Rotating stream sprinkler with torque balanced reaction drive
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05B-003/06
B05B-003/02
출원번호
US-0406066
(2003-04-02)
등록번호
US-7299999
(2007-11-27)
발명자
/ 주소
Walker,Samuel C.
출원인 / 주소
Rain Bird Corporation
대리인 / 주소
Fitch, Even, Tabin & Flannery
인용정보
피인용 횟수 :
2인용 특허 :
35
초록▼
An improved rotating stream sprinkler of the type having a rotatable spray head with an offset nozzle port through which a water stream is projected outwardly, resulting in a reaction force for rotatably driving the spray head to sweep the water stream over a surrounding terrain area. The spray head
An improved rotating stream sprinkler of the type having a rotatable spray head with an offset nozzle port through which a water stream is projected outwardly, resulting in a reaction force for rotatably driving the spray head to sweep the water stream over a surrounding terrain area. The spray head is rotatably mounted on a body adapted for connection to a pressurized water supply, with interengaging bearing components providing predetermined friction brake torque resisting spray head rotation. By appropriately designing the nozzle port area and offset geometry, drive torque and brake torque is maintained at a substantially constant ratio for relatively slow and substantially constant spray head rotational speed over a range of normal water supply operating pressures. A downthrust spring retains the bearing components in engagement when the water supply is turned off, but does not contribute to friction brake torque when the water supply is turned on.
대표청구항▼
What is claimed is: 1. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and having a first spring contact surface, the spray head carrying a nozzle having a nozzle port formed
What is claimed is: 1. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and having a first spring contact surface, the spray head carrying a nozzle having a nozzle port formed therein for outward projection of an irrigation water stream when said sprinkler body is connected to a supply of water under pressure, said nozzle port being offset relative to an axis of rotation of said spray head whereby the outwardly projected water stream produces a reaction drive torque for rotatably driving said spray head; a bearing assembly rotatably supporting said spray head relative to said sprinkler body, said bearing assembly including a second spring contact surface and at least one rotatable friction washer rotatable with said spray head and disposed in friction-producing bearing engagement with at least one substantially stationary friction washer carried by said sprinkler body to produce a friction brake torque resisting spray head rotation; said reaction drive torque and said friction brake torque being maintained in a substantially constant ratio for relatively slow and approximately constant speed rotational movement of said spray head throughout a normal operating range of water supply pressures; and a thrust spring positioned against the first spring contact surface and the second spring contact surface above the first spring contact surface, the spring expanding when the supply of water under pressure is turned off to apply a spring force for retaining said rotatable and stationary friction washers in bearing engagement and to apply a spring force for assisting in retraction of the spray head for seating the spray head with the sprinkler body. 2. The rotating stream sprinkler of claim 1 wherein said spray head further including a peripheral skirt for seated engagement upon said sprinkler body when the supply of water under pressure is disconnected from said sprinkler body. 3. The rotating stream sprinkler of claim 1 wherein said thrust spring reacts between a first spring flange secured to a nipple carried by said spray head, and a second spring flange axially slidable on said nipple for applying an axial spring force to said friction washers. 4. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and carrying a nozzle having a nozzle port formed therein for outward projection of an irrigation water stream when said sprinkler body is connected to a supply of water under pressure, said nozzle port being offset relative to an axis of rotation of said spray head whereby the outwardly projected water stream produces a reaction drive torque for rotatably driving said spray head; a bearing assembly rotatably supporting said spray head relative to said sprinkler body, said bearing assembly including at least one rotatable friction washer rotatable with said spray head and disposed in friction-producing bearing engagement with at least one substantially stationary friction washer carried by said sprinkler body to produce a friction brake torque resisting spray head rotation, said reaction drive torque and said friction brake torque being maintained in a substantially constant ratio for relatively slow and approximately constant speed rotational movement of said spray head throughout a normal operating range of water supply pressures; a thrust spring for applying a spring force for retaining said rotatable and stationary friction washers in bearing engagement when the supply of water under pressure is disconnected from said sprinkler body, wherein said thrust spring reacts between a first spring flange secured to a nipple carried by said spray head and a second spring flange axially slidable on said nipple for applying an axial spring force to said friction washers and, further including a stop element on said first spring flange for abutting contact with a stop element on said second spring flange in response to connection of said sprinkler body to the supply of water under pressure, whereby the spring force is removed from said friction washers and said friction washers are retained in bearing engagement by water pressure. 5. