法国专利FR3032184A1 COMMUNICATION SYSTEM AND METHOD USING A CONTAINER FOR A COSMETIC OR PHARMACEUTICAL PRODUCT OR A WINE

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专利摘要:
The invention relates to the field of communicating objects intended to promote an intelligent environment. The invention relates more particularly to a communication system comprising: - a container 1 for a cosmetic or pharmaceutical product or a wine or spirits as a communicating object and - at least two mobile telecommunications equipment 110, 120. The invention also relates to an associated communication method. The container is integrated in the communication system so as to adapt at least to the presence of the first mobile telecommunication equipment in the coverage area of its communication means. The container is therefore advantageously an actor of the communication system. The container promotes the intelligent environment defined by the communication system.
公开号:FR3032184A1
申请号:FR1550841
申请日:2015-02-03
公开日:2016-08-05
发明作者:Gerald Martines
申请人:Qualipac SA；
IPC主号:

专利说明:

[0001] The invention relates to the field of communicating objects intended to promote a smart environment. The invention more particularly relates to a communication system comprising a container for a cosmetic or pharmaceutical product or a wine or spirits and at least two mobile telecommunication equipment. The invention also relates to an associated communication method. There are communicating objects, such as perfume or cosmetic containers, capable of producing a luminous sequence of ambience and arranged to receive commands enabling the luminous sequence produced to be varied over time. The communicating object then operates exclusively as a slave of the communication system. Furthermore, there are associated articles, each or batch, to an RFID chip readable by a mobile telecommunication equipment to obtain information on the article or batch of articles whose chip is read. For example, a traceability of an article or a batch of articles in its distribution circuit can advantageously be obtained. However, the communication thus made between the article and the mobile telecommunication equipment is exclusively unidirectional of the article or batch of articles to the mobile telecommunication equipment. In this context, the present invention proposes a system and a communication method involving a communicating object and to achieve greater interactivity between their users. To this end, the system of the invention, comprising a container for a cosmetic or pharmaceutical product or a wine or spirits and at least two mobile telecommunication equipment, is essentially such that: the container comprises a plurality of functionally connected electronic components between them of which: - at least one source of sensory solicitation arranged to emit a sensory signal towards the outside of the container, - means of bidirectional communication at short distance by radio waves, and - means of control of the at least one source sensing demand, and such that a first of said at least two mobile telecommunication equipment comprises two-way short-distance communication means by radio waves, so that the container and a second one of said at least two mobile telecommunication equipment are capable of communicate with each other through the first mobile telecommunication equipment, when the first mobile telecommunication equipment is located in a coverage area of the two-way communication means of the container, the container control means controlling said at least one sensing source to generate a sensory signal sequence determined at least according to data communicated to the container by the second of said at least two mobile telecommunication equipment. The container is thus integrated into the communication system so as to adapt at least to the presence of the first mobile telecommunication equipment in its coverage area. The container is therefore advantageously an actor of the communication system. The container promotes the intelligent environment defined by the communication system. According to one feature, the container being associated with an identifier and at least one of said at least two mobile telecommunication equipment comprising means for reading this identifier, the container and said mobile telecommunication equipment may comprise means of pairing and data storage media, said means being arranged such that the reading of the identifier of the container by the reading means of said mobile telecommunication equipment triggers a pairing between the container and said mobile telecommunication equipment by their means of communication. respective pairing. According to another feature, the first mobile telecommunication equipment may comprise: means for detecting the presence of the container in the area of coverage of its short-distance communication means and means for automatically connecting the container using at least predetermined pairing data stored on a storage medium 10 of the first mobile telecommunication equipment, so that, if necessary, a communication session is opened between the first mobile telecommunication equipment and the container via their respective means short-distance communication. According to another particularity, the communication system may furthermore comprise a remote server with which at least one of said mobile telecommunication equipment is able to communicate at least to download an application to be installed, this application being dedicated to allow the definition and storing at least one storage medium of the mobile telecommunication equipment and / or the remote server of at least one of: a personal data bank and a correspondence table between data communicated to the container and sequence of sensory signals to be generated. According to another feature, the container may further comprise at least one sensor arranged to detect an event, the sensor being functionally connected to the other electronic components of the container, so that the detection of the event by the sensor triggers, the case Where appropriate, the transmission of corresponding data by the communication means of the container to the second mobile telecommunication equipment and / or a remote server. The container is thus integrated in the communication system so as to react at least to detected events.
[0002] According to another particularity, the container may furthermore comprise a timer functionally connected to the other electronic components of the container for activating or extinguishing said at least one sensory solicitation source at least as a function of predetermined data stored on a support storing the container or the first mobile telecommunication equipment. According to another feature, the communication system may further comprise means for geolocation of one of said mobile telecommunication equipment, so that the sensory signal sequence is, where appropriate, generated at least according to geolocation data. corresponding. The invention also relates to a communication method associated with the communication system presented above. The invention also relates to a computer program comprising instructions for carrying out the method as introduced above, when said instructions are distributed over various storage media of the communication system as described above and performed by various processors of said communication system. Other features and advantages of the invention will emerge clearly from the description which is given below, by way of indication and in no way limiting, with reference to the accompanying drawings, in which: - Figure 1 is a schematic front view in perspective of a container, - Figure 2 is a view from the same perspective as Figure 1, the container of Figure 1, exploded. FIG. 3 is a view in the same perspective as FIG. 1, of the case of the container of FIG. 2, exploded; FIG. 4 is a bottom view of the upper part of the case; FIG. FIG. 5b is a perspective view in section along line Vb-Vb of FIG. 5a of the lower part; FIG. 6 is a view from below of an example of FIG. FIG. 7 is a front view in vertical section of the container of FIG. 1; FIG. 8 is a schematic representation of a communication system according to one embodiment of the invention; FIG. is a block diagram of one of the mobile telecommunication equipment of the communication system according to one embodiment of the invention, - Figures 10 and 11 each represent a flow chart of the initialization of the communication system according to an embodiment of the method Communication according to the invention, - Figure 12 shows a flow chart of the communication method according to one embodiment of the invention, - Figure 13 sectional views of the container according to several embodiments of the invention, and - the figure 14 is a sectional view of a package containing a printed circuit and illustrates an exemplary arrangement of a DELo screen. In the different figures, the same references designate identical or similar elements. As illustrated in FIG. 8, the communication system according to the invention comprises: - a container 1 for a cosmetic or pharmaceutical product or a wine or a spirit, and - at least two mobile telecommunication equipment, such as two mobile devices of telecommunication 110, 120.
