This application is a 371 of International Application No. PCT/EP2020/075050, filed Sep. 8, 2020, which claims priority to French Patent Application No. 1910559, filed Sep. 25, 2019, the entire contents of which are incorporated herein by reference.
The invention relates to a conditioning device, to an assembly comprising such a device and a container, to its use and to a filling or tapping method.
The invention relates more particularly to a conditioning device intended for engaging with a filling and/or tapping connector of a pressurized-fluid container cock, the conditioning device comprising a body bearing at least one coupling member arranged about a longitudinal axis, the central space situated between the at least one coupling member and the longitudinal axis forming a housing intended to accommodate a filling connector of cylindrical general shape, the at least one coupling member being movable between a moved-away position to allow the introduction of a connector into the central space or the exit of a connector from the central space, and a moved-in position to ensure coupling of the at least one coupling member with the filling connector, the conditioning device comprising a locking member which is movable with respect to the body and with respect to the coupling member or members between a first active position blocking the at least one coupling member in the moved-in position, and a second inactive position allowing the movement of the at least one coupling member towards the moved-away position, the conditioning device comprising a valve pusher which is movable in a gas transfer duct along the longitudinal axis in order to actuate the opening of at least one valve of a filling connector, the conditioning device additionally comprising a blocking member, the blocking member being movable in a direction parallel to the longitudinal axis between a first upstream position preventing the movement of the at least one coupling member from its moved-away position towards its moved-in position, and a second downstream position allowing the movement of the at least one coupling member from the moved-away position towards the moved-in position, the blocking member being urged by default towards its working position by a return member, the blocking member comprising an upstream face intended to come into contact with a terminal end of a filling connector, the blocking member being movable from its working position towards its rest position during a pushing force of the filling connector on its upstream face when a filling connector penetrates into the central space of the conditioning device.
The invention relates in particular to a mechanism for rapidly connecting a conditioning (filling and/or tapping) device (or clamp) to a connector of a gas cylinder in order to allow the filling (or a tapping) of said cylinder.
Such devices are described for example in documents FR2962520A1 and EP2737234A1.
These devices describe satisfactory solutions for carrying out filling (or tapping) operations through a connector comprising an isolation valve housed in the connector (separating the high pressure from the external atmosphere) and an anti-dust valve which is flush with the end of the connector.
In the case where the isolation valve separating the high pressure from the external atmospheric pressure is situated at the end of the connector (in particular when it is flush at the terminal end of the connector), the architectures mentioned above are not suitable for realizing a secure fluid-tight connection. For example, for a filling connector of the type described in document EP2783152A1 (two concentric valves flush with the terminal end of the connector), the conditioning tools described above are poorly suited.
One aim of the present invention is to overcome all or some of the disadvantages of the prior art stated above.
To this end, the conditioning device according to the invention, otherwise conforming to the generic definition given thereof by the preamble above, is essentially characterized in that the upstream face of the blocking member comprises a tightness seal arranged about the longitudinal axis to form sealing between the gas transfer duct and an internal circuit of a filling connector. Moreover, embodiments of the invention may comprise one or more of the following features:
The invention also relates to an assembly comprising a pressurized-fluid container provided with a filling and/or tapping connector and a conditioning device according to any one of the features above or below, the connector comprising a body of cylindrical general shape extending along a longitudinal axis and the outer surface of which comprises coupling members intended to engage with the coupling members of the conditioning device in order to allow removable coupling between these two entities, the filling connector comprising an internal circuit accommodating at least one valve for closing the internal circuit, said internal circuit opening at a terminal face of said filling connector.
The invention also relates to the use of a conditioning device according to any one of the features above or below or of an aforementioned assembly for filling and/or tapping a pressurized-fluid container, in particular a pressurized-gas cylinder.
