NZ196657A - Gasket made of graphite foil with metallic reinforcement layer - Google Patents
Gasket made of graphite foil with metallic reinforcement layerInfo
- Publication number
- NZ196657A NZ196657A NZ19665781A NZ19665781A NZ196657A NZ 196657 A NZ196657 A NZ 196657A NZ 19665781 A NZ19665781 A NZ 19665781A NZ 19665781 A NZ19665781 A NZ 19665781A NZ 196657 A NZ196657 A NZ 196657A
- Authority
- NZ
- New Zealand
- Prior art keywords
- gasket
- edge
- graphite foil
- reinforcement layer
- flat gasket
- Prior art date
Links
Landscapes
- Gasket Seals (AREA)
Description
■'I '^1 /?
; ( 1 n • ^ " V
*
Pncrfiy Date's):
Compieto Speoificstion Filod.
PubHcatson Date:
%
L
P.O. Jeumsl, Wo: .
15155
Patents Form No.5
^RVJ&V
NEW ZEALAND PATENTS ACT 195 3 COMPLETE SPECIFICATION "IMPROVEMENTS IN AND RELATING TO GASKETS"
<7 r.y'
-J-/WE FLEXITALLIC GASKETS LIMITED of Station Lane, Heckmondwike £ n^V<x <X
y^c- Yorkshirea British Company,
hereby declare the invention, for which-i/we pray that a patent may be granted to -me/us, and the method by which it is to be performed, to be particularly described in and by the following statement:-
(followed by page I A >
196657
Expanded Graphite Gaskets
- lft-
This invention relates to flat gaskets of the kind used to join flanged parts such as pipes. In particular, it relates to flat gaskets made from expanded graphite.
THE PRIOR ART
It has been known for many years that expanded graphite particles tend to coalesce on the application of pressure. Foils made in this way from expanded graphite have been used as packing materials for rotary shaft seals. They have also been used in the manufacture of flat gaskets. For example, US Patent Specification No. 4083570 discloses the use of a minor amount of expanded graphite foil in a very small portion of an automotive cylinder head gasket. However, the graphite foil is protected by metal; only a part of it is exposed, so that the fragility of the graphite foil is not a significant factor.
BRIEF DISCUSSION OF THE INVENTION
According to the present invention a flat gasket comprises a laminate of layers of expanded graphite foil and a metallic reinforcement layer, the graphite foil layers being so disposed as to overlap with and enclose one edge of the reinforcement layer to define a reinforcement-
free extension of said one edge, said one edge being that
h 6
aggressive environment. Such an aggressive environment may be inside and/or outside the parts joined by the gasket, of course. The graphite foils preferably overlap said one edge so as to extend therefrom.
The graphite foils are made from expanded graphite,
which is noted for its good resistance to aggressive environments, although it is not very strong when compared to many other gasket materials.
The invention can therefore accomplish two tasks in that it provides structural reinforcement for a fragile, expensive material and at the same time it enables the reinforcement to be made from a relatively cheap material, because the reinforcement itself is not exposed to the potentially aggressive environment to be sealed by the gasket. This is contrary to conventional laminated gasket constructions where the metallic reinforcement layer and the gasket material are coterminous and where in fact the reinforcement layer often encloses the gasket material more or less completely, as in the automotive cylinder head gasket referred to earlier or a metal jacketed gasket, for example, a heat exchanger gasket.
DESCRIPTION OF EMBODIMENTS
The gasket may be in the form of a flat annulus of any diameter, or it may be non-circular, depending on the shape of the parts between which it is to be used The limiting factor may be the maximum size of the sheet of graphite from which the graphite foils are cut, but it will more usually be the maximum size of the metal sheet from which the reinforcement is cut. However, by
adopting the end-to-end joining technique disclosed in UK Patent No.1412141, it is possible to build up a gasket of practically any desired size or shape. Furthermore by doing this, it is possible to install such a gasket in circumstances where there is a central obstruction between/inside the parts to be joined. This may well obviate the need for expensive and/or extensive dismantling work, simply in order to fit a new gasket. Reactor vessels containing shaft driven stirrers are a notable illustration of where this preferred gasket construction is advantageous. Similar considerations apply where access is limited and it is only possible to separate the flanges by a small amount. It follows that even for a circular gasket which can be made in one piece, it may still be convenient to use the joining techniques just mentioned. The gasket can be cut through at one point so as to form a dovetail joint, the mating parts of which can be engaged with one another after installing the gasket around some central obstruction and between a pair of flanges to be joined. After engaging the mating parts, the area can be sealed by covering the joint with thin pieces of graphite foil on each side of the gasket. In use, these pieces become almost integral with the rest of the foil by virtue of being clamped to it.
Where the aggressive environment is, say, only present at one edge of the gasket, the metallic reinforcement can advantageously extend beyond the graphite at the opposite edge of the gasket, so as to form a peripheral locating flange. Usually this will be to the outside of the gasket, of course. As centering a large diameter gasket can be a difficult and critical exercise, the use of such a peripheral flange to accurately locate the gasket in relation to the mounting bolts can be a valuable and time-saving feature. It may also save a
4
considerable amount of very expensive graphite foil, because the latter is only really essential in the actual area where sealing is to take place.