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and carrying a nozzle having a nozzle port formed therein for outward projection of an irrigation water stream when said sprinkler body is connected to a supply of water under pressure, said nozzle port being offset relative to an axis of rotation of said spray head whereby the outwardly projected water stream produces a reaction drive torque for rotatably driving said spray head; a bearing assembly rotatably supporting said spray head relative to said sprinkler body, said bearing assembly including at least one rotatable friction washer rotatable with said spray head and disposed in friction-producing bearing engagement with at least one substantially stationary friction washer carried by said sprinkler body to produce a friction brake torque resisting spray head rotation, said reaction drive torque and said friction brake torque being maintained in a substantially constant ratio for relatively slow and approximately constant speed rotational movement of said spray head throughout a normal operating range of water supply pressures; a thrust spring for applying a spring force for retaining said rotatable and stationary friction washers in bearing engagement when the supply of water under pressure is disconnected from said sprinkler body, wherein said thrust spring reacts between a first spring flange secured to a nipple carried by said spray head and a second spring flange axially slidable on said nipple for applying an axial spring force to said friction washers and, further including a stop element on at least one of said first and second spring flanges for abutting contact with the other of said first and second spring flanges in response to connection of said sprinkler body to the supply of water under pressure, whereby the spring force is removed from said friction washers and said friction washers are retained in bearing engagement by water pressure. 6. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and having a first spring contact surface, the spray head carrying a nozzle having a nozzle port formed therein for outward projection of an irrigation water stream when said sprinkler body is connected to a supply of water under pressure, said nozzle port having a selected open flow area and being offset relative to an axis of rotation of said spray head by a selected offset increment whereby the outwardly projected water stream produces a reaction drive torque of predetermined magnitude for rotatably driving said spray head; a bearing assembly rotatably supporting said spray head relative to said sprinkler body, said bearing assembly including a second spring contact surface and at least one rotatable friction washer rotatable with said spray head and disposed in friction-producing bearing engagement with at least one substantially stationary friction washer carried by said sprinkler body, said rotatable and stationary friction washers being formed from selected friction material and having selected diametric sizes to produce a predetermined friction brake torque resisting spray head rotation; said reaction drive torque and said friction brake torque being maintained in a substantially constant ratio for relatively slow and approximately constant speed rotational movement of said spray head throughout a normal operating range of water supply pressures; and a thrust spring positioned against the first spring contact surface and the second spring contact surface above the first spring contact surface, the spring expanding when the supply of water under pressure is turned off to apply a spring force for retaining said rotatable and stationary friction washers in bearing engagement and to apply a spring force for assisting in retraction of the spray head for seating the spray head with the sprinkler body. 7. The rotating stream sprinkler of claim 6 wherein said spray head further including a peripheral skirt for seated engagement upon said sprinkler body when the supply of water under pressure is disconnected from said sprinkler body. 8. The rotating stream sprinkler of claim 6 wherein said thrust spring reacts between a first spring flange secured to a nipple carried by said spray head, and a second spring flange axially slidable on said nipple for applying an axial spring force to said friction washers. 9. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and carrying a nozzle having a nozzle port formed therein for outward projection of an irrigation water stream when said sprinkler body is connected to a supply of water under pressure, said nozzle port having a selected open flow area and being offset relative to an axis of rotation of said spray head by a selected offset increment whereby the outwardly projected water stream produces a reaction drive torque of predetermined magnitude for rotatably driving said spray head; a bearing assembly rotatably supporting said spray head relative to said sprinkler body, said bearing assembly including at least one rotatable friction washer rotatable with said spray head and disposed in friction-producing bearing engagement with at least one substantially stationary friction washer carried by said sprinkler body, said rotatable and stationary friction washers being formed from selected friction material and having selected diametric sizes to produce a predetermined friction brake torque resisting spray head rotation, said reaction drive torque and said friction brake torque being maintained in a substantially constant ratio for relatively slow and approximately constant speed rotational movement of said spray head throughout a normal operating range of water supply pressures; a thrust spring for applying a spring force for retaining said rotatable and stationary friction washers in bearing engagement when the supply of water under pressure is disconnected from said sprinkler body, wherein said thrust spring reacts between a first spring flange secured to a nipple carried by said spray head, and a second spring flange axially slidable on said nipple for applying an axial spring force to said friction washers, further including a stop element on at least one of said first and second spring flanges for abutting contact with the other of said first and second spring flanges in response to connection of said sprinkler body to the supply of water under pressure, whereby the spring force is removed from said friction washers and said friction washers are retained in bearing engagement by water pressure. 10. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and carrying a nozzle having a nozzle port formed therein for outward projection of an irrigation water stream when said sprinkler body is connected to a supply of water under pressure, said nozzle port having a selected open flow area and being offset relative to an axis of rotation of said spray head by a selected offset increment whereby the outwardly projected water stream produces a reaction drive torque of predetermined magnitude for rotatably driving said spray head; a bearing assembly rotatably supporting said spray head relative to said sprinkler body, said bearing assembly including at least one rotatable friction washer rotatable with said spray head and disposed in friction-producing bearing engagement with at least one substantially stationary friction washer carried by said sprinkler body, said rotatable and stationary friction washers being formed from selected friction material and having selected diametric sizes to produce a predetermined friction brake torque resisting spray head rotation; and a thrust spring having a compressed form under operation of the sprinkler and an expanded form, the spring expanding to the expanded form when the supply of water under pressure is turned off to apply a spring force for retaining said rotatable and stationary friction washers in bearing engagement and to apply a spring force for assisting in retraction of the spray head for seating the spray head with the sprinkler body. 11. The rotating stream sprinkler of claim 10 wherein said spray head nozzle comprises a selected one of a plurality of nozzle members removably and interchangeably mounted on said spray head, each of said nozzle members having an offset nozzle port formed therein of selected open flow area and selected offset increment spacing relative to the axis of spray head rotation whereby the outwardly projected water stream associated with said nozzle members provides a substantially common reaction drive force of predetermined magnitude for rotatably driving said spray head. 12. The rotating stream sprinkler of claim 10 wherein said spray head further including a peripheral skirt for seated engagement upon said sprinkler body when the supply of water under pressure is disconnected from said sprinkler body. 13. The rotating stream sprinkler of claim 10 wherein said thrust spring reacts between a first spring flange secured to a nipple carried by said spray head, and a second spring flange axially slidable on said nipple for applying an axial spring force to said friction washers. 14. A rotating stream sprinkler, comprising: a sprinkler body adapted for connection to a supply of water under pressure; a spray head rotatably mounted on said sprinkler body and carrying a nozzle having a nozzle port formed therein for outward projection of an irrigation water stream when said sprinkler body is connected to a supply of water under pressure, said nozzle port having a selected open flow area and being offset relative to an axis of rotation of said spray head by a selected offset increment whereby the outwardly projected water stream produces a reaction drive torque of predetermined magnitude for rotatably driving said spray head; a bearing assembly rotatably supporting said spray head relative to said sprinkler body, said bearing assembly including at least one rotatable friction washer rotatable with said spray head and disposed in friction-producing bearing engagement with at least one substantially stationary friction washer carried by said sprinkler body, said rotatable and stationary friction washers being formed from selected friction material and having selected diametric sizes to produce a predetermined friction brake torque resisting spray head rotation; a thrust spring for applying a spring force for retaining said rotatable and stationary friction washers in bearing engagement when the supply of water under pressure is disconnected from said sprinkler body, wherein said thrust spring reacts between a first spring flange secured to a nipple carried by said spray head and a second spring flange axially slidable on said nipple for applying an axial spring force to said friction washers; and a stop element on at least one of said first and second spring flanges for abutting contact with the other of said first and second spring flanges in response to connection of said sprinkler body to the supply of water under pressure, whereby the spring force is removed from said friction washers and said friction washers are retained in bearing engagement by water pressure.
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이 특허에 인용된 특허 (35)
Chase Thomas G. (San Marcos CA), Adjustable arc spinkler nozzle.
Cochran Wilson V. (Riverside CA) Staylor John L. (Riverside CA) Grundy Michael J. (Pinon Hills CA) Grizzle Glendale (Corona CA) Tyler Stephen L. (Diamond Bar CA), Adjustable radius sprinkler nozzle.
Walker Samuel C. (Upland CA) Lockwood George H. (Wilton Manors FL) McCarthy Kenneth V. (Glendora CA) Feith Raymond P. (Covina CA), Rotating stream sprinkler.
Schwartzman Joel (47 James Dr. Ringwood NJ 07456), Rotation speed control device for a rotary, impulse water sprinkler and a water sprinkler having same.
Thrasher Lawrence E. (Simi Valley CA) Olson Gordon E. (Rancho Palos Verdes CA) Burkitt ; III Garrett J. (Simi Valley CA) Schmidt Timothy E. (Camarillo CA) Haddad Elias M. (Thousand Oaks CA) Conti-Joh, Self-rotating spa jet assembly.
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