FR2942208A1 - Liquid cosmetic product e.g. perfume, dispensing device, has transfer unit whose portion is coupled to another portion of transfer unit for enabling liquid flow between vials so that vials have pressures balanced based on flow of fluid - Google Patents

Abstract

The device (10) has a transfer unit (24) for transferring liquid cosmetic product from a vial (12) to another vial (14) with a spraying valve (22). A portion of the transfer unit is connected to the former vial, and another portion is connected to the latter vial. The two portions of the transfer unit seal the vials when the two portions are disconnected. Coupling of the former portion with the latter portion enables the liquid flow between the vials so that the two vials have pressures balanced based on the flow of fluid from the former vial to the latter vial after coupling the two portions.

Description

Device for dispensing a liquid cosmetic product

The present invention relates to dispensing devices of cosmetic product in liquid form, in particular between a main bottle and a refillable bottle, called a travel or nomadic bottle. More particularly, it relates to a device for dispensing a liquid cosmetic product comprising a first bottle partially delimited by a bottom, and containing a first initial volume of cosmetic liquid product under a volume of gas having a first initial pressure, the first bottle comprising at its upper part, a spraying valve, a second flask comprising, in its upper part, a spraying valve and containing a second initial volume of the product under a second volume of gas having a second initial pressure; product from the first bottle to the second bottle. The document EP 1 949 814 describes a refreshing cosmetic product spray. For this purpose the spray comprises a filling nozzle equipped with a threaded plug having an orifice for discharging the compressed air located in the spray. However, this document does not describe a device for dispensing a product between two bottles having a limited number of entry and exit of gas and liquid and therefore does not address the problems of making an aesthetic bottle and easy to use for reloading. The document FR 2 867 761 describes a refill device for a cosmetic product dispenser which makes it possible to reload a container by gravity by placing the refill on top of the container. However, this system requires to pierce a waterproofing membrane in a non-reversible manner, which can cause an alteration of the product contained in the refill if it is not completely emptied. In addition reuse of the refill is complicated and the user may spill the product due to the lack of the waterproofing membrane. The object of the present invention is to overcome these drawbacks and to provide a device for dispensing a liquid cosmetic product that can be used several times, without limitation, and presents the user with ease of use. For this purpose the dispensing device as described above is characterized in that the transfer means comprises a first portion integral with the first bottle and disposed near the bottom, above the latter, and a second portion secured to the second vial, the first and second parts sealing the vial when they are uncoupled, and in that the coupling of the first part with the second part allows the flow of fluid between the first vial and the second vial, after coupling of the two parts, the first and second bottles have first and second pressures which tend to equilibrate with the flow of fluid from the first bottle to the second bottle. By the expression, pressures are tending to equilibrate, whose values tend to become equal. Furthermore is meant by initial pressures and volume present in the bottles before connection of the two bottles, after at least one spraying of the spray valve. Thanks to these provisions the fluid dispensing device is simple to implement for the user, and avoids any leakage of the product between the first and the second bottle. According to other characteristics: the first bottle is provided with a spraying valve allowing the introduction of air at atmospheric pressure into the first bottle at each spraying, and in which the second bottle comprises a spraying valve preventing any introduction of air into the second bottle so that after spraying the second initial pressure is less than the first initial pressure; the first bottle comprises means for pressurizing the internal volume of the bottle so that the first initial pressure of the first bottle is greater than the second initial pressure of the second bottle; the pressurization is carried out by the emission of an inert gas in the first bottle; the gas is contained in a gas bottle adjacent to the first bottle and sealingly connected to the first bottle; the device comprises a second transfer means comprising a tube for connecting the volume of gas of the first bottle and the volume of gas of the second bottle; the first and second bottles comprise means making it possible to bring the volume of gas under atmospheric pressure after coupling of the first and second parts of the transfer means; the second bottle has dimensions smaller than those of the first bottle; the first and second bottles extend between a respective lower end and a top end and the bottom of the first bottle is disposed at a distance h from the lower end of the first bottle, corresponding substantially to the height of the second bottle. The present invention will be better understood on reading the following detailed description based on the appended drawings in which: FIGS. 1A, 1B, 1C respectively represent an exploded perspective view, a side view and a top view. of a first embodiment according to the invention, FIGS. 2A to 2C, and 3A to 3C show views similar to those of FIGS. 1A to 1C illustrating second and third embodiments, FIG. exploded perspective of a fourth embodiment, Figures 5A and 5B show the transfer means respectively in free position and in coupling position. The present invention relates to spray or atomizers of a cosmetic liquid product, such as perfume, or any other care product for the human body. It relates more particularly to spray or atomizers formed of a bottle provided at its upper end with a spray valve, or pump, for spraying the product outside the bottle after a simple pressure of the pump or the valve spray. The dispensing device 10 according to the invention comprises a first bottle 12 and a second bottle 14 containing the liquid cosmetic product. The first bottle 12 has a bottom 12a and longitudinal walls 12b which define a storage tank adapted to contain the liquid product. The first bottle 12 further comprises a spray valve of the type indicated above.

