The present invention concerns an assembly including a tap and a protective cap, and a bottle including such an assembly.
The invention concerns more particularly an assembly including a tap for controlling fluid under pressure and a protective cap mounted around said tap, the tap including a body having a vertical axis and an internal fluid distribution circuit between an inlet adapted to be connected to a fluid source such as a bottle and a fluid outlet, at least one element for controlling the flow of fluid situated in the internal circuit and at least one handling member that includes a lever pivotably connected to the body of the tap and manually operable by an operator between at least a first or rest position adjacent to the body of the tap and a second or active position shifted by a non-zero angle relative to the body of the tap, the cap defining an inner protective space for the tap and being provided with at least one first lateral opening that enables movement of the lever between the first and second positions, the lever in the second position thereof intersecting the plane of the first opening and optionally projecting beyond the volume of the cap.
The invention notably concerns a system for delivering gas from a bottle, in particular a bottle of small volume (10 liters of geometrical volume containing gas compressed to 150 to 300 bar, for example).
The invention applies notably to bottles provided with a tap easily connectable to pressure regulators of various types and (the tap) providing an emergency stop (or at least quick stop) function for stopping dispensing the gas and giving a visible indication as to the “on” or “off” state of the tap.
One such tap is described for example in the documents FR-A1-2828922 and FR-A1-2793297 (the invention may be applied to any other type of tap and is in no way limited to the examples described in the above documents).
Thus the invention also concerns a protective cap, preferably of composite material, having an opening enabling manipulation of a lever for operating the tap, the tap nevertheless being sufficiently encompassing to protect the tap in the event of the bottle falling over, for example.
A tap having at least one lever possibly projecting out of the protection volume provided by the cap offers better visibility and better maneuverability for an operator. However, in this case there is a risk of impact and of breakage, notably in the event of the combination falling over. The document EP 747 796 describes such an assembly in which the cap is mounted on the bottle in a particular fixed indexed angular position relative to the tap.
In some applications it is preferable to provide a cap that turns relative to the tap and to the bottle, to offer the user some freedom and to facilitate installation, maintenance and connection to the tap. In the position of use a rotary tap is mounted “idle” i.e. free to rotate relative to the combination of the tap and the bottle. In other words the user can chose the angular position of the cap (turn it) without having to demount it (it is nevertheless still locked against movement in translation).
A rotary cap is notably advantageous when installing the tap on the bottle because it necessitates no angular indexing between the tap and the cap. Being able to orient the (rotary) cap relative to the fixed tap also increases convenience in use, for example for connecting to a pressure regulator or a hose. Finally, to verify the state of the tap and/or to maintain it, being able to turn the cap makes it possible to examine the tap and its connection to the bottle from all angles and facilitates intervention.
With a rotary cap there is a risk of collision between the cap and the lever when transporting the bottle or if it falls over, for example.
One possible solution is to limit the rotation of the cap by stops and/or to reinforce the lever and/or to provide for the remaining part of the broken lever to be of sufficient size for the tap to be operated anyway.
These solutions are nevertheless complex or costly or limit the ergonomics and use of the corresponding bottles.
An object of the present invention is to alleviate some or all of the above drawbacks of the prior art.
To this end, the assembly of the invention, otherwise conforming to the generic definition thereof given in the above preamble, is essentially characterized that the cap is mobile in rotation relative to the body of the tap about a vertical axis, the portion of the cap defining the first opening has contact edges capable of coming into contact with the lever when the latter intersects the plane of the first opening and the cap is set into rotation relative to the tap, the contact edges being oriented according to predetermined angles to exert a force on the lever urging the latter towards the first position thereof.
Moreover, embodiments of the invention may include one or more of the following features:
The invention may also concern a pressurized fluid bottle, notably for a gas containing nitrogen, characterized in that an assembly according to any of the preceding claims is mounted at its orifice, the tap being mounted on, for example screwed to, the bottle in such manner that it cannot rotate thereon, and the cap is mounted to rotate freely relative to the vertical axis of the bottle and the tap via a rotary fixing system such as a circlip cooperating with a groove.
The invention may also concern any alternative device or method comprising any combination of the above features or features disclosed hereinafter.
Other features and advantages will appear on reading the following description given with reference to the figures, in which:
The device shown in
The lever 5 is for example articulated to the upper part of the tap 1 and can be moved manually between a position near the body of the tap 1 on one lateral face of the tap (valve closed) and a position moved away through a non-zero angle (valve open). Of course, the lever 5 may have other intermediate positions (valve open or closed).
On another of its lateral faces the tap 1 may include a pressure gauge 14 (or an outlet able to receive such a gauge) and an outlet connector 4 (intended to be connected to a hose, for example).
