法国专利FR3018579A1 GAS DISTRIBUTION ASSEMBLY WITH ROTARY CONTROL MEMBER PROTECTED BY A PROJECTED REBORD BEARING A READI

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专利摘要:
The invention relates to a gas distribution assembly comprising a gas container (20), a valve block and a protective cover (21) arranged around said valve block (1), wherein. The valve block comprises a rotatable control member (5), operable by a user, cooperating with a gas passage control system, when operated by the user, to control the passage of gas. The peripheral region (10) of the rotary control member (5) comprises angularly offset markers (11), each corresponding to a given flow rate of gas. The protective covering (21) comprises an opening (24) in which the rotary control member (5) is housed, which is bordered by a protruding flange (22) projecting away from the outer lateral surface of the protective casing (21). The protruding rim (22) comprises a cutout (23) forming a reading window which is positioned facing at least one mark (11) carried by the peripheral region (10) of the rotary control member (5). to allow a user to view said at least one mark (1 1) through the read window (23).
公开号:FR3018579A1
申请号:FR1452042
申请日:2014-03-12
公开日:2015-09-18
发明作者:Renaud Ligonesche；Chiara Tarantello
申请人:Air Liquide SA；LAir Liquide SA pour lEtude et lExploitation des Procedes Georges Claude；
IPC主号:

专利说明:

[0001] The invention relates to a gas distribution assembly comprising a gas container, such as a gas cylinder, in particular a medical gas; a valve block attached to the gas cylinder, said valve block being with or without a built-in expansion system and comprising a rotary gas release wheel; and a protective cover arranged around the valve block to protect it from shocks and dirt. Industrial and medical gases are commonly packaged at high pressure in gas containers, typically gas cylinders, equipped with a valve block, with or without built-in expansion valve, namely a single tap open / closed type or a tap to integrated regulator, also called RDI, to control flow and pressure of the delivered gas. In order to protect this valve block, it is common to arrange around said valve block, a protective cover forming a protective shell around the valve body. Such a cowling is commonly called "hat". Cowlings of this type are described in particular by the documents EP-A-629812, DE-A-10057469, US-A-2004/020793 and EP-A-2586481. Control of gas flow in the valve block is usually done through a gas passage control system arranged on the internal gas passage which fluidly connects the gas container to an outlet of the valve block, said gas passage control system generally cooperating with a user operable controller, e.g. a rotary wheel or a lever. Such a gas passage control system conventionally comprises a movable element, such as a rotating disc, carrying calibrated orifices having increasing dimensions corresponding to increasing gas flow values on which the control member operates is operated by a user. so as to release all or part of the gas passage and thus allow its circulation in the valve block in the direction from the gas inlet to the gas outlet or, conversely, to shut off the gas passage to prevent any circulation and therefore release of gas. However, the existing control members have disadvantages. Thus, the pivoting control levers are not very precise and, in general, they make it possible to operate only an all-or-nothing type of gas release, that is to say without any possibility of precisely adjusting the desired gas flow. Similarly, the existing flywheels are generally not very accurate and pose problems of reliability of choice of flow because: - either they do not have graduation or benchmark to know or adjust safely and accurately the flow desired gas and / or delivered, - either they have coarse landmarks, so very inaccurate and unreliable, - either they have a marker or an indicator, such as a line or arrow, coming to position on a scale of graduation more or less accurate, carried by the tap or protective cover arranged around the tap. However, in this case, there are problems of precision, reliability and complexity of the overall architecture of the whole. In addition, this also causes problems during assembly because the reference of the rotating handwheel must be positioned accurately in front of the graduations of the valve or cowling, resulting in productivity losses during assembly and maintenance phases, and leads to incorrect settings or maladjustments thereafter. In addition, it can be seen over time that the graduation scales of their support become unstuck, making it impossible to know and precisely adjust the flow of gas ... In view of this, the problem is to improve the selection of the gas flow rate by the user and the reading of the gas flow delivered by a gas distribution valve block arranged on a gas container, such as a gas cylinder, equipped with a protective cowling protecting the valve block, while avoiding the aforementioned disadvantages ,. The solution of the invention is then a gas distribution assembly comprising a gas container, a valve block and a protective casing arranged around said valve block, in which: the gas distribution valve block comprises a control member rotary, operable by a user, cooperating with a gas flow control system, that is to say, gas passage, when operated by the user, to control the flow of gas delivered by the block valve, said rotary control member comprising a peripheral region having pins angularly offset with respect to the axis, said pins each corresponding to a given flow rate of gas, and - the protective cowling comprising an opening in which is housed the rotary control member, characterized in that the opening is at least partly bordered by a protruding flange projecting away from the lateral external surface protective cover, said protruding flange comprising a cut-out forming a reading window being positioned facing at least one mark carried by the peripheral region of the rotary control member so as to allow a user to view said at least one mark through the read window. Depending on the case, the gas distribution assembly of the invention may comprise one or more of the following technical features: the gas distribution valve block further comprises a gas inlet port through which a gas can entering the valve body, a gas outlet port through which the gas can exit the valve body, and a first internal gas passage fluidly connecting the gas inlet port to the gas outlet port. the rotary control member cooperates with the gas flow control system, when it is maneuvered by the user, to control the passage of gas in the first internal gas passage in the direction from the orifice of the gas inlet to the gas outlet port. - The rotary control member is movable about an axis of rotation and comprising a central region comprising the axis of rotation AA and gripping means allowing the user to grip the rotary control member between his fingers and imparting a rotational movement about said axis of rotation AA. - The peripheral region of the rotary control member is located at the periphery of the central region. - The peripheral region of the rotary control member carrying the marks forms at least a portion of a ring, preferably a complete or almost complete crown. the marks of the rotary control member comprise increasing indications of flow. the marks of the rotary control member comprise increasing flow indications of between 0 and 40 l / min, preferably between 0 and 25 l / min. the gripping means carried by the central region of the rotary control member comprise one or more elements in reliefs and / or housings. - The central region and the peripheral region of the rotary control member are integral with each