Before the first use, the first bottle 12 comprises a first initialization volume V1 L defined liquid product under a defined V1 G initialization volume of gas. The second bottle 14 has, like the first bottle 12, longitudinal walls 14b and a bottom 14a delimiting a reservoir 20 for storing the liquid product to be sprayed via a spraying valve 22. Before the first use the second bottle 14 comprises a defined initialization volume V2L of liquid product under a defined V2G initialization volume of gas. The initialization volumes V1 L and V2L of liquid product can be emptied by a simple pressure of the spraying pump 18, 22. The storage tanks 16, 20 are put into communication via a suitable transfer means to allow the flow of the liquid product between the two bottles 12,14 in a sealed manner. For this purpose the transfer means is formed by a quick coupling having a first 25 and a second portions 24a, 24b adapted to mate, the connection having an automatic closure of the first and second parts 24a, 24b during uncoupling. In addition the connection is chosen to allow the user to connect or uncouple the first and second parts 24a, 24b without specific tools, without air intake and without loss of liquid. Figure 5A illustrates the coupling in the uncoupled position and Figure 5B illustrates the coupling in the coupled position. The first portion 24a of the transfer means is disposed near the bottom 12a of the first bottle 12 so that the entire volume of liquid product disposed above the first portion 24a, that is to say almost the entire volume of liquid product of the bottle can flow to the second bottle 14. According to one variant, it can be provided to position the bottom 12a, and therefore the first portion 24a, at a certain height h, corresponding to the height of the second bottle 14 , so that all of the liquid disposed above the first portion 24a can flow to the second bottle 14 until it is filled. Various embodiments will be described later.

Each embodiment specifies the different pressure initialization conditions in the first and second bottles 12, 14 in order to allow the flow of the liquid product from the first bottle 12 to the second bottle 14. According to a first embodiment, illustrated in FIGS. 1A to 1C, the first bottle 12 and the second bottle 14s are filled with products and respectively have, before any use, a volume V1 L and V2L of liquid product, and a gas pressure P1 G and P2G equal to atmospheric pressure. The spraying valve 18 of the first bottle 12 is made in such a way that, after each spraying, air is introduced inside the first bottle 12. Thus, after use, and before any connection with the second bottle 14, the first bottle 12 has an initial volume V1'L of liquid product less than the initialization volume V1 L, and has an initial volume V1'G of gas, in the form of air at atmospheric pressure P1'G.

