel to its sides, are connected to each other from the side of the smaller base of the panel with a support plate, and from the side of the larger one - a horizontal metal bond, and freely supported on the walls, one of which is higher than the other by 1, 2-1.3 plate heights This decision of the removable panel structure increases its operational reliability, since it eliminates the occurrence of temperature forces in it, and the concrete in the hot zone of the panels is only compressed from the effect of its own weight, and the reinforcement, stretching from the heated side of the section.

In this construction, the furnace overlap panel is made without a metal sheet, but with lightweight concrete liners that have an increased thermal resistance, which reduces its metal consumption and material consumption.

FIG. 1 shows a removable panel, top view; in fig. 2 - oven, cross section; in fig. 3 - panel, cross section; On Lig.4 general view of the panel, top view; in fig. 5 is a longitudinal section along the edge of the slab with embedded parts and with reinforcement.

The ribbed reinforced concrete plate 1 rests on one side directly on the wall of the furnace 2. The support on the other wall 3, which is 1.21, 3 the height of the slab higher than wall 3, is carried out through the support plate and the L-shaped metal frame 4, which is supporting element of the panel. The end of the slab is welded to the frame stand using welding 5 so that the slab 1, installed with a building lift, works with tensile forces only in the upper zone of the panel.

The gap between the slab 1 and the wall 3 is filled with a readily deformable material, such as kaolin wool.

6

The panel is made of two types of heat-resistant concrete: heavy - for ribs 7 and light for liners 8. In the cold zone of the edges of the slab, a reinforcement cage 9 is installed with embedded parts 10 and 11 on the bevel and on the fins for welding through mounting plates to supporting metal frame removable panel.

5 The embedded part 11 through the inclined rods of the frame 12 in the ribs at a distance of 1 / 6-1 / 8 of the length of the plate 1, connected by a mounting plate to the frame, increases the rigidity of the support unit of the panel design with the supporting frame 4, in order to reduce vertical displacement panel.

The need to lean the carrier metal frame on the inner

5. The wall is higher than on the outer wall of the annular furnace associated with the presence of a large number; inlets in gas ducts in annular brick kilns, and in rotary hearth kilns, in addition, burner chambers that weaken the wall and usually overlap with curved bridges that require a certain height, and it is also desirable that the metal frame

 was at a certain distance from the stove to reduce its heating temperature, but at the same time it was not very removed from the compact solution conditions, therefore, based on a number of studies and test results of the panel, the optimum temperature difference of the elements was assigned to the temperature effect -shaped frame, equal to 1.2-1.3

5 plate thickness.

The ratio of the distance to the embedded part 11 on the edges of the slab to the length of the slab is taken to be 1 / 6-1 / 8 because of the temperature limitation to

0 450C on inclined reinforcing bars, as conventional reinforcement, due to temperature corrosion, can be used only within these temperature limits. The boundaries of the accepted Ratio5 research institutes are determined on the one hand by the height of the panel, determined by design considerations, taking into account the thermal performance of the panel materials, and the most common dimensions in practice

channel annular furnaces.

Claims (2)

1. Installer Handbook, Construction of industrial furnaces. M., stroiizdat, 1978, p. 246-247. 2. Milonov V.M. and others. Operating experience of portable plates for coating waterless ring furnaces. Construction materials, 1976, 4, p. 8-9. Fig 5 12