DE7423011U - Gasket sheet - Google Patents

Description

The "invention relates to a flat gasket made of graphite

I laminate.

'' For manufacturing graphite laminate and others

i: fle :: iblen graphite forms it is according to the German patent

%. 5 font 66 804 known, flaky natural graphite in

immerse a liquid oxidant and anil closing heat within a few seconds' to about 1000 C to ψ. The thereby formed by a considerable amount

bloated flakes are then in thicker, for example by rolling or pitching 10 to the flexible sheet materials, such as films or Ii, referred to as laminate belt recorded Scnichten compacted. Flexible graphite is impervious to liquids and gases%, temperature $ resistant and is used by most substances - i excluded. 15 some strongly oxidizing acids - not attacked. Graphitic laminate is self-lubricating and results in a very good cross-section even with low compression forces

I tightness. The bulk density of \ 3 used for seals

I graphite laminate is expediently 0.5 - 1.5 g / cm,

I 20 which is a linear compressibility coefficient of about

I 4 x 10 " ² - 2. 10 ~ ⁴ cm ² / kgf.

I The use of flat gaskets made of graphite laminate

I with an apparent density that is constant over the volume of the seal

I did not give a satisfactory result for all applications

j? 25 result. High bulk densities require higher contact forces,

ί which is particularly suitable for larger, multi-segment

PA 74/11 Dr.We / häu - 2 -

Composite seals cannot always be applied and the sealing material also adapts less well to unevenness of the sealing surfaces. Gaskets made of graphite laminate with a low bulk density are compressed to varying degrees when the gasket is tightened due to unavoidable differences in the applied forces, so that in particular leaks in the area of overlapping studs cannot be avoided. The invention is based on the object of creating a flat gasket whose sealing effect is essentially independent of the applied forces and also enables complete tightness for rough and uneven sealing surfaces and for seals composed of several segments. The task is achieved with a flat gasket consisting of ζ v / egg layers with a low bulk density, zv / ischen with an intermediate layer made of laminate with a higher bulk density. According to a preferred embodiment, the roll density of the intermediate layer is at least 1.0 g / cm. The individual ^i; chichten of "sdiidwich" -like structure are glued together for better handling.

Flat seals according to the invention are particularly suitable for apparatus flange connections, for thermally stressed seals and, because of their corrosion resistance, for sealing suitable against corrosive substances. Since the flat seals compensate for irregularities in the sealing surfaces, In general, fine machining of the sealing surfaces is unnecessary. The excellent tightness of overlaps finally enables the production of flat gaskets of any size from segments.

The invention is explained below by way of example with reference to drawings:

PA 74/11 Dr.We / häu - 3 -

■ · ■ ψ W

¹ ' - *' 3 - * *
Show it:

1 shows a section through a flat gasket according to the invention

Fig ^ 2 pin ^ ü section through one consisting of two segments. Flat seal

In Fig. 1 are 1 layers of graphite laminate with a Density of about 0.3 g / cm, for which very small forces are sufficient to deform. Between these layers is that

3 graphite laminate 2 arranged, the bulk density of which is 1.1 g / cm amounts to. The layers are glued together with an adhesive containing polyvinyl alcohol.

In Fig. 2, a seal from the segments 4 and 5 is shown, which overlap on the abutting surface 3 inclined towards the sealing surface. For sealing device flanges used flat lungs according to the invention with overlapped Segments were tight at pressures up to 30 bar.

4 claims for protection
2 figures

PA 74/11 Dr.We / häu - 4 -

7423611 «. *»

Claims (4)

Protection claims 1. Flat gasket made of graphite laminate, characterized in that between two layers made of graphite laminate with a low bulk density an intermediate layer made of laminate with a higher bulk density is arranged. 2. Flat gasket according to claim 1, characterized in that the bulk density of the intermediate layer 3
is at least 1.0 g / cm. ο Flat gasket according to claim 1 and 2, characterized in that the individual layers and layers are glued together. 4. Flat gasket according to claims 1-3, consisting of several overlapping segments which are beveled at the abutment surfaces. PA 74/11 Dr "We / häu 742301112,1174