External mix air atomizing spray nozzle assembly
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B05B-005/00
B05B-001/28
A62C-005/02
A62C-005/00
출원번호
US-0252194
(2002-09-23)
발명자
/ 주소
Haruch,James
출원인 / 주소
Spraying Systems Co.
대리인 / 주소
Leydig Voit &
인용정보
피인용 횟수 :
14인용 특허 :
14
초록▼
An external mix air assisted spray nozzle assembly having a nozzle body, and an air cap for a directing pressurized air streams on a discharging liquid stream external to the liquid discharge orifice of the nozzle assembly for atomizing and forming the liquid into the desired spray pattern. The air
An external mix air assisted spray nozzle assembly having a nozzle body, and an air cap for a directing pressurized air streams on a discharging liquid stream external to the liquid discharge orifice of the nozzle assembly for atomizing and forming the liquid into the desired spray pattern. The air cap includes an upstream internal air chamber, an external, downstream liquid discharge and mixing chamber, and a central opening coaxial with the liquid discharge orifice communicating between the upstream and downstream chambers. The air cap further includes a plurality of angled pressurized air discharge passages which communicate with an annular plenum of the air chamber disposed in surrounding relation to the central opening for enabling substantially uniform particle breakdown and distribution at lower air pressures than heretofore possible.
대표청구항▼
What is claimed: 1. An air assisted spray nozzle assembly comprising: a nozzle body having a liquid passage for connection to a pressurized liquid supply and an air passage for connection to a pressurized air supply, said liquid passage having a downstream liquid discharge orifice from which a pres
What is claimed: 1. An air assisted spray nozzle assembly comprising: a nozzle body having a liquid passage for connection to a pressurized liquid supply and an air passage for connection to a pressurized air supply, said liquid passage having a downstream liquid discharge orifice from which a pressurized liquid stream is axially discharged, an air cap disposed adjacent said nozzle body, said air cap being formed with an air chamber communicating with said air passage, said air cap being formed with an external liquid discharge and mixing chamber in a downstream end thereof and a central opening coaxial with said liquid discharge orifice communicating between said air chamber and said liquid discharge and mixing chamber, said air chamber including an annular plenum disposed in radially spaced surrounding relation to said central opening, and said air cap having a plurality of straight pressurized air discharge passages extending without bend between said annular plenum and said liquid discharge and mixing chamber at an angle to the axis of said central air cap opening and liquid discharge orifice for directing pressurized air onto a liquid flow stream discharging from said liquid discharge orifice at a location downstream of said liquid discharge orifice for further atomizing the liquid and directing discharging liquid into a predetermined spray pattern. 2. The spray nozzle assembly of claim 1 in which said liquid passage discharge orifice is defined by a liquid spray tip fixed in said nozzle body, and said liquid spray tip having a nose concentrically located in said central air cap opening for defining an annular air discharge passage communicating between said air chamber and said liquid discharge and mixing chamber through which pressurized air is axially directed in surrounding relation to a liquid flow stream discharging from said liquid discharge orifice. 3. The spray nozzle assembly of claim 1 in which said air chamber includes a cylindrical chamber in an upstream end of said air cap which communicates with said annular plenum. 4. The spray nozzle assembly of claim 1 in which said liquid discharge orifice is disposed adjacent a downstream end of said central air cap opening. 5. The spray nozzle assembly of claim 1 in which said central air cap opening is defined by and extends through a hub of said air cap disposed intermediate upstream and downstream ends of said air cap, and said annular plenum is disposed in surrounding relation to said hub. 6. The spray nozzle assembly of claim 1 in which said angled air discharge passages are straight cylindrical bores that extend between said annular plenum and said liquid discharge and mixing chamber. 7. An air assisted spray nozzle assembly comprising: a nozzle body having a liquid passage for connection to a pressurized liquid supply and an air passage for connection to a pressurized air supply, said liquid passage having a downstream liquid discharge orifice from which a pressurized liquid stream is axially discharged, an air cap disposed adjacent said nozzle body, said air cap being formed with an internal air chamber communicating with said air passage, said air cap being formed with an external liquid discharge and mixing chamber in a downstream end thereof, said air cap having a hub intermediate upstream and downstream ends of said air cap, said hub being formed with a central opening coaxial with said liquid discharge orifice communicating between said air chamber and said liquid discharge and mixing chamber, said air chamber including an annular plenum disposed in radially spaced surrounding relation to said hub, and said air cap having a plurality of straight pressurized air discharge passages extending without bend between said annular plenum and said liquid discharge and mixing chamber at an angle to the axis of said central air cap opening and liquid discharge orifice for directing pressurized air onto a liquid flow stream discharging from said liquid discharge orifice at a location downstream of said liquid discharge orifice for further atomizing the liquid and directing discharging liquid into a predetermined spray pattern. 8. The spray nozzle assembly of claim 7 in which said liquid passage discharge orifice is defined by a liquid spray tip fixed in said nozzle body, and said liquid spray tip and said central air cap opening defining an annular air discharge passage communicating between said air chamber and said liquid discharge and mixing chamber through which pressurized air is axially directed in surrounding relation to a liquid flow stream discharging from said liquid discharge orifice. 