EP3578871A1 - Device for delivering fluid under pressure - Google Patents

Abstract

Device for supplying pressurized fluid, comprising at least one fluid reservoir (2) provided with an orifice connected to a first tap (3) housing an internal fluid circuit (4) provided with at least one valve (5) closure, the device (1) comprising a second valve (6) mechanically connected in a separable manner to the first valve (3), the second valve (6) comprising an internal circuit (7) for transferring pressurized fluid, the second valve (6) comprising a movable actuator (9) intended to open the at least one valve (5) for closing the first tap (3), the second tap (6) further comprising a movable control member (10) , in particular manually, provided for controlling the movement of the actuating member (9) and controlling the opening or not of the valve (5) for closing the first valve, the device (1) comprising a pressure valve (11) configured to prevent the complete emptying of the at least one tank (2) in de s under a pressure threshold determined when the at least one closing valve (5) is open, characterized in that the residual pressure valve (11) is located in the second (6) valve

Description

The invention relates to a device for supplying fluid under pressure.

The invention more particularly relates to a device for supplying pressurized fluid, particularly pressurized gas, comprising at least one pressurized fluid reservoir provided with an orifice connected to a first valve, the first valve housing an internal fluid circuit. equipped with at least one closure valve, the device comprising a second valve mechanically connected separably to the first valve, the second valve comprising an internal fluid transfer circuit under pressure, in the connected position of the second valve on the first valve, the internal circuit of the second valve being fluidly connected to the internal circuit of the first valve, the second valve comprising a movable actuating member intended to open the at least one closure valve of the first valve, the second valve further comprising a control member mobile, in particular manually, designed to control the movement of the actuating member and to control the opening or not of the closing valve of the first valve, the device comprising a residual pressure valve configured to prevent the complete emptying of the at least one tank below a determined pressure threshold when the at least one closure valve is open ,

The invention relates in particular to a device for dispensing fluid, in particular pressurized gas of the modular type. The invention relates in particular to the filling of gas cylinders at high pressure (for example between 200 and 700 bar).

Examples of modular fluid dispensing devices are illustrated in the documents FR2892799A1 , FR2979687A1 , FR2970313A1 FR3022972A1 or FR303386A1 .

To avoid the contamination of bottles or sets of bottles, it is known to provide residual pressure valve within the bottle or tap attached thereto cf. for example FR303386A1 .

Such a residual pressure valve conventionally prevents the total emptying of the bottle below a determined pressure threshold. This prevents the intrusion of air and moisture especially when the bottle (its valve) is kept open until it is completely drained.

This solution, although satisfactory, can sometimes complicate the structure and the cost of the bottle or its faucet which is attached to it and be complex.

In addition, such a residual pressure valve housed in the bottle can be subjected to brutal emptying (withdrawal with Joule-Thompson effect) and fast refills. Thus such a valve can be subjected to extreme conditions with fluid passages in both directions.

An object of the present invention is to provide a fluid supply device having a simple structure, compact, good ergonomics of use and good safety vis-à-vis the possible pollution of the tank interior.

An object of the present invention is to overcome all or part of the disadvantages of the prior art noted above.

To this end, the device according to the invention, furthermore in accordance with the generic definition given in the preamble above, is essentially characterized in that the residual pressure valve is located in the second valve.