other, preferably formed in one piece, for example by molding. - The gas outlet port is carried by a gas outlet connection, the rotary control member being rotatable about said gas outlet connector. - The gas flow control system comprises a movable element carrying calibrated orifices having increasing dimensions corresponding to increasing gas flow values. the movable element of the gas flow control system is a rotating disk. This rotating disk is pierced with calibrated orifices. - The rotary control member cooperates in rotation with the movable member of the gas flow control system for controlling the gas flow delivered by the valve block. - The rotary control member is a rotary wheel - the valve body comprises a gas expansion system arranged between the fluid connection site of the first and second internal gas passages, and the gas outlet port. According to this embodiment, it is therefore an integrated regulator valve or RDI. the expansion system comprises a high pressure chamber, a valve and a valve seat; the manometer is a needle manometer or a manometer with a digital display, also called an "electronic" or "digital" manometer. the rotary control member is arranged coaxially and around the gas outlet fitting carrying the gas outlet orifice. The valve body is made of copper, brass, steel or stainless steel alloy; the fixing system for fixing the lower part of the valve body to a gas container comprises a thread arranged on the outer periphery of the valve; an expansion of cylindrical or conical shape located at the lower part of the valve body. The threading carried by the cylindrical or conical expansion is fixed by screwing in a thread / reciprocal tapping arranged at the outlet of the gas container, in particular at the neck of a bottle of gas. - The valve body further comprises a filling connector comprising a filling port with an internal filling valve for introducing high pressure gas into the gas container equipped with said valve body when it is empty, that is, it contains no or more gas. - The protective cowling comprises an opening in which is housed the rotary control member, said opening being arranged in the front face of the protective cowl. the protruding flange comprises one or more markings symbolizing at least one "arrow", a "+" sign or a "-" sign, or any other symbol. 30 - the gas container is a gas cylinder, also called a cylinder, shell or cylinder. - The protective cowling comprising an opening arranged at the upper part of the protective cowling and within which is housed the pressure gauge, that is to say that the opening is arranged through the wall of the cowling . - The protective casing comprises a flat surface at its upper part, the opening comprising the manometer being arranged in said flat surface. the flat surface forms an oblique face with respect to the vertical axis of the cowling. - The cowling is made of a polymer material, for example plastic, composite, or metal or metal alloy, for example steel, cast iron, aluminum or an aluminum alloy. - The cowling is made of plastic material, such as PVC, PE, PET, PP, PMMA, PU, PA .... - The protective cover includes a carrying handle, preferably a handful of portage connected to the cowling via one or more support posts. - The carrying handle is arranged on the cowling so that the manometer is positioned substantially between the carrying handle and the valve block carrying said manometer. - The protective cowling further comprises a hooking device, preferably a pivoting attachment device, for hanging the assembly to a support, in particular a bed bar, to a stretcher ... - the handle carrier and / or the support-member (s) are formed of a rigid material selected from polymers and metals or metal alloys. - The carrying handle is generally longiforme. Typically, its length is between 5 and 20 cm, preferably between 6 and 15 cm. - The carrying handle overcomes the casing body. - The carrying handle is horizontal or almost horizontal and perpendicular to the axis of the cowling. - The gas cylinder has a size between 10 and 150 cm. - the gas cylinder contains from 0.5 to 20 liters (capacity in water equivalent). - The gas cylinder has a hollow cylindrical body and comprises a neck carrying a gas outlet port at which is fixed the valve block, preferably by screwing. - The gas cylinder contains a gas or gas mixture, preferably a gas or gas mixture according to the specifications of the medical field (pharmacopoeia). the gas bottle contains a gas or gas mixture chosen from oxygen, air, an N 2 O 2/2 mixture, an He / O 2 mixture, a NO / nitrogen mixture or any other gas or gaseous mixture. the bottle is made of steel, an aluminum alloy or a composite material. - the bottle contains gas at a pressure up to about 350 bar.
[0002] The invention also relates to a use of a gas distribution assembly according to the invention for storing or dispensing a gas or gas mixture, in particular of oxygen, air, N 2 O 2, He / O 2 and NO / nitrogen type. The invention will now be better understood thanks to the following detailed description, given by way of illustration but without limitation, with reference to the appended figures in which: FIG. 1 represents a 3/4 front view of an embodiment of FIG. FIG. 2 is a view on the left side of the valve block of the assembly according to the invention of FIG. 1; FIG. 3 is a front view of FIG. the rotary control member equipping the valve block of Figures 1 and 2, and - Figure 4 is a sectional view schematizing the operation of the valve block of Figures 1 and 2. Figures 1 and 2 show an embodiment of a gas distribution assembly according to the invention comprising a rigid protective cover 21, commonly called a "cap", arranged around a valve block 1 (not entirely visible), namely a valve block with or without an integrated expansion valve, - even fixed on the neck of a gas cylinder 20, said protective cowl 21 being provided with a carrying handle 26 surmounting the cowl body. The protective cowling 21 protects the valve block 1 against shocks.