[0003] As illustrated in FIG. 9, each mobile telecommunication equipment may consist of a standard and widespread existing terminal such as a smartphone or a tablet. It may include a microprocessor operatively connected to a plurality of electronic components including at least one of a battery, a user interface, a display device, a storage medium, and a long distance radio wave communication means. . The mobile telecommunication equipment 110, 120 of the system are able to communicate with each other by means of their standard communication means 119, 129 via GSM, UMTS or Internet type communication networks, through which the computing power and / or storage of remote computer servers ("Cloud computing" in the English terminology).
[0004] The container 1 comprises a plurality of functionally interconnected electronic components, of which: at least one sensing load source 7 arranged to emit at least one sensory signal towards the outside of the container; bidirectional communication means 131 at short distance through radio waves, and - control means 16 of said at least one source of sensory solicitation. By "sensory solicitation" is meant the attraction of the interest of a user by the awakening of one of his senses, such as touch, smell, taste and especially sight or hearing. The term "sensory signal" means a signal capable of enabling the awakening of one of the senses of the user. Subsequently, it is considered, essentially as an example, a light source as a source of sensory demand 7 and a light signal or a light sequence as a sensory signal or sensory signal sequence. However, the communication system is not limited to this embodiment; for example, the source of sensory solicitation may be a speaker and the sensory signal may be a sound signal. At least one first mobile telecommunication equipment 110, hereinafter referred to as "the first mobile telephone", comprises bidirectional communication means 111 at short distance by radio waves. Such communication means comprise at least one antenna, for example an antenna known under the name "Compact reach XtendTM Bluetooth®, 802.11b / g WLAN Chip Antenna". The bidirectional short-distance radio-wave communication means 131 of the container 1 comprise at least one antenna, for example an antenna known under the name "Compact reach XtendTM Bluetooth®, 802.11b / g WLAN Chip Antenna".
[0005] In this way, the container is able to communicate with a second mobile phone 120 and / or a remote computer server, for example the server of a brand and / or a community, via the first mobile phone 110, when the first mobile phone is located in a coverage area 132 of the communication means of the container 1. More particularly, the control means 16 of the container control the light source or sources 7 to generate a light sequence determined for example according to data communicated to the container, via the first mobile phone 110, by the second mobile telecommunications equipment 120, below "second mobile phone", and / or a remote computer server, for example the server of a brand and / or d 'a community. A light sequence designates a sequence of light emission commands by one or more LEDs, an emission that can last in time, be periodically pulsed or not, the LEDs can be treated identically or differently, the intensity can be fixed or changing over time ... For example, the microprocessor can control spontaneously, periodically and / or random a light sequence. The container 1 is more particularly described below with reference to FIGS. 1 to 7. FIG. 1 schematically represents the container 1. It may comprise a foot portion 34 making it possible to dispose it stably on a support. As an illustration, we can assume a horizontal support defining an X-Y plane. The Z direction, normal to the X-Y plane, completes the X-Y-Z trihedron. In the example presented, the outer surface of the container 1 is symmetrical about the Z axis. That is to say that the directions X and Y are undifferentiated in view of the outer surface.
[0006] However, it could be otherwise. The container 1 extends, along the Z axis, from the foot portion 34 towards an opposite head portion 35. In the example shown, the container 1 has an outer surface 30 whose shape flares slightly from the foot portion 34 towards the head portion 35. However, it could be otherwise. The head portion 35 includes a dispensing member 36. In the example shown, the dispensing member 36 is the only means for a user of the container to access the contents of the container 1. The dispensing member 36 comprises by example a pump. The contents of the container can be cosmetic. This is for example a perfume. Although the invention is presented with reference to the example of a perfume bottle, the invention could be applied to other types of containers, contents, and means of distribution of these contents. The contents of the container may for example be a pharmaceutical product, a cosmetic product, such as a care cream, a serum, a make-up fluid, or a food product, such as drinks, in particular soft drinks, beers, wines, champagnes, Alcohols, spirits ..., including premium wines and spirits.
[0007] As illustrated in Figure 13, the printed circuit 6 is not necessarily arranged around the neck 33 of the container, but can also be arranged in the base 34 of said container or in any other suitable place of the container (for example by being hidden behind a decorative plate or a label placed on the container). In addition, the container is not necessarily a perfume container provided with a pump arranged on a relatively narrow neck, but may also consist of a pot, for example care cream, with a wide neck; in which case, the printed circuit 6 can be arranged in a lid 22 of the pot or in the base 34 of the pot or inside the pot.
[0008] As can be seen in FIG. 2, the container 1 is made of two components assembled together. In this example, the two components are assembled together permanently. Thus, in normal use of the container, it is not intended to separate the two components from each other. The expression "permanently" must be understood in the normal use of the container, because of course, one can not prevent someone from separating the two components from one another if he deploys all efforts necessary to achieve this. But this exceeds the normal use of the container. Note that it may be desirable, in order to comply with legislation in some countries, that the container may be disassembled at the end of its life for selective sorting, particularly if it contains at least one source of water. energy, in the form of a button cell for example. This disassembly involves separating from one another the two assembled components to form the container 1. This disassembly may require the user to use a conventional tool such as a screwdriver or a knife for example, and a suitable method. which would be indicated in the instructions for use of the product. This disassembly may require a notch to insert the tool between the two components. As shown in FIG. 2, a first component is a receptacle 2. The receptacle is sealed, and contains the cosmetic or pharmaceutical product or the wine or spirits. The receptacle comprises a body 37 to which the dispensing member 36 is assembled sealingly. The body 37 comprises the foot portion 34, and a body portion 15 extending from the foot portion 34. The body portion includes one or more peripheral walls (in the form provided for the container 1) and a top wall 40. A neck 33 is formed in one of these two walls, in particular in the upper wall 40. The dispensing member 36 is assembled sealingly on the neck 33. The body 37 is for example made of glass or in plastic. We will choose a suitable material for the application. The body 37 may thus have an outer wall 3 as visible in FIG. 7. The body 37 may also have a decoration intended to form a luminous effect. The decoration is provided on the outer surface 30 of the body 37, in particular for example on the outer surface of the peripheral wall of the body 37. Such a decoration may be achieved by providing, at the outer surface 30 of the body 37, a opaque region 31 and a translucent region 32. The opaque region 31 may for example be made by providing an opaque substance to the outer surface of the body 37 by a suitable technique. It is also possible to provide an opaque region within the receptacle 2. For example, an opaque substance is provided on an inner face of the body 37. The opaque substance is then compatible with the contents of the receptacle.