• le circuit interne de transfert de fluide du second robinet comprend une extrémité amont destinée à être raccordée à une extrémité aval du circuit interne du premier robinet et au moins une première extrémité aval débouchant au niveau d'un raccord de sortie, le raccord de sortie étant destiné à être raccordé fluidiquement avec un organe receveur du gaz soutiré du réservoir, le clapet de pression résiduelle étant situé dans le circuit interne de transfert de fluide du second robinet entre l'extrémité amont et l'extrémité aval,
• le clapet de pression résiduelle comprend un organe de fermeture mobile sollicité par un organe de rappel vers un siège dans une position de fermeture du circuit interne du second robinet, l'organe de fermeture étant soumis à l'effort du fluide sous pression dans ledit circuit interne provenant de l'extrémité amont et qui s'exerce à l'encontre de l'effort de l'organe de rappel,
• le circuit interne du second robinet comprend une seconde extrémité aval débouchant sur le corps du second robinet et comprenant un clapet de purge actionnable mécaniquement pour ouvrir la seconde extrémité aval du circuit vers l'extérieur du second robinet afin de purge ledit circuit interne,
• l'organe d'actionnement mobile forme un pousse-clapet destiné à déplacer le au moins un clapet de fermeture par actionnement mécanique,
• le circuit interne du premier robinet comprend deux clapets de fermeture disposés en série, et en ce que l'organe d'actionnement est mobile en translation et configuré pour ouvrir les clapets de fermeture en série par actionnement mécanique d'un premier clapet de fermeture de sorte que le déplacement de ce premier clapet de fermeture pousse et déplace en réaction le clapet (5) de fermeture suivant,
• le premier et le second robinet comprennent des organes d'accrochage respectifs formant un système de connexion rapide amovible du second robinet sur le premier robinet,
• l'organe de commande mobile comprend un levier monté articulé sur le second robinet ou un bouton mobile en rotation et/ou en translation,
• l'organe d'actionnement mobile comprend un axe mobile en translation.

Furthermore, embodiments of the invention may include one or more of the following features:

• the internal fluid transfer circuit of the second valve comprises an upstream end intended to be connected to a downstream end of the internal circuit of the first valve and at least a first downstream end opening at an outlet connection, the outlet coupling being adapted to be fluidly connected to a gas receiver member withdrawn from the reservoir, the residual pressure valve being located in the internal fluid transfer circuit of the second valve between the upstream end and the downstream end,
• the residual pressure valve comprises a movable closing member biased by a return member towards a seat in a closed position of the internal circuit of the second valve, the closure member being subjected to the force of the fluid under pressure in said circuit internal from the upstream end and which is exerted against the force of the return member,
• the internal circuit of the second valve comprises a second downstream end opening on the body of the second valve and comprising a purge valve operable mechanically to open the second downstream end of the circuit to the outside of the second valve to purge said internal circuit,
• the movable actuating member forms a valve push-piece intended to move the at least one closure valve by mechanical actuation,
• the internal circuit of the first valve comprises two closure valves arranged in series, and in that the actuating member is movable in translation and configured to open the closure valves in series by mechanical actuation of a first closure valve of so that the displacement of this first closure valve pushes and displaces in response the next closing valve (5),
• the first and second valves comprise respective latching members forming a removable quick connection system of the second valve on the first valve,
• the movable control member comprises a lever articulated on the second valve or a button movable in rotation and / or in translation,
• the movable actuating member comprises a movable axis in translation.

The invention may also relate to any alternative device or method comprising any combination of the above or below features within the scope of the claims.

• la figure 1 représente une vue en coupe, schématique et partielle d'un premier exemple de réalisation possible du dispositif de fourniture de fluide selon l'invention,
• les figures 2 et 3 représentent des vues en coupe, schématiques et partielles, d'un autre exemple de réalisation possible du dispositif de fourniture de fluide et selon respectivement deux configurations ou états d'utilisation.

Other particularities and advantages will appear on reading the following description, made with reference to the figures in which:

• the figure 1 represents a sectional view, schematic and partial of a first possible embodiment of the fluid supply device according to the invention,
• the Figures 2 and 3 are schematic and partial sectional views of another possible embodiment of the fluid supply device and respectively two configurations or states of use.

The device 1 for supplying fluid under pressure illustrated in FIG. figure 1 comprises a reservoir 2 (for example a bottle) of pressurized fluid provided with an orifice in which is fixed (screwing for example) a first valve 3.

The first valve 3 houses an internal fluid circuit 4 provided with at least one closure valve 5. This internal circuit 4 comprises for example a first upstream end in relation to the storage volume of the tank 2 and a downstream end 13 opening for example on one end of the body of the first tap 3.

The device 1 further comprises a second valve 6 mechanically connected separably (detachably) to the first valve 3.

For example, the first 3 and the second valve 6 comprise respective fastening members 8, 9 forming a removable quick connection system of the second valve 6 on the first valve (cf. Figures 2 and 3 ).

