Contaminant resistant piston seal with energized backup scrapers
First Claim
1. A contamination resistant cylinder and piston assembly comprising,a piston movable in a cylinder having a cylinder wall and a central longitudinal axis, said piston including an annular groove facing said cylinder wall, said groove having opposite side walls and an interconnecting bottom wall,a contamination resistant seal assembly positioned in said groove and having a free state, a preloaded state, and a pressure loaded state and comprising,a load ring on the bottom wall of said groove and having a radial inner surface and an outer surface and opposite side walls, said bottom wall of said annular groove and said radial inner surface defining a recess therebetween in said free state,said outer surface including a center surface portion spaced radially outwardly from oppositely disposed feet,said feet including ramp surfaces which slope towards each other and towards said center surface portion,said ramp surfaces at their ends opposite said center surface intersect step surfaces which are parallel to said central longitudinal axis and extend to said opposite side walls,a seal ring mounted on the center surface portion of the outer surface,a pair of backup rings radially supported on said oppositely disposed feet and ramp surfaces, said backup rings having a cylindrical radial outer surface parallel to said longitudinal axis, inner and outer side walls, and an inner surface for mating with said feet and ramp surfaces,said piston assembly being in said free state before being assembled into said cylinder, and said piston assembly after said seal ring, load ring, and backup rings are positioned thereon having a combined diameter which is greater than said cylinder,wherein said preloaded state occurs upon assembly of said piston assembly into said cylinder to put said seal ring in sealed engagement with said cylinder wall and creates a radially compressive force directed toward said load ring center surface portion;
- said load ring being axially constrained by said piston groove such that said load ring radial inner surface responds by moving into said recess and toward said bottom wall;
said force also causing said feet to move radially outward and said backup ring mating surfaces supported thereon to move along said ramp surfaces toward said center surface portion and radially outwardly toward said cylinder wall into contamination scraping engagement with the same, andwherein said pressure loaded state occurs when said piston assembly is exposed to lateral fluid pressure within the cylinder wall and said pressure acts on said outer side wall of one of said backup rings to further force the same up said ramp surfaces toward said center surface portion and outwardly into contamination scraping engagement with said cylinder wall.
1 Assignment
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Accused Products
Abstract
The inner annular surface of a load ring includes a concave contour such that when pressure is applied to the center of the outer surface the elastomer material will flatten out and cause oppositely disposed feet to kick up and radially outwardly and in turn apply increased pressure to backup rings engaging the cylinder wall. The inner surface of the load ring includes oppositely disposed ramp surfaces which slope radially outwardly and towards each other such that fluid pressure on the backup rings or pressure from the load ring feet will move the backup rings into tighter engagement with the cylinder wall for improved sealing and scraping action.
35 Citations
11 Claims
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1. A contamination resistant cylinder and piston assembly comprising,
a piston movable in a cylinder having a cylinder wall and a central longitudinal axis, said piston including an annular groove facing said cylinder wall, said groove having opposite side walls and an interconnecting bottom wall, a contamination resistant seal assembly positioned in said groove and having a free state, a preloaded state, and a pressure loaded state and comprising, a load ring on the bottom wall of said groove and having a radial inner surface and an outer surface and opposite side walls, said bottom wall of said annular groove and said radial inner surface defining a recess therebetween in said free state, said outer surface including a center surface portion spaced radially outwardly from oppositely disposed feet, said feet including ramp surfaces which slope towards each other and towards said center surface portion, said ramp surfaces at their ends opposite said center surface intersect step surfaces which are parallel to said central longitudinal axis and extend to said opposite side walls, a seal ring mounted on the center surface portion of the outer surface, a pair of backup rings radially supported on said oppositely disposed feet and ramp surfaces, said backup rings having a cylindrical radial outer surface parallel to said longitudinal axis, inner and outer side walls, and an inner surface for mating with said feet and ramp surfaces, said piston assembly being in said free state before being assembled into said cylinder, and said piston assembly after said seal ring, load ring, and backup rings are positioned thereon having a combined diameter which is greater than said cylinder, wherein said preloaded state occurs upon assembly of said piston assembly into said cylinder to put said seal ring in sealed engagement with said cylinder wall and creates a radially compressive force directed toward said load ring center surface portion; - said load ring being axially constrained by said piston groove such that said load ring radial inner surface responds by moving into said recess and toward said bottom wall;
said force also causing said feet to move radially outward and said backup ring mating surfaces supported thereon to move along said ramp surfaces toward said center surface portion and radially outwardly toward said cylinder wall into contamination scraping engagement with the same, andwherein said pressure loaded state occurs when said piston assembly is exposed to lateral fluid pressure within the cylinder wall and said pressure acts on said outer side wall of one of said backup rings to further force the same up said ramp surfaces toward said center surface portion and outwardly into contamination scraping engagement with said cylinder wall. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- said load ring being axially constrained by said piston groove such that said load ring radial inner surface responds by moving into said recess and toward said bottom wall;
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11. A method of providing backup, pressure sealing, and contamination protection for a piston assembly within a cylinder, comprising;
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installing a load ring into an annular groove facing radially outwardly on the piston, said groove having opposite side walls and an interconnecting bottom wall, said load ring having a radial inner surface and an outer surface and opposite side walls, said bottom wall of said groove and said radial inner surface of said load ring defining a recess therebetween, said outer surface including a center surface portion spaced radially outwardly from oppositely disposed feet, said feet including ramp surfaces which slope towards each other and towards said center surface portion; placing a seal ring having opposing sides, an inner diameter, and an outer diameter upon said load ring center surface, the effective outer diameter of said seal ring when so placed upon said load ring and piston being greater than the inner diameter of the piston bore; backing up said seal ring with a pair of backup rings having a cylindrical outer radial surface, two opposing sides, and an inner radial surface for mating engagement with said load ring ramp and feet, one of said backup rings being mounted on each of said opposing sides of said seal ring so as to mate with said ramp and feet surfaces of said load ring, whereby a first state known as the free state is achieved; inserting said piston assembly into the cylinder bore so as to compress the seal ring between the wall of the bore and said groove of the piston so that said seal ring is forced inward radially into said load ring, said load ring being axially constrained by said piston groove such that said load ring radial inner surface responds by moving into said recess and towards said bottom wall, said force also causing said feet to move radially outward and said backup ring mating surfaces supported thereon to move longitudinally along said ramp surfaces toward said center surface portion and radially outwardly toward said cylinder wall into contamination scraping engagement with the same, whereby a preloaded state exists in which said seal ring and backup rings are urged into engagement with the cylinder wall; and pressurizing the cylinder thereby exposing one of said backup ring sides remote from said seal ring to lateral fluid pressure, said pressure acting against said side of said backup ring to further force said backup ring up said ramp surfaces of said load ring toward said center surface portion and outwardly into contamination scraping engagement with the cylinder wall, thereby resulting in a pressure loaded state wherein contamination is prevented from reaching said seal ring.
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Specification