[0009] As illustrated in Figure 2, the second component 29 comprises a housing 5 defining the external volume of the second component 29. In the present embodiment of a neck container, the component 29 may comprise an annular shape provided with an opening 28 Z axis, for example central. The central opening 28 is dimensioned for the passage of the neck 33. The housing 5 has a shape complementary to the receptacle 2. In particular, the peripheral wall or walls of the housing 5 have a shape corresponding to that of the receptacle 2 and may be of low thickness. An enclosure does not necessarily mean a fully enclosed product.
[0010] Some openings are possible. In the case where a face of the housing is directly opposite a face of the receptacle, this face may for example comprise openings. The component 29 will now be described, in this embodiment, in more detail, with reference to FIG.
[0011] The housing 5 may comprise an upper part 5a and a lower part 5b which can be assembled together to produce a closed housing. In particular, the housing 5 can be made waterproof. By "waterproof" is understood here a degree of sealing to preserve the integrity and proper operation of the internal components of the housing in normal use of the housing. The normal use of the housing may include the prolonged presence of it in a damp room, including a bathroom. In particular, the lower and upper parts 5b, 5a are assembled in force or by gluing. They define between them an interior volume V.
[0012] In the interior volume V are contained a printed circuit board 6 and at least one (in the present example two) energy source 9a, 9b. The number of energy sources will depend on the energy to be supplied and the internal volume V available. The energy sources are for example button cells, which have a size and a suitable energy.
[0013] As shown in FIG. 6, the printed circuit board 6 comprises the communication means 131 of the receptacle including its antenna 1311 and the control means 16 of the light source (s). The control means may comprise a microprocessor or a microcontroller. The communication means 131 are for example of the type enabling the implementation of the Bluetooth® communication standard. However, other types of communication means may be used which rely on different communication protocols such as the ZigBee® and Wi-Fi® protocols. The location of the antenna on the printed circuit requires that the trim parts 5a and 5b do not behave like a Faraday cage, which limits the applications of metallic finishes on the outer part 5a and / or electrodes of a possible capacitive sensor. At least it is appropriate to limit the size and position of the surfaces made conductive away from the area of the antenna. In particular, the printed circuit 6 is interposed, along the Z axis, between the lower part 5b and the upper part 5a. The energy sources 9a, 9b are, for example, inserted in housings adapted for this purpose and connected to the printed circuit board 6, in particular said housings can be soldered to the printed circuit board 6. The upper part 5a comprises an upper plate from which extends a skirt 45. The part 5a has an inner face 11 and an outer face 19 opposite. The outer face 19 is the main visible face of the housing. Indeed, the lower part 5b is disposed between the upper part 5a and the receptacle 2. The upper part 5a can be made opaque. It can be performed with an aesthetically appropriate exterior appearance, for example a varnish, a metallization and / or decorative patterns for example. Thus, the upper piece 5a completely hides the view of a user outside the bottle the printed circuit 6, or the lower part 5b. It is also contemplated that part of the part 5b is visible; this part may take for example the shape of a translucent ring located at the interface with the container (at the base of the skirt of the part 5a) or at the central opening 28 to form a ring around the neck. According to one embodiment, the container 1 further comprises at least one sensor 17 arranged to detect an event such as manipulation of the container or contextual information, for example a sudden change in brightness around the container. The sensor is operatively connected to the other electronic components of the container. It is for example at least partially supported by the printed circuit 6. The sensor may be a simple switch disposed on the periphery of the housing 5. Alternatively, the sensor may operate in the manner of a sensitive switch arranged to capture a change capacitance between two electrodes, this change testifying to the immediate presence or proximity or contact of something that, most often, will be a finger of a user. The sensor may also be an optical sensor capable of detecting that the light of the room, for example a bathroom, in which the container is located, is on or off. The sensor or sensors of the container (for example, inertial sensor for motion detection, capacitive sensor for proximity and / or contact detection, light sensor for detecting variations in ambient light level) may thus be intended to detect: actions of the user, - personal characteristics of the user, such as for example the degree of hydration of his skin ... - properties (or changes of state) of the product contained in the container, such as by example, its level of use, its degree of expiry, its degree of hydration, its possible contamination ... The container's sensor or sensors may also be intended to send information on these actions or properties via the communication network to the user of the second mobile telecommunication equipment (smartphone or tablet ...) and / or the server of a brand or a community. According to other alternatives, the sensor 17 may be chosen from a mechanical sensor arranged in conjunction with the dispensing member 36 to sense the actuation and an inertial sensor, for example an accelerometer, such as that known under the reference "MMA8452Q 3-Axis 12/8-bit Digital Accelerometer ", adapted to detect a movement of the printed circuit board 6 (due to a movement of the container carrying it). Figures 5a and 5b now show schematically the lower part 5b according to an exemplary embodiment.
