Device for supplying pressurized fluid, and assembly for storing pressurized fluid, comprising such a device

Abstract

Device for supplying pressurized fluid, including a first valve accommodating an internal fluid circuit, the device having a second valve having an internal circuit, the second valve forming a separate physical entity from the first valve, the first valve and the second valve having respective coupling members that form a male/female quick-connection system for removably connecting the second valve to the first valve, the internal circuits including a set of control valves for allowing or preventing the flow of the fluid towards an outlet of the device when the second valve is coupled to the first valve via the quick-connection system.

Claims

1. A device for supplying pressurized fluid, comprising: a first valve accommodating an internal fluid circuit, a second valve comprising an internal circuit, the second valve forming a separate physical entity from the first valve, the first valve and the second valve comprising respective coupling members that form a male/female quick-connection system for removably connecting the second valve to the first valve, the internal circuits comprising a set of control valves for allowing or preventing the flow of the fluid towards an outlet of the device when the second valve is coupled to the first valve via the quick-connection system, the device comprising: at least one manually actuable movable control member for controlling the set of control valves, the control member being movable between a first, rest position, in which the flow of fluid towards the outlet is prevented, and a second, active position, in which the flow of fluid towards the outlet is allowed, the quick-connection system comprising: a connection piece for connecting the second valve to the first valve, the connection piece being movable between a first position, in which the quick connection between the second valve and the first valve has not been established, and a second position, in which the quick connection between the second valve and the first valve has been established, wherein, in the first position, the connection piece blocks the control member in the first, rest position so as to prevent movement towards the second, active position, and in that, in the second position, the connection piece does not block the control member in the first, rest position so as to allow movement towards the second, active position, and in that, in the second, active position, the control member blocks the connection piece in the second position, so as to prevent the second valve and the first valve from being separated, and in that, in the first, rest position, the control member does not block the connection piece in the second position, so as to allow movement towards the first position and thus allow the second valve and the first valve to be separated, wherein the blocking of the control member by the connection piece is mechanical blocking brought about by an intermediate piece of the device that cooperates on one side with a portion of the control member and on the other side with the connection piece, so as to form or not to form a mechanical end stop for the control member depending on the position of the connection piece, and wherein the intermediate piece comprises a movable pin that is acted on by a return member.

2. A device for supplying pressurized fluid, comprising: a first valve accommodating an internal fluid circuit, a second valve comprising an internal circuit, the second valve forming a separate physical entity from the first valve, the first valve and the second valve comprising respective coupling members that form a male/female quick-connection system for removably connecting the second valve to the first valve, the internal circuits comprising a set of control valves for allowing or preventing the flow of the fluid towards an outlet of the device when the second valve is coupled to the first valve via the quick-connection system, the device comprising: at least one manually actuable movable control member for controlling the set of control valves, the control member being movable between a first, rest position, in which the flow of fluid towards the outlet is prevented, and a second, active position, in which the flow of fluid towards the outlet is allowed, the quick-connection system comprising: a connection piece for connecting the second valve to the first valve, the connection piece being movable between a first position, in which the quick connection between the second valve and the first valve has not been established, and a second position, in which the quick connection between the second valve and the first valve has been established, wherein, in the first position, the connection piece blocks the control member in the first, rest position so as to prevent movement towards the second, active position, and in that, in the second position, the connection piece does not block the control member in the first, rest position so as to allow movement towards the second, active position, and in that, in the second, active position, the control member blocks the connection piece in the second position, so as to prevent the second valve and the first valve from being separated, and in that, in the first, rest position, the control member does not block the connection piece in the second position, so as to allow movement towards the first position and thus allow the second valve and the first valve to be separated, wherein the blocking of the control member by the connection piece is mechanical blocking brought about by an intermediate piece of the device that cooperates on one side with a portion of the control member and on the other side with the connection piece, so as to form or not to form a mechanical end stop for the control member depending on the position of the connection piece, and wherein the intermediate piece comprises a stem that is secured to the control member and cooperates or does not cooperate by abutment with the connection piece depending on the position of the latter.

