Control valve and hydraulic system employing same
First Claim
Patent Images
1. A flow matching control valve comprising;
- a tubular body;
a source port at a first axial position along said body;
a load port at a second position along said body which is axially spaced from said first position;
an axially floating plug member which is movable axially within said tubular body in response to any difference in the pressures at said source and load ports, said body including a pair of rigidly connected first and second surfaces which are axially spaced, said plug member including a pair of rigidly connected third and fourth surfaces which are axially spaced, said first and second surfaces simultaneously mating with said third and fourth surfaces, such that axial movement of said plug member will progressively open said source and load ports in synchronism;
said body and plug member providing, between them, a chamber which is located axially between said first and second surfaces and with which said source and load ports communicate when open;
a drain port in said body opening directly into said chamber axially between said first and second surfaces, whereby;
when said drain port is closed, a hydraulic flow into said source port will exit through said load port and, when said drain port is open, a hydraulic flow into said source port will produce a controlled flow from said load port, both flows exiting through said drain port.
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Abstract
The valve disclosed herein functions, in one sense, as a flow matching device and, in another sense, as a reciprocative check valve. By employing the valve, a hydraulic system may be implemented in which filling and emptying of a variable volume load, such as a hydraulic piston may be accomplished through a single check valve structure at controlled flow rates.
31 Citations
8 Claims
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1. A flow matching control valve comprising;
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a tubular body; a source port at a first axial position along said body; a load port at a second position along said body which is axially spaced from said first position; an axially floating plug member which is movable axially within said tubular body in response to any difference in the pressures at said source and load ports, said body including a pair of rigidly connected first and second surfaces which are axially spaced, said plug member including a pair of rigidly connected third and fourth surfaces which are axially spaced, said first and second surfaces simultaneously mating with said third and fourth surfaces, such that axial movement of said plug member will progressively open said source and load ports in synchronism; said body and plug member providing, between them, a chamber which is located axially between said first and second surfaces and with which said source and load ports communicate when open; a drain port in said body opening directly into said chamber axially between said first and second surfaces, whereby; when said drain port is closed, a hydraulic flow into said source port will exit through said load port and, when said drain port is open, a hydraulic flow into said source port will produce a controlled flow from said load port, both flows exiting through said drain port. - View Dependent Claims (2, 3)
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4. A control valve comprising:
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a cylindrical tubular body providing first and second, axially spaced, valve seats both of which face in the same direction; in said body, a plug member which is movable axially in response to a pressure differential and which includes first and second valving surfaces which are axially spaced so as to mate simultaneously with said seats and to open synchronously; said body and plug member providing, between them, a chamber which is located axially between said valve seats; a drain port in said body opening directly into said chamber axially between said seats whereby when said drain port is closed, hydraulic flow in a direction tending to open said valving surfaces will proceed through said body and, when said drain port is open, a hydraulic flow into said body in said one direction will produce a controlled flow in the opposite direction, both flows exiting through said drain port.
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5. A control valve comprising;
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a generally tubular sleeve; a piston axially slidable within said sleeve, said sleeve and piston having a first pair of mating valving surfaces and, axially spaced from said first pair, a second pair of mating valving surfaces, said valving surfaces being matched to open in synchronism; in said piston, a first passageway from said first valving surface to one end of said piston and a second passageway opening from said second valving surfaces to the other end of said piston; in said sleeve, passageways connecting both sets of said valving surfaces to a drain port at one end of said sleeve, a valve seat; a valving member adapted to mate with and close off said seat, said piston including a portion which, during movement of the piston, engages said valving member to lift it off said seat substantially at the same time that said mating valving surfaces open.
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6. A hydraulic system comprising:
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a variable volume load; a sump; a unidirectional pump for drawing fluid from said sump and providing fluid under pressure; a release valve; between said pump and said load, a reciprocative check valve comprising first and second mating pairs of valving surfaces which are axially spaced and mechanically coupled and arranged to open in synchronism when the pump pressure exceeds the load pressure, and which are connected in series between said pump and said load, said reciprocative check valve providing also a chamber which is located axially between said pairs of valving surfaces, said chamber being connected directly to said release valve and, through said release valve, to said sump whereby, when said release valve is closed, operation of said pump will expand the load volume and, when said release valve is open, operation of said pump will contract the load volume.
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7. A hydraulic system comprising:
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a variable volume load; a reservoir a unidirectional pump for drawing fluid from said reservoir and providing fluid under pressure; a release valve; between said pump and said load, a reciprocative check valve including; a tubular body; a source port at a first axial position along said body; a load port at a second position along said body which is axially spaced from said first position; an axially floating plug member which is movable axially responsive to any difference in the pressures at said source and load ports, said body including a pair of rigidly connected first and second surfaces which are axially spaced, said plug member including a pair of rigidly connected third and fourth surfaces which are axially spaced, said first and second surfaces simultaneously mating with said third and fourth surfaces, such that axial movement of said plug member will progressively open said source and load ports in synchronism; said body and plug member providing, between them, a chamber which is located axially between said first and second surfaces and with which said source and load ports communicate when open; a drain port in said body opening directly into said chamber axially between said first and second surfaces, the drain port being connected also, through said release valve, to said reservoir whereby, when said release valve is closed, operation of said pump will expand the load volume and, when said release valve is open, operation of said pump will contract the load volume.
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8. A hydraulic system comprising:
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a variable volume load; a reservoir; a unidirectional pump for drawing fluid from said reservoir and providing fluid under pressure; a release valve; between said pump and said load, a reciprocative check valve including; a generally tubular sleeve; a piston axially slidable within said sleeve, said sleeve and piston having a first pair of mating valving surfaces and, axially spaced from said first pair, a second pair of mating valving surfaces, said valving surfaces being matched to open in synchronism; in said piston, a first passageway from said first valving surface to one end of said piston and a second passageway opening from said second valving surfaces to the other end of said piston; in said sleeve, passageways connecting both sets of said valving surfaces to a drain port at one end of said sleeve, a valve seat; a valving member adapted to mate with and close off said seat, said piston including a portion which, during movement of the piston, engages said valving member to lift it off said seat substantially at the same time that said mating valving surfaces open;
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Specification