[0003] The gas bottle 20 typically has a cylindrical steel body and a size between 10 and 150 cm, and a capacity of 0.5 to 20 liters (in water equivalent). The fixing around the valve block 1 on the neck of the gas bottle 20 is done by screwing, via reciprocal threads carried by the inner surface of the neck of the bottle 20, on the one hand, and by the outer surface of the an expansion 12 of substantially cylindrical or conical shape, located at the base of the valve body 1 and carrying the gas inlet port 2, as shown in Figure 4, on the other hand. More specifically, the protective casing 1 comprises a casing body forming a protective shell around an internal volume sized to receive the valve block 1, and a carrying handle 26 designed to be handled by a user.
[0004] The casing body 21 is typically made of a polymer and / or metal type material, preferably made of plastic material, such as PVC, PE, PET, PP, PMMA, PU, PA ... The carrying handle 26 is itself formed of a rigid material, such as a polymer or a metal or metal alloy, and is carried by one or more support posts 27 mechanically connecting the casing body to the carrying handle 26. The carrying handle 26 is generally arranged horizontally , that is to say perpendicularly or quasi-perpendicular to the vertical axis of the bottle 20 and the cowling 21. The carrying handle 26 has an elongated shape, whether rectilinear or curved, typically a length less than 20 cm, typically 6 to 15 cm. One or more support posts 27 are fixed to the carrying handle 26 so as to allow a user to easily transport the assembly comprising the cap 21, the tap 1 and the bottle 20 by means of said carrying handle 26. The support posts 27 may be formed of a plastic material, such as the body of the cowling 21, but also of aluminum alloy or any other metallic material. They can be attached to the handle 26 by screwing or welding, for example. The protective cowl 21 also has openings giving access to the valve block 1 located in the internal volume of the cowl body. In particular, a first opening 24 is arranged at the front face 21a of the protective cowling 21, within which is housed a rotary control member 5, such as a rotary wheel, operable by the user. In a conventional manner, this rotary control member 5 cooperates with a gas passage control system, when it is operated by the user, to control the passage of gas, that is to say to allow or prevent its exit In other words, by acting on the rotary control member 5, the user can adjust or adjust the flow of gas delivered by the valve block 1, or even completely interrupt it. The rotary control member 5 according to the present invention is detailed below. The protective cowling 21 further comprises a second opening 18 within which is housed a manometer 16, either needle or electronic. More specifically, the protective cowling 21 comprises a flat surface 17 located at the top of the cowling, within which is arranged the second opening 18. The flat surface 17 is in fact an oblique face with respect to the vertical axis of the bottle 20. Such an arrangement of the manometer 16 in the up position on the valve block 1 and the front 21a of the cowling greatly facilitates the pressure reading delivered by the pressure gauge 16 and thus to avoid reading errors. Furthermore, the protective cowling 21 comprises other openings giving access to filling connections, pressurized gas outlet ... located laterally or on the rear face 21b of the body of the cowling 21, as can be seen in FIGS. and 2.
[0005] In the embodiment of Figures 1 and 2, the rotary handwheel 5 is arranged around the gas outlet fitting 15 carrying the gas outlet port 6 for withdrawing the gas stored in the bottle 20, ie say coaxially. In addition, in order to allow the hooking or securing of the bottle / valve block / cowling assembly to a support, such as a hospital bed or stretcher bar, the protective cowling 21 comprises, on the side of its rear face 21b, a hooking device 19 pivoting between a fully folded position, called "rest" (shown schematically in Figures 1 and 2), that is to say the position adopted by the attachment device 19 when it is stored and in contact or quasi-contact with the body of the cowling 21, and a completely unfolded position called "hooking" (not shown), that is to say the position adopted by the attachment device 19 when it is fully extended and can be hung on a support such as a bed rail or the like. As detailed in FIG. 4, the gas distribution valve block of the invention comprises a valve body 1 comprising a fastening system 12, such as an expansion of the body forming a cylindrical or conical portion carrying a peripheral thread, making it possible to fix the valve block 1 at the neck of the bottle 20, which neck carries a complementary thread. This cylindrical or threaded conical portion 12 also carries the gas inlet orifice 2 through which a pressurized gas coming from the bottle 20 can enter the valve body 1 and then be conveyed thereto via a passage of internal gas 3, to the gas outlet port 6 through which the gas can emerge from the valve body 1.
[0006] In other words, the internal gas passage 3 fluidly connects the gas inlet port 2 to the gas outlet port 6 carried by the outlet fitting 15. Furthermore, as illustrated in FIG. 4, the valve block 1 also includes a gas flow control system, also called a gas passage control system, arranged on the internal gas passage 3, cooperating with the control member 5, namely here a rotary wheel operable by the user , to control the passage of gas in the internal gas passage 3, that is to say to allow or, conversely, prevent any flow of gas in said passage 3, in the direction from the orifice of gas inlet 2 to the gas outlet port 6 carried by the outlet fitting 15. Typically, the flow control system comprises a pierced element of calibrated orifices, the steering wheel coming, as the case may be, to make cooperate a calibrated orifice corresponding to the desired flow rate with an orifice of fixed passage, or to make cooperate a movable passage opening with the calibrated orifice corresponding to the desired flow rate. Such an arrangement is conventional and known to those skilled in the art.
[0007] Preferably, the pierced element of calibrated orifices is a rotating metal disc traversed by calibrated orifices. The orifices have different sizes, i.e. increasing, each caliber corresponding to a given flow rate value. This disc is mobile in rotation and driven by the steering wheel 5.
[0008] Schematically, when the user will give a rotational movement to the wheel 5, it will act, directly or indirectly, on the rotating metal disc and traversed by the orifices calibrated to allow the passage of a flow more or less significant gas in the gas passage of the valve block towards the outlet port 6, said flow corresponding to the opening defined by the calibrated orifice through which the gas flow.
