Patent Grant
7040358
1. Field of the Invention
The present invention relates to a nozzle for filling a container with a fluid under pressure. The invention also relates to an installation for filling an automobile vehicle tank with liquefied petroleum gas, in which such a nozzle is used.
2. Description of the Related Art
It is known, for example from U.S. Pat. No. 5,904,302, to use a bayonet-type system for ensuring fixation of a kerosene filling adaptor on an aircraft. As a function of the interlocking, a lever may block a valve located in this adaptor. Such bayonet-type interlocking is delicate to carry out and the use of this complex system is, in practice, reserved for specialists working in airport zones.
In the domain of the dispensing of liquefied petroleum gas (LPG) as fuel for automobile vehicle, it is known that serious precautions must be taken to avoid gas spreading in the ambient atmosphere. In particular, it is imperative that a tight connection be made between the dispensing device, or pump, and the tank of the vehicle. In the known devices, the user must place an end adaptor of a flexible hose pipe on an adaptor located on the vehicle then activate a lever to lock these adaptors. The user must then return to the pump to control an electrovalve allowing the hose pipe to be supplied with gas under pressure. These known steps are not convenient and can disconcert an inexperienced user.
In addition, in the known devices, interlocking of the end of the hose pipe on the adaptor of the vehicle is generally effected thanks to a claw system which is complex, and consequently unreliable. Such a claw system may be poorly engaged on the adaptor of the vehicle, hence a risk of offset connection that may lead to leakages of gas.
The devices used in the domain of filling automobile vehicle tanks with LPG must, in addition, be compatible with the standardized adaptors mounted on the vehicles.
It is a particular object of the present invention to overcome these limitations by proposing a nozzle for filling a container, particularly adapted to the dispensing of LPG, which makes it possible to deliver a fluid in tight manner, while ensuring that no fluid is spread in the atmosphere as long as the nozzle is not connected to the adaptor with which it must cooperate, even if the user exerts an effort on the trigger.
Another object of the invention is to propose a nozzle such that the rejects of fluid when it is disconnected from the adaptor are minimized.
To that end, the present invention relates to a nozzle for filling a container with a fluid under pressure, this nozzle being provided with a means for fastening on an adaptor connected on the container, with a controlled valve adapted to selectively obturate a conduit for flow of the fluid, and with a sensor detecting the fastening of the nozzle on an adaptor. The sensor is adapted, as a function of this fastening, to render active a kinematic link between a control member and the valve, this link making it possible, in active configuration, to displace the valve from a position where it obturates the conduit towards a position where it leaves a passage free for the fluid in this conduit, while, in non-active configuration of the link, the valve cannot be actuated by means of the afore-mentioned member. The kinematic link comprises a lever, articulated on the valve, between a first position where it is not displaceable by the control member and a second position where it may be displaced by this member, taking along the valve, the sensor being adapted to displace the lever from its first towards its second position. The control member is a trigger articulated on the nozzle and provided with at least one cut-out, notch or groove whose profile forms a first part which makes it possible to receive an element secured to the lever without noteworthy interaction between the lever and the trigger. The cut-out, groove or notch also comprises a second part which has a geometry different from the first part and extends it, the element secured to the lever being adapted to slide along the profile of the first part of the cut-out, groove or notch, when the lever is in its first position, and to cooperate with the profile of the second part, when the lever is in its second position, with the result that it allows the transmission of a force between the trigger and the lever.
Thanks to the invention, the kinematic link between the control trigger and the valve prevents the nozzle from allowing passage as long as it is not fastened on an adaptor. Fastening is detected thanks to the lever which is secured to an element allowing the trigger to be passed from a configuration where it is “idle” to a configuration where it is “active”. In the idle configuration, the afore-mentioned element cooperates with the profile in its first part, while it cooperates with the profile in its second part when the trigger is in active configuration.
According to advantageous but non-obligatory aspects of the invention, a nozzle may incorporate one or more of the characteristics set forth in the dependent claims.
The invention also relates to an installation for filling an automobile vehicle tank with liquefied petroleum gas, which incorporates a nozzle as described hereinabove and envisaged hereinafter.
The invention will be more readily understood on reading the following description of a form of embodiment of a nozzle and of an installation in accordance with its principle, given solely by way of example and made with reference to the accompanying drawings, in which:
Referring now to the drawings, the nozzle 1 shown therein is connected on the downstream end of a flexible hose pipe 2 of which the upstream end is connected to a pump 3 for dispensing liquefied petroleum gas.
The nozzle 1 is intended to cooperate with adaptors such as the adaptor 4 shown in the Figures which is mounted on an automobile vehicle 5 and which is connected, via a conduit 6 integrated with the vehicle 5, to a liquefied gas tank 7.
