The present invention relates to a fluid dispenser head, such as a pusher, including an inlet duct, and a dispenser orifice in dispensing communication with the inlet duct. This type of dispenser head is frequently mounted on the actuator rod of a pump or a valve that is itself mounted on a reservoir so as to constitute, in this way, a fluid dispenser. Advantageous fields of application of the present invention are the fields of perfumery, cosmetics, and pharmacy.
In the field of refillable dispensers, that have more recently become known under the name “travel” dispensers, the reservoir of the refillable dispenser is often provided with a filling valve through which fluid coming from a source dispenser is inserted into the reservoir so as to fill it. In general, the source dispenser is a conventional dispenser having a reservoir that presents a capacity that is much greater than the capacity of the refillable or travel dispenser. In general, the source dispenser includes a pump that is provided with an actuator rod that is axially movable down and up. In order to make it possible to fill the refillable dispenser, it is necessary to perform a prior operation of removing or pulling off the pusher from the source dispenser in order to access the free end of the actuator rod of the pump that is fitted to the source dispenser. From there, the user may press the free end of the actuator rod against the inlet of the filling valve of the refillable dispenser, and may depress the actuator rod of the source dispenser so as to dispense a dose of fluid through the actuator rod and the filling valve that is forced into its open state. This operation may be repeated several times until the reservoir of the refillable dispenser is full once again. It thus suffices for the user to put the pusher back into place on the actuator rod of the source dispenser.
However, the operations of removing the pusher and of putting it back into place on the free end of the actuator rod can cause various difficulties. Removing or pulling off the pusher requires traction that is completely axial in order to avoid damaging the pusher, the actuator rod, or even internal component elements of the pump. Very often, the user tends to pull the pusher sideways, which causes the actuator rod to bend. This can damage the pump. Then, once the pusher has been removed from the actuator rod, it may be misplaced or lost. Finally, the operation of putting the pusher back into place on the actuator rod requires pressure to be applied that is completely axial in order to avoid damaging either the pusher or the actuator rod, as in the above-mentioned removal operation. As a result, it is also possible to damage the pump during the operation of putting the pusher back into place. Furthermore, it is not possible to put the pusher back into place on the actuator rod without depressing it, thereby causing unwanted fluid to be dispensed, and that may consequently be troublesome. In addition, repeated operations of removing the pusher and of putting it back into place on the actuator rod naturally cause wear and fatigue of the parts that may cause the pump to be damaged.
In the prior art, attempts have already been made, without success, to apply the dispenser orifice of the pusher of the source dispenser against the inlet of the filling valve of the refillable dispenser. It can easily be understood that this operation is not convenient, in particular as a result of the axis of the dispenser orifice of the pusher being, in the vast majority of configurations, perpendicular to the axis along which the actuator rod of the pump of the source dispenser moves. It is thus necessary simultaneously to press the dispenser orifice of the pusher against the filling valve and to move the pusher perpendicularly: that requires great dexterity.
An object of the present invention is to remedy the above-mentioned drawbacks of the prior art by defining a fluid dispenser head, such as a pusher, that may be mounted on the actuator rod of a pump of a source dispenser so as to fill a refillable or travel dispenser. The dispenser head of the invention should make it possible to fill the reservoir of the refillable dispenser through its filling valve, but without removing the head of the actuator rod of the pump of the source dispenser, and without using the dispenser orifice of the pusher.
To do this, the present invention proposes that the dispenser head includes diversion means for selectively interrupting dispensing communication between the inlet duct and the dispenser orifice, and for establishing filling communication with a filling duct formed by the dispenser head and exiting outside the dispenser head. In other words, the diversion means make it possible to divert the path of the fluid away from the dispenser orifice and towards the filling duct that is for putting into contact with the inlet of a filling valve of a refillable or travel dispenser.
Advantageously, the inlet duct is accessible from a bottom face of the head, the filling duct opens out on a top face of the head, remote from the inlet duct, and the dispenser orifice advantageously opens out on a side face of the head. Thus, when the filling duct is pressed against the filling valve of a refillable dispenser, the actuator rod of the pump of the source dispenser is depressed and a dose of fluid is dispensed through the inlet duct and the filling duct, the path towards the dispenser orifice being interrupted. It should be observed that a dispenser head with an inlet duct oriented downwards and with a dispenser orifice opening out sideways corresponds to the structure of a conventional pusher in the fields of perfumery, cosmetics, and pharmacy. The user presses on the top face of the dispenser head with one or more fingers so as to exert an axial force, so as to move the dispenser head and thus depress the actuator rod of the pump of the source dispenser. The filling duct of the invention thus extends in the same axis as the inlet duct and the actuator rod of the pump. It is thus easy to apply the filling duct against a filling valve of a travel dispenser, and to exert a force that is sufficient to actuate the actuator rod of the pump of the source dispenser.
