Fluid flow control cock fitted with a lever having several stable positions
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-037/00
F16K-001/30
F17C-013/02
F17C-013/04
출원번호
US-0252803
(2011-10-04)
등록번호
US-8402997
(2013-03-26)
우선권정보
FR-01 11042 (2001-08-23)
발명자
/ 주소
Lang, Daniel
Taillandier, Alain
출원인 / 주소
L'Air Liquide Societe Anonyme pour l'Etude et l'Exploitation des Procedes Georges Claude
대리인 / 주소
White, Allen E.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
The disclosure relates to a valve with a pivoting lever. This lever pivots around a pivot point and can move between at least three stable positions. In the rest position, this lever is fixed and solidly connected to the body of the valve, and there is zero fluid flow in the internal fluid passage.
The disclosure relates to a valve with a pivoting lever. This lever pivots around a pivot point and can move between at least three stable positions. In the rest position, this lever is fixed and solidly connected to the body of the valve, and there is zero fluid flow in the internal fluid passage. In the intermediary released position, the axis of the lever is disposed at a positive, non-zero angle in relation to the axis of the lever in the rest position, the lever being now disconnected from the body, but the fluid flow remains zero. In the active position, the axis of the lever is disposed at a positive non-zero angle in relation to the axis of the lever in the intermediary released position, this lever being disconnected from the body, and with fluid now flowing thorough the internal fluid passage at a non-zero rate.
대표청구항▼
1. An apparatus for controlling the flow rate of a pressurized fluid, comprising: a) a body, said body comprising an internal fluid-distribution circuit, a fluid flow control device, and a manipulating device;b) said internal fluid-distribution circuit comprising a fluid inlet orifice, a fluid outle
1. An apparatus for controlling the flow rate of a pressurized fluid, comprising: a) a body, said body comprising an internal fluid-distribution circuit, a fluid flow control device, and a manipulating device;b) said internal fluid-distribution circuit comprising a fluid inlet orifice, a fluid outlet orifice and an internal fluid passage fluidically connecting said fluid inlet orifice to said fluid outlet orifice, wherein said fluid inlet orifice is borne by a base of said body comprising a peripheral external screw thread having a screw thread axis and said body extends in a longitudinal direction along said screw thread axis;c) said fluid flow control device configured to be capable of acting on said internal fluid passage to permit or prevent fluid from flowing along said passage between said fluid inlet orifice and said fluid outlet orifice;d) said manipulating device being adapted for manual actuation by an operator and configured to collaborate directly or indirectly with said fluid flow control device to permit or to prevent said flowing of fluid along said passage, said manipulating device comprising A) a lever with a first axis configured to pivot about a pivot axis and configured to move between at least three stable and angularly offset positions, said positions comprising i) a rest position, a liberating intermediate position, and an active position,ii) said lever comprising a first leg extending angularly away from a second leg, said first leg terminating in a manipulating end and said second leg terminating in an active end,iii) wherein said lever is configured such that when said lever is in said rest position said first leg extends along said body in said longitudinal direction;e) said rest position defined by an apparatus configuration wherein said lever is held, directly or indirectly, fixed and secured to said body and in which said fluid flow control device completely shuts off said internal fluid passage so as to obtain a zero fluid flow rate in said internal fluid passage;f) said liberating intermediate position defined by an apparatus configuration wherein said first axis of said lever is offset by a positive and non-zero first angle with respect to said pivot axis of said lever in said rest position, in which position said lever is detached from said body and in which position said fluid flow control device completely shuts off said internal fluid passage so as to provide a zero fluid flow rate in said internal fluid passage; andg) said active position defined by an apparatus configuration wherein said first axis of said lever is offset by a positive and non-zero second angle with respect to said first axis of said lever in said liberating intermediate position, in which position said lever is detached from said body and in which position said fluid flow control device no longer shuts off said internal fluid passage so as to allow fluid to circulate at a non-zero flow rate along said internal fluid passage. 2. The apparatus as claimed in claim 1, wherein said fluid flow control device comprises a shut-off device adapted to shut off said internal fluid passage. 3. The apparatus as claimed in claim 2, wherein said shut-off device is a shutter. 4. The apparatus as claimed in claim 1, wherein: a) said manipulating end is adapted for an operator to manually grasp said lever; andb) said active end is situated on the same side as said pivot axis, and configured to collaborate directly or indirectly with said shut-off device to be capable of shutting off said internal fluid passage. 5. The apparatus as claimed in claim 1, wherein said pivoting lever collaborates, via said active end, with said fluid flow control device by way of at least one moving part adapted to move in translation in a housing situated between said active end of said lever and said shut-off device, the moving part configured to be capable of shutting off said internal fluid passage. 6. The apparatus as claimed in claim 1, further comprising an external structure secured to said body, and wherein, in said rest position, said lever is held indirectly secured to the body by being fixed to said external structure by way of a catching element. 7. The apparatus as claimed in claim 1, wherein, when said lever is in said rest position, said lever is secured to said body by way of a catching element while at the same time being kept fixed to at least one of; said body, an external structure on said body, or a connecting piece borne by said body. 8. The apparatus as claimed in claim 1, wherein, when in said liberating intermediate position, said first angle is between about 10° and about 70° relative to said first axis of said lever in said rest position. 9. The apparatus as claimed in claim 8, wherein said first angle is between about 20° and about 50° relative to said first axis of said lever in said rest position. 