Expansion nozzle assembly to produce inert gas bubbles
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F23D-011/10
F23D-014/68
E03C-001/08
B05B-007/06
B05B-007/04
B05B-001/14
B05B-001/34
B05B-007/30
A62C-031/00
출원번호
US-0350684
(2006-02-09)
등록번호
US-8322633
(2012-12-04)
발명자
/ 주소
Hubert, Mitchell J.
Barker, Stephen A.
Bjorkman, Donald
Walker, Gregory R.
출원인 / 주소
Tyco Fire Products LP
대리인 / 주소
Perkins Coie LLP
인용정보
피인용 횟수 :
2인용 특허 :
30
초록▼
A nozzle assembly for encapsulating a gaseous solution in bubbles comprises a discharge tube having a diffuser and a foam solution spray nozzle mounted therein. The discharge tube has upstream and downstream ends. The discharge tube has a front face at the upstream end with a first opening configure
A nozzle assembly for encapsulating a gaseous solution in bubbles comprises a discharge tube having a diffuser and a foam solution spray nozzle mounted therein. The discharge tube has upstream and downstream ends. The discharge tube has a front face at the upstream end with a first opening configured to be joined to a gas supply line that provides a gaseous solution and a second opening configured to receive a non-expanded foam solution. The downstream end of the discharge tube is open. A chamber is formed within the discharge tube to receive the gaseous solution at the upstream end and release the gaseous solution through the diffuser into the discharge tube towards the downstream end.
대표청구항▼
1. A nozzle assembly for encapsulating an inert gaseous solution in bubbles, comprising: a discharge tube having upstream and downstream ends, the discharge tube having an upstream end consisting of first and second inlet openings, the first inlet opening configured to be joined to an inert gas supp
1. A nozzle assembly for encapsulating an inert gaseous solution in bubbles, comprising: a discharge tube having upstream and downstream ends, the discharge tube having an upstream end consisting of first and second inlet openings, the first inlet opening configured to be joined to an inert gas supply line that provides the inert gaseous solution to an interior of the discharge tube, the second inlet opening configured to be joined to a non-expanded foam solution supply that provides a non-expanded foam solution to the interior of the discharge tube, the downstream end of the discharge tube having a screen and being open to ambient air;a diffuser;a chamber formed within the interior of the discharge tube, the chamber receiving the inert gaseous solution at the upstream end and releasing the inert gaseous solution through the diffuser into the discharge tube towards the downstream end; anda foam solution spray nozzle held within the discharge tube along an axis of the discharge tube and communicating with the second inlet opening to supply from an opening on the axis the non-expanded foam solution on the axis towards the screen. 2. The nozzle assembly of claim 1, wherein a front face of the discharge tube forms a barrier that prevents ambient air from entering the discharge tube upstream of the foam solution spray nozzle when the inert gas supply line is joined to the first inlet opening. 3. The nozzle assembly of claim 1, the diffuser further comprising a plurality of orifices for distributing the inert gaseous solution within the discharge tube. 4. The nozzle assembly of claim 1, wherein the screen is retained within the discharge tube downstream of the foam solution spray nozzle, the screen receiving the non-expanded foam solution when discharged from the foam solution spray nozzle, the inert gaseous solution pushing the non-expanded foam solution through the screen to form bubbles encapsulating the inert gaseous solution. 5. The nozzle assembly of claim 1, wherein the chamber receives the diffuser and is secured to the discharge tube with at least one fastener. 6. The nozzle assembly of claim 1, further comprising a conduit extending between the second inlet opening and the foam solution spray nozzle for conveying the foam solution-therebetween. 7. The nozzle assembly of claim 1, further comprising means for interconnecting a first container of the inert gaseous solution with the first inlet opening. 8. The nozzle assembly of claim 1, further comprising means for interconnecting a second container of the non-expanded foam solution with the second inlet opening. 9. The nozzle assembly of claim 1, further comprising an inert gaseous container holding the inert gaseous solution, and a supply line connecting the container to the first inlet opening. 10. The nozzle assembly of claim 1, further comprising an inert gas supply line that delivers the inert gaseous solution to the first inlet opening. 