In a practical embodiment, the head includes an outlet channel upstream from the dispenser orifice, and a connection chamber that connects the inlet duct to the outlet channel, the diversion means comprising a movable member that is arranged in the connection chamber for selectively closing the outlet channel. Advantageously, the filling duct connects the connection chamber to the outside. Preferably, the movable member selectively closes the filling duct. This last characteristic is optional, given that it suffices to close the outlet of the filling duct, e.g. by means of a cover, such that the filling duct is thus in the form of a blind borehole. In other words, it suffices for the movable member of the diversion means to close the outlet channel that leads to the dispenser orifice so as to redirect or divert the flow of fluid under pressure coming from the inlet duct, towards the filling duct, and beyond that through the filling valve and into the reservoir of a refillable or travel dispenser.
In a practical embodiment, the movable member is axially movable. Advantageously, the movable member includes a channel lip for selectively closing the outlet channel, and forms the filling duct that is engaged on a spike is suitable for closing it selectively. The movable member may thus be in the form of a rigid part that is axially movable in translation against a return spring. In the rest position, the outlet channel is opened and the spike closes the inlet of the filling duct, and in the depressed position, the outlet channel is closed and the inlet of the filling duct is opened.
In a variant embodiment, the movable member is elastically deformable. Advantageously, the filling duct is radially deformable. The movable member may thus be in the form of a deformable stopper that may be driven in axially in such a manner as to generate radial deformation, making it possible to open the inlet of the filling duct and to close the inlet of the outlet channel.
In another practical embodiment, the movable member is movable in turning. Advantageously, the movable member comprises a turnable actuator ring that is accessible on a side face of the head. The movable member is thus in the form of a turnable part that makes it possible to close and open the inlet of the outlet channel leading to the dispenser orifice.
In another advantageous aspect of the invention, the filling duct opens out to the outside at a projecting connection stud for coming into contact with a filling valve of a refillable dispenser. By way of example, the connection stud may be inserted into an appropriate housing that is arranged at the inlet of the filling valve of the refillable dispenser. Advantageously, the head may further include a cover for closing the filling duct from the outside. The cover may be connected to the body of the pusher or to the movable member.
The present invention also defines a dispenser assembly comprising:
the filling duct being pressed against the filling valve in such a manner as to actuate the dispenser member of the source dispenser and to open the filling valve, such that the fluid coming from the source dispenser is transferred into the refillable dispenser.
A principle of the present invention is to provide a dispenser head with a filling duct that is dedicated to connecting to a filling valve of a refillable or travel dispenser. Another principle is to divert the flow of fluid that arrives under pressure in the inlet duct, and that is normally for directing towards the dispenser orifice, towards a filling duct that is adapted to connect to a filling valve of a travel dispenser. The dispenser head may thus be fitted on a conventional dispenser that forms part of a range that also incorporates a refillable dispenser. Still more generally, the dispenser head of the present invention could replace any conventional dispenser head, even if the dispenser is not for forming part of a range that incorporates a refillable dispenser.
The invention is described more fully below with reference to the accompanying drawings which show three embodiments of the invention by way of non-limiting example.
In the figures:
In the three embodiments shown in the figures, the dispenser head T, T′, and T″ of the invention forms an integral part of a fluid dispenser S that may be entirely conventional. The dispenser S, that may be referred to as a source dispenser, comprises a fluid reservoir S1 that defines a neck S2 inside which there is fastened a dispenser member S3 that is provided with an actuator rod S5. A fastener ring S4 makes it possible to fasten the dispenser member S3 in the neck S2 of the reservoir S1. The dispenser member S3 may be a conventional pump or valve that is not described in detail below. The actuator rod S5 is of an entirely conventional type and defines an internal delivery channel that communicates, in selective manner, with a fluid chamber through an outlet valve. The actuator rod S5 is axially movable down and up against a return spring. The dispenser heads T, T′, and T″ of the three embodiments of the invention are mounted, in conventional manner, on the free end of the actuator rod S5. The dispenser heads may also be referred to as pushers or pushbuttons on which the user may exert axial pressure, so as to move the actuator rod S5 down and up. This operation is entirely conventional for a fluid dispenser in the fields of perfumery, cosmetics, and pharmacy.
