Face seal with inner and outer seal retainer members

Seal for a joint or juncture – Seal between fixed parts or static contact against... – Contact seal for a pipe – conduit – or cable

Reexamination Certificate

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Details

C277S626000, C277S644000, C277S654000

Reexamination Certificate

active

06224065

ABSTRACT:

TECHNICAL FIELD
This invention relates generally to face type seals, and more particularly, to a face type seal including inner and outer seal retainer members for protecting an elastomeric element of the seal during assembly, retaining the seal at disassembly, and enhancing the sealing function.
BACKGROUND ART
Face type seals, that is, seals having at least one axial sealing face for forming a sealed condition in engagement with an opposing flat surface, are well known in the art. Commonly, O-rings are used as face seals. Other known face seals include bifurcated elastomeric sealing elements having a peripheral rim for isolating or shielding a main sealing element from sudden pressure changes on the rim side of the seal which can cause extrusion of the main sealing element. This rim also protects the main sealing element during handling and installation. To provide a satisfactory sealing function under high pressure conditions, particularly to avoid extrusion of the elastomeric sealing components into adjacent spaces, the known face seals also typically have a relatively large area of contact with the opposing surface, which is known as the seal area. However, a large seal area has the accompanying shortcoming of a correspondingly large joint or seal separation load, that is, a force generated by the seal urging to open or separate the sealed joint. The larger the joint separation load, the greater the force required to keep the joint closed. This means that more and/or larger fasteners are required, which increases cost.
The opposing surface with which the face seal forms the sealed condition is typically lapped, ground or milled to achieve a high degree of flatness. However, the lapping, grinding and milling operations can produce very small scratches that extend across the surface, thereby providing a potential leak path past the seal. Scratches can also be accidentally formed across the surface during handling. To avoid these problems, manufacturers typically impose stringent surface finish requirements on these surfaces which add to their manufacturing cost.
Additionally, many manufactured assemblies include component parts requiring more than one face seal therebetween, for instance, for forming sealed conditions around multiple passages or conduits extending between the components, requiring that the multiple sealed conditions be formed simultaneously as the components are assembled. This can be problematic in instances wherein the opposed surfaces with which the seals are to form the sealed conditions are not uniformly spaced apart, as this can result in varying degrees of compression of the respective seals when the components are assembled. To overcome the above-referenced scratching problem, it is known to produce the opposing surfaces with which the seals are to form the sealed conditions using spot facing and counterboring techniques wherein only circumferentially extending scratches are produced. This enables flatness and surface finish tolerances to be relaxed. It has also been found that many known spot face machines can hold very close axial or depth tolerances such that multiple spot faces produced on a component can be very closely co-planar. This is significant because when two components are assembled, a very uniform spaced apart relationship between the spot faces and opposing surfaces can be achieved. When the components are fastened together with multiple face seals installed for forming sealed conditions with the respective spot faces, more uniform, predictable sealing characteristics can be achieved.
What is now desired, therefore, is a face seal to more fully exploit the advantages of the available counterboring and spot facing techniques, which seal lowers manufacturing and assembly costs, and provides more uniform, positive sealing capabilities.
Accordingly, the present invention is directed to overcoming one or more of the problems as set forth above.
DISCLOSURE OF THE INVENTION
In one aspect of the present invention, a face seal for forming a sealed condition between two spaced, opposed surfaces which provides many of the advantages set forth above is disclosed. The present face seal includes an inner seal retainer member defining an area having an axis therethrough, the inner seal retainer member having a first axial end portion, an opposite second axial end portion, and a predetermined axial extent as measured between the first axial end portion and the second axial end portion. The seal includes an outer seal retainer member including a first axial end portion and an opposite second axial end portion, the outer seal retainer member having a predetermined axial extent as measured between the first axial end portion thereof and the second axial end portion thereof. The outer seal retainer member is disposed radially outwardly of the inner seal retainer member, defining a space therebetween. An elastomeric seal member is disposed in a predetermined portion of the space between the inner seal retainer member and the outer seal retainer member. The elastomeric seal member has a first axial sealing face, an opposite second axial sealing face, and a predetermined axial extent as measured between the first axial sealing axial face and the second axial face when in a free state which is greater than the axial extents of the seal retainer members so as to extend beyond the opposite axial end portions of both retainer members. At least one cavity is provided between the seal member and the retainer members, and the seal member is deformable so as to conform to the opposed surfaces for forming the sealed condition therewith and to expand into the at least one cavity when subject to a compressive force applied by the opposed surfaces.


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