3. A device for supplying pressurized fluid, comprising: a first valve accommodating an internal fluid circuit, a second valve comprising an internal circuit, the second valve forming a separate physical entity from the first valve, the first valve and the second valve comprising respective coupling members that form a male/female quick-connection system for removably connecting the second valve to the first valve, the internal circuits comprising a set of control valves for allowing or preventing the flow of the fluid towards an outlet of the device when the second valve is coupled to the first valve via the quick-connection system, the device comprising: at least one manually actuable movable control member for controlling the set of control valves, the control member being movable between a first, rest position, in which the flow of fluid towards the outlet is prevented, and a second, active position, in which the flow of fluid towards the outlet is allowed, the quick-connection system comprising: a connection piece for connecting the second valve to the first valve, the connection piece being movable between a first position, in which the quick connection between the second valve and the first valve has not been established, and a second position, in which the quick connection between the second valve and the first valve has been established, wherein, in the first position, the connection piece blocks the control member in the first, rest position so as to prevent movement towards the second, active position, and in that, in the second position, the connection piece does not block the control member in the first, rest position so as to allow movement towards the second, active position, and in that, in the second, active position, the control member blocks the connection piece in the second position, so as to prevent the second valve and the first valve from being separated, and in that, in the first, rest position, the control member does not block the connection piece in the second position, so as to allow movement towards the first position and thus allow the second valve and the first valve to be separated, wherein the blocking of the control member by the connection piece is mechanical blocking brought about by an intermediate piece of the device that cooperates on one side with a portion of the control member and on the other side with the connection piece, so as to form or not to form a mechanical end stop for the control member depending on the position of the connection piece, and wherein the blocking of the control member by the connection piece is direct mechanical blocking between one end of the control member and a portion of the connection piece, so as to form or not to form a mechanical end stop for the control member depending on the position of the connection piece.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Further particular features and advantages will become apparent from reading the following description, which is given with reference to the figures, in which:

(2) FIG. 1 shows a schematic and partial view in cross section, illustrating an exemplary embodiment of a device for supplying fluid in a disconnected or separated state, in accordance with one embodiment of the present invention.

(3) FIG. 2 shows a schematic and partial view in cross section, illustrating a use configuration of a device for supplying fluid in a partially coupled/connected (not locked) state, in accordance with one embodiment of the present invention.

(4) FIG. 3 shows a view similar to the one in FIG. 2 in a coupled/connected (locked) state, in accordance with one embodiment of the present invention.

(5) FIG. 4 shows a schematic, partial view in cross section of a detail of the device, illustrating a first exemplary embodiment of a disengageable blocking system of the control member, in accordance with one embodiment of the present invention.

(6) FIG. 5 shows two schematic and partial side views of a detail of the system in FIG. 4, respectively illustrating two possible examples of the structure of the control member; in accordance with one embodiment of the present invention.

(7) FIG. 6 shows a schematic, partial view in cross section of a detail of the device, illustrating a second exemplary embodiment of a disengageable blocking system of the control member, in accordance with one embodiment of the present invention.

(8) FIG. 7 shows two schematic and partial side views of a detail of the system in FIG. 6, respectively illustrating two states of the blocking system, in accordance with one embodiment of the present invention.

(9) FIG. 8 shows a schematic, partial view in cross section of a detail of the device, illustrating a third exemplary embodiment of a disengageable blocking system of the control member in a first (blocked) state, in accordance with one embodiment of the present invention.

(10) FIG. 9 shows a view similar to the one in FIG. 8, illustrating the third exemplary embodiment of a disengageable blocking system of the control member in a second (non-blocked) state, in accordance with one embodiment of the present invention.

(11) FIG. 10 shows a schematic, partial view in cross section of a detail of the device, illustrating a fourth exemplary embodiment of a disengageable blocking system of the control member in a first (blocked) state, in accordance with one embodiment of the present invention.

(12) FIG. 11 shows a view similar to the one in FIG. 10, illustrating the fourth exemplary embodiment of a disengageable blocking system of the control member in a second (non-blocked) state, in accordance with one embodiment of the present invention.