9. The spray nozzle assembly of claim 7 in which said annular plenum extends in a downstream direction beyond a downstream end of said central air cap opening. 10. The spray nozzle assembly of claim 7 in which said angled air discharge passages are straight cylindrical bores that extend between said annular plenum and said liquid discharge and mixing chamber. 11. The spray nozzle assembly of claim 9 in which said liquid discharge and mixing chamber has an outwardly expanding frustoconical shape, and said angled air discharge passages communicate in perpendicular relation through frustoconical wall surfaces of said liquid discharge and mixing chamber. 12. The spray nozzle assembly of claim 11 in which said liquid discharge orifice is disposed adjacent a downstream end of said central air cap opening. 13. An air assisted spray nozzle assembly comprising: a nozzle body having a liquid passage for connection to a pressurized liquid supply and an air passage for connection to a pressurized air supply, said liquid passage having a downstream liquid discharge orifice from which a pressurized liquid stream is axially discharged, an air cap disposed adjacent said nozzle body, said air cap being formed with an air chamber communicating with said air passage, said air cap being formed with an external liquid discharge and mixing chamber in a downstream end thereof and a central opening coaxial with said liquid discharge orifice communicating between said air chamber and said liquid discharge and mixing chamber, said air chamber including an annular plenum disposed in radially aligned, spaced surrounding relation to said central air cap opening, said annular plenum extending in a downstream direction beyond a downstream end of said central air cap opening, and said air cap having a plurality of angled pressurized air discharge passages communicating between said annular plenum and said liquid discharge and mixing chamber at an angle to the axis of said central air cap opening and liquid discharge orifice for directing pressurized air onto a liquid flow stream discharging from said liquid discharge orifice at a location downstream of said liquid discharge orifice for further atomizing the liquid and directing discharging liquid into a predetermined spray pattern. 14. An air assisted spray nozzle assembly comprising: a nozzle body having a liquid passage for connection to a pressurized liquid supply and an air passage for connection to a pressurized air supply, said liquid passage having a downstream liquid discharge orifice from which a pressurized liquid stream is axially discharged, an air cap disposed adjacent said nozzle body, said air cap being formed with an air chamber communicating with said air passage, said air cap being formed with an external liquid discharge and mixing chamber in a downstream end thereof having an outwardly expanding frustoconical shape and a central opening coaxial with said liquid discharge orifice communicating between said air chamber and said liquid discharge and mixing chamber, said air chamber including an annular plenum disposed in radially spaced surrounding relation to said central opening, and said air cap having a plurality of angled pressurized air discharge passages communicating between said annular plenum and said liquid discharge and mixing chamber at an angle to the axis of said central air cap opening and liquid discharge orifice and in perpendicular relation through frustoconical wall surfaces of said liquid discharge and mixing chamber for directing pressurized air onto a liquid flow stream discharging from said liquid discharge orifice at a location downstream of said liquid discharge orifice for further atomizing the liquid and directing discharging liquid into a predetermined spray pattern. 15. The spray nozzle assembly of claim 14 in which said air cap includes a pair of opposed angled air discharge passages for directing the discharging liquid into a flat spray pattern. 16. The spray nozzle assembly of claim 15 in which said air cap is formed with a pair of externally exposed flats oriented in perpendicular relation to a flat spray pattern discharging from said air cap for providing an indication of the orientation of the discharging flat spray pattern. 17. An air assisted spray nozzle assembly comprising: a nozzle body having a liquid passage for connection to a pressurized liquid supply and an air passage for connection to a pressurized air supply, said liquid passage having a downstream liquid discharge orifice from which a pressurized liquid stream is axially discharged, an air cap disposed adjacent said nozzle body, said air cap being formed with an air chamber communicating with said air passage, said air cap being formed with an external liquid discharge and mixing chamber in a downstream end thereof and a central opening coaxial with said liquid discharge orifice communicating between said air chamber and said liquid discharge and mixing chamber, said air chamber including an annular plenum disposed in radially aligned and spaced surrounding relation to said central opening, and said air cap having a plurality of pressurized air discharge passages in the form of straight bores extending without bend between said annular plenum and said liquid discharge and mixing chamber at an angle to the axis of said central air cap opening and liquid discharge orifice for directing pressurized air onto a liquid flow stream discharging from said liquid discharge orifice at a location downstream of said liquid discharge orifice for further atomizing the liquid and directing discharging liquid into a predetermined spray pattern.
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이 특허에 인용된 특허 (14)
Sanson Bruce A. (6650 Heatherwood Dr. West Bloomfield MI 48324), Adhesive spray system, and methods of constructing and utilizing same.
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