DESCRIPTION OF PREFERRED EMBODIMENTS
In order that the invention be better understood, a preferred embodiment of it will now bedescribed with reference to the accompanying drawing in which:
Figure 1 is a cross-sectional view of part of a gasket in accordance with the invention and,
Figure 2 is a plan view of part of the gasket of figure 1.
In figure 1, the gasket is made up of three expanded graphite layers. Two of these, 3 and 4, form the gasket faces, the third, 5, lies between the first two. A thin steel reinforcement layer, 6, also lies between the first two graphite layers in side-by-side relation to the third layer 5. The various layers are assembled as shown and then united by pressing. Adhesives may also be used for this purpose. It will be appreciated that whilst the cross-section is in this case uniform throughout the length of the gasket, it need not be. The width of the gasket may vary lengthwise of the gasket according to requirements; it may have any desired shape, when seen in plan view. The edge 7 is the inside edge of the gasket shown in figure 2, which will now be described.
Figure 2 shows part of a circular gasket made in the manner of the gasket of figure 1. The edge 7 is the inside edge of the gasket; in this instance it was
19GG5
designed to fit between the upper and lower halves of a circular reactor vessel fitted with a central stirrer shaft. To fit the gasket around the shaft without dismantling it, the gasket is provided with a dovetail joint, 8, so that the gasket can be "opened" during installation. After installation, the dovetail is re-assembled and thin portions of expanded graphite foil placed over it on both sides of the gasket. Subsequent compression in use effectively moulds the foils and the dovetail joint into an almost integral whole so that the metal layer is protected from whatever is inside the reactor vessel.
The particular expanded graphite foil used throughout the foregoing example was that sold under the Trade Name FLEXICARB which name is used in connection with flexible graphite foil.
'I ' ' \ /
I / o >J J /
r >
Claims (5)
1. A flat gasket comprising a laminate of layers of expanded graphite foil and a metallic reinforcement layer, the graphite foil layers being so disposed as to overlap with and enclose one edge of the reinforcement layer to define a reinforcement-free extension of said one edge, said one edge being that edge of the gasket which in use may be exposed to an aggressive environment.
2. A flat gasket according to claim 1 wherein the metallic layer projects beyond the graphite foil layers at the opposite edge to said one edge and the projecting portion thereof constitutes a locating and/or centering means for the gasket in use or during installation.
3. A flat gasket according to claim 1 or claim 2 having at least one joint lengthwise thereof to enable installation of the gasket between mating flanges in the presence of a central obstruction to said installation.
4. A flat gasket according to claim .<3 having a plurality of joints lengthwise thereof.
5. A flat gasket substantially as hereinbefore described with reference to and as illustrated by the accompanying drawing. IC GASKETS LIMITED
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NZ19665781A NZ196657A (en) | 1979-12-15 | 1981-03-27 | Gasket made of graphite foil with metallic reinforcement layer |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB7943297A GB2072768B (en) | 1979-12-15 | 1979-12-15 | Gaskets |
NZ19665781A NZ196657A (en) | 1979-12-15 | 1981-03-27 | Gasket made of graphite foil with metallic reinforcement layer |
Publications (1)
Publication Number | Publication Date |
---|---|
NZ196657A true NZ196657A (en) | 1984-03-16 |
Family
ID=26273891
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
NZ19665781A NZ196657A (en) | 1979-12-15 | 1981-03-27 | Gasket made of graphite foil with metallic reinforcement layer |
Country Status (1)
Country | Link |
---|---|
NZ (1) | NZ196657A (en) |
-
1981
- 1981-03-27 NZ NZ19665781A patent/NZ196657A/en unknown
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CA1146187A (en) | Gaskets | |
CA2030017A1 (en) | Method and apparatus for lining manhole assemblies and the like | |
WO1995027166A1 (en) | Cylindrical corrosion barrier for pipe connections | |
US5163785A (en) | Method for sealing connections between sheet piles, and sheet piles employing said method | |
KR960003784A (en) | In-line filter for tube | |
CA2186670A1 (en) | Split Flashing | |
JPH0348385B2 (en) | ||
US5310197A (en) | Gasket construction | |
GB2109496A (en) | Pipe compression seal | |
US5163715A (en) | Lined pipe connection device and method | |
US3889836A (en) | Method and means for constructing large tanks | |
NZ196657A (en) | Gasket made of graphite foil with metallic reinforcement layer | |
GB2182985A (en) | Gaskets | |
US20010019055A1 (en) | Over-molded product and method of manufacture | |
US3349951A (en) | Connections for alloy lined vessels | |
EP0269419A1 (en) | Manufacture of bags | |
RU2282083C2 (en) | Layer for sealing of flanged connection | |
JPS57192670A (en) | Gasket | |
CN206112074U (en) | Assembly gear type shape is filled up | |
EP0803666A2 (en) | Spiral wound gasket | |
CA2217757C (en) | Mold and method for forming elastomeric flange linings for pipes | |
JPS6340692Y2 (en) | ||
JP2741570B2 (en) | Valve fire-safe seal structure | |
JPH0435642Y2 (en) | ||
EP0568205A1 (en) | Sonar transducer assembly |