The adaptor 4 is equipped with a valve 8 elastically loaded by a spring 9 in the direction of a part 10 of the adaptor 4 forming seat.
On its outer peripheral surface, the adaptor 4 is provided with a groove 11 of flared shape as well as with an indent 12 separated from the groove 11 by a flange 13.
The nozzle 1 comprises a body 20 inside which is housed a pipe 21 connected to an angle 22 of which the opening 22a in the form of a convergent part communicates with a volume or chamber 23 for receiving the adaptor 4 in the body 20. The volume 23 has a shape adapted to the outer shape of the adaptor 4 and is equipped with an O-ring 24 for abutment of an end bevel 14 of the adaptor 4. Around the volume 23, the nozzle 1 is equipped with a fastening element in a form of a ring 25 for retaining the adaptor 4 in the volume 23. This ring 25 is elastically loaded by a spring 26 exerting thereon an effort F1 perpendicular to a longitudinal axis X-X′ of the adaptor 4 and of the volume 23 when the latter are opposite or engaged with respect to each other, as represented in the Figures.
When the nozzle 1 is displaced towards the adaptor 4 in the direction of arrows F2 in
The elements 25 and 26 therefore constitute means for fastening the nozzle 1 on the adaptor 4.
A rod 30 is mounted, with the possibility of slide parallel to axis X-X′, in a housing 31 made in the body 20. This rod 30 comprises a nose 32 intended to come into engagement in the indent 12 of the adaptor 4. This rod also comprises a notch 33 for partially receiving a part 25a of the ring 25 opposite a part 25b on which the effort F1 is exerted. The rod 30 functions as a sensor for indicating when the adapter 4 is fully seated within the chamber 23 of the nozzle.
At its end 34 opposite the parts 32 and 33, the rod 30 is articulated, about a geometrical axis Y-Y′, on a rocker 40 formed by two plates 41 and 42 embracing the end 34 and articulated on the body 20 about a geometrical axis Y1-Y′1 perpendicular to axis X-X′, this axis being materialized by a pin 43 traversing the plates 41 and 42. Each of the plates 41 and 42 is provided with a heel 44, 45, respectively, of substantially parallelepipedic shape.
A valve 50 is mounted in the angle 22 and comes into abutment, under the effect of an elastic effort exerted by a spring 29, against the convergent part 22a forming the downstream part of the angle 22.
The valve 50 is extended by a rod 51 articulated about an axis Y2-Y′2 with a lever 60 formed by two plates 61 and 62 embracing the end 52 of the rod 51. The axes Y1-Y′1 and Y2-Y′2 are parallel.
The plates 61 and 62 have such a geometry that they come respectively opposite the heels 44 and 45.
The plates 41 and 61 have been added in
Furthermore, a cylindrical guide pin or element 63 with circular cross-section is mounted through the plates 61 and 62 along an axis parallel to axis Y2-Y′2.
A trigger 70 is articulated on a support 27 secured to the pipe 21. Y3-Y′3 denotes the axis of articulation of the trigger 70, this axis being parallel to axis Y1-Y′1.
The trigger 70 is provided with a profiled guide notch 71 which the guide pin 63 traverses and in which it may move.
The profile of this notch comprises a first part shaped as an arc of circle C1 centered on axis Y3-Y′3. In this direction, part 71a is in the form of an arc of circle. The notch 71 also comprises a second part 71b with which part 71a communicates and which extends in a direction A-A′ substantially perpendicular to part 7la in joint between these parts. The bottom of the part 71b forms a seat 71c in which the pin 63 may be retained.
The trigger 70 is also provided, on its face 701 visible in
On its opposite face 702, visible in
Functioning is as follows:
In this configuration, if the user exerts on the trigger 70 an effort F7 towards the part forming handle 28 of the body 20, the trigger exerts, by the front edge 71b1 of part 71b and on the pin 63 borne by the lever 60, an effort F8 of traction resulting in a corresponding effort of traction F9 on the valve, this effort having the effect of detaching the valve 50 from the convergent part 22a. This allows a flow E of fluid under pressure from its source 3 towards the tank 7 connected to the adaptor 4.
If the trigger 70 is released, the spring 29 pushes the valve 50 towards its seat 22a.
A device 80 is provided for temporarily blocking the trigger 70 in the configuration of FIG. 5. This device comprises an arm 81 articulated on the body 20 about an axis Y5-Y′5 parallel to axis Y1-Y′1 and a shuttle 82 mounted to slide on the arm 81 and retained in position thanks to a screw 83.