(13) FIG. 12 shows a schematic, partial view in cross section of a detail of the device, illustrating a fifth exemplary embodiment of a disengageable blocking system of the control member in a first (blocked) state, in accordance with one embodiment of the present invention.

(14) FIG. 13 shows a view similar to the one in FIG. 12, illustrating the fifth exemplary embodiment of a disengageable blocking system of the control member in a second (non-blocked) state, in accordance with one embodiment of the present invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(15) FIG. 1 shows a device 1 for supplying pressurized fluid, in particular pressurized gas, comprising a first valve 3 mounted in the orifice of a tank 2 and surrounded by a protective cap 17.

(16) The first valve 3 accommodates an internal fluid circuit 13 provided with at least one isolation member 4 for opening or closing the internal circuit 13. The isolation member 4 is an isolation valve, for example.

(17) The device 1 comprises a second valve 5 forming a separate (separable) physical entity from the first valve 3 (in a disconnected position in FIG. 1, in a partially connected/coupled position in FIG. 2 and in a correctly connected/coupled position in FIG. 3).

(18) The second valve 5 is provided with an internal fluid circuit 15 comprising a first, upstream end intended to be fluidically connected to a downstream end 12 of the internal circuit 13 of the first valve 3. The two valves 3, 5 are configured to put their internal circuits 13, 15 into communication when the second valve 5 has been correctly coupled to the first valve 3 via the quick-connection system.

(19) The internal circuit 15 of the second valve 5 may comprise, for example, at least one member 9 for controlling the fluid flow (for example a control valve and/or a fixed or variable pressure reducer and/or a flow rate regulator). The second valve 5 preferably also comprises a movable member 16 for actuating the isolation member 4 of the first valve 3 in order to open or close the latter. For example, the movable actuating member 16 comprises a movable valve driver, the movement of which is controlled by a manual control member 11 carried by the second valve 5, The control member 11 comprises a lever 11 in this example, but could comprise a push-button, a handwheel or any other appropriate member. The lever 11 can, if necessary, control the member 9 for controlling the flow of fluid.

(20) The first valve 3 and the second valve 5 comprise respective coupling members 6, 7 that form a male/female quick-connection/coupling system for removably connecting/coupling the second valve 5 to the first valve 3.

(21) For example, the first valve 3 comprises a cylindrical terminal end extending along a central longitudinal axis A, to which the second valve 5 is connected. The quick-connection system may comprise at least one groove 7 or rib formed on the cylindrical end of the first valve 3 and a system of claws 6, balls (or any appropriate equivalent coupling element) secured to the second valve 5.

(22) The coupling element(s) 6 of the second valve 5 are preferably movable and can be locked/unlocked by, for example, a movable locking member 14 on the second valve 5 (cf. FIG. 2 and FIG. 3). The coupling element(s) 6 of the second valve 5 cooperate with the at least one groove or rib 7 formed on the cylindrical end of the first valve 3.

(23) The lever 11 is movable between a first, rest position, in which the flow of fluid towards the outlet 25 is prevented (cf. for example the low position of the lever 11 in FIG. 1 or the solid-line position in FIG. 2 or FIG. 3), and a second; active position, in which the flow of fluid towards the outlet 25 is allowed (cf. the dashed-line position in FIG. 3).

(24) The quick-connection system comprises a connection piece 14 for connecting the second valve 5 to the first valve 3, for example a locking/unlocking member 14 of the quick connection. The connection piece 14 is movable between a first position, in which the quick connection between the second valve 5 and the first valve has not been established (cf. FIG. 1 or FIG. 2), and a second position, in which the quick connection between the second valve 5 and the first valve 3 has been established (cf. FIG. 3).

(25) For example, in the case in which the connection piece is a locking/unlocking member 14 of the quick connection, this locking/unlocking member 14, depending on the position, allows or does not allow the movement of the movable coupling members 6 (and thus a mechanical connection/disconnection). In its second position, the locking/unlocking member 14 does not allow the movement of the movable coupling members 6 (blocking/locking in mechanically connected position).