[0014] According to this example, the lower part 5b is substantially inscribed in the volume circumscribed by the upper part 5a. It has a shape complementary to the upper part 5a. It comprises a radially inner annular collar 51, a radially outer annular collar 52, and a plate 53 extending between these two collars. The radially inner annular flange 51 comprises a radially inner surface and an opposite radially outer surface. The radially inner surface is adapted to cooperate with the neck 33 of the bottle. Thus, the housing 5 is mounted on the neck 33 of the bottle through this intermediate. For example, a clipping fastener is provided. Other achievements are possible. The radially outer annular collar 52 cooperates with the inner face 11 (see Figures 4 and 7) of the skirt 45 of the upper part 5a.
[0015] The plate 53 includes a number of the functions of the lower part 5b. The plate 53 proposes for example a rotational indexing of the printed circuit 6. For example, a lateral positioning (that is to say in the XY plane) of the printed circuit 6 is provided. For this purpose, it is possible to provide positioning pins. lateral 65. The lateral positioning pins 65 protrude vertically upward from the upper surface of the plate 53. Several are provided on the periphery of the plate 53. They are for example provided in pairs, a pair being associated with a rectilinear edge of the printed circuit 6. The lateral positioning pins 65 can also form stops on the inner face 11 of the upper part 5a, to define the relative position of the upper part 5a and the lower part 5b along the Z axis. Other embodiments are possible for the abutment along the Z axis. The plate 53 carries openings 8 at the location of the LEDs on the printed circuit in its assembled position. The invention also provides for the transmission of light from the LEDs to the receptacle 2. FIG. 6 shows a printed circuit 6, and in particular the underside of the printed circuit, according to one embodiment. The printed circuit comprises a thin support 23 and tracks (not shown) electrically connecting the various electronic components to each other. It can consist of a single-sided, double-layer or multilayer printed circuit. The printed circuit 6 has a form suitable for the application. In particular, in the present example, it may comprise an annular shape, with a central opening 24 sized to be threaded with clearance on the radially inner annular flange 51 of the lower part 5b of the housing 5. The printed circuit 6 also has a notch 64 having a shape adapted to cooperate with a complementary projection of the lower part 5b for rotation indexing. The printed circuit 6 may have a hollow disk shape. Alternatively, the periphery of the printed circuit board 6 may have a polygonal shape (notch 64 apart). For example, an octagonal shape is chosen, as shown.
[0016] For example, the peripheral periphery of the printed circuit has a larger dimension of between 3 cm and 6 cm and the inner periphery of the printed circuit has a larger dimension of between 1 cm and 3 cm. As already introduced above, the printed circuit board 6 carries the microprocessor 16. The microprocessor 16 may be for example the microprocessor known under the reference CC253X or CC2540. The microprocessor 16 may be preprogrammed to perform certain functions, as will be explained hereinafter. The printed circuit board 6 can carry the light sources 7. For example, LEDs (for light-emitting diodes or light-emitting diodes) are chosen, for example RGB (red-green-blue) LEDs enabling in colored values with possibilities of significant variations. Alternatively or additionally, it is possible to choose a display device, for example a digital display, an LCD screen (not shown) or organic LEDs DELo (in English OLED for Organic Light-Emitting Diode) possibly forming a screen 7a. The display device may optionally be flexible to accommodate a container or a complex shape (non-planar) housing.
[0017] LEDs have several advantages for the illumination of cosmetic bottles and jars. Their size is very small, which offers the possibility of creating very punctual light sources or having any desired shape by assembling multiple LEDs. They have a very low power consumption (a few tens of milliwatts) and a good efficiency, so a very low heat loss, thus avoiding any risk of deformation of the constituent parts of the container 1, and in particular the housing 5, as well as any risk of deterioration of the product in the container 1. Many colors are available. They are easy to mount on a circuit board. They operate at very low voltage (TBT), which is a guarantee of safety. Each LED can be alternately in an active state, in which it emits a light, and in an inactive state, in which it emits no light. Each LED has an illumination spectrum of its own, identical or different from those of other LEDs. The microprocessor 16 is programmed to control the triggering of the LEDs. Thus, the microprocessor can trigger the passage of LEDs from their inactive state to their active state, and vice versa. The LEDs are arranged on the underside of the printed circuit board 6.
[0018] For example, the LEDs are arranged as far as possible, radially, from the center of the printed circuit 6. In particular, in the case of a polygonal printed circuit, an LED is provided in each corner formed between two adjacent edges. Thus, the surface of the printed circuit is optimized, and the central space is available to place the other electronic components. The screen 7a formed of the organic LEDs can be arranged in the manner illustrated in FIG. 14. More particularly, the screen is supported by reliefs 7b extending from the printed circuit board 6. Alternatively, the grooves 7b extend through the printed circuit by holes 7c made in the printed circuit for this purpose; more particularly, the grooves 7b extend from the plate 53 of the lower part 5b of the housing 5. The grooves are sized to press the screen 7a against an opening 7d made in the container 1, or a lid of the container, or more particularly in the upper part 5a of the housing 5, so that the screen appears to a view outside the container. It should be noted that the connection 7e between the screen 7a and the printed circuit 6 is then advantageously short, and more particularly of the order of a few millimeters long.
[0019] The microprocessor 16 can define, for each light source 7, and in particular correlatively for at least two light sources 7, or all the light sources, one and / or the other of the following characteristics, possibly variable over time : - a moment of beginning of illumination, - a moment of end of illumination, - a duration of illumination, - an intensity of illumination. As already discussed above, the printed circuit 6 also includes the sensor 17. The sensor 17 is adapted to detect an event, such as a manipulation of the container, and to transmit a signal corresponding to the microprocessor 16. The sensor 17 transmits then a signal adapted to the microprocessor that controls a light effect possibly preprogrammed in function. The microprocessor 16 can furthermore send information corresponding to the signal transmitted by the sensor 17 to one of the mobile telephones and / or to the remote server via a telecommunication network 74. In a variant, the microprocessor 16 can receive a signal order from the outside. In particular, as shown in FIG. 8, the microprocessor can receive a command from a remote server 140 or from a mobile terminal 120 via a telecommunication network 74. As shown in FIG. 6, the container 1 can include a timer 133 The timer 133 may for example comprise a crystal-based crystal resonator operating in the range of megahertz or kilohertz. The timer is operatively connected to the other electronic components of the container, including the microprocessor 16. The timer can be supported by the printed circuit 6. The timer ensures the activation or extinction of the light source or sources 7, for example according to predetermined data stored on a storage medium 135 of the container. Timer 133 may control the repetition of a light sequence at regular time intervals until an event is detected. The timer can also be used to interrupt the repetition of the controlled light sequence after a certain amount of time without an event being detected. The absence of event detection can then be interpreted as corresponding to the absence of the user to whom the light sequence is intended. Unnecessary energy consumption is thus avoided. The timer can still be used to control the activation of the light source (s) at fixed time (s). A timer 133 and a storage medium 135 are not essential in themselves, especially since the function of the timer can be held by a clock of the microprocessor 16 and since the storage capacity of the microprocessor 16 is sufficient. The electronic components of the container 1 can be provided on one or other of the faces of the thin support 23 and electrically connected with the remainder of the circuit via through holes possibly metallized.