When the trigger 70 is subjected to the effort F7, it displaces the shuttle 82 in the direction of arrow F10 in
In this way, when the nozzle 1 is fastened on the adaptor 4, the flow of fluid can be controlled thanks to the trigger 70.
If the effort F7 is exerted on the handle 70 in the configuration of
The active parts of the notch 71 are thus the edges 71a1 and 71b1 which are defined by the profile of a solid part 74 of the trigger 70.
Thus, it is not possible to manipulate the valve 50 as long as the kinematic link between the trigger 70 and the valve is not rendered active by the displacement of the lever 60 towards its position in which the pin 63 is engaged in part 71b of the notch 71.
A torsion spring 90 is disposed around the pin 64 constituting the physical axis of articulation between the end 52 of the valve 50 and the plates 61 and 62 of the lever 60, with the result that the end 91 of this spring exerts on the lever 60 an effort F12 tending to return the lever 60 towards its position of FIG. 1.
In addition, the cooperation of the pins 461 and 462 and of the grooves 721 and 722 function as a lock which prevents a separation of the nozzle 1 and of the adaptor 4 when the valve 50 is open as shown in FIG. 5. In effect, when the pin 63 slides in the part 71a of the notch 71, the pins 461 and 462 may slide in the parts 72a1 and 72a2 of the grooves 721 and 722. On the other hand, when the heels 44 and 45 push the lever 60, as represented by arrow F5 in
The rocker 40 thus being locked by its cooperation with surfaces 72c1 and 72c2 in a configuration where its pins 461 and 462 are lowered, it exerts on the rod 30 an effort of traction F13 which has the effect of firmly applying a surface 33a defining the notch 33 against a surface 25c of the ring 25.
The surface 33a is inclined by an angle α equal to about 45° with respect to a longitudinal axis X1-X′1 of the rod 30 which is parallel to axis X-X′. As for the surface 25c, it is inclined by the same angle α with respect to the axis X-X′, axes X1-X′1 and X-X′ being parallel to each other.
The effort F13 is thus transmitted to the ring 25 in the form of an effort F14 of the same direction and same sense as the effort F1, this effort firmly maintaining the ring 25 in engagement in the groove 11.
In this way, it is impossible to withdraw the nozzle 1 from the adaptor 4 as long as the pins 461 and 462 remain respectively in abutment against the surfaces 72c1 and 72c2, i.e. as long as it is possible to move the valve 50 by manipulating the trigger 70.
It will be noted that the valves 8 and 50 are in surface abutment against each other, which contributes to the seal of the coupling made between the elements 1 and 4. It is also noted that the valve 8 is pushed downstream under the effect of the pressure of the fluid circulating in the pipe 21 and in the angle 22.
The invention has been described with reference to its use in an installation for supplying LPG to an automobile vehicle, which is particularly advantageous. However, a nozzle according to the invention may be used in other types of installation supplying fluid under pressure in which a high degree of safety is sought.
The invention has been shown with levers or rockers 40 and 60 formed by two plates embracing the parts 34 or 52 with which they cooperate. Levers formed in one piece may be envisaged.
The invention has been shown with a notch 71 and grooves 721 and 722 functioning as profiled guides, but it may be carried out with a trigger provided with a notch of equivalent geometry in place of the grooves and/or with grooves in place of the notch. The possible grooves may be made on one face only of the trigger 70. The geometry of the grooves and notches is not limited to that shown in the Figures. In practice, the functional parts of these grooves are essentially the seat 71c and the bearing surfaces 721 and 72c1. The other parts of these grooves are clearances intended to allow the displacement of the pins 461, 462 and 63, such clearances being able to take various shapes.
The invention has been shown with a notch 71 inscribed in the trigger 70 and having a substantially constant width which is adapted to the diameter of the pin 63 in order to allow its guiding. In a variant, two grooves may be formed on either side of the trigger 70 to receive fingers borne by the lever 60. According to another variant, the first and second parts 71a and 71b mentioned above may be formed by a cut-out made around a solid part similar to part 74, such cut-out being able to open out on the front edge of the trigger 70.
In any case, the profile of the cut-out, notch or groove provided on the trigger to receive the element secured to the lever makes it possible to obtain the two “idle” and “active” configurations of the trigger.
In the same way, the grooves 721 and 722 may be replaced by a cut-out or notch which traverses the trigger 70. There again, the profile of this groove, cut-out or notch, which is defined in particular by the surfaces 72c1 and 72c2 which are adjacent to a central tongue 75, makes it possible to obtain the desired safe functioning.
| Number | Date | Country | Kind |
|---|---|---|---|
| 02 03388 | Mar 2002 | FR | national |
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| Number | Date | Country | |
|---|---|---|---|
| 20030178096 A1 | Sep 2003 | US |