The invention also relates to a method for filling or tapping a container with pressurized fluid, the container comprising a cock provided with a filling connector having a body of cylindrical general shape extending along a longitudinal axis and the outer surface of which comprises coupling members intended to engage with the coupling members of the conditioning device in order to allow removable coupling between the filling device and said connector, the filling connector comprising an internal circuit accommodating at least one valve for closing the internal circuit, said internal circuit opening at a terminal face of said filling connector, the method comprising a mechanical connection, on the connector, of a conditioning device according to any one of the features above or below, the mechanical connection comprising a step of contact between the blocking member and the terminal face of said filling connector, in which step the tightness seal of the blocking member provides sealing between the duct of the conditioning device and the internal circuit of the filling connector, the method additionally comprising a step of moving the blocking member towards its rest position by relative drawing-together between the conditioning device and the filling connector, and a step of moving the at least one coupling member from its moved-away position towards its moved-in position with coupling on the body of the filling connector.
According to other possible particular features:
The invention may also relate to any alternative device or method comprising any combination of the features above or below within the scope of the claims.
For a further understanding of the nature and objects for the present invention, reference should be made to the following detailed description, taken in conjunction with the accompanying drawings, in which like elements are given the same or analogous reference numbers and wherein:
The illustrated conditioning device is intended to engage with a filling (and/or tapping) connector 1 of a cock of a pressurized-fluid container 18.
This conditioning device comprises a body 5 bearing at least one coupling member 2 arranged about a longitudinal axis A. As illustrated and described in more detail below, the conditioning device can comprise a plurality of coupling members formed by movable claws.
The surface of the claws 2 that faces towards the central space intended to accommodate a filling connector 1 can be provided with one or more reliefs 12 and/or recesses of determined dimensions. These one or more reliefs 12 and/or recesses are spaced relatively from one another in a predetermined manner in order to fit into one or more mating grooves 13 and/or reliefs formed on the outer face of a filling connector 1.
Of course, any other suitable coupling member can be envisaged (balls, etc.).
The central space situated between the coupling claws 2 and the longitudinal axis A forms a housing intended to accommodate a filling connector 1 of cylindrical general shape.
The coupling claws 2 are movable between a moved-away position (
The conditioning device additionally comprises a locking member 3 which is movable with respect to the body 5 and with respect to the coupling claws 2 between a first active position blocking the at least one coupling member 2 in the moved-in position (
As illustrated, the locking member 3 can be movable in translation (in a direction parallel to the longitudinal axis A) between the first active position and the second inactive position. Moreover, preferably, the locking member 3 is urged towards its active position by a return member 15 such as a spring. Moreover, when the coupling claws 2 are in the moved-away position, a stop 32 can prevent the passage of the locking member 3 from the inactive position towards the active position (cf.
For example, the locking member comprises or is formed by a sleeve 3 of tubular general shape arranged around the coupling claws 2.
The conditioning device additionally comprises a valve pusher 11 which is movable in a gas transfer duct 7 (for filling from downstream to upstream and, where appropriate, for tapping from upstream to downstream) along the longitudinal axis. The terms upstream and downstream make reference to the direction of flow of the fluid in the case of tapping fluid from the connector 1 in the longitudinal direction A. The valve pusher comprises a rigid pin which is movable in translation along the longitudinal axis A in order to optionally actuate the opening of at least one valve 19 of a filling connector 1.
Conventionally, the actuating device 16, 17 for actuating the valve pusher 11 can comprise a switch 17 formed by a push-button or a pivoting lever and a mechanism 16 for the transmission of force between the switch 17 and the valve pusher 11. For example, a pivoting lever 17 can control the position of the valve pusher 11 via a cam 16.
The conditioning device additionally comprises a blocking member 4 for blocking the claws 2.
The blocking member 4 is for example mounted on the body 5 around the (upstream) terminal end of the transfer duct 7. The blocking member 4 is movable in translation in a direction parallel to the longitudinal axis A between a first upstream position preventing the movement of the coupling claws 2 from the moved-away position towards the moved-in position (cf.
The blocking member 4 can therefore form, depending on its position, an optional mechanical stop ensuring optional spacing of the coupling members 2 in order to optionally prevent the mechanical connection of the conditioning device on a connector 1.
The blocking member 4 is urged by default towards its working position by a return member 6, for example a spring. This blocking member 4 comprises an upstream face 14 intended to come into contact with a terminal end of a filling connector 1 during the connection of these two entities.
The blocking member 4 is movable from its working position (upstream, cf.
