Reduced icing valves and gas-driven motor and reciprocating pump incorporating same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04B-017/00
F04B-045/00
출원번호
US-0804700
(2004-03-19)
등록번호
US-7367785
(2008-05-06)
발명자
/ 주소
Roberts,Charles Oakley
출원인 / 주소
Ingersoll Rand Company
대리인 / 주소
Michael Best & Friedrich LLP
인용정보
피인용 횟수 :
4인용 특허 :
18
초록▼
A valve for a gas-driven motor and a valve assembly and reciprocating pump incorporating the valve are provided. The valve includes a shiftable valve for alternatively supplying a motive gas through first and second supply ports to opposed first and second power pistons in opposed motive gas chamber
A valve for a gas-driven motor and a valve assembly and reciprocating pump incorporating the valve are provided. The valve includes a shiftable valve for alternatively supplying a motive gas through first and second supply ports to opposed first and second power pistons in opposed motive gas chambers, respectively, and for effecting alternating exhaust of said chambers. The shiftable valve has a front face with a valve projection located thereon and a rear face with a valve projection located thereon.
대표청구항▼
What is claimed is: 1. A valve assembly for a gas-driven motor comprising: a shiftable valve for alternatively supplying a motive gas through first and second supply ports to opposed first and second power pistons in opposed motive gas chambers, respectively, and for effecting alternating exhaust o
What is claimed is: 1. A valve assembly for a gas-driven motor comprising: a shiftable valve for alternatively supplying a motive gas through first and second supply ports to opposed first and second power pistons in opposed motive gas chambers, respectively, and for effecting alternating exhaust of said chambers; the shiftable valve having a longitudinal axis and a front face with a valve projection located thereon, and a rear face with a valve projection located thereon, the valve projections being coaxially aligned along the longitudinal axis; a valve block having a chamber with a front end and a rear end disposed around the shiftable valve and permitting axial movement of the shiftable valve along its longitudinal axis, wherein the front face of the shiftable valve is located in the front end of the chamber and the rear face of the shiftable valve is in the rear end of the chamber; the valve block further comprising inner exhaust passages in fluid communication with the front and rear ends of the chamber, outer exhaust passages corresponding to and in fluid communication with each of the inner exhaust passages, and constricted regions between the inner and outer exhaust passages, the constricted regions configured to define valve seats into which the valve projections mate, such that upon reciprocating movement of the shiftable valve along the longitudinal axis, the inner exhaust passageways are alternately opened to their corresponding outer exhaust passageways. 2. The valve assembly according to claim 1, wherein the valve projections are chamfered. 3. The valve assembly according to claim 1, wherein the shiftable valve is a spool valve having a large diameter end on which the front face is located and a small diameter end on which the rear face is located. 4. The valve assembly according to claim 3, wherein the large and small diameter ends further comprise annular grooves having seals disposed therein. 5. The valve assembly according to claim 4, further comprising a valve insert disposed in an annular groove on the spool valve between the large and small diameter ends, the valve insert moves reciprocally with the shiftable valve to alternately connect the first and second supply ports to a motive gas supply. 6. The valve assembly according to claim 3, wherein the valve block further comprises an O-ring disposed to fit circumferentially around the valve projection on the front face. 7. A reciprocating pump comprising: a gas-driven motor having opposed first and second power pistons in opposed first and second motive gas chambers; a shiftable valve for alternatively supplying a motive gas through first and second supply ports to the opposed first and second power pistons in the opposed first and second motive gas chambers, respectively, and for effecting alternating exhaust of the chambers; the shiftable valve having a longitudinal axis and a front face with a valve projection located thereon, and a rear face with a valve projection located thereon, the valve projections being coaxially aligned along the longitudinal axis; a valve block having a chamber with a front end and a rear end disposed around the shiftable valve and permitting axial movement of the shiftable valve along its longitudinal axis, wherein the front face of the shiftable valve is located in the front end of the chamber and the rear face of the shiftable valve is in the rear end of the chamber; the valve block further comprising a first inner exhaust passage in fluid communication with the front end of the chamber and an exhaust chamber, a first outer exhaust passage in fluid communication with the first inner exhaust passage and the first motive gas chamber, and a first constricted region between the first inner and first outer exhaust passages; and a second inner exhaust passage in fluid communication with the rear end of the chamber and the exhaust chamber, a second outer exhaust passage in fluid communication with the second inner exhaust passage and the second motive gas chamber, and a second constricted region between the second inner and second outer exhaust passages; the first and second constricted regions being configured to define valve seats into which the valve projections of their respective front and rear ends mate, such that upon reciprocating movement of the shiftable valve along the longitudinal axis, the inner exhaust passageways are alternately opened to their corresponding outer exhaust passageways. 8. The reciprocating pump according to claim 7, wherein the valve projections are chamfered. 9. The reciprocating pump according to claim 7, wherein the shiftable valve is a spool valve having a large diameter end on which the front face is located and a small diameter end on which the rear face is located. 10. The reciprocating pump according to claim 9, wherein the large and small diameter ends further comprise annular grooves having seals disposed therein. 11. The reciprocating pump according to claim 9, further comprising a valve insert disposed in an annular groove on the spool valve between the large and small diameter ends, the valve insert moves reciprocally with the shiftable valve to alternately connect the first and second supply ports to a motive gas supply. 12. The reciprocating pump according to claim 7, wherein the valve block further comprises an O-ring disposed to fit circumferentially around the valve projection on the front face. 13. The reciprocating pump according to claim 7, wherein the pump is a double-diaphragm pump.
Johnson Harold (Buffalo MN) Kvinge Daniel J. (Shoreview MN) Plager Steven P. (Burnsville MN) Zarneke Richard D. (Moundsview MN), Double diaphragm pump having two-stage air valve actuator.
Grgurich Keith A. (Cincinnati OH) Cole Graydon W. (West Chester OH), Non-lubricated, air-actuated, pump-operating, shuttle valve arrangement, in a reciprocating pump.
Roberts, Charles O.; Conti, Michael; Kozumplik, Jr., Nicholas; Schroeder, Gordon M., Reduced icing valves and gas-driven motor and diaphragm pump incorporating same.
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