The present invention relates to a fluid reservoir including a neck defining a wide opening that is closed by a dish in stationary and leaktight engagement with the neck. The reservoir is for associating with a dispenser member, such as a pump, so as to constitute a fluid dispenser. The term “dish” should be understood in its broadest sense, i.e. encompassing any closure, covering, or shutting element that is suitable for closing the wide opening of the neck, so as to preserve the fluid contained in the reservoir against any deterioration, contamination, or damage. By way of example, the term “dish” may extend to a lid, a stopper, a capsule, a top, a film, etc. The reservoir of the present invention finds an advantageous application as a refill or a cartridge that is suitable for associating with a fluid dispenser member, such as a pump. The reservoir should be closed in leaktight manner while it is not associated with the dispenser member. In contrast, once it is associated with the dispenser member, a feed opening makes it possible to pass the fluid stored in the reservoir to the dispenser member for dispensing each time the dispenser member is actuated. The advantageous fields of application of the present invention are the fields of cosmetics, pharmacy, and perfumery.
In the prior art, fluid reservoirs in the form of pots presenting a short and stocky configuration have been known for some time. In general, such pots include a neck defining a wide opening that is closed by a lid that is screw-fastened or snap-fastened. In a variant or in addition, the wide opening of the neck may also be closed by a film that is adhesively-bonded or heat-sealed on the edge of the neck. In the general field of reservoirs, it is also known to provide the neck with a membrane or a film that is perforated while the reservoir is being put into place on a dispenser member. By way of example, U.S. Pat. No. 5,025,950 and U.S. Pat. No. 5,642,838 are known.
Those prior-art closure elements present specific drawbacks associated with their design. A screw-fastener or tear-off lid may be coated in part with fluid that tends to dry or deteriorate over time. In addition, such a lid may be dropped and lead to soiling. The tear-off film presents additional drawbacks: not only is it difficult to remove, but it is also often in contact with the fluid, such that it too can lead to soiling. In addition, the films often tend to tear such that they become difficult to remove. With regard to membranes or films for perforating, such perforation can produce little bits of debris that become incorporated in the fluid stored in the reservoir.
U.S. Pat. No. 5,642,838 and U.S. Pat. No. 5,025,955 describe reservoirs that are fitted with dishes that form films that can be cut away in part such that they pivot while remaining connected to the reservoir. The opening thus created depends on the way in which the film has been cut away and the way in which it has been pivoted.
An object of the present invention is to remedy the above-mentioned drawbacks of the prior art by defining a fluid reservoir, e.g. of refill or cartridge type, that is fitted with a closure dish that is suitable for defining a feed opening that is guaranteed, of the right size, clean, and without creating a portion to be thrown away or to be perforated, and without leaving debris in the fluid.
To do this the present invention proposes a fluid reservoir including a neck defining a wide opening that is closed by a dish in stationary and leaktight engagement with the neck, the reservoir being characterized in that the dish comprises a main body in engagement with the neck and a stopper that is mounted on the main body in removable manner, the stopper being movable between a closed initial position in which the stopper is mounted on the main body in leaktight manner, and an open final position in which a feed opening is formed between the main body and the stopper. The dish is thus intended to remain in place in the wide opening of the neck, with only the stopper moving in order to create the feed opening. It should be observed that the feed opening is formed between the main body and the stopper, and not only by the main body. This means that the stopper is arranged in accurate and determined manner relative to the main body in the open final position. In other words, movement of the stopper does not cause it to fall in uncontrolled manner into the reservoir. However, the stopper is separate from the main body in its open final position. In a variant, it is also possible for the stopper to remain in contact with the main body in its open final position, while nevertheless forming a feed opening between them.
In an advantageous embodiment, the feed opening is annular. In other words, the feed opening extends around the stopper.
According to another advantageous characteristic, the stopper is movable axially in translation relative to the main body between its closed initial position and its open final position.