According to an advantageous particular feature, the upstream face of the blocking member 4 comprises a tightness seal 24 arranged about the longitudinal axis A to form sealing between the gas transfer duct 7 and an internal circuit 20 of the filling connector 1.
Thus, this blocking member 4 provides a double function: a role in the mechanism for locking the rapid connection between the conditioning device and the filling connector 1, and a role of sealing in this connection. As explained in more detail below, the blocking member 4 makes it possible in particular to provide sealing of the connection from the start of the actuation of the rapid connection and in particular during its retreat towards the downstream side in order to release the coupling claws 2. As such, the blocking member 4 can be considered to be a part of the mechanism for locking the rapid connection with the connector 1. The blocking member 4 therefore participates simultaneously in the condition of connecting a conditioning device with the connector 1 and in their sealing.
This blocking member 4 moves aside and allows the mechanical connection only when satisfactory sealing is produced.
The tightness seal 24 of the upstream face of the blocking member 4 is for example an O-ring compression seal which can be situated in a housing such as a circular groove of the upstream end of the blocking member 4.
For example, as illustrated, in its first upstream position, the blocking member 4 forms a stop engaging with a portion 22 of the coupling claws 2, preventing them from moving in. Conversely, in its second downstream position, the blocking member 4 moves aside transversely in order to allow the coupling claws 2 to move in.
Preferably, the locking of the coupling of the conditioning device on the filling connector 1 can be carried out automatically. For example, an operator or a machine drives down the conditioning device onto the filling connector 1. During this connection, there is contact between the blocking member 4 and the terminal face of said filling connector 1, in which the tightness seal 24 of the blocking member 4 provides sealing between the duct 7 of the conditioning device and the internal circuit 20 of the filling connector 1. During this driving operation, the blocking member 4 is pushed back towards its rest position by relative drawing-together between the conditioning device and the filling connector 1. This frees the movement of the locking claws 2, which can be constrained to pass from the moved-away position towards the moved-in position by the force of the locking member 3 pushed by its spring 5. When the locking claws 2 are moved in (coupling on the body of the filling connector 1), they no longer impede the movement of the locking member 3, which can then pass from its inactive position to its active locking position under the action of the return member 15 (cf.
As illustrated, the conditioning device preferably comprises a pushing member 8 for pushing the blocking member 4 that makes it possible in particular to increase the pressing force of the blocking member 4 on the filling connector 1 (and therefore the strength of the sealing provided by the seal 24). The blocking member 4 can therefore perform an additional function of maintaining the sealing under an increased pressure.
This pushing member 8 is a part having the general shape for example of a disc or of a cup or of a cap. This pushing member 8 is mounted so as to be movable in a direction parallel to the longitudinal axis A between a first downstream position and a second upstream position. These two positions generate forces of different intensity on the blocking member 4 in the upstream direction. The conditioning device additionally comprises an actuating device 9, 10 for actuating the pushing member 8 that is configured to control the movement of the pushing member 8 between its first and second positions. For example, this actuating device 9, 10 is of the mechanical and/or pneumatic and/or magnetic and/or hydraulic type and comprises a manually and/or automatically actuatable switch 10. Preferably, this actuating device 9, 10 for actuating the pushing member 8 comprises a switch 10 formed by a push-button or a pivoting lever and a mechanism 9 for the transmission of force between the switch 10 and the pushing member 8.
In one possible embodiment, the movement of the pushing member 8 could be controlled automatically, for example according to the state of mechanical connection between the conditioning device and the connector 1 (claws 2 and locking member 3).
As illustrated, the pushing member 8 preferably comprises a face forming a stop or the bearing point for an end of the return member 6 which urges the blocking member 4 towards its working position. Thus, when the pushing member 8 is moved into its second upstream position, the force exerted by the spring 6 on the blocking member 4 in the upstream direction is increased. In the embodiment of
The conditioning device is preferably used for filling pressurized-gas containers (cylinder or bundle accommodating a set of cylinders). Of course, it can also be used for tapping gas from a filling connector 1 which performs both the filling function and the tapping function.