The spraying valve of the second bottle 14 is made so that after spraying, no volume of air is introduced into the second bottle 14. It emerges that after at least one spraying, the second bottle 14 has a volume V2'L of product which is lower than the initialization volume V2L contained before any use of the device, and a volume of gas V2'G having a pressure P2'G lower than the initialization pressure P2G and therefore lower than the pressure P1'G. When the first bottle 12 and the second bottle 14 are connected, via the watertight transfer means 24, as described above, the vacuum existing in the second bottle 14 causes a flow of the liquid from the first bottle 12 to the second vial 14, so as to tend towards equal pressure. Thus after connection the first bottle 12 has a gas pressure P1 "G lower than the initial pressure P1'G, and the second bottle 14 has a gas pressure P2" G greater than the initial pressure P2'G before connection. As long as the pressure of the gas in the second bottle 14 is lower than the pressure of the gas in the first bottle 12, after connection, that is to say as P2 "G is lower than P1" G, the device tends to drain the liquid product to the second bottle 14 until the pressures P2 "G and P1" G are equal or until the second bottle 14 is filled with liquid product. After filling the second bottle 14, the user disengages the second portion 24b of the transfer means 24 of the first portion 24a. As indicated above, the uncoupling of the first and second portions 24b automatically closes the latter so that the first and second bottles 12, 14 are completely sealed.

After having emptied the bottle of its contents by means of the spraying pump 22, the user can again reload the second bottle 14 by coupling it to the first bottle 12, the flow of the liquid from the first bottle 12 to the second vial 14 being done thanks to the difference in pressure existing between the two vials 12,14.

According to another embodiment, the first bottle 12 comprises means for pressurizing the internal volume of the bottle so that the first initial gas pressure P1'G of the first bottle 12 is greater than the second initial gas pressure P2 ' G of the second bottle 14. As illustrated in FIGS. 2A to 2C, the first initial pressure P1 'G is increased relative to the initialization pressure P1 G by the emission of a gas in the first bottle 12. The gas is chosen inert, that is to say not harmful to health, so as not to react with the liquid product contained in the first bottle 12. The gas chosen may be Argon, nitrogen or any other chemically inactive gas known to those skilled in the art. The gas is contained in a gas bottle 26 disposed adjacent to the first bottle 12. As shown in FIG. 2B, the gas bottle 26 is disposed under the bottom 12a of the first bottle 12.

The bottle 26 is sealingly connected to the first bottle 12 so that the gas can be injected into the first bottle 12 without leakage of the latter or the liquid product contained in said first bottle 12. The inert gas is diffused automatically by through the gas bottle 26 until the pressure of the gas inside the first bottle reaches a determined value, which is greater than the atmospheric pressure. The second bottle 14 comprises a pump allowing the introduction of air at atmospheric pressure after each pressure, so that after a pressure, the gas contained in the second bottle 14 has a pressure P2'G substantially equal to the atmospheric pressure. Before coupling of the two bottles 12,14, the pressure P1'G is greater than the pressure P2'G. When the two vials 12, 14 are coupled, the two pressures are different and tend to equilibrate and consequently the liquid contained in the first vial flows towards the second vial 14. According to a third embodiment illustrated in the figures 3A to 3C, the dispensing device further comprises a second transfer means 24 used to connect the gas volumes of the two bottles. The second transfer means comprises a tube 28 and a second connector 29, the tube opening on the one hand in the first gas volume of the reservoir 16 of the first bottle 12 and on the other hand on a male part of the second connector 29 opening outside the first vial 12. The second vial 14 has a female portion of the second connector so as to insert the tube 28 in the gas volume 20 of the second vial 14 without risk of gas leakage. Each end of the tube 28 opens respectively into the upper portions 30 of the first and second vials 14, that is to say in the parts where the gas is located. The arrangement described above allows, when the first and the second bottles 12, 14 are coupled, that is to say when the first and the second parts 24a, 24b of the transfer means 24 are connected and when the tube 28 is inserted. in the first and second bottles 12,14, to obtain a system called communicating vessels. The liquid present in the first bottle 12 and the second bottle 14 connected at their base by the transfer means 24, tends to have the same level, that is to say to present the same height relative to the support on which are placed the bottles 12,14. In order to allow a maximum flow of the first bottle 12 to the second bottle 14, the bottom 12a of the first bottle 12 is disposed at a height substantially equal to the height of the second bottle 14. A closed circuit is created where the pressures are balanced. constantly during filling. According to another embodiment illustrated in FIGS. 4, the bottles 12, 14 comprise means making it possible to put the volume of gas under atmospheric pressure after coupling of the first and second parts of the transfer means 24. For this purpose each bottle comprises a push button 32, 34 which is movable between a closed position and an open position allowing the entry of air at atmospheric pressure into the bottles 12, 14. Since the pressures P1'G and P2'G are equal to atmospheric pressure, the liquid contained in the first bottle 12 flows towards the second bottle 14 until the difference in the level of liquid between the two bottles 12 , 14 is zero. So that a maximum of liquid flows between the first and the second bottle 14, the first bottle 12 will be made so that the volume of liquid of the first bottle 12 is disposed above the volume of liquid of the second bottle 14. A this effect the bottom 12a of the first bottle 12 is raised relative to the bottom 14a of the second bottle 14. According to an alternative embodiment, the means for putting the gas under atmospheric pressure are constituted by the spray pumps 18, 22, mounted screwable and unscrewable way. Thus after coupling of the first and second vials 12,14, the user can unscrew each pump to put gas under atmospheric pressure in each vial. The device then operates as previously described.

