JPS63169482A - Heat-insulating element - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF INDUSTRIAL APPLICATION The present invention relates to a thermal insulation element comprising a heat resistant fiber cloak carried on a support element.

PRIOR ART AND THE PROBLEM TO BE SOLVED BY THE INVENTION The prior art describes, for example, the lining of an annealing furnace consisting of a support element in the form of a plate with a plurality of fiber mats tightly suspended and attached to each other. Contains thermal insulation elements (modules) for (lining). A disadvantage of these known thermal insulation elements is that these mats become detached at their lower ends away from the support element, where they are exposed unprotected to hot gases. As a result, the fibrous material becomes easier to break down and the mat becomes unraveled.

The object of the invention is to provide a specialized thermal insulation element of this type which is free from the above-mentioned fraying disadvantages and which therefore guarantees a long durability and service life.

[Means for Solving the Problems and Their Effects] For this purpose, the present invention provides a method in which a plurality of pins, which are once folded into a U-shape and abut against each other in a group, have their open ends interposed between them. attached to a single plate of expanded metal by pin strips that
Provide a thermal insulation element. The term expanded metal also includes perforated metal plates.

According to a preferred embodiment of the thermal insulation element of the invention, one end of each pin strip extends through an opening in the expanded metal plate and is bent.

In this way, this composite fiber cloak can be connected to the expanded metal plate as simply as possible.

Preferably, the mounting means are also such that the thermal insulation element can be attached to and removed from the wall soil as easily as possible.

In order to enhance the bonding of the composite fiber cloak of the thermally insulating element or module, in a preferred embodiment of the invention the mat is surrounded by at least one bundle. This binding ensures cohesion during transport, storage and assembly. This cohesion allows the composite fiber mat to also be compressed to compensate for shrinkage during its use. Once the thermal insulation elements have been installed, , paper, cardboard, etc., as these thermally insulating elements, mounted close to each other and behind each other, support each other.
Plastic, linen, glass string, and other ties can be untied and ties are no longer needed.

The thermal insulation element of the present invention solves the above-mentioned problems since the fiber mantle is bent at its ends exposed to the hot gas to provide a U-shaped web with a smooth surface. The ends of each of these normally unraveled fiber mats are attached to an expanded metal plate behind, where hot gases do not reach these ends.

The thermal insulation element of the present invention furthermore has the advantage that the fiber mat is mechanically connected to the expanded metal plate via pin strips and thus withstands higher thermal loads than adhesive connections such as those known in conventional thermal insulation element constructions. Therefore, it has the great advantage of being able to produce a relatively short fiber cloak length. The connection between the fiber mat and the expanded metal plate is very simple,
Reliable and durable.

〔Example〕

The embodiments shown in the drawings are explained in more detail below.

According to the invention, the thermal insulation element comprises an expanded metal plate 2 which acts as a supporting rear wall, and an expanded metal plate 2 which is once folded into a U-shape and is interconnected via pin strips 3. The fiber mat 1 is connected to the fiber mat 1.

In the embodiment shown, a fiber mat 1 folded into eight layers is attached to an expanded metal plate 2 via a plurality of pin strips 3. This pin strip 3 is inserted between adjacent fiber mats 1 so that the bins enter into the fiber mats and fasten them together. The end 3a of each pin strip extends outside the composite fiber mat, and each end is inserted through an opening in the expanded metal plate 2 and bent by 90°, thereby preventing this end from sliding out. I have to. In this way, the fiber mat 1 is connected in a very simple manner at its open end 1a via the pin strip 3 to the expanded metal plate 2 in a rigid, permanent but releasable manner. The ends 1b of the outer side N1 c of the last fiber mat 1 of the thermally insulating element are drawn out inwardly to prevent the fibers from coming loose in this position. The thermally insulating element of the invention is surrounded by a bundle 4 of glass string, for example.

This thermally insulating element is connected via a threaded connection 5 to the wall 6 of the furnace or the like. The screw head is inserted into a retaining rail 7 along which the thermal insulation element can slide on the wall 6. These rails 7 are each attached by two screws.

The screwed bolts are welded to the inside of the plate metal casing 8 using a welding gun.

Each thermal insulation element can be replaced individually.

This is done from the inside of the wall by means of a socket spanner inserted between the central fiber mats 1.

Adjacent thermal insulation elements are offset by 90° with respect to each other.

[Brief explanation of the drawing]

FIG. 1 shows two thermally insulating elements placed one close to the other in the wall soil; FIG.
3 is a plan view of the thermally insulating element shown in the figure; ! ...Fiber mat, 1a...Fiber mat open end, 2...Expanded metal plate, 3...Pin strip, 4...Bundle, 5...Screw connection,
6...Wall.

Claims (1)

Claims: 1. In a thermal insulation element comprising a thermal insulation fiber mat held on a support element, a plurality of fiber mats ( 1)
is attached to a single plate (2) of expanded metal by means of a pin strip (3) inserted between them at their open ends (1a). 2. Thermal insulation element according to claim 1, characterized in that one end of each pin strip (3) extends through an opening in the expanded metal plate (2) and is bent. 3. Thermal insulation element according to claim 1, characterized in that it has means (5) for attachment to a wall (6). 4. Thermal insulation element according to claim 1, characterized in that it is surrounded by at least one bundle (4). 5. Thermal insulation element according to claim 4, characterized in that the fiber mat (1) is compressed by means of ties (4) to compensate for shrinkage occurring during its use.