Thus, the conditioning device can form part of or constitute, where appropriate, a gas-tapping cock which can be removably connected to a tapping and/or filling connector 1. In particular, the filling connector 1 can comprise a closure valve 19 which is a double valve with two concentric closure elements (an inner closure element 39 whose opening allows tapping of gas from the internal circuit of the connector 1, and an outer closure element 29 whose opening allows filling by introduction of gas into the internal circuit of the connector 1).
In this case, the conditioning device can be configured to ensure the opening of the two concentric elements by actuating for example the outer closure element 29 for a filling operation (introduction of fluid into the connector 1). Of course, the same conditioning device architecture can be configured to ensure the opening only of the inner element 39 for tapping fluid (exit of fluid from the connector 1).
Likewise, the conditioning device can be configured to ensure the opening of a single closure valve 19 (optionally in series with one or more other valves situated in the internal circuit 20 of the connector 1).
Thus, the conditioning device allows a mechanical connection with reliable sealing which can, where appropriate, be reinforced in the case of the presence of a pushing member 8 for pushing the blocking member 4.
The mechanical and fluidic connection can be produced according to the following sequence:
After gas transfer, the disconnection can be carried out according to the following sequence:
Of course, the invention is not limited to the exemplary embodiments described above. Thus, for example, there can be provided a mechanism or device for locking/unlocking the switch 17 for controlling the valve pusher 11 that prevents its actuation (and therefore prevents the opening of the valves 19) as long as the tightness seal 24 of the blocking part is not placed under pressure (via the actuator 10). This can be provided via a mechanical and/or hydraulic and/or pneumatic and/or magnetic system. For example, the actuation of the two actuators 10, 17 can be coupled, and in particular the actuator 17 is accessible or movable only if the other actuator 10 is in the required position. In a variant, the two operations (placing the seal 24 under pressure and opening the valves 19) can be sequential and provided by one and the same switch (lever or some other means).
Likewise, there can be provided a mechanism or device for locking/unlocking the pressurization of the tightness seal 24 (and optionally of the locking member 3) according to the pressure in the circuit(s) 7, 20. That is to say for example that the member 8 cannot return to its first downstream position if the system detects a pressure above a determined threshold in the circuits (signifying for example that the valve 19 is not closed). The same likewise applies to the locking member 3 which could be blocked in its first active position as long as the pressure in the circuits 7, 20 is above a determined threshold.
It will be understood that many additional changes in the details, materials, steps and arrangement of parts, which have been herein described in order to explain the nature of the invention, may be made by those skilled in the art within the principle and scope of the invention as expressed in the appended claims. Thus, the present invention is not intended to be limited to the specific embodiments in the examples given above.
Number | Date | Country | Kind |
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1910559 | Sep 2019 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2020/075050 | 9/8/2020 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2021/058276 | 4/1/2021 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
9562638 | Tiberghien | Feb 2017 | B2 |
10612724 | Frenal | Apr 2020 | B2 |
10718455 | Danielson | Jul 2020 | B2 |
10859210 | Ligonesche | Dec 2020 | B2 |
10876663 | Danielson | Dec 2020 | B2 |
20130105037 | Frenal | May 2013 | A1 |
20130174928 | Danielson | Jul 2013 | A1 |
20140174594 | Frenal | Jun 2014 | A1 |
20160010798 | Hori | Jan 2016 | A1 |
20180038552 | Frenal | Feb 2018 | A1 |
20180045373 | Frenal | Feb 2018 | A1 |
20210140587 | Takezawa | May 2021 | A1 |
Number | Date | Country |
---|---|---|
0 238 312 | Sep 1987 | EP |
2 783 152 | Oct 2014 | EP |
2 737 234 | Dec 2015 | EP |
2 802 799 | Dec 2016 | EP |
2 962 520 | Jan 2012 | FR |
2 992 750 | Dec 2013 | FR |
WO 2016 139405 | Sep 2016 | WO |
WO 2016 139418 | Sep 2016 | WO |
WO 2019 150650 | Aug 2019 | WO |
Entry |
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International Search Report for corresponding PCT/EP2020/075050, Dec. 1, 2020. |
Number | Date | Country | |
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20220373139 A1 | Nov 2022 | US |