IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0938794
(2013-07-10)
|
등록번호 |
US-9103501
(2015-08-11)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
11 |
초록
▼
A gas cylinder safety purge and anchor system features a gas cylinder with a plurality of cylinder apertures located around a neck outside periphery. The system features a cylindrical purge deflector with a plurality of deflector apertures located on a internal deflector cap component wall that alig
A gas cylinder safety purge and anchor system features a gas cylinder with a plurality of cylinder apertures located around a neck outside periphery. The system features a cylindrical purge deflector with a plurality of deflector apertures located on a internal deflector cap component wall that align with the cylinder apertures when the purge deflector is positioned on the neck. The system features a valve on the cylinder. The system features an anchor assembly having a linear outer tube and a linear inner shaft located in the outer tube. In a first position, a first anchor projection, a second anchor projection, a third anchor projection, and a fourth anchor projection are each located perpendicularly with respect to the outer tube. In a second position, the first anchor projection, the second anchor projection, the third anchor projection, and the fourth anchor projection are each retracted.
대표청구항
▼
1. A gas cylinder safety purge and anchor system (100), wherein the system (100) comprises: (a) a gas cylinder (110) having a cylinder anterior end (111) with an internally threaded neck (115) disposed thereon, wherein a plurality of cylinder apertures (120) is disposed around a neck outside periphe
1. A gas cylinder safety purge and anchor system (100), wherein the system (100) comprises: (a) a gas cylinder (110) having a cylinder anterior end (111) with an internally threaded neck (115) disposed thereon, wherein a plurality of cylinder apertures (120) is disposed around a neck outside periphery (116) and fluidly connected to an internal chamber (114);(b) a cylindrical purge deflector (130) having an internal deflector cap component (140) and an external deflector cap component (150), wherein the external deflector cap component (150) comprises a planar external deflector anterior end (151) having an external deflector aperture (153) centrally disposed thereon and a cylindrical external deflector skirt (154) perpendicularly projecting from an external deflector anterior end outer periphery (152). wherein the internal deflector cap component (140) comprises an internal deflector anterior end (141) having an internal deflector aperture (143) centrally disposed thereon and a cylindrical internal deflector wall (145) perpendicularly projecting from an internal deflector aperture outer periphery (144), wherein the internal deflector anterior end (141) is disposed on the external deflector anterior end (151), wherein the internal deflector cap component (140) comprises a plurality of deflector apertures (149) disposed on the internal deflector wall (145), wherein the deflector apertures (149) align with the cylinder apertures (120) when the purge deflector (130) is disposed on the neck (115), wherein an internal deflector posterior end (146) comprises a radial flare (147), wherein an internal deflector aperture diameter (160) and an external deflector aperture diameter (161) are equal, wherein an internal deflector wall inner diameter (162) and a neck outer diameter (163) are equal; (c) a valve (170) having a valve posterior end (171) threadably disposed on the cylinder anterior end (111), wherein a plurality of purge release holes (173) are disposed on a valve wall (172) proximal to the valve posterior end (171); and(d) an anchor assembly (175) having a linear outer tube (180) and a linear inner shaft (190) slidably disposed in the outer tube (180), wherein a first anchor projection (185) is pivotally disposed on an outer tube posterior end (182), wherein a second anchor projection (186) is pivotally disposed on the outer tube posterior end (182) opposed to the first anchor projection (185), wherein a third anchor projection (187) is pivotally disposed on the outer tube posterior end (182) between the first anchor projection (185) and the second anchor projection (186), wherein a fourth anchor projection (188) is pivotally disposed on the outer tube posterior end (182) opposed to the third anchor projection (187), wherein a first pivoting rod first end (196) is disposed proximal to a first anchor projection first end (231) and a first pivoting rod second end (197) is disposed on an inner shaft posterior end (192), wherein a second pivoting rod first end (206) is disposed proximal to a second anchor projection first end (232) and a second pivoting rod second end (207) is disposed on the inner shaft posterior end (192), wherein a third pivoting rod first end (216) is disposed proximal to a third anchor projection first end (233) and a third pivoting rod second end (217) is disposed on the inner shaft posterior end (192), wherein a fourth pivoting rod first end (226) is disposed proximal to a fourth anchor projection first end (234) and a fourth pivoting rod second end (227) is disposed on the inner shaft posterior end (192), wherein an inner shaft operating lever (194) is perpendicularly disposed on an inner shaft anterior end (191) and projects through an outer tube slot (183), wherein in a first position, the inner shaft operating lever (194) is disposed in a posterior-most position, wherein the first anchor projection (185), the second anchor projection (186), the third anchor projection (187), and the fourth anchor projection (188) are each disposed perpendicularly with respect to the outer tube (180), wherein in a second position, the inner shaft operating lever (194) is disposed in an anterior-most position, wherein the first anchor projection (185), the second anchor projection (186), the third anchor projection (187), and the fourth anchor projection (188) are each retracted via the inner shaft (190) disposing a first pivoting rod (195), a second pivoting rod (205), a third pivoting rod (215), and a fourth pivoting rod (225), wherein the first anchor projection (185), the second anchor projection (186), the third anchor projection (187), and the fourth anchor projection (188) are each disposed parallel with respect to the outer tube (180), wherein each anchor projection comprises an anchor projection length (230) greater than a neck inner diameter (164), wherein each anchor projection comprises a length less than the cylinder inner diameter (165), wherein the anchor assembly (175) is disposed on the valve posterior end (171) via a spiral cord (240); wherein the purge deflector (130) is adapted to deflect and dissipate gas during purging, wherein the anchor assembly (175) is adapted to prevent the valve (170) becoming a projectile upon removal from the gas cylinder (110).
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