[0020] Figure 7 shows the assembled container. The printed circuit board 6 is arranged on the lower part 5b. The printed circuit is arranged with its face carrying the LEDs turned towards the lower part 5b. The orientation around the Z axis of the printed circuit 6 is for example defined by the cooperation of the notch 64 and the complementary projection of the lower part 5b to form a rotary indexing device. The outer peripheral edge of the printed circuit cooperates with the lateral positioning pins 65 of the lower part 5b and the inner peripheral edge cooperates with the inner edge 25 of the printed circuit threaded around the radially outer surface 27, to define the lateral positioning of the circuit printed 6. Then the upper part 5a is assembled to the lower part 5b to close the housing 5 and define the internal volume V. The orientation of the upper part 5a with respect to the lower part 5b is defined by an indexing device in rotation. For example, the radially outer annular flange 52 comprises a slot 67 cooperating with a rib 68 of the upper part 5a. The housing 5 is closed for example by snapping.
[0021] The housing 5 is then assembled to the receptacle 2, as explained above, to form a container 1. The dispensing member 36 can be assembled to the neck 33 as desired before or after the assembly of the housing 5. As explained above, In this embodiment, it is not intended to recharge or replace the power sources. Therefore, the electronic part of the container 1 is completely retracted for the user. The energy sources and the LEDs (number, consumption, brightness, threshold voltage) are then chosen so that the energy sources are sufficient for the supply of the container for its presumed life (depending on the volume contained, at assume it is not rechargeable).
[0022] A reduced number of LEDs may cause spurious effects of bright spots, but will result in lower energy consumption. The consumption of the LEDs is obviously a factor influencing the type of lighting effects that can be proposed (especially the duration), and the life of the product. The maximum brightness may be useful for some lighting effects, but is not necessarily sought. The lowest threshold voltage extends the life of the product when the power sources supply only a low voltage. However, in variants, it may provide a removable assembly of the upper part on the lower part to replace the energy sources, or a connector to a charging device of energy sources then rechargeable. Alternatively, a removable hatch can be provided to change the batteries, which is particularly relevant for example in the case of an application to wines or spirits with a printed circuit 6 positioned at the foot of the container.
[0023] The commissioning of the communication system and pairing between the container and at least one of the two mobile phones will now be described in particular with reference to FIG.
[0024] The container may include a commissioning device (not shown). The commissioning device is adapted to take alternatively an inhibited state inhibiting at least the implementation of the light sources 7, and an active state allowing at least the commissioning 1000 of the light sources 7. Such a commissioning device can advantageously prevent any consumption of energy before the user has acquired the container 1. In fact, the conditioned container will be moved, so that a possible sensor 17, if it is of inertial or capacitive type, may control the emission of light while the container is packaged. The commissioning device is of particular interest in terms of energy saving, especially in the case where the energy sources 9a, 9b are neither replaceable nor rechargeable. The commissioning device can be carried at least in part by the printed circuit board 6. The commissioning device comprises, for example, a user-actuable switch button for electrically connecting the energy sources 9a, 9b to the electrical circuit of the device. 6. Alternatively, the commissioning device may comprise an activation tab. In its inhibiting state, the activation tab is opposed for example to the electrical contact of the power sources with the circuit of the circuit board 6. For example, the activation tab is made of an insulating material. The tab is part of the container protruding through the housing 5, and, by an opposite portion, is interposed between the power sources and the circuit of the circuit board 6. The user must pull the portion of the tongue activation device protruding to disengage the activation tab of the container to electrically contact the power sources 9a, 9b of the container with the other electronic components of the container via the tracks of the printed circuit board 6.
[0025] Once the device is in its active state, one or more preprogrammed light sequences can be emitted. Many alternative embodiments are possible.
[0026] The container may be associated with an identifier. The identifier is for example a tag such as a two-dimensional barcode or a "Bleam". It may be printed on the container for example on the bottom surface of its base 34 or on the activation tab of the container. For example, the first mobile phone 110 comprises reading means 113 of this identifier. The container and the first mobile phone comprise pairing means 124, 114, so that, on reading the identifier 1100, a pairing 1200 between the container and the first mobile phone is automatically triggered. This pairing includes a data exchange between the container and the first mobile phone. This data exchange makes it possible to define pairing data that the container and the first mobile phone can store 1300 on their respective storage media 125, 115. If the reading of the identifier 1100 is performed when the first mobile phone 110 is not in the coverage area 132 of the communication means 131 of the container, the pairing 1200 can be put in a task list of the first mobile phone to be implemented automatically when the first mobile phone is in the coverage area of the means of communication of the container. The pairing data serves to enable future connections between the first mobile phone and the container. After successful pairing, the container 1 emits for example a preprogrammed light sequence of successful pairing. The first mobile phone 110 may include means 116 for detecting the presence of the container 1 in the area of coverage of its communication means 111 at short distances, or vice versa. More particularly, the mobile phone interrogates, for example at regular intervals of time, its environment by sending short-range radio waves messages indicating its presence. Permanently or at certain times of the day (in a controlled manner for example by the timer 133), the container is in a listening mode of such interrogation messages and upon receipt of one of them responds to indicate his presence at the first mobile phone. Variants using for example the container in a so-called standby mode are also conceivable. More particularly, when the container is in the standby mode, most of its functions are temporarily inhibited in order to reduce its power consumption. The container can go into sleep mode after a period of inactivity determined, for example by the absence of event detection by the sensor 17 for some time. More particularly, especially during their pairing, the first mobile phone and the container may have concluded to try to detect, by sending a presence signaling message and listening to such a message for a period of time. given activity, for example a few seconds, defined at given time intervals, for example 2 to 3 minutes. Thus, for a time equal to a time interval to which the activity time is subtracted, most of the functions of the container, and in particular its listening function, may be inactive, since it is known that no activity is expected during this time. This synchronization thus saves the energy resources of the first mobile phone and especially the container they operate as an interrogator of the presence of the other or receiver of a presence polling message. The initialization of the future communications between the container and at least one of the two mobile phones will now be described in particular with reference to FIG. 11. Via automatic connection means 117, the first mobile telephone 110 and the container 1 are ready to connect 1400 to each other using the pairing data stored on their respective storage media 115, 135. This connection can be automatic or a connection authorization can be automatically requested by the first mobile phone 110 to its user. The connection 1400 includes a synchronization of the communication means 111, 131 of the first mobile phone 110 and the container 1 between them. This synchronization allows in particular a correct interpretation of the commands transmitted by the first mobile phone to the container, and vice versa, during a subsequent communication session.