Reference is made below to
The body 1 includes an outer skirt 10 inside which there extends a connection sleeve 11 that internally defines an inlet duct 12. The sleeve 11 and its duct 12 are accessible from the bottom face of the head T that is oriented towards the dispenser member S3. The free top end of the actuator rod S5 is force-fitted inside the connection sleeve 12. Beyond the inlet duct 12, the body defines a chamber 13 that communicates sideways with an outlet channel 14 that leads to the nozzle 2 that is force-fitted on a tenon 15 of the body. The nozzle 2 forms a dispenser orifice 21 via which the fluid is dispensed, e.g. in the form of spray. The dispenser orifice 21 opens out on the side face of the head T. This characteristic is entirely conventional for a spray pusher. The cap 3 is mounted in turnable manner on the body 1 to turn about an axis that coincides with the axis of the actuator rod S5. The cap 3 essentially comprises a movable member 30 and a cover 35 that are connected together by a hinge 36. The movable member 30 defines a filling duct 31 that advantageously extends in alignment with the actuator rod S5. At its top end, the filling duct 31 is bordered by a projecting connection stud 32 having a function that is explained below. The cover 35 advantageously includes a pin 37 that is adapted to be inserted in leaktight manner in the connection stud 32 so as to close the outlet of the filling duct 31. At its bottom end, the filling duct 31 is blind: it is closed by a projecting appendage 33 that is arranged in the connection chamber 13. However, the filling duct 31 is provided with a side opening 314 that puts the inside of the duct 31 into communication with the connection chamber 13 and with the outlet channel 14 that leads to the dispenser orifice 21. The movable member 30 also includes a turnable actuator ring 34 that advantageously extends upwards in register with the skirt 10 of the body 1.
In the configuration shown in
In
In
Reference is made below to
On the bottom face of the head, the body 1′ also defines an inlet duct 12′ that leads to a connection chamber 13′ from which there stems an outlet channel 14′ that connects to the nozzle 2′ that forms a side dispenser orifice. A spike 16′ extends upwards in axial and central manner inside the connection chamber 13′. The spike 16′ includes one or more grooves 161 that are recessed in the side wall of the spike 16′. By way of example, one of the grooves 161 extends upwards in register with the inlet duct 12′. The grooves 161 do not extend as far as the free end of the spike, which free end thus forms a complete annular periphery that serves as a leaktight seat, as described below. The body 1′ also forms a cover 17′ that is advantageously formed integrally with the remainder of the body. The cover 17′ forms a leaktight closure pin 19′.
The slider 3′ constitutes a movable member that is axially movable down and up against a spring 36′ that bears against the body 1′ at the bottom wall of the connection chamber 13′. The slider 3′ is thus urged by the spring 36′ against an abutment that defines the rest position of the movable member. By way of example, the abutment may be formed on a disk 35′ that is guided axially inside the body 1′. In addition, the slider or movable member 3′ defines a filling duct 31′ having a top end that extends through a projecting connection stud 32′ having a function that is to come into leaktight contact with a filling valve of a travel or refillable dispenser. The filling duct 31′ is accessible from the top face of the head, when the cover 17′ is open. The bottom end of the filling duct 31′ is formed by a tube 34′ that is engaged around the spike 16′ that projects into the connection chamber 13′. In the rest position shown in
In
Reference is made below to
The body 1″ defines an inlet duct 12″ that communicates directly with a connection chamber 13″ at the center of which there projects a spike 16″. The chamber also communicates with an outlet duct 14″ that leads to the nozzle 2″ that forms a dispenser orifice through which the fluid is dispensed, e.g. in the form of spray.
The stopper or movable member 3″ is made out of an elastically-deformable flexible material having shape memory. It includes an annular peripheral anchor band 35″ that is in leaktight stationary engagement with the body 1″. Inside the annular band 35″, the stopper 3″ forms a lip 33″. Inside the lip 33″, the stopper 3″ forms a filling duct 31″ having a top end that is surrounded by a connection stud 32″ for coming to bear in leaktight manner against a filling valve of a refillable dispenser. The bottom end of the filling duct 31″ is formed by a ring 34″ that is engaged around the spike 16″. In the dispensing configuration shown in
With reference to
In all three above-described embodiments, the dispenser head incorporates diversion or redirection or bypass means that interrupt dispensing communication between the connection chamber and the outlet channel that leads to the dispenser orifice, and that redirect the flow of fluid through a filling duct that may be connected to a filling valve of a refillable dispenser. All of the deviation or diversion means use a movable member that is either turnable, moves in translation, or is deformable, and that closes the outlet channel 14′ and establishes communication with the outside through the filling duct. In the first embodiment in
By means of the invention, it is possible to fill a refillable dispenser from a source dispenser without having to remove the pusher from the source dispenser, and to do so in a manner that is very simple, since it suffices to press the refillable dispenser against the source dispenser.
Number | Date | Country | Kind |
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12 62506 | Dec 2012 | FR | national |
This application claims the benefit under 35 U.S.C. §119(e) of U.S. provisional patent application Ser. No. 61/759,760, filed Feb. 1, 2013, and priority under 35 U.S.C. §119(a)-(d) of French patent application No. FR-12.62506, filed Dec. 20, 2012.
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French Search Report for FR 12 62506 dated Jun. 19, 2013. |
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Number | Date | Country | |
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20140175128 A1 | Jun 2014 | US |
Number | Date | Country | |
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61759760 | Feb 2013 | US |