The present invention relates to seals, and more particularly to seals for sealing annular spaces between inner and outer bodies
Seals for sealing annular spaces are generally known. One type of known seal includes an annular body having inner and outer circumferential surfaces which seal against proximal circumferential surfaces of an inner body and an outer body disposed coaxially about the inner body. Typically, such a seal includes a rigid polymeric sealing member with inner and outer walls bounding an annular cavity and an elastomeric biasing or energizing member disposed within the annular cavity. The energizing member tends to push the two walls away from each other and into sealing contact with the inner and outer bodies.
Generally, the polymeric sealing member is treated with etchants to make the surfaces of the cavity capable of bonding to the energizing member, and then an adhesive is applied between the prepared surfaces of the sealing member and the outer surfaces of the elastomeric energizing member. After bonding, excess etchant is typically removed with solvents or by a mechanical means (e.g., grinding).
In one aspect, the present invention is a seal for sealing between an inner body and an outer body, the inner body having an outer circumferential surface and the outer member having an inner circumferential surface spaced radially from the inner surface so as to define a generally annular space. The seal comprises a generally annular sealing member having inner and outer circumferential sealing surfaces, at least one of the inner and outer sealing surfaces being sealingly engageable with one of the inner body outer surface and the outer body inner surface.
The sealing member further has an interior surface at least partially defining a generally annular interior cavity, an opening extending into the cavity, and at least one locking tab extending from the interior surface and into the cavity. An annular biasing member is disposed within the sealing member cavity, is configured to bias the at least one sealing surface generally toward the at least body surface, and has at least one engagement recess configured to receive at least a portion of the at least one locking tab such that the biasing member is retained within the cavity.
The foregoing summary, as well as the detailed description of the preferred embodiments of the present invention, will be better understood when read in conjunction with the appended drawings. For the purpose of illustrating the invention, there is shown in the drawings, which are diagrammatic, embodiments that are presently preferred. It should be understood, however, that the present invention is not limited to the precise arrangements and instrumentalities shown. In the drawings:
Certain terminology is used in the following description for convenience only and is not limiting. The words “inner”, “inwardly” and “outer”, “outwardly” refer to directions toward and away from, respectively, a designated centerline or a geometric center of an element being described, the particular meaning being readily apparent from the context of the description. Further, as used herein, the words “connected” and “coupled” are each intended to include direct connections between two members without any other members interposed therebetween and indirect connections between members in which one or more other members are interposed therebetween. The terminology includes the words specifically mentioned above, derivatives thereof, and words of similar import.
Referring now to the drawings in detail, wherein like numbers are used to indicate like elements throughout, there is shown in
The sealing member 12 has inner and outer circumferential sealing surfaces 16, 18, respectively, the inner surface 16 being sealingly engageable with the inner body outer surface 1a and the outer sealing surface 18 being sealingly engageable with the outer body inner surface 2a. The sealing member 12 also has an interior surface 20 at least partially defining a generally annular interior cavity 22, an opening 24 extending into the cavity 22, and at least one locking tab 26 extending from the interior surface 20 and into the cavity 22. Further, the biasing member 14 is disposed within the sealing member cavity 22 and is configured to bias at least one of the sealing surfaces 16, 18, and preferably both, generally toward the proximal body surface 1a, 2a, respectively. Also, the biasing member 14 has at least one engagement recess 28 configured to receive at least a portion of the at least one locking tab 26, such that the biasing member 14 is thereby retained within the cavity 22.
Preferably, the sealing member 12 is formed as a generally shell-like body having generally U-shaped axial cross-sections. Specifically, the sealing member 12 includes inner and outer side walls 30, 32 extending circumferentially about the seal central axis AC and bounding the interior cavity 22, and a curved, central end wall 34 extending between the inner and outer side walls 30, 32. Each side wall 30, 32 has a free end 30a, 32a, respectively, with the sealing member opening 24 being defined between the ends 30a, 32b. The inner side wall 30 provides the inner circumferential sealing surface 16, which defines a central bore 17 that is preferably sized to receive a portion of the gate valve stem 1, a discussed above, and further has an opposing outer circumferential surface section 36 providing a portion of the body interior surface 20. The outer side wall 32 provides the outer circumferential sealing surface 18 and is disposed coaxially about the inner wall 30. Further, the outer side wall 32 has an inner circumferential surface section 38 facing generally toward, and spaced radially outwardly from, the inner wall outer surface 34 and providing another portion of the body interior surface 20. Also, the curved, central end wall 34 extends generally radially between and integrally connects inner ends 30b, 32b of the two side walls 30, 32 and has a curved radial surface section 39. Thus, the sealing member cavity 22 is therefore defined by the three surface sections 36, 38 and 39 providing the sealing member interior surface 20.
Furthermore, the biasing member 14 is preferably formed as a generally solid, annular body or ring having first and second axial ends 14a, 14b and inner and outer circumferential surfaces 40, 42 extending about the central axis AC. The biasing member 14 is sized to fit within the sealing member cavity 22, with the first, inner end 14a being generally curved to fit against the curved surface 39 of the sealing member end wall 34 and the second, outer end 14b being generally flat, and has an axial length (i.e., between the ends 14a, 14b) such that the second end 14b is disposed within the sealing member opening 24. Further, the biasing member 14 has a radial thickness tR (i.e., the perpendicular distance between circumferential surfaces 40, 42) with a magnitude such that the biasing member 14 is compressed within the cavity 22.
As such, biasing member 14 preferably biases both side walls 30, 32 in opposing radial directions to seal against the surfaces 1a, 2a of the inner and outer bodies 1, 2, respectively. That is, the biasing member 14 preferably biases the inner side wall 30 in a generally radially inwardly direction so that the sealing member inner surface 16 sealingly engages with the inner body outer surface la with a contact pressure. The biasing member 14 preferably also biases the outer side wall 32 in a generally radially outwardly direction such that the sealing member outer surface 18 sealingly engages with the outer body inner surface 2a with contact pressure. Alternatively, the sealing member 12 may be formed such that one of the side walls 30 or 32 engages with the associated body surface 1a, 2a, respectively, with a friction or interference fit and only the other side wall 32 or 30 is biased into sealing engagement with the associated body surface 2a, 1a.
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The seal 10 of the present invention has clear advantages over similar known seal assemblies. By using mechanical means (i.e., locking tabs and recesses) to retain the biasing member 14 within the sealing member 12, the use of chemicals such as etchants to prepare the surface 20 of the cavity 22, adhesives to bond the sealing member 12 to the biasing member 14, and solvents to remove excess etchants, is entirely eliminated. Thus, the usage of substances with potentially adverse environmental effects is minimized in the manufacturing of the seal 10. Further, the use of the locking tabs 27A, 27B pre-formed in the sealing member 12 and engagement recesses 29A, 29B pre-formed in the biasing member 14 eliminates the steps of preparing the sealing member surfaces 36, 38, 39 for bonding, bonding the sealing member 12 to the biasing member 14 with adhesives, and removing the excess etchants, which thus reduces manufacturing time and cost.
It will be appreciated by those skilled in the art that changes could be made to the embodiments described above without departing from the broad inventive concept thereof. It is understood, therefore, that this invention is not limited to the particular embodiments disclosed, but it is intended to cover modifications within the spirit and scope of the present invention as generally defined in the appended claims.