[0027] A first connection 1400 of the first mobile phone 110 with the container 1 can trigger the connection 1500 of said mobile phone to a remote server 140 of the communication system. To this end, connection data to the remote server may have been stored on the microprocessor 16 of the container and automatically communicated to the mobile phone 110, for example during the first connection. According to one variant, the connection data to the remote server may have been coded in the two-dimensional barcode identifying the container, and then decoded by the mobile phone following the reading 1100 of the identifier.
[0028] On the remote server 140 are stored applications dedicated to interfacing the various communicating equipment of the system. For example, a web page opens on the first mobile phone 110 to provide a plurality of applications for download. Several types of applications can be provided. In particular, a first application can be dedicated to be downloaded and then installed on the first mobile phone, and a second application can be dedicated to be downloaded and installed on the second mobile phone. The first and second mobile phones do not necessarily play the same role in the communication system according to the invention. The second mobile phone is essentially adapted to communicate with the container, while the first mobile phone essentially serves as a communication bridge between the container and the second mobile phone. Since the roles of the first and second mobile phones in the communication system according to the invention are essentially asymmetrical, it is advantageous to provide different applications. As illustrated in FIG. 9, the second mobile telephone 120 may comprise means equivalent to those of the first mobile telephone 110. The second mobile telephone 120 may in particular comprise short-wave radio communication means 121, reading means 123. of the container identifier, detection means 126 of the container and automatic connection 127 with the container. Thus, the second mobile phone can implement the same communication steps as the first mobile phone, for example to connect to the remote server 140. Other ways to make known, to the second mobile phone 120, the connection data to the remote server 140 are also conceivable. For example, this data can be transmitted by the first mobile phone 110 to the second mobile phone 120 by standard wireless communication. Once the mobile phone 110, 120 connected to the remote server 1500, one or more applications can be downloaded 1600 and installed 1700 on the mobile phone 110, 120. Each application can be used to define a personal data bank including data such as usage preferences of the communication system according to the invention. For example, calendar data or login data to a social networking service account can be populated. These data allow the application to offer the user calendar event reminders, shortcuts to share communications exchanged via the communication system according to the invention with contacts of the social network ... The application also allows to define a correspondence table between data communicated from the second mobile phone 120 and a light sequence to be generated. Typically, the lookup table includes input data and output data and maps the output data to the input data. For example, the user of the second mobile phone 120 can, via the application, define a correspondence between input data comprising a series of alphanumeric characters or an icon which he has entered, or which he has selected from a set of alphanumeric character sequences or icons proposed, and output data corresponding to a light sequence that the user has defined, or selected from a set of proposed light sequences. Alternatively, the input data can be determined on the basis of the data communicated from the second mobile phone 120, for example depending on the nature, the weight (in bytes), the length (in characters) of these data communicated. .
[0029] The data and the correspondence table entered by each user via his mobile phone can be stored on the remote server 140 and / or on the storage medium 115, 125 of his mobile phone 110, 120 and / or the other mobile phone. and / or on the "Cloud".