[0009] In addition, the valve block also incorporates a mobile valve 4 in translation, one or more seals 8, such as O-rings, and at least one return spring 7. The valve 4 is a residual pressure valve intended to maintain a positive pressure permanently in the bottle. This valve 4 has an autonomous operation, without action of the steering wheel. The valve body 1 further comprises one or more internal gas conduits as visible in FIG. 4 serving in particular for filling the bottle 20 when it is empty, for taking pressure for the pressure gauge 16 ... In the mode of embodiment shown in the figures, the valve block is RDI type, that is to say it comprises a gas expansion system arranged between the gas flow control system and the gas outlet orifice 6 so as to reduce the pressure of the high-pressure gas from the bottle 20 to a lower pressure value delivered by the outlet port 6, for example a pressure reduction of a high pressure. greater than 100 bar at a low pressure of less than 20 bar abs. For this purpose, conventionally, there is provided an expansion system 30 comprising a high pressure chamber, a relief valve and a valve seat. The final pressure can be adjustable or fixed value.
[0010] As shown diagrammatically in FIGS. 3 and 4, the rotary control member 5, which cooperates with the gas flow control system arranged on the first internal gas passage 3, is rotatable about an axis of rotation AA. This rotary control member 5, such as a rotating flywheel, comprises a central region 9 comprising the axis of rotation AA and a peripheral region 10 situated at the periphery of the central region 9, said central and peripheral regions 9 being integral with the one of the other. More specifically, the central region 9 comprises gripping means 13, 14 allowing the user to grip the rotary control member 5 between his fingers and to give it a rotational movement about the axis of rotation AA.
[0011] The central region 9 of the control member 5 further comprises a central orifice through which the outlet fitting 15 carrying the outlet orifice 6 passes. The control member 5 is thus free to rotate around said outlet connection. 15. Furthermore, the peripheral region 10 having pins 11 angularly offset with respect to the axis AA, said pins 11 each corresponding to a given flow rate of gas. In Figure 3, the marks 11 are ordered in a ring 12 located on the entire periphery of the central region 9, and indicate increasing flow values. Thus, one of the marks 11 corresponds to a position of the flywheel 5 in which the gas is cut, that is to say that the valve 1 does not deliver gas (ie flow = 01 / min), namely the mark 10 "OFF". The other marks 11 correspond to positions of the flywheel 5 in which the gas is delivered at different flow rates, namely flow rates of 0.5, 1, 1.5, 2, 3, 4, 6, 8, 10, 15 and 25 1 / min of gas. The markers 11 may be etched, printed, glued or applied by any other suitable technique to the crown 12. Likewise, the markers 11 may comprise numbers, letters or any other type of marking. Moreover, the gripping means 13, 14 carried by the central region 9 of the rotary flywheel 5 here comprise relief elements 13 and housings 14 so as to constitute grips for the user enabling him to give the steering wheel 5 a rotational movement in the direction of clockwise (ie clockwise) or counterclockwise (ie anticlockwise). Of course, the gripping means 13, 14 may take other forms. In general, the central region 9 and the peripheral region 10 are integral with one another and preferably formed in one piece, for example by molding or gluing together. The rotating flywheel 5 is preferably made of plastic material, such as PVC, PE, PET, PP, PMMA, PU PA ... but may also consist of an alloy of aluminum or of any other metallic material, or even of a combination of several materials, for example plastic and metal materials. Preferably, at least a portion of the rotating flywheel 5 is made of a rigid material covered with a flexible material having a Shore hardness between 0 and 95, for example a coating formed of a paint giving an effect called "soft touch" (ie effect soft and silky to the touch) to increase user comfort for the user, or a coating formed of a layer overmolded with an elastomeric material, silicone or the like. Generally, when the user imparts a rotational movement to the flywheel 5, it will act, directly or indirectly, on the movable valve 4 so as to allow the passage of a flow of gas more or less important in the gas passage 3 towards the outlet orifice 6, said delivered flow corresponding to one of the flow values carried by the ring 12 of the flywheel 5. As already said, the protective cowling 21 comprises, in its face before 21a, an opening 24 in which is housed the rotary control member 5.
[0012] As can be seen in FIG. 1, this opening 24 is partly bordered by a protruding flange 22 projecting away from the outer surface of the front face 21a of the protective cowling 21, that is to say at the way of a cap visor. This protruding flange 22, preferably rigid and formed integrally with all or part of the front face 21a of the cowling 21, comprises a cutout 23 forming a reading window which is positioned facing at least one of the pins 11 carried by the peripheral region 10 of the rotary control member 5, that is to say by the ring 12 of Figure 3, so as to allow a user to view the mark 11 through the window 23, which reference 11 represents a given gas flow value. This protruding rim 22 also makes it possible to protect the steering wheel 5 in the event of the bottle 20 falling on its front face 21b. Furthermore, the protruding flange 22 comprises one or more markings 25, for example one or more arrows and / or symbols "+" and / or "-", representative of the direction in which the user must operate a rotation of the rotary control member 5 for increasing and / or decreasing the flow of gas delivered by the valve block 1, that is to say the clockwise or counterclockwise. An assembly according to the invention is particularly suitable for use in a medical environment, in particular it is suitable for the storage of any medical gas or gas mixture, in particular of oxygen, air, N 2 O 2, He / O 2, NO / nitrogen or other.