10. The apparatus as claimed in claim 1, wherein, when in said active position, said second angle is between about 20° and about 150° relative to said first axis of said lever in said liberating intermediate position. 11. The apparatus as claimed in claim 10, wherein said second angle is between about 30° and about 120° relative to said first axis of said lever in said liberating intermediate position. 12. The apparatus as claimed in claim 5, wherein, the apparatus is configured so that when said lever is pivoted from said liberating intermediate position into said active position, said active end of said lever, situated on the same side as the pivot axis, comprising a cam-forming portion, collaborates with said shut-off device to shut off said internal fluid passage by way of said moving part able to move in translation in said housing by exerting, via said cam-forming portion, a pressure force on said moving part so as to cause said moving part to move in translation in the direction that tends to move said moving part away from said cam-forming portion so as to configure the internal fluid passage to be capable of allowing a non-zero flow rate of fluid to circulate in said internal fluid-distribution circuit. 13. The apparatus as claimed in claim 1, wherein said fluid outlet orifice is borne by a fluid outlet coupling. 14. The apparatus as claimed in claim 1, further comprising a pressure gauge connected to said internal fluid distribution circuit by a pressure tapping formed in said body in such a way as to cause said pressure gauge and said internal fluid passage of said internal fluid-distribution circuit to communicate fluidically. 15. The apparatus as claimed in claim 1, further comprising a filling coupling comprising a fill orifice in fluidic communication with said internal fluid-distribution circuit by way of a filling circuit. 16. The apparatus as claimed in claim 1, further comprising a rigid external structure forming peripheral cladding for at least part of said body, said structure being borne by and secured to said body. 17. The apparatus as claimed in claim 6, wherein the catching element comprises a stud with a spherical head borne by said lever and a complementary receptacle borne by said external structure sized and shaped to accommodate and hold securely within it said spherical head stud borne by said lever. 18. A pressurized-fluid container equipped with an apparatus as claimed in claim 1. 19. A pressurized-fluid container as claimed in claim 18, wherein said pressurized-fluid container is a gas cylinder. 20. An apparatus for controlling the flow rate of a pressurized fluid, comprising: a) a body, said body comprising an internal fluid-distribution circuit, a fluid flow control device, and a manipulating device;b) said internal fluid-distribution circuit comprising a fluid inlet orifice, a fluid outlet orifice and an internal fluid passage fluidically connecting said fluid inlet orifice to said fluid outlet orifice, wherein said fluid inlet orifice is borne by a base of said body comprising a peripheral external screw thread having a screw thread axis and said body extends in a longitudinal direction along said screw thread axis;c) said fluid flow control device configured to act on said internal fluid passage to allow or prevent fluid from flowing along said passage between said fluid inlet orifice and said fluid outlet orifice;d) said manipulating device adapted to be actuated manually by an operator and collaborating directly or indirectly with said fluid flow control device to allow or to prevent said flowing of fluid along said passage;e) said manipulating device comprising a lever with a first axis capable of pivoting about a pivot axis and capable of moving between at least three stable and angularly offset positions, said positions comprising a rest position, a liberating intermediate position, and an active position, said lever comprising a first axis and a pivot axis, said lever comprising a first leg extending angularly away from a second leg, said first leg terminating in a manipulating end and said second leg terminating in an active end, wherein said lever is configured such that when said lever is in said rest position said first leg extends along said body in said longitudinal direction; andf) said rest position defined by an apparatus configuration in which said lever is held, directly or indirectly, fixed and secured to said body and in which said fluid flow control device completely shuts off said internal fluid passage. 21. The apparatus as claimed in claim 20, wherein said liberating intermediate position is defined by an apparatus configuration in which said first axis of said lever is offset by a positive and non-zero first angle with respect to said pivot axis of said lever in said rest position, in which position said lever is detached from said body and in which position said fluid flow control device completely shuts off said internal fluid passage so as to provide a zero fluid flow rate in said internal fluid passage. 22. The apparatus as claimed in claim 21, wherein said active position is defined by an apparatus configuration in which said first axis of said lever is offset by a positive and non-zero second angle with respect to said first axis of said lever in said liberating intermediate position, in which position said lever is detached from said body and in which position said fluid flow control means no longer shut off said internal fluid passage so as to allow fluid to circulate at a non-zero flow rate along said internal fluid passage. 23. The apparatus as claimed in claim 22, wherein said pivoting lever collaborates, via said active end, with said fluid flow control device by way of at least one moving part able to move in translation in a housing situated between said active end of said lever and said fluid flow control device to shut off said internal fluid passage; and wherein in said liberating intermediate position, said active end of said lever, does not exert a pressure force on said moving part. 24. The apparatus as claimed in claim 20, wherein said body is covered with a rigid external structure forming peripheral cladding for said body, said rigid external structure being secured to said body, and in that, in said rest position, said lever is held indirectly secured to the body by being fixed to said rigid external structure by way of a catching element.
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이 특허에 인용된 특허 (7)
Van Straaten Jerome (Saint Mande FRX) Lhomer Gerard (Le Mesnil Saint Denis FRX), Cap for gas cylinder.
Arzenton Marco,ITX ; Beaco Bruno,ITX ; Cannet Gilles,FRX ; Lasnier Didier,FRX ; Pisot Philippe,FRX ; Thouvier Stephane,FRX, Tap/pressure regulator assembly for a gas bottle and a gas bottle equipped with such an assembly.
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