The second valve 6 also comprises an internal circuit 7 for transferring fluid under pressure. In the connected position of the second valve 6 on the first valve 3, the internal circuit 7 of the second valve 6 is fluidly connected to the internal circuit 4 of the first valve 3. For example, an upstream end 12 of the internal circuit 7 of the second valve 6 is connected at the downstream end 13 of the circuit 4 of the first tap 3

The second valve 6 comprises a movable actuating member 9 preferably forming a valve-push for opening by mechanical actuation the at least one valve 5 for closing the first valve 3. In addition, the second valve 6 comprises a member 10 of mobile control, preferably manually operable, provided to control the movement of the actuating member 9 to control the opening or not of the valve 5 closing the first valve.

As illustrated in the figures, the movable control member 10 may comprise or consist of at least one of: a lever mounted articulated on the second valve 6 (cf. Figures 2 and 3 ), a knob or wheel movable in rotation and / or in translation (cf. figure 1 ) on the valve body 6.

The device 1 further comprises a residual pressure valve 11 configured to prevent the complete emptying of the tank 2 below a determined pressure threshold (for example between 1.5 and 10 bar, in particular between 2 and 10 bar).

According to an advantageous feature, the residual pressure valve 11 is located in the second valve 6. That is to say, the function of maintaining a residual pressure is performed only by the second valve 6 which is connected to the first valve 3. This simplifies the architecture of the first valve 3 without harming the protection the contents of the tank 2.

For example, the internal circuit 7 of the second valve 6 comprises an upstream end 12 intended to be connected to the downstream end 13 of the internal circuit 4 of the first valve 3 and a first downstream end 14 opening at a outlet fitting 15. The outlet connector 15 is for example intended to be connected fluidly with a gas receiver member withdrawn from the tank 2.

The residual pressure valve 11 is located in the internal circuit 7 of the second valve 6 between the upstream end 12 and the downstream end 13, preferably close to the outlet connector 15.

As visible to Figures 2 and 3 , the residual pressure valve 11 comprises for example a movable closing member 111 (piston for example) biased by a return member 211 (spring for example) to a seat in a closed position of the internal circuit 7 of the second valve 6. This closure member 211 is subjected to the force of the fluid under pressure in said internal circuit 7 from the upstream end 12. This pressure force tends to oppose the force of the return member 211. Thus, according to the dimensioning of the residual pressure valve 11, this prevents the fluid outlet (valve closed under the action of the spring 211) when the upstream pressure is below a determined threshold.

The residual pressure valve 11 may also incorporate a non-return function ("NRV" = "Non Return Valve") preventing the flow of gas between the downstream end 14 and the upstream end 12 (thus preventing inadvertent filling ).

As illustrated in the figures, the internal circuit 7 of the second valve 6 may comprise a second downstream end 16 distinct opening on the body of the second valve 6. The two downstream end 16, 14 may be connected in parallel to the upstream end 12 of the circuit 7 internally.

This second downstream end 16 may be provided with a purge valve 17 operable preferably mechanically (for example manually) to open the second downstream end 16 of the circuit to the outside of the second valve 6 to purge said internal circuit 7. This thus allows to depressurize the internal circuit 7 of the second valve for example, before separating the second valve 6 from the first valve 3.

Of course, the invention is not limited to the embodiment described above.

Thus, as represented in Figures 2 and 3 the internal circuit 4 of the first valve 3 may comprise two shut-off valves 5, 17 placed in series.

In the closed position, a first 17 of the valves may be flush with one end of the first valve 3.

The actuating member 9 can be movable in translation to form a valve pushpiece configured to open the shut-off valves 17, 5 in series by mechanical actuation of a first closure valve 17 so that the movement of this first valve 17 closing (movement in the body of the first valve 3) pushes or allows the movement of the valve 5 closing next (cf. Figures 2 and 3 and the document WO2012004481A1 for example).

Similarly, the first valve 3 could have three valves in series (or more and / or other components). We can refer for example to the example of the document WO2016139404A1 for the opening sequence of three valves in series.

