One-way pressure activated piston seal

What is claimed is: 1. A method for holding pressure and volume of an accumulator with low leakage and for providing low actuation drag during a release stroke of a solenoid actuated valve ( 10 ) for dumping fluid contents of the accumulator at very low current draw comprising: providing a groove ( 10 c ) in one of two elongate valve members ( 10 a , 10 b ) movable axially with respect to one another; positioning an o-ring ( 12 ) in the groove ( 10 c ); maintaining the o-ring ( 12 ) in a non-contacting relationship with respect to the other of the two elongate valve members ( 10 b ) when in a non-energized state; and assembling an energizer ring ( 14 ) within the groove ( 10 c ) for axially reciprocal movement with respect to the o-ring ( 12 ), where the energizer ring ( 14 ) is axially movable toward the o-ring ( 12 ) in response to fluid pressure against a surface ( 14 a ) opposite from the o-ring ( 12 ) and the o-ring ( 12 ) being compressible by the energizer ring ( 14 ) thereby causing radial expansion of the o-ring ( 12 ) into sealing contact with the other of the two elongate valve members ( 10 b ) when in an energized state thereby sealing the solenoid actuated valve ( 10 ) in response to fluid pressure for holding pressure and volume of the accumulator with low leakage while the two elongate valve members ( 10 a , 10 b ) are stationary with respect to one another, where the o-ring is releasable from the energized state between the two elongate valve members ( 10 a , 10 b ) into the non-energized state in response to initial movement of a release stroke of the solenoid actuated valve ( 10 ) thereby providing low actuation drag during relative movement between the two elongate valve members ( 10 a , 10 b ) for dumping fluid contents of the accumulator at very low current draw. 2. The method of claim 1 further comprising: providing the energizer ring ( 14 ) with a rectangular cross section. 3. The method of claim 1 further comprising: providing the energizer ring ( 14 ) with an L-shaped cross section ( 14 b ). 4. The method of claim 1 further comprising: providing the energizer ring ( 14 ) with an L-shaped cross section ( 14 b ) having an angled o-ring engaging surface ( 14 c ). 5. A one-way pressure activated piston seal comprising: two elongate members ( 10 a , 10 b ) movable axially relative to one another with a groove ( 10 c ) formed in one of the two elongate members ( 10 a ); an o-ring ( 12 ) located within the groove ( 10 c ) formed in the one of the two elongate members ( 10 a ), while the o-ring ( 12 ) is maintained in a non-contacting relationship with respect to the other of the two elongate members ( 10 b ) when in a non-energized state; and an energizer ring ( 14 ) located within the groove ( 10 c ) for axially reciprocal movement with respect to the o-ring ( 12 ), where the energizer ring ( 14 ) is axially movable toward the o-ring ( 12 ) in response to fluid pressure against a surface ( 14 a ) opposite from the o-ring ( 12 ) and the o-ring ( 12 ) being compressible by the energizer ring ( 14 ) to expand the o-ring ( 12 ) radially into sealing contact with the other of the two elongate members ( 10 b ) when in an energized state while the two elongate members ( 10 a , 10 b ) are stationary with respect to one another, where the o-ring is releasable from the energized state between the two elongate members ( 10 a , 10 b ) into the non-energized state in response to initial movement between the two elongate members ( 10 a , 10 b ) minimizing drag during relative movement between the two elongate members ( 10 a , 10 b ). 6. The seal of claim 5 , wherein the energizer ring ( 14 ) has a rectangular cross section. 7. The seal of claim 5 , wherein the energizer ring ( 14 ) has an L-shaped cross section ( 14 b ). 8. The seal of claim 5 , wherein the energizer ring ( 14 ) has an L-shaped cross section ( 14 b ) with an angled o-ring engaging surface ( 14 c ). 9. A solenoid actuated valve ( 10 ) for holding pressure and volume of an accumulator with low leakage and for providing low actuation drag during a release stroke of the solenoid actuated valve ( 10 ) for dumping fluid contents of the accumulator at very low current draw comprising: two elongate valve members ( 10 a , 10 b ) movable axially relative to one another with a groove ( 10 c ) formed in one of the two elongate valve members ( 10 a ); an o-ring ( 12 ) located within the groove ( 10 c ) formed in the one of the two elongate valve members ( 10 a ), where the o-ring ( 12 ) is maintained in a non-contacting relationship with respect to the other of the two elongate valve members ( 10 b ) when in a non-energized state; and an energizer ring ( 14 ) located within the groove ( 10 c ) for axial movement with respect to the o-ring ( 12 ), where the energizer ring ( 14 ) is axially movable toward the o-ring ( 12 ) in response to fluid pressure against a surface ( 14 a ) opposite from the o-ring ( 12 ) and the o-ring ( 12 ) being compressible by the energizer ring ( 14 ) causing the o-ring ( 12 ) to expand radially into sealing contact with the other of the two elongate valve members ( 10 b ) when in an energized state thereby sealing the solenoid actuated valve ( 10 ) in response to fluid pressure for holding pressure and volume of the accumulator with low leakage while the two elongate valve members ( 10 a , 10 b ) are stationary with respect to one another, the o-ring being releasable from the energized state between the two elongate valve members ( 10 a , 10 b ) into the non-energized state in response to initial movement of a release stroke of the solenoid actuated valve ( 10 ) thereby providing low actuation drag during relative movement between the two elongate valve members ( 10 a , 10 b ) for dumping fluid contents of the accumulator at very low current draw. 10. The valve ( 10 ) of claim 9 , wherein actuation of the solenoid actuated valve ( 10 ) unloads compressive pressure on the o-ring ( 12 ) allowing retraction from the radially expanded energized state to the non-contacting relationship with respect to the other of the two elongated valve members ( 10 a , 10 b ) in the non-energized state. 11. The valve ( 10 ) of claim 9 , wherein the energizer ring ( 14 ) has a rectangular cross section. 12. The valve ( 10 ) of claim 9 , wherein the energizer ring ( 14 ) has an L-shaped cross section ( 14 b ). 13. The valve ( 10 ) of claim 9 , wherein the energizer ring ( 14 ) has an L-shaped cross section ( 14 b ) with an angled o-ring engaging surface ( 14 c ).