Patent ID: 8262371
Filing Date: 2012-09-11
Classification: F15B

Abstract:
1. A pneumatic control device for supplying hydraulic fluid comprising: a base comprising a reservoir for storing hydraulic fluid, a first check valve for only allowing the hydraulic fluid to flow into the reservoir, and a second check valve for only allowing the hydraulic fluid to flow out of the reservoir; a hollow cylinder having a chamber defined therein and comprising a piston disposed in the chamber, a rod having a head attached to the piston and a bottom disposed in the reservoir, and a biasing member biased between the head of the rod and the base; a body mounted to the hollow cylinder thereunder and releasably secured to the base, the body comprising a stepped-diameter passageway therethrough, the stepped-diameter passageway including first, second, and third steps, an annular first groove proximate the third step, an annular second groove distal the third step, an inlet port communicating the second groove and the atmosphere, a return line interconnecting the first step and the chamber, a relief port interconnecting the chamber and the first groove, and an outlet port communicating between the atmosphere and the third step; a poppet mounted in the passageway and comprising an annular enlarged head moveably disposed in the second step, the head of the poppet having an annular well, a first O-ring put on the well, a shallow riser on top of the head of the poppet, a shoulder between the riser and a circumference of the head of the poppet, the shoulder being in communication with the first step, the poppet further comprising annular first, second, third, and fourth toothed sections on another circumference of the poppet, with annular first, second, third, and fourth troughs alternately disposed among the first, second, third, and fourth toothed sections, and three second O-rings each put on one of the second, third, and fourth troughs; and a cover releasably secured onto the poppet to urge a third O-ring against the first step, wherein in response to feeding pressurized air into the chamber, the hydraulic fluid in the reservoir flows out during a first stroke of the piston, and the hydraulic fluid is sucked back into the reservoir during a second stroke of the piston, the second stroke of the piston being opposite the first stroke of the piston in a moving direction.