Thus, when the second valve 6 (which ensures the opening of the valve or valves 17, 5) is detached from the first valve 3, the valve or valves 17, 5 closure automatically close (under the action of body (s) such as springs) the internal circuit 4 of the first valve 3. Thus, pollution or complete emptying of the tank 2 is avoided. When the second valve 6 is connected to the first valve 3 and opens the internal circuit 4 of the first valve (via the movement of the valve or valves 17, 5) complete emptying or pollution of the tank 2 is not possible even if the the user forgets to move the control member 10 in the closed position of the internal circuit 4.

As illustrated schematically in Figures 2 and 3 , or the closing valves 17, 5 may comprise a movable element (piston) biased towards a seat by a return member (spring for example).

In the example of Figures 2 and 3 the movable actuating member 9 comprises a movable axis in translation. Of course this could be replaced by any other suitable system.

Similarly, the invention has been described with a single tank 2 but could be applied to a set of tanks (bottle frame for example) connected to the first valve 3. In addition, the second valve may comprise an adjustable pressure regulator or not to lower the gas pressure to a certain level. For example, the expander is located in the internal circuit 7 or at the outlet connector 15.

Claims (9)

Device for supplying pressurized fluid, in particular gas under pressure, comprising at least one reservoir (2) of pressurized fluid provided with an orifice connected to a first valve (3), the first valve (3) housing a circuit ( 4) internal fluid provided with at least one valve (5) closing, the device (1) comprising a second valve (6) mechanically connected separably to the first valve (3), the second valve (6) comprising a internal circuit (7) for transferring fluid under pressure, in the connected position of the second valve (6) on the first valve (3), the internal circuit (7) of the second valve being fluidly connected to the internal circuit (4) of the first valve (3), the second valve (6) comprising a movable actuating member (9) for opening the at least one valve (5) for closing the first valve (3), the second valve (6) further comprising a mobile control member (10), in particular manually, intended to control the displacement of e the actuating member (9) and controlling the opening or not of the valve (5) for closing the first valve, the device (1) comprising a residual pressure valve (11) configured to prevent the complete emptying of the at least one tank (2) below a determined pressure threshold when the at least one closing valve (5) is open, characterized in that the residual pressure valve (11) is located in the second (6) valve. Device according to claim 1, characterized in that the internal fluid transfer circuit (7) of the second valve (6) comprises an upstream end (12) intended to be connected to a downstream end (13) of the internal circuit (4). the first valve (3) and at least one first downstream end (14) opening out at an outlet connection (15), the outlet connection (15) being intended to be fluidly connected to a gas receiver member withdrawn from the reservoir (2), and in that the residual pressure valve (11) is located in the internal fluid transfer circuit (7) of the second valve (6) between the upstream end (12) and the downstream end ( 13). Device according to claim 2, characterized in that the valve (11) residual pressure comprises a member (111) movable closure biased by a member (211) for returning to a seat in a closed position of the internal circuit (7) of the second valve (6), the closure member (211) being subjected to the force of the fluid under pressure in said internal circuit (7) coming from the upstream end (12) and which 'exerts against the effort of the body (211) recall. Device according to claim 2 or 3, characterized in that the internal circuit (7) of the second valve (6) comprises a second downstream end (16) opening on the body of the second valve (6) and comprising a valve (17) of purge actuated mechanically to open the second end (16) downstream of the circuit to the outside of the second valve (6) to purge said internal circuit (7). Device according to any one of claims 1 to 4, characterized in that the movable actuating member (9) forms a valve-push for moving the at least one closure valve (5) by mechanical actuation. Device according to any one of claims 1 to 5, characterized in that the internal circuit (4) of the first valve (3) comprises two closure valves (5, 17) arranged in series, and in that the device ( 9) is movable in translation and configured to open the closing valves (17, 5) in series closure by mechanical actuation of a first valve (17) closure so that the displacement of the first valve (17) of closing pushes and moves in response the next valve (5) closing. Device according to any one of claims 1 to 6, characterized in that the first (3) and the second valve (6) comprise respective fastening members (8, 9) forming a removable quick connection system of the second valve (6) on the first tap (3). Device according to any one of claims 1 to 7, characterized in that the movable control member (10) comprises a lever mounted articulated on the second valve (6) or a button movable in rotation and / or in translation. Device according to any one of claims 1 to 8, characterized in that the member (9) for movable actuation comprises a movable axis in translation.

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