Valve and arrangement for fire suppression water sprinkler system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01M-019/00
F16K-005/10
출원번호
US-0416111
(1989-10-03)
발명자
/ 주소
McHugh, George J.
출원인 / 주소
AGF Manufacturing, Inc.
대리인 / 주소
Burns, Doane, Swecker & Mathis
인용정보
피인용 횟수 :
8인용 특허 :
13
초록▼
A valve and an arrangement for testing and draining a fire suppression water sprinkler system includes a valve which has a valve member with first, second and third ports which are coplanar. The selective rotation of the valve member interrupts a flow of water through the valve and permits a flow at
A valve and an arrangement for testing and draining a fire suppression water sprinkler system includes a valve which has a valve member with first, second and third ports which are coplanar. The selective rotation of the valve member interrupts a flow of water through the valve and permits a flow at two different preselected flow rates.
대표청구항▼
1. An arrangement for testing and draining a fire suppression water sprinkler system, comprising: conduit means for supplying water to a plurality of sprinklers; means for sensing a flow of water in said conduit means; valve means provided downstream of said means for sensing and in communicati
1. An arrangement for testing and draining a fire suppression water sprinkler system, comprising: conduit means for supplying water to a plurality of sprinklers; means for sensing a flow of water in said conduit means; valve means provided downstream of said means for sensing and in communication with said conduit means, said valve means comprising a housing defining an interior chamber having an inlet and an outlet, said inlet and outlet being generally perpendicular to one another, a valve member provided within said interior chamber, the valve member having first, second and third ports arranged about a surface of the valve member, said valve member having a turning axis and said first, second and third ports including central axes which are generally coplanar to one another, with the second port being perpendicular to the first and third ports, said first port having a size which is smaller than either of the second and third ports, said second port being always in communication with said inlet; seal means for selectively sealingly receiving a surface of the valve member with respect to the outlet; and means for selectively moving said valve member within said interior chamber whereby communication between said inlet and outlet may be closed, opened to a first preselected flow rate and opened to a second preselected flow rate, said second preselected flow rate being greater than the first preselected flow rate. 2. The arrangement of claim 1, wherein the valve member is generally spherical. 3. The arrangement of claim 2, wherein said means for selectively moving said valve member is adapted to selectively position said first and third ports away from said outlet to interrupt communication between said inlet and said outlet, to selectively rotate said valve member in one direction to position said third port adjacent said outlet to permit communication between said inlet and said outlet at said second preselected flow rate, and to selectively rotate said valve member in an opposite direction to position said first port adjacent the outlet to permit communication between the inlet and outlet at said first preselected flow rate. 4. The arrangement of claim 3 further comprising means for permitting a pressure within said housing to be sensed. 5. The arrangement of claim 3, wherein said housing includes an opening which is coplanar with said inlet and said outlet and perpendicular to said inlet, said opening being threadably closed by a plug member whereby the valve member may be readily assembled in said valve housing. 6. The arrangement of claim 1, wherein said communication between said inlet and said outlet is closed by selectively moving said valve member to position said first and third ports away from said outlet, said communication between said inlet and outlet being opened to said first preselected flow rate by selectively moving said valve member to position said first port adjacent said outlet, said communication between said inlet and outlet being opened to said second preselected flow rate by selectively moving said valve member to position said third port adjacent the outlet. 7. The arrangement claim 1, further comprising seat means for seating said valve member, said seat means including at least one annular member having a radial gap with a width extending in the circumferential direction of the seat means. 8. The valve of claim 7, wherein the width of the gap is between 2 and 4 degrees of the circumference of the annular member. 9. A valve, comprising: a housing defining an interior chamber having an inlet and an outlet, said inlet and outlet being generally perpendicular to said outlet; a valve member provided within said interior chamber, the valve member having first, second and third ports arranged about a surface of the valve member, said valve member having a turning axis and said first, second and third ports including central axes which are generally coplanar, said first port having a size which is smaller than either of the second and third ports, said second port being always in communication with said inlet; seal means for selectively sealingly receiving a surface of the valve member with respect to the outlet; and means for selectively moving said valve member within said interior chamber whereby communication between said inlet and outlet may be closed, opened to a first preselected flow rate and opened to a second preselected flow rate, said second preselected flow rate being greater than the first preselected flow rate. 10. The valve of claim 9, wherein the valve member is generally spherical. 11. The valve of claim 9, wherein said means for selectively moving said valve member is adapted to selectively rotate said valve member to position said third port adjacent said outlet to permit communication between said inlet and said outlet at said second preselected flow rate, to position said first port adjacent the outlet to permit communication between the inlet and outlet at said first preselected flow rate and to selectively position said first and third ports away from said outlet to interrupt communication between said inlet and said outlet. 12. The valve of claim 11 further comprising means for permitting a pressure within said housing to be sensed. 13. The valve of claim 9, wherein said housing includes an opening which is coplanar with said inlet and said outlet and perpendicular to said inlet, said opening being threadably closed by a plug member whereby the valve member may be readily assembled in said valve housing. 14. The valve of claim 9, wherein said communication between said inlet and said outlet is closed by selectively moving said valve member to position said first and third ports away from said outlet, said communication between said inlet and outlet being opened to said first preselected flow rate by selectively moving said valve member to position said first port adjacent said outlet, said communication between said inlet and outlet being opened to said second preselected flow rate by selectively moving said valve member to position said third port adjacent the outlet. 