11. A nozzle assembly for expanding a foam solution, comprising; a discharge tube having upstream and downstream ends, the discharge tube having a front face at the upstream end forming a barrier between ambient air outside the discharge tube and an interior of the discharge tube, the downstream end of the discharge tube being open, the upstream end consisting of first and second inlet openings;a chamber formed within the discharge tube for receiving an inert gaseous solution through the first inlet opening, the first inlet opening configured to be joined to an inert gas supply line that provides the inert gaseous solution, the chamber having at least one orifice for releasing the inert gaseous solution from the chamber into the discharge tube towards the downstream end of the discharge tube;a foam expansion spray nozzle held along an interior axis of the discharge tube for receiving non-expanded foam solution through the second inlet opening, the foam expansion spray nozzle discharging the foam solution from an opening on the axis with a velocity into the discharge tube downstream of the chamber; anda screen retained proximate the downstream end of the discharge tube for receiving the non-expanded foam solution discharged from the spray nozzle, the inert gaseous solution and the velocity of the foam solution pushing the non-expanded foam solution through the screen to form bubbles encapsulating the inert gaseous solution. 12. The nozzle assembly of claim 11, wherein the front face has the first and second inlet openings formed therein, the front face forming a portion of the chamber. 13. The nozzle assembly of claim 11, the screen further comprising a conical-shaped mesh screen. 14. The nozzle assembly of claim 11, further comprising a conduit extending between the second inlet opening and the spray nozzle for conveying the foam solution-therebetween, the conduit extending beyond the front face and joined to a foam solution supply line. 15. The nozzle assembly of claim 11, further comprising: the spray nozzle further comprising a foam solution acceptance end receiving the non-expanded foam solution, the foam solution acceptance end being externally threaded; anda conduit extending between the second inlet opening and the spray nozzle for conveying the foam solution-therebetween, the conduit being internally threaded and accepting the foam solution acceptance end of the spray nozzle. 16. The nozzle assembly of claim 11, further comprising an inert gaseous container holding the inert gaseous solution, and a supply line connecting the container to the first inlet opening. 17. The nozzle assembly of claim 11, further comprising an inert gas supply line that delivers the inert gaseous solution to the first inlet opening. 18. A method for encapsulating an inert gaseous solution within bubbles of a foam solution, comprising: delivering through a first of only two inlet openings only an inert gaseous solution to an upstream end of an expansion nozzle;delivering through a second of the only two inlet openings only a non-expanded foam solution to the upstream end of the expansion nozzle;diffusing the inert gaseous solution as the inert gaseous solution moves from the upstream end into an inner portion of the expansion nozzle;spraying the non-expanded foam solution into the inner portion of the expansion nozzle on an axis of the expansion nozzle from an opening of a foam solution spray nozzle disposed on the axis, the non-expanded foam solution and the inert gaseous solution moving along the inner portion to a downstream end of the expansion nozzle; andexpanding the foam solution to form bubbles that encapsulate the inert gaseous solution at a screen as the foam solution and inert gaseous solution are discharged from the downstream end of the expansion nozzle. 19. The method of claim 18, wherein the expanding operation includes pushing the foam solution through the screen to form the bubbles that encapsulate the inert gaseous solution as the foam solution. 20. The method of claim 18, wherein the diffusing operation moves the inert gaseous solution through multiple orifices placed along an outer edge of a diffuser face located at the upstream end of the expansion nozzle. 21. The method of claim 18, wherein the diffusing operation moves the inert gaseous solution through orifices in a diffuser face located at the upstream end of the expansion nozzle to evenly distribute the inert gaseous solution within the inner portion of the expansion nozzle. 22. The method of claim 18, further comprising controlling a flow rate of the inert gaseous solution to the expansion nozzle to produce an expanded foam solution at a desired rate. 23. The method of claim 18, further comprising delivering the bubbles of the foam solution encapsulating the inert gaseous solution to a hazardous environment. 