Compressor with liquid injection cooling
First Claim
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1. A positive displacement compressor, comprising:
- a compression chamber, including a cylindrical-shaped casing having a first end, a second end, and an inner curved surface;
a shaft located axially in the compression chamber;
a non-circular rotor mounted for rotation with the shaft relative to the casing, the non-circular rotor having a sealing portion, the sealing portion having a curved surface that corresponds with the inner curved surface of the cylindrical-shaped casing, and a non-sealing portion;
a gate, the gate having a first end and a second end; and
a gate positioning system, the gate positioning system operable to locate the first end of the gate proximate to the non-circular rotor as the rotor turns,wherein the gate positioning system comprises at least one cam that drives the gate positioning system,wherein the gate positioning system comprises;
at least one cam follower connected to the at least one cam; and
a gate support arm connecting the gate to the earn follower such that movement of the at least one cam follower causes movement of the gate, andwherein the gate positioning system comprises at least one spring connected to the cam follower so as to urge the cam follower to maintain contact with the cam.
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Abstract
A positive displacement compressor designed for near isothermal compression. A rotor includes a curved sealing portion that coincides with a in an interior rotor casing wall. Liquid injectors provide cooling liquid. A gate moves within the compression chamber to either make contact with or be proximate to the rotor as it turns. Gate positioning systems position the gate in this manner, taking into account the shape of the rotor. Outlet valves allow for expulsion of liquids and compressed gas. The unique geometry and relationship between the parts provides for efficiencies and higher pressures not previously found in existing compressor designs.
886 Citations
19 Claims
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1. A positive displacement compressor, comprising:
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a compression chamber, including a cylindrical-shaped casing having a first end, a second end, and an inner curved surface; a shaft located axially in the compression chamber; a non-circular rotor mounted for rotation with the shaft relative to the casing, the non-circular rotor having a sealing portion, the sealing portion having a curved surface that corresponds with the inner curved surface of the cylindrical-shaped casing, and a non-sealing portion; a gate, the gate having a first end and a second end; and a gate positioning system, the gate positioning system operable to locate the first end of the gate proximate to the non-circular rotor as the rotor turns, wherein the gate positioning system comprises at least one cam that drives the gate positioning system, wherein the gate positioning system comprises; at least one cam follower connected to the at least one cam; and a gate support arm connecting the gate to the earn follower such that movement of the at least one cam follower causes movement of the gate, and wherein the gate positioning system comprises at least one spring connected to the cam follower so as to urge the cam follower to maintain contact with the cam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A positive displacement compressor, comprising:
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a compression chamber defined by an interior of a casing having a first end, a second end; a shaft located in the compression chamber and mounted to the casing for rotation relative to the casing; a rotor disposed in the compression chamber and mounted for rotation with the shaft relative to the casing, the rotor having a sealing portion; a gate having a first end and a second end; and a gate positioning system operable to locate the first end of the gate proximate to the rotor as the rotor turns, wherein a portion of the gate positioning system is disposed outside of the compression chamber, wherein the gate positioning system comprises at least one cam that drives the gate positioning system, wherein the gate positioning system comprises; at least one cam follower connected to the at least one cam; and a gate support arm connecting the gate to the cam follower such that movement of the at least one cam follower causes movement of the gate, and wherein the gate positioning system comprises at least one spring connected to the cam follower so as to urge the cam follower to maintain contact with the cam.
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10. A positive displacement compressor, comprising;
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a cylindrical rotor casing, the rotor casing having an inlet port, an outlet port, and an inner wall defining a rotor casing volume; a rotor, the rotor having a sealing portion that corresponds to a curvature of the inner wall of the rotor casing; at least one liquid injector connected with the rotor casing to inject liquids into the rotor casing volume; and a gate, having a first end and a second end, and operable to move within the rotor casing to locate the first end proximate to the rotor as it turns; wherein the gate separates an inlet volume and a compression volume in the rotor casing volume, the inlet port is configured to enable suction in of gas, and the outlet is configured to enable expulsion of both liquid and gas, wherein the compressor further comprises a gate positioning system operable to locate the first end of the gate proximate to the rotor as the rotor turns, wherein the gate positioning system comprises at least one cam that drives the gate positioning system, wherein the gate positioning system comprises; at least one cam follower connected to the at least one cam; and a gate support arm connecting the gate to the cam follower such that movement of the at least one cam follower causes movement of the gate, and wherein the gate positioning,system comprises at least one spring connected to the cam follower so as to urge the cam follower to maintain contact with the cam. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19)
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Specification
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Current AssigneeForum US, Inc. (L E Simmons & Associates Incorporated)
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Original AssigneeOsComp Systems Inc.
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InventorsO'Hanley, Harrison, Santos, Pedro, Pitts, Jeremy, Nelson, Andrew, Santen, Johannes, Walton, John, Westwood, Mitchell
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Primary Examiner(s)Trieu, Theresa
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Application NumberUS13/220,528Publication NumberTime in Patent Office1,072 DaysField of Search418/60, 418/63, 418/97, 418/104, 418/151, 418/270US Class Current418/63CPC Class CodesF01C 21/001 Injection of a fluid in the...F01C 21/0836 comprising guiding means, e...F01C 21/0845 comprising elastic means, e...F04C 18/356 with vanes reciprocating wi...F04C 18/3562 the inner and outer member ...F04C 18/3564 the surfaces of the inner a...F04C 2210/24 mixed, e.g. two-phase fluidF04C 2230/604 Mounting devices for pumps ...F04C 27/001 Radial sealings for working...F04C 29/026 Lubricant separationF04C 29/042 by injecting a fluid inject...F04C 29/12 Arrangements for admission ...