The present invention is not limited to the embodiments described and illustrated above which are given only as examples.

Claims (9)

Revendications1. Device for dispensing (10) a liquid cosmetic product comprising: - a first bottle (12) partially delimited by a bottom (12a), and containing a first initial volume of cosmetic liquid product under a volume of gas having a first initial pressure the first bottle (12) having at its upper part a spray valve (18); - a second bottle (14) comprising at its upper part a spray valve (22) and containing a second initial volume of produced under a second volume of gas having a second initial pressure; - means for transferring (24) the product from the first vial (12) to the second vial (14), characterized in that the transfer means (24) comprises a first portion (24a) integral with the first bottle (12) and disposed near the bottom (12a), above it, and a second portion (24b) integral with the second bottle (14), the first and second parts (24a, 24b) sealing the vial when unconnected, and in that the coupling of the first portion (24a) with the second portion (24b) allows the flow of fluid between the first vial (12) and the second vial (14) so that, after coupling of the two parts (24a, 24b), the first and second bottles (12, 14) have first and second pressures which tend to equilibrate with the flow of the fluid since the first bottle (12) to the second bottle (14) The fluid dispensing device according to claim 1, wherein the first vial (12) is provided with a spraying valve (18) allowing the introduction of air at atmospheric pressure into the first vial (12). each spray, and wherein the second vial (14) has a spray valve (22) preventing any introduction of air into the second vial (14) so that after spraying the second initial pressure is less than the first pressure initial. 3. Apparatus for dispensing a liquid cosmetic product according to claim 1 wherein the first bottle (12) comprises means for pressurizing the internal volume of the bottle so that the first initial pressure of the first bottle (12) is greater than at the second initial pressure of the second bottle (14). 4. Device for dispensing a liquid cosmetic product according to the preceding claim, wherein the pressurization is carried out by the emission of an inert gas in the first bottle (12). 5. Device for dispensing a liquid cosmetic product according to the preceding claim wherein the gas is contained in a gas cylinder (26) adjacent to the first bottle (12) and sealingly connected to the first bottle (12). 6. Apparatus for dispensing a liquid cosmetic product according to claim 1 further comprising a second transfer means comprising a tube (28) for connecting the gas volume of the first bottle (12) and the volume of gas of the second bottle (20). 7. Apparatus for dispensing a liquid cosmetic product according to claim 1, wherein the first and second bottles (12,14) comprise means for putting the volume of gas under atmospheric pressure after coupling of the first and second parts ( 24a, 24b) of the transfer means (24). 8. Device for dispensing a liquid cosmetic product according to one of the preceding claims, wherein the second bottle (14) has dimensions smaller than those of the first bottle (12). 9. Apparatus for dispensing a cosmetic product according to the preceding claim wherein the first and second bottles (12,14) extend between a respective lower end and a top end and the bottom (12a) of the first bottle (12). ) is disposed at a distance h from the lower end of the first bottle (12), substantially corresponding to the height of the second bottle (14).