24. A fire suppression assembly for expanding a non-expanded foam solution encapsulating an inert gaseous solution, comprising: a first container holding only the inert gaseous solution;an inert gas supply line connected to the first container;a second container holding only the non-expanded foam solution;a foam solution supply line connected to the second container;a discharge tube that includes upstream and downstream ends, the discharge tube consisting of a first inlet opening being located proximate the upstream end and joined to the first container through the inert gas supply line to provide the inert gaseous solution to the discharge tube, the discharge tube further consisting of a second inlet opening being located proximate the upstream end and joined to the second container through the foam solution supply line to provide the non-expanded foam solution to the discharge tube;a diffuser retained within the discharge tube to diffuse the inert gaseous solution; anda foam solution spray nozzle held within the discharge tube along an axis of the discharge tube, the foam solution spray nozzle receiving the non-expanded foam solution and discharging the non-expanded foam solution from an opening on the axis through at least one nozzle orifice into the discharge tube towards a screen at the downstream end of the discharge tube. 25. The assembly of claim 24, wherein the diffuser includes a diffuser plate having a plurality of orifices spaced proximate an outer edge of the diffuser plate. 26. The assembly of claim 24, wherein the second inlet opening is internally threaded and the diffuser is externally threaded to retain the diffuser within the discharge tube. 27. The assembly of claim 24, wherein the first inlet opening is internally threaded, the assembly further comprising a pipe nipple threaded into the first inlet opening for receiving the inert gas supply line. 28. The assembly of claim 24, wherein the diffuser includes a diffuser tube and extends beyond a front face of the discharge tube to form an upstream end portion, the upstream end portion being externally threaded to receive a connector joined to a foam solution supply line that supplies the non-expanded foam solution. 29. The assembly of claim 24, wherein the discharge tube includes a chamber having a first end and a second end, the diffuser comprising a diffuser plate and a diffuser tube, the diffuser plate located at the second end of the chamber and having at least one orifice for conveying the inert gaseous solution from the second end of the chamber to an inner portion of the discharge tube, the diffuser tube providing a conduit between the second inlet opening and a nozzle acceptance hole in the diffuser plate. 30. A fire suppression assembly for delivering a foam formed of a non-expanded foam solution forming a plurality of bubbles each enclosing an inert gas, the assembly comprising: a first container holding a first fluid consisting of the inert gas;a second container holding a second fluid consisting of the non-expanded foam solution; andat least one nozzle assembly having an upstream end and an opposing downstream end disposed on an axis of the at least one nozzle assembly, the upstream end having a surface having only two inlets at the upstream end, the surface preventing the ingress of ambient air into an interior of the nozzle assembly via the upstream end, the nozzle assembly comprising: a first supply inlet of the only two inlets at the upstream end communicating with the first container to supply the inert gas to the interior of the at least one nozzle assembly;a diffuser having a plurality of orifices for distributing the inert gas within the interior of the at least one nozzle assembly;a second supply inlet of the only two inlets at the upstream end communicating with the second container to supply a flow of the non-expanded foam solution to the interior of the at least one nozzle assembly;a conical screen disposed on the axis at the downstream end to receive the flow of the non-expanded foam solution; anda nozzle at the upstream end communicating with the second container and disposed along the axis to direct the flow of the non-expanded foam solution from an opening on the axis towards the screen to coat the screen, the screen including a plurality of passages sized to form the plurality of bubbles when the inert gas passes through the coated screen. 31. The assembly of claim 30, further comprising: a controller operatively connected to control an operation of the at least one nozzle assembly. 32. The assembly of claim 31, wherein the at least one nozzle assembly is a plurality of nozzle assemblies, the controller being operatively connected to control the operation of each of the plurality of nozzle assemblies. 33. The assembly of claim 32, wherein each of the plurality of nozzle assemblies is dedicated to a protected area. 34. The assembly of claim 33, wherein the protected area is a cargo container within a cargo hold of an airplane.
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이 특허에 인용된 특허 (30)
Williams Leslie P. (Vidoo TX), Adjustable foaming chamber stem for foam-applying nozzle.
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