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. Gas distribution assembly comprising a gas container (20), a valve block and a protective cover (21) arranged around said valve block (1), and wherein: - the gas distribution valve block comprises a gas valve rotary control (5), operable by a user, cooperating with a gas flow control system for controlling the flow of gas delivered by the valve block, said rotary control member comprising a peripheral region (10) having markings (11). ) angularly offset with respect to the axis (AA), said marks (11) each corresponding to a given flow rate of gas, and - the protective covering (21) comprising an opening (24) in which the organ is housed rotary control device (5), characterized in that the opening (24) is at least partly bordered by a protruding flange (22) projecting away from the outer side surface of the protective cover (21), said raised flange ie (22) having a cutout (23) forming a reading window which is positioned facing at least one mark (11) carried by the peripheral region (10) of the rotational control member (5) so as to allowing a user to view said at least one mark (11) through the read window (23).
[0002]
2. Dispensing assembly according to the preceding claim, characterized in that the opening (24) is at least partly bordered by a protruding flange (22) projecting away from the external lateral surface of the front face ( 21a) of the protective casing (21).
[0003]
3. Dispensing assembly according to one of the preceding claims, characterized in that the marks (11) of the rotary control member (5) comprise increasing flow indications.
[0004]
4. Dispensing assembly according to one of the preceding claims, characterized in that the marks (11) of the rotary control member (5) comprise increasing flow indications of between 0 and 40 l / min, preferably between 0 and 25 1 / min.
[0005]
5. Dispensing assembly according to one of the preceding claims, characterized in that the gas outlet port (6) is carried by a gas outlet connector (15), the rotary control member (5) being movable in rotation about said gas outlet connector (15).
[0006]
6. Dispensing assembly according to one of the preceding claims, characterized in that the rotary control member (5) is a rotary wheel
[0007]
7. Dispensing assembly according to one of the preceding claims, characterized in that the opening (24) is arranged in the front face (21a) of the protective cowl (21).
[0008]
8. Dispensing assembly according to one of the preceding claims, characterized in that the protruding flange (22) comprises one or more markings (25) representative of the direction in which the user must operate a rotation of the control member rotary device (5) for increasing or decreasing the gas flow rate delivered by the valve block (1).
[0009]
9. Dispensing assembly according to one of the preceding claims, characterized in that the projecting flange (22) comprises one or more markings (25) symbolizing at least one "arrow", a sign "+" or a sign "- ". 20
[0010]
10. Use of a gas distribution assembly according to one of the preceding claims for storing or dispensing a gas or gas mixture, in particular of oxygen, air, N20 / 02, He / 02 and NO / nitrogen. 15