A cap 2 is mounted around the tap 1 so that it can turn. In other words the cap 2 is connected in translation to the bottle 3 but can turn relative to the bottle about the vertical axis A of the bottle 3 and the tap 1. The cap 2 can preferably turn freely through 360° about the tap 1.
The cap 2 may comprise a structure forming two substantially vertical “arches” (or lobes) on two lateral flanks of the cap 2.
A first arch defines a first lateral opening 12 intended to be disposed facing the lever 5. The second arch defines a second lateral opening 22 and a third lateral opening 32.
When the lever 5 is facing the first opening 12, outward pivoting of the lever is possible between two extreme positions. In its away position the lever 5 intersects the imaginary plane of the first opening 12 and possibly projects beyond the volume of the cap 2 (see
In this raised position of the lever 5, if the cap 2 is pivoted (if the cap is manipulated or the bottle falls over, for example), the portion of the cap 2 delimiting the first opening 102 may come into contact with the lever 5 at the level of edges 102 called contact edges.
According to the invention, these contact edges 102 are oriented at predetermined angles to induce in this event a force on the lever 5 urging it toward its down position (i.e. toward the body of the tap 1).
In this way, rotation of the cap 2 when the bottle is in use (with the lever 5 raised) causes (or at least encourages) the closing of the lever 5 mechanically and automatically. This closing is a result of the predetermined particular shape of the members of the first opening 12 through which the lever 5 is normally maneuvered (raised to open the valve, lowered to close the valve).
For example, at least part of the contact edges 102 may have an orientation B inclined relative to the vertical axis A and/or at least part of the contact edges 102 are curved or inclined toward the interior of the first opening and/or the contact edges 102 may have a portion inclined at an angle between 14 and 30 degrees inclusive and preferably between 17 and 25 degrees inclusive relative to the vertical axis A. The inclined portion may be included in a curve, for example a circular segment. In the area of contact between the lever and said curve, the tangent to the curve is preferably at an angle to the vertical axis at least equal to the lowest of the limits described above.
The second opening 22 and the third opening 32 are disposed one (22) above the other (32) and separated by the horizontal member 52, which may form a holding member of the bottle 3.
The dimensions of the second opening 22 and the third opening 32 (and the horizontal member 52) are preferably chosen to prevent the lever 5 from being able to pivot on this side. The dimensions of the second opening 22 and the third opening 32 are also chosen to make it impossible (or difficult) to mount an pressure regulator on the filling connector 4 when the latter is facing the second arch.
The cap 2 further comprises a fourth opening 42 situated on a lateral face between two adjacent ends of two arches. The fourth opening 42 (which is preferably open at the top) is provided to offer sufficient access to the face of the tap 1 fitted with the gauge 14 and the outlet connector 4 (with a view to mounting a pressure regulator) and possibly a filling connector (not shown).
To guarantee that the lever 5 is actually in the area or areas of the cap 2 that protect(s) it, the cap 2 is preferably conformed to allow use of the tap of the bottle 3 only in a finite sector of angular positions of the cap 2 relative to the tap 1. For the remaining angular positions the cap 2 may be sized either to prevent complete pivoting of the lever 5 or to prevent the connection of a pressure regulator (or other unit) to the outlet connector 4.
Thus although some of the positions of the cap 2 relative to the tap 1 do not protect the lever 5, the cap 2 is conformed to prevent correct use of the tap 1 in these positions (i.e. the lever 5 cannot be raised correctly or a pressure regulator cannot be connected).
The cap 2 is preferably produced in plastic and is relatively elastic in the event of an impact.
The cap 2 also has a lightweight structure enabling protection of the cap 1 without using a large quantity of material (advantageous cost and mass).
This very open architecture also ensures good visibility of the interior of the protected volume.
The invention applies notably to multiple use portable gas bottles (notably for professional mobile applications) for which a pressure gauge incorporated in the tap is not necessarily provided because of too great a range of adjustment of pressure or flow rate for example or because of requirements that vary from one use to another (requiring control of either flow rate or pressure).
The invention may be applied to nitrogen bottles for installing air conditioning systems, for which the required pressure can vary between 1 bar and 50 bar, depending on whether it is a question of inserting pipes, filling a circuit or verifying a seal, and depending on the type of system.
The invention may also be applied to bottles used in a high-pressure circuit (power station, backup power supply, safety devices) with no directly connected pressure regulator.
The invention may nevertheless also be applied to taps with an integral pressure regulator.
The invention may where appropriate concern some or all of the technical features of the cap independently of the tap.
Moreover, the technical features of the cap 2 may be produced by conferring on the cap 2 other shapes/arrangements, on the understanding that, in all cases (including the example shown), the features of the invention are independent of the esthetic appearance of the cap.
Number | Date | Country | Kind |
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0852701 | Apr 2008 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR09/50666 | 4/10/2009 | WO | 00 | 10/22/2010 |