15. The valve of claim 9, further comprising seat means for seating said valve member, said seat means including at least one annular member having a radial gap with a width extending in the circumferential direction of the seat means. 16. The valve of claim 15, wherein the width of the gap is between 2 and 4 degrees of the circumference of the annular member. 17. An arrangement for testing and draining a fire suppression water sprinkler system, comprising: conduit means for supplying water to a plurality of sprinklers; means for sensing a flow of water in said conduit means; valve means provided downstream of said means for sensing and in communicant with said conduit means, said valve means comprising a housing defining an interior chamber having an inlet and an outlet, said inlet and outlet being generally perpendicular to one another, a valve member provided within said interior chamber, the valve member having first, second and third ports arranged about a surface of the valve member, said valve member having a turning axis and said first, second and third ports including central axes which are generally coplanar, with the second port being perpendicular to the first and third ports, said first port having a size which is smaller than either of the second and third ports, said second port being always in communication with said inlet; seal means for selectively sealingly receiving a surface of the valve member adjacent the outlet, said seal means including at least one annular member arranged generally concentrically about a central axis of said outlet; and means for selectively moving said valve member within said interior chamber whereby communication between said inlet and outlet may be closed, opened to a first preselected flow rate and opened to a second preselected flow rate, said second preselected flow rate being greater than the first preselected flow rate. 18. The arrangement of claim 17, wherein the valve member is generally spherical. 19. The arrangement of claim 18, wherein said means for selectively moving said valve member is adapted to selectively position said first and third ports away from said outlet to interrupt communication between said inlet and said outlet, to selectively rotate said valve member in one direction to position said third port adjacent said outlet to permit communication between said inlet and said outlet at said second preselected flow rate, and to selectively rotate said valve member in an opposite direction to position said first port adjacent the outlet to permit communication between the inlet and outlet at said first preselected flow rate. 20. The arrangement of claim 19, further comprising means for permitting a pressure within said housing to be sensed. 21. The arrangement of claim 19, wherein said housing includes an opening which is coplanar with said inlet and said outlet and perpendicular to said inlet, said opening being threadably closed by a plug member whereby the valve member may be readily assembled in said valve housing. 22. The arrangement of claim 17, wherein said communication between said inlet and said outlet is closed by selectively moving said valve member to position said first and third ports away from said outlet, said communication between said inlet and outlet being opened to said first preselected flow rate by selectively moving said valve member to position said first port adjacent said outlet, said communication between said inlet and outlet being opened to said second preselected flow rate by selectively moving said valve member to position said third port adjacent the outlet. 23. The arrangement claim 17, further comprising seat means for seating said valve member, said seat means including at least one annular member having a radial gap with a width extending in the circumferential direction of the seat means. 24. The valve of claim 23, wherein the width of the gap is between 2 and 4 degrees of the circumference of the annular member. 25. A valve, comprising: a housing defining an interior chamber having an inlet and an outlet, said inlet being generally perpendicular to said outlet; a valve member provided within said interior chamber, the valve member having first, second and third ports arranged about a surface of the valve member, said valve member having a turning axis and said first, second and third ports including central axes which are generally coplanar, said first port having a size which is smaller than either of the second and third ports, said second port being always in communication with said inlet; seal means for selectively sealingly receiving a surface of the valve member adjacent the outlet, said seal means including at least one annular member arranged generally concentrically about a central axis of said outlet; and means for selectively moving said valve member within said interior chamber whereby communication between said inlet and outlet may be closed, opened to a first preselected flow rate and opened to a second preselected flow rate, said second preselected flow rate being greater than the first preselected flow rate. 26. The valve of claim 25, wherein the valve member is generally spherical. 27. The valve of claim 25, wherein said means for selectively moving said valve member is adapted to selectively rotate said valve member to position said third port adjacent said outlet to permit communication between said inlet and said outlet at said second preselected flow rate, to position said first port adjacent the outlet to permit communication between the inlet and outlet at said first preselected flow rate and to selectively position said first and third ports away from said outlet to interrupt communication between said inlet and said outlet. 28. The valve of claim 27 further comprising means for permitting a pressure within said housing to be sensed. 29. The valve of claim 25, wherein said housing includes an opening which is coplanar with said inlet and said outlet and perpendicular to said inlet, said opening being threadably closed by a plug member whereby the valve member may be readily assembled in said valve housing. 30. The valve of claim 25, wherein said communication between said inlet and said outlet is closed by selectively moving said valve member to position said first and third ports away from said outlet, said communication between said inlet and outlet being opened to said first preselected flow rate by selectively moving said valve member to position said first port adjacent said outlet, said communication between said inlet and outlet being opened to said second preselected flow rate by selectively moving said valve member to position said third port adjacent the outlet. 31. The valve of claim 25 further comprising seat means for seating said valve member, said seat means including at least one annular member having a radial gap with a width extending in the circumferential direction of the seat means. 32. The valve of claim 31, wherein the width of the gap is between 2 and 4 degrees of the circumference of the annular member.
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이 특허에 인용된 특허 (13)
Rung Robert (Hopatcong NJ) Schwarz Philip R. (Easton PA), Alarm test device for a sprinkler system.
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