(26) The connection piece 14 is thus an indicator between a correct (for example locked) connection, for the one part, and a lack of connection or incorrect or incomplete connection (no mechanical connection or incomplete, non-locked connection), for the other part.

(27) In its first position, the connection locking/unlocking member 14 blocks the control lever 11 in its first, rest position, so as to prevent it from moving towards its second, active position (cf. FIG. 1 or FIG. 2), this locking being symbolized by a closed padlock and a struck-through lever rotation arrow).

(28) In its second position, the locking/unlocking member 14 does not block the control lever 11 in its first, rest position, so as to allow it to move towards its second, active position (cf. FIG. 3), this unlocking being symbolized by an open padlock and a lever rotation arrow that is not struck through).

(29) In other words, if the locking/unlocking member 14 is not in a position that corresponds to correct and locked coupling of the two valves 3, 5, this locking member 14 directly or indirectly prevents the lever 11 from being able to move into its active position (rotation blocked, for example).

(30) As illustrated, the locking/unlocking member 14 of the mechanical connection of the coupling members 6, 7 of the quick-connection system can comprise a sleeve or a ring that is movable in translation on the second valve 5. This locking member 14 is for example movable between a first unlocking position (high position, cf. FIG. 2 or FIG. 1) and a second locking position (low position, cf. FIG. 3).

(31) In the first position, the locking/unlocking member 14 allows for example the travel/movement of the movable coupling members 6 (second valve 5 separated or separable from the first valve 3).

(32) In the second locking position, the locking/unlocking member 14 prevents for example the travel/movement of the movable coupling members 6 (second valve 5 correctly coupled completely to the first valve 3).

(33) The blocking of the control lever 11 by the locking/unlocking member 14 is preferably mechanical blocking that is direct or via an intermediate piece such as a retractable end stop (cf. references 18, 19, 20, 21 in the figures). Of course, this blocking could also or alternatively be magnetic and/or pneumatic for example.

(34) As schematically depicted in particular in FIG. 2 and FIG. 3, the blocking of the lever 11 by the locking/unlocking member 14 is mechanical blocking brought about by an intermediate piece 18, 19, 21 of the device having an end cooperating with a portion of the lever 11 and an end cooperating with the locking/unlocking member 14. The intermediate piece 18, 19, 21 forms or does not form a mechanical end stop for the lever 11 depending on the position of the locking/unlocking member 14.

(35) In the example in FIG. 4 and FIG. 5, the locking/unlocking member 14 is provided with a profiled area (with a slope for example of the cam type) which returns a movable pin 18 (or stepped pin) for locking the lever 11 into movement in translation. In the non-locked or disconnected position (locking/unlocking member 14 in its first, for example high, position), the profiled area pushes the pin 18 counter to the force of a return spring. One end of the pin 18 is housed in a cavity 22 or housing. The pin 18 then prevents the lever 11 from rotating towards its second, active position. This entire mechanism can be housed in the main body of the device.

(36) By contrast, when the connection is correct and complete (locking/unlocking member 14 in its second, for example low, position), the end of the pin 18 (returned by its spring) is located at the bottom of the slope. The end of the pin comes out of the dedicated cavity or housing in the lever 11, This allows the lever to rotate towards its active position.

(37) In the example in FIG. 6 and FIG. 7, the locking/unlocking member 14 can be provided with a shape or protuberance (such as a lip or an end stop). One end of the rotary pin of the lever 11 (or directly the lever 11) is itself also provided with a shape or protuberance (such as a tab, boss, square, flat or any other appropriate shape).

(38) In the disconnected position (locking/unlocking member 14 in its first, for example high, position), the protuberance of the locking/unlocking member 14 is positioned so as to butt against the protuberance of the pin of the lever 11 (cf. top part of FIG. 7). This prevents the lever 11 from rotating towards its active position.

(39) In the connected position (locking/unlocking member 14 in its second, for example low, position), the protuberance of the locking/unlocking member 14 also shifts downward and frees up the protuberance of the pin of the lever 11 (cf. bottom part of FIG. 7). This allows the lever 11 to rotate.

