Back-up means for fluid cylinder and method for using same
First Claim
1. Back-up means for use in combination with a fluid cylinder having an interior cylinder surface, a piston mounted for reciprocating movement in said cylinder, said piston having an outer cylindrical surface spaced radially inwardly a predetermined clearance distance from said interior cylinder surface of said cylinder, an annular groove being formed in said outer cylindrical surface of said piston, said groove having an annular axially extending groove bottom wall and first and second groove side walls extending radially outwardly from the opposite axial ends of said groove bottom wall, an elastomeric ring seal surrounding said piston and seated within said annular groove between said first and second groove side walls, said ring seal having opposite side surfaces and an outer perimetric edge, said perimetric edge sealingly engaging said interior cylinder surface of said cylinder;
- said back-up means comprising;
first and second back-up rings surrounding said piston and positioned within said annular groove on opposite sides of said ring seal;
each of said back-up rings comprisng an outer perimetric edge, an inner edge positioned radially inwardly from said outer edge and a pair of opposite ring faces presented in opposite axial directions;
said back-up rings being at times during reciprocating movement of said piston in sealing engagement with both of said side surfaces of said ring seal to form a fluid sealed compartment defined by said spaced apart back-up rings, said ring seal, and said annular groove bottom wall;
each of said back-up rings having a pressure relief means positioned between said outer edge and said inner edge of said back-up ring for providing fluid communication form said fluid sealed compartment to the exterior of said fluid sealed compartment so as to release a buildup of fluid pressure and heat within said fluid sealed compartment during reciprocating movement of said piston within said cylinder.
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Accused Products
Abstract
The back-up rings of the present invention are seated on opposite sides of a sealing ring within an annular groove of a hydraulic piston. The sealing ring is in frictional engagement with the interior surface of the hydraulic cylinder, and the back-up rings are positioned within the cylinder groove and on opposite sides of the sealing ring. At least one of the back-up rings includes a vent hole extending axially therethrough to permit the alleviation of any fluid pressure accumulating between the two spaced apart back-up rings. As an alternative to the axial vent hole, a groove may be provided on the interior perimeter of the back-up ring or the back-up ring may include a complete break therein for permitting the venting of fluid trapped between the two back-up rings. The method of the present invention includes venting any fluid which is trapped between the two back-up rings during reciprocation of the piston within the cylinder.
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Citations
10 Claims
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1. Back-up means for use in combination with a fluid cylinder having an interior cylinder surface, a piston mounted for reciprocating movement in said cylinder, said piston having an outer cylindrical surface spaced radially inwardly a predetermined clearance distance from said interior cylinder surface of said cylinder, an annular groove being formed in said outer cylindrical surface of said piston, said groove having an annular axially extending groove bottom wall and first and second groove side walls extending radially outwardly from the opposite axial ends of said groove bottom wall, an elastomeric ring seal surrounding said piston and seated within said annular groove between said first and second groove side walls, said ring seal having opposite side surfaces and an outer perimetric edge, said perimetric edge sealingly engaging said interior cylinder surface of said cylinder;
- said back-up means comprising;
first and second back-up rings surrounding said piston and positioned within said annular groove on opposite sides of said ring seal; each of said back-up rings comprisng an outer perimetric edge, an inner edge positioned radially inwardly from said outer edge and a pair of opposite ring faces presented in opposite axial directions; said back-up rings being at times during reciprocating movement of said piston in sealing engagement with both of said side surfaces of said ring seal to form a fluid sealed compartment defined by said spaced apart back-up rings, said ring seal, and said annular groove bottom wall; each of said back-up rings having a pressure relief means positioned between said outer edge and said inner edge of said back-up ring for providing fluid communication form said fluid sealed compartment to the exterior of said fluid sealed compartment so as to release a buildup of fluid pressure and heat within said fluid sealed compartment during reciprocating movement of said piston within said cylinder. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- said back-up means comprising;
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10. A method for using back-up means in a fluid cylinder having an interior cylinder surface, a piston mounted for reciprocating movement in said cylinder, said piston having an outer cylindrical surface spaced radially inwardly a predetermined clearance distance from said interior cylinder surface, an annular groove being formed in said outer cylindrical surface of said piston, said groove having an annular axially extending groove bottom wall and first and second groove side walls extending radially outwardly from the opposite axial ends of said groove bottom walls, an elastomeric sealing ring surrounding said piston and seated within said annular groove between said first and second groove side walls, said sealing ring having opposite side surfaces and an outer perimetric edge, said perimetric edge engaging said interior cylinder surface;
- first and second back-up rings surrounding said piston and positioned within said annular groove on opposite sides of said elastomeric seal;
each of said back-up rings comprising an outer perimetric edge, an inner edge positioned radially inwardly from said outer edge, and a pair of opposite ring faces presented in opposite axial directions;
said back-up rings being at times during reciprocating movement of said piston in sealing engagement with both of said side surfaces of said sealing ring to form a fluid sealed compartment defined by said spaced apart back-up rings;
said sealing ring, and said annular groove bottom wall;
said method comprising;reciprocating said piston within said cylinder in such a manner that friction between said sealing ring, said back-up rings, and said interior cylinder surface produces sufficient heat to cause said back-up rings to expand radially outwardly and to cause a sealed fluid compartment to be formed adjacent said bottom groove wall by said back-up rings, said sealing ring, said groove side walls, and said groove bottom wall; continuing to reciprocate said piston so that additional frictional heat is produced, thereby causing expansion of any fluid trapped within said sealed fluid compartment; venting said sealed fluid compartment through an opening extending transversely between and through said ring faces in at least one of said back-up rings, said opening providing fluid communication between the interior and exterior of said sealed fluid compartment so as to alleviate the build-up of fluid pressure and temperature adjacent said back-up rings.
- first and second back-up rings surrounding said piston and positioned within said annular groove on opposite sides of said elastomeric seal;
Specification