In another advantageous aspect of the invention, the stopper may include holder means via which the stopper is gripped by an external thrust element so as to move it from its closed initial position to its open final position. The external thrust element may advantageously be formed by the dispenser member that is for associating with the reservoir so as to constitute a fluid dispenser. The external thrust element thus holds the stopper in its open final position, with an accurate and determined arrangement relative to the main body of the dish. It can also be said that the stopper is secured to the main body of the dish in its closed initial position, and is secured to the external thrust element in its open final position.
According to another characteristic of the invention, the stopper may be snap-fastened in the main body in its closed initial position. The snap-fastening is advantageously leaktight. In a variant, the stopper in its closed initial position may be formed integrally as a single piece with the main body. By way of example, the stopper may be connected to the main body via an annular rupture zone, e.g. constituted by a thin wall portion.
In another aspect of the invention, the main body may define at least one annular sealing lip that projects upwards. Advantageously, the stopper is mounted in the annular sealing lip in its closed initial position. As mentioned above, the stopper may be snap-fastened or it may be formed integrally as a single piece. The annular sealing lip(s) advantageously co-operate with the dispenser member so as to create sealing between the reservoir and the dispenser member.
The invention also provides a fluid dispenser comprising a dispenser member, such as a pump, associated with a fluid reservoir as defined above. The dispenser member includes a thrust element that comes into engagement with the stopper so as to move it from its closed initial position to its open final position. Advantageously, the thrust element holds the stopper in its open final position.
According to another advantageous characteristic of the invention, the dispenser member includes a chamber in which the fluid is put under pressure, the chamber including at least one inlet that communicates with the reservoir, the inlet being arranged around the thrust element. By way of example, the inlet may be formed by a plurality of orifices that are arranged around the thrust element.
According to another characteristic of the invention, the dispenser member may form at least one annular sealing groove in which an annular sealing lip that is formed by the dish is received.
One of the principles of the invention is to make a fluid reservoir with a dish that includes a movable stopper that, while the reservoir is combined with a dispenser member (pump), is moved so as to create a feed opening that is defined between the main body and the stopper. It should be observed that the dish of the invention does not generate any waste or debris, given that the only movable element, namely the stopper, adopts an accurate and determined position relative to the remainder of the dish when the reservoir is associated with a pump or a valve.
The invention is described more fully below with reference to the accompanying drawings, which show an embodiment of the invention by way of non-limiting example, together with a variant.
In the drawings:
Reference is made initially to
A follower piston 2, advantageously formed with two annular sealing lips 21, is engaged to slide in leaktight manner inside the cylinder 11. The follower piston 2 includes a bottom plate 22 that is in contact with the bottom wall 13 when the reservoir is full of fluid.
The fluid reservoir R presents a configuration that is entirely conventional with its pot 1, which is more particularly for containing a viscous fluid such as cream, gel, pomade, etc.
In the invention, the fluid reservoir R also includes a dish C that is engaged in stationary and leaktight manner in the neck 10 in such a manner as to close its wide opening. The dish C comprises a main body 3 and a stopper 4 that are associated with each other in
In this respect, the stopper 4 includes an outer flange 44 that is engaged in leaktight manner in the opening 35, and more particularly inside the inner annular sealing lip 34. With reference briefly to
Thus, in the closed initial position shown in
Reference is made below to
In the invention, the central tube 55 of the base 5 serves as a thrust element that is suitable for coming into engagement with the holder means 41 of the stopper 4 so as to move it in translation from its closed initial position (
In
The invention thus provides a closure element that is incorporated in the neck of the reservoir and that makes it possible to create a feed opening O of determined size and configuration, without creating any loose part or element that could hinder the operation of the dispenser. The embodiment used to illustrate the present invention is adapted very particularly to a dispenser member that is fitted with a central thrust element and with a peripheral fluid inlet, but it is possible to envisage other embodiments that are adapted to a dispenser member having an inlet that is central, with a peripheral thrust element that is suitable for creating fluid communication between the reservoir and the pump chamber 71. It should also be observed that removing the dispenser member D from the reservoir R causes the stopper 4 to be put back into place in the central opening 35 of the main body 3, so as to close the reservoir in leaktight manner, thereby returning it into its closed initial position.
Number | Date | Country | Kind |
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1450373 | Jan 2014 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/FR2015/050107 | 1/16/2015 | WO | 00 |