(40) In the example in FIG. 8 and FIG. 9, the locking/unlocking member 14 is provided with a shape or protuberance (end stop) intended to cooperate or not to cooperate with a protuberance formed on the integral cam of the lever 11 (tab and/or boss and/or square and/or flat, etc.).

(41) In the disconnected position (locking/unlocking member 14 in its first, for example high, position), the protuberance of the locking/unlocking member 14 is in abutment against the protuberance of the cam of the lever 11. This prevents the lever 11 from rotating.

(42) In the connected and locked position (locking/unlocking member 14 in its second, for example low, position), the protuberance of the locking/unlocking member 14 also shifts downward and frees up the protuberance of the lever 11. This allows the lever 11 to rotate.

(43) In the example in FIG. 10 and FIG. 11, the locking/unlocking member 14 is provided with a profiled area, for example a slope (of the cam type for example). In the disconnected position (locking/unlocking member 14 in its first, for example high, position), this profiled area pushes a pin 21 that is free to move in translation against one of the faces of the cam of the lever 11 and keeps it in abutment thereagainst. This prevents the lever 11 from rotating towards its second, active position.

(44) In the connected and locked position (locking/unlocking member 14 in its second, for example low, position), the end of the pin 21 is located at the bottom of the slope of the profiled area and is thus free to move in translation. The other end of the pin 21 is no longer in abutment against the face of the cam of the lever 11. This allows the lever 11 to rotate.

(45) In the example in FIG. 12 and FIG. 13, the locking/unlocking member 14 is provided with a shape or protuberance (hook type for example) intended to cooperate or not to cooperate with a portion 20 of the lever 11 (which also has for example a corresponding shape or a protuberance).

(46) In the disconnected position (locking/unlocking member 14 in its first, for example high, position, cf. FIG. 12), the protuberance of the locking/unlocking member 14 is positioned in abutment against or in an interference fit with the protuberance 20 of the lever 11. This prevents the lever 11 from rotating.

(47) In the connected and locked position (locking/unlocking member 14 in its second, for example low, position, cf. FIG. 13), the protuberance of the locking/unlocking member 14 shifts and frees up the protuberance 20 of the lever 11, allowing the lever 11 to rotate.

(48) In the examples described above, the connection piece 14 which blocks or does not block the lever 11 is a locking member 14 for the quick connection. Of course, other embodiment variants are possible and in particular this function of blocking the lever 11 when the second valve 5 is not correctly coupled to the first valve 3 could be ensured in the same way (directly or indirectly) by another movable piece of the quick-connection system (for example by a claw or hook or ball or intermediate movement transmitting piece of the quick connection).

(49) Similarly, said blocking mechanism of the lever 11 could be configured to prevent the separation of the two valves 3, 5 (for example by preventing the locking/unlocking member 14 from moving towards its first, unlocking position) as long as the lever 11 is not in its first, rest position.

(50) In a variant or in combination with the above, that is to say independently of or in addition to the above, the male/female connecting system may advantageously have mechanical elements designed in materials that are compatible with the loads to which they are subjected.

(51) For example, the elements that have to withstand pressure or to maintain in position (for example claws, balls, hooks, stems, springs etc.) are made of metal material and the guiding or gripping means that are mechanically stressed little if at all are made of plastics material.

(52) Each piece and notably the frame or the locking/unlocking member can be divided, in accordance with expected functions: into metal elements for the areas to which pressure is constantly applied, into plastics elements for the guiding areas.

(53) The multiplicity of materials ensure strength and relative lightness.

(54) The connection piece 14 (locking/unlocking member 14, for example a ring) can be provided with a shape or protuberance (hook type). An area of the control member (in particular lever) can for its part be provided with a shape or protuberance. In the disconnected position (ring 14 in the high position), the protuberance of the ring is positioned such that the protuberance of the lever couples up, preventing the lever from rotating into the active position. In the connected position (ring in the low position), the protuberance of the ring also shifts downwards and frees up the protuberance of the lever, allowing the lever to rotate into the active position.

(55) 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.