类似技术:

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同族专利:

公开号 | 公开日

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US9266509B1|2014-11-25|2016-02-23|Innovatech, Llc|Vehicle braking system brake bias adjuster having a visible brake bias ratio indicator and method and apparatus for retrofitting a vehicle with a vehicle braking system brake bias adjustment knob assembly having a visible brake bias ratio indicator|US10151405B1|2012-11-09|2018-12-11|Praxair Technology, Inc.|Valve integrated pressure regulator with shroud and digital display for gas cylinders|

LU92872B1|2015-11-16|2017-06-08|Luxembourg Patent Co|Hand-wheel for adjusting the outlet of a tap for gas cylinder|

LU92874B1|2015-11-16|2017-06-08|Luxembourg Patent Co|Tap assembly with cover and electronic status indicator|

LU92963B1|2016-01-28|2017-08-07|Luxembourg Patent Co|Pressure reducer device with stepper motor for adjusting the flow rate|

FR3067788A1|2017-06-16|2018-12-21|L'air Liquide, Societe Anonyme Pour L'etude Et L'exploitation Des Procedes Georges Claude|COVERING FOR A GAS CONTAINER CARRYING AN ORDERING MEMBER OF THE INSULATION VALVE OF AN INTEGRATED REGULATOR VALVE|

FR3094447B1|2019-03-25|2021-06-25|Air Liquide|Electronic device for gas container|

FR3097615B1|2019-06-21|2021-05-28|Air Liquide|Gas container with display of possible flow rates and corresponding backup times|

FR3106189B1|2020-01-14|2021-12-10|Air Liquide|Gas container with display of the flow rate and the corresponding autonomy|

法律状态:
2016-03-21| PLFP| Fee payment|Year of fee payment: 3 |

2017-03-22| PLFP| Fee payment|Year of fee payment: 4 |

2018-03-23| PLFP| Fee payment|Year of fee payment: 5 |

2019-11-29| ST| Notification of lapse|Effective date: 20191106 |

优先权:

申请号 | 申请日 | 专利标题

FR1452042A|FR3018579B1|2014-03-12|2014-03-12|GAS DISTRIBUTION ASSEMBLY WITH ROTARY CONTROL MEMBER PROTECTED BY A PROJECTED REBORD BEARING A READING WINDOW|FR1452042A| FR3018579B1|2014-03-12|2014-03-12|GAS DISTRIBUTION ASSEMBLY WITH ROTARY CONTROL MEMBER PROTECTED BY A PROJECTED REBORD BEARING A READING WINDOW|

EP15305328.5A| EP2940370A1|2014-03-12|2015-03-04|Gas distribution assembly with rotary actuator protected by a projecting rim supporting a reading window|

US14/642,232| US20150260346A1|2014-03-12|2015-03-09|Gas distribution system with rotary control member protected by a projecting rim carrying a reading window|

CA2884483A| CA2884483A1|2014-03-12|2015-03-09|Gas distribution assembly with a rotating control mechanism protected with a raised edge equipped with a viewing window|

CN201510224043.2A| CN104913195A|2014-03-12|2015-03-11|Gas distribution system with rotary control member protected by a projecting rim carrying a reading window|

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