[0030] An embodiment of the communication method according to the invention will now be described in particular with reference to FIGS. 8 and 12. The user of the second mobile phone 120 can open his application. For example, the opening of the application triggers the display on the screen of the second mobile phone of a graphical interface, provided by the installed application, allowing a visual and interactive communication with the user. The graphic interface may more particularly comprise a wallpaper, for example a photograph of the users of the first and second mobile phones, an indication of the name of the city and the local schedule where each of the first and second users is located. mobile phones, a plurality of interactive software components. Each interactive software component may make it possible to obtain, and possibly modify, information relating to communications made or possible via the communication system. For example, a first interactive software component provides predetermined message information, a second interactive software component provides received and read message information, a third interactive software component provides received message information, and unread, and a fourth interactive software component makes it possible to obtain and modify the data of its personal data bank. The user of the second mobile phone 120 can thus select a sequence of alphanumeric characters or an icon. This selection is made for example by touching the screen of the mobile phone. This selection can trigger the display of menus, menu bars, or submenus. For example, the selection of the first interactive software component triggers the display of a menu bar and a menu corresponding to a first selectable component of the menu bar. The menu may comprise a plurality of new interactive software components, each taking for example the form of an icon and allowing, by its selection, the transmission of a corresponding message via the communication system. For example, selecting the second interactive software component triggers the display of previously received icons in a particular configuration; for example, the icon corresponding to the most recent message is located substantially in the center of this display and the icons corresponding to the ten previously received messages are distributed on this display around the icon corresponding to the most recent message, the icons corresponding to the oldest messages being represented smaller than the icons corresponding to the most recent messages. At the selected selection correspond, via the correspondence table, at least control data of a light sequence. A message is sent 2000 to the first mobile telephone 110, which comprises the data corresponding to the selection made and / or the control data of the light sequence corresponding to the selection made, depending on whether the correspondence table has been stored or not. the second mobile phone. In the case where the correspondence table is stored only on the remote server 140, the data corresponding to the selection made are sent by the second mobile phone to the remote server which finds, via the correspondence table, the command data. of the light sequence corresponding to the selection made. The remote server sends 25 said command data, and optionally transmits the data corresponding to the selection made, to the first mobile phone. In the case where the correspondence table is stored only on the first mobile phone, the data corresponding to the selection made are sent by the second mobile phone to the first mobile phone, directly or via the remote server. The first mobile phone finds the control data of the light sequence corresponding to the selection made via the correspondence table. In response to receiving this message, the first mobile phone 110 may optionally display the alphanumeric character string or icon received on its display device. Also, in response to receiving the message, the first mobile phone 110 transmits 2100, by short-range radio waves, the control data of the light sequence to the container 1. Upon receipt of such data, the container generates 2200 the sequence controlled lighting. The generation of the light sequence may depend on contextual information. For example, when the container is located in a room, such as a bathroom, the light sequence is generated only if the optical sensor of the container detects that this room is not in darkness, or that this room is illuminated. Characterization of the environment of the container or its evolution through at least one sensor 17 of the container is therefore advantageously taken into account to judge the relevance of emitting 15 immediately or subsequently the controlled light sequence as a function of a presumption of corresponding presence of the recipient in the room where the receptacle is located. In case of presumption of absence of the recipient in the room where the container is located, the first mobile phone can simply display the alphanumeric character sequence 20 or the icon received on its display device and possibly abandon the order of the luminous sequence. If the first mobile phone 110 is not in the coverage area 132 of the communication means 131 of the container or if the absence of the recipient in the room where the container is located can be presumed, the transmission 2100 can be put into a task list of the first mobile phone to be implemented automatically when the first mobile phone is in the coverage area of the means of communication of the container. Alternatively, the message sent by the second mobile phone 120 may include a photograph taken with a camera 123 of the second mobile phone. The message then also includes control data of a light sequence determined, via the correspondence table, as corresponding to a message comprising a photograph. The message is sent 2000 to the first mobile phone which eventually displays the photograph on its display device and which transmits 2100 the order data to the container. As a result, the container generates 2200 the controlled light sequence. If the container 1 is manipulated within a certain period of time after the command has been received or after the light sequence has been generated, this manipulation is detected 2300 by the sensor 17 and an acknowledgment can be sent 2400 to the first telephone mobile 110. The first mobile phone 110 transmits the acknowledgment 2600 to the second mobile phone 120. Alternatively, upon receipt of the acknowledgment, the application installed on the first mobile phone can propose to the user to select a response message among a plurality of messages that the user has previously defined or that the application proposes. The first mobile phone 110 sends the selected response message to the second mobile phone 120 as an acknowledgment of receipt. As an alternative to this variant, the response message can be determined according to the type of event possibly detected, can be determined randomly from among a plurality of messages that the user has previously defined or that the application proposes, or can to be determined according to the message sent by the second mobile phone. By another example, the application installed on the first mobile phone can offer the user to take a photograph using the camera 113 equipping the first mobile phone 110, so to send said photograph to the second phone mobile 120 as an acknowledgment of receipt. This sending of said photograph is then independent of any connection between the first telephone and the container, so that the photograph is not necessarily taken in the room where the container is located, but can be taken from everywhere, for example on the way to work. The response message may be displayed, on reception, on a display device of the second mobile phone.
[0031] According to another application, the light sequence can be a function of a distance between the two mobile phones. The second mobile phone at least is then equipped with geolocation means 128. The container 1 can be stored in a constant locality, for example filled in the personal data bank. The container 1 can also be transported for example by the user of the first mobile phone 110. In this case, the first mobile phone also comprises geolocation means 118 so that the distance between the two mobile phones can be calculated. For example, the light sequence changes from a pale blue illumination and / or a slow pulsation when the distance between the mobile phones is high to a bright red illumination and / or a fast pulsation when the distance between the two mobile phones is minimal. In this way, the user of the first mobile phone knows, by observing the container, that the user of the second mobile phone is approaching, and may possibly prepare his arrival by perfuming the perfume contained in the container. The container of the invention is integrated in the communication system so as to adapt at least to the presence of the first mobile phone in its coverage area. The container may further be integrated in the communication system so as to react at least to detected events. The container of the invention is therefore advantageously an actor of the communication system. The container promotes the intelligent environment defined by the communication system according to the invention. The communication system according to the invention allows direct feedback of information on the use of the container, and therefore on the consumption of its contents, to the company that markets the container. Until then, this feedback was only possible through distributors of the distribution circuit and was therefore in essence partial. The company that markets the container according to the invention thus has a knowledge of its customers that allows it to monitor the success of products already marketed and to adapt its future products. Various embodiments have been described in detail above. However, the invention is not limited to the various modes described. For example, the container may be equipped with sound reproduction means in addition to or instead of the light sources for generating a melody in addition to or in replacement of a light sequence. By another example, each detected manipulation of the container and / or each opening of one of the proposed applications, can trigger the transmission to the second mobile phone 120, via the first mobile phone 110, a potential activation message d a session of communication between the mobile phones, this session being able to be activated for a relatively short time, of the order of a few tens of seconds, for example of 20 seconds, to allow the user of the second mobile phone to send a message to the first mobile phone message which will thus be transmitted to the container while the user of the first mobile phone is likely to be near the container, and possibly while the container is in listening mode. By another example, a detection of the first mobile phone by the container, or conversely of the container by the first mobile phone, can trigger the automatic transmission of a message from the first mobile phone to the second mobile phone, when a certain duration for example, several hours has elapsed since a previous detection; in this way, a user of the second mobile phone can be notified that the user of the first mobile phone has just returned from work and is in a receptive situation to receive a private message, for example issued by the second mobile phone. In addition, the communication system described above includes two mobile phones, but may include more mobile phones belonging to the same or different users. Those skilled in the art will appreciate that some of the technical features described above contribute or may contribute, possibly at the cost of adaptation to the contents and the container in question, to optimized management of the energy budget of the container. For example, the container may spend a variable time ranging from a few weeks to several months in the dispensing circuit taken by the container to reach the user. This time can therefore be significant with regard to the time of use of the container once it is put into service. Hence the importance of limiting the power consumption during the stay of the product in the distribution chain. This time of use itself is of great variability. By way of illustration: - the typical use time of a cosmetic product can range from 3 to 6 months or more for 'seasonal' skincare products (solar products used only in summer, highly moisturizing products used especially the winter ...), - the time of use of a bottle of champagne is a contrario very short, of the order of the hour, - for a bottle of spirits like a Cognac, the time of use can be several years. Thus, any saving of the energy resources of the container is useful in order to limit the size of the energy sources to be shipped which essentially have a given lifetime or vice versa, since, unlike the mobile terminal which can be periodically reloaded, it is not intended to change or recharge the energy sources of the container 20 in some of these embodiments. It should be noted that the pairing means 114, 124, the detection means 116, 126 and the connection means 117, 127 of each mobile telephone 110, 120 may be included in the means of communication 111, 121 by waves radio at short distance from the mobile phone. Similarly, any reference made above to means for pairing, detecting or connecting the container may be understood as a reference to the communication means 131 by radio waves at a short distance from the container 1. In addition, the microprocessor 16 can be integrated into a short-range radio communication module, for example a Bluetooth type module, for example known under the reference "CC2541 Bluetooth Smart Soc", possibly together with the means of pairing, detection or connecting the container 1.
[0032] The present invention is also directed to a computer program comprising instructions for carrying out the above method, when said instructions are distributed over various storage media of the above communication system and executed by various processors of said communication system. . It also targets media (non-transient in particular) storing such a program. The computer program can be written in different programming languages. In addition, the computer program may be based on applications and / or programming interfaces to facilitate their development.

权利要求:
Claims (15)
[0001]
REVENDICATIONS1. Communication system comprising: - a container (1) for a cosmetic or pharmaceutical product or a wine or a spirit, and - at least two mobile telecommunication equipment (110, 120), wherein the container comprises a plurality of functionally electronic components interconnected, of which: - at least one source of sensory demand (7) arranged to emit a sensory signal towards the outside of the container, - means of communication (131) bidirectional short distance radio waves, and - means of controlling (16) said at least one sensing source of solicitation, and wherein a first (110) of said at least two mobile telecommunication equipment comprises two-way radio-frequency short-distance communication means (111) so that the container and a second (120) of said at least two mobile telecommunication equipment are able to communicate with each other by the int ermediaire the first mobile telecommunication equipment, when the first mobile telecommunication equipment is located in a coverage area (132) bidirectional communication means of the container, the control means of the container controlling said at least one source of sensory solicitation to generate a sensory signal sequence determined at least as a function of data communicated to the container by the second (120) of said at least two mobile telecommunication equipment.
[0002]
2. A communication system according to claim 1, wherein the container (1) being associated with an identifier and at least one of said at least two mobile telecommunication equipment comprising reading means (113, 123) of this identifier. , the container and the mobile telecommunication equipment comprise pairing means (134, 114, 124) and storage media (135, 115, 125) of data, these means being arranged so that the reading of the identifier of the container by the reading means of said mobile telecommunication equipment triggers a pairing between the container and said mobile telecommunication equipment by their respective pairing means.
[0003]
3. Communication system according to any one of the preceding claims, wherein the first mobile telecommunication equipment (110) comprises: - means (116) for detecting the presence of the container in the area of coverage of its communication means (111) at short range and - connection means (117) automatic with the container using at least predetermined pairing data stored on a storage medium (115) of the first mobile telecommunication equipment, so that the if necessary, a communication session is opened between the first mobile telecommunication equipment and the container via their respective means of short-distance communication (111, 131).
[0004]
4. A communication system according to any one of the preceding claims, further comprising a remote server (140) with which at least one of said mobile telecommunication equipment (110, 120) is able to communicate at least to download an application to install, this application being dedicated to allow the definition and storage at least on a storage medium (115, 125) of the mobile telecommunication equipment and / or the remote server of at least one of: - a personal data bank and - a correspondence table between data communicated to the container and light sequence to be generated.
[0005]
Communication system according to any one of the preceding claims, wherein the container (1) further comprises at least one sensor (17) arranged to detect an event, the sensor being operably connected to the other electronic components of the container, so that the detection of the event by the sensor triggers, if necessary, the transmission of corresponding data by the communication means (131) of the container to the second mobile telecommunication equipment (120) or a remote server.
[0006]
A communication system according to any one of the preceding claims, wherein the container further comprises a timer (133) operably connected to the other electronic components of the container to activate or deactivate said at least one source of sensory bias (7) at least according to predetermined data stored on a storage medium (134) of the container or the first mobile telecommunication equipment.
[0007]
7. A communication system according to any one of the preceding claims, further comprising geolocation means (128) of one of said mobile telecommunication equipment, so that the sensory solicitation sequence is, if appropriate, generated at less according to corresponding geolocation data.
[0008]
A method of communication involving at least: a container (1) for a cosmetic or pharmaceutical product or a wine or a spirit, and at least two mobile telecommunication equipment (110, 120), wherein the container comprises a plurality of functionally interconnected electronic components, including: - at least one sensing source (7) arranged to emit a sensory signal to the outside of the container, - two-way short-distance communication means (131) by radio waves and control means (16) for said at least one sensory-seeking source, wherein a first (110) of said at least two mobile telecommunication equipment comprises two-way short-range radio communication means (111) the method comprising: - communicating (2000, 2100) data between the container and a second (120) of said at least two devices mobile telecommunications equipment via the first mobile telecommunication equipment (110), when the first mobile telecommunication equipment is located in a coverage area (132) of the container communication means, and / or - generating a sensory signal sequence determined at least as a function of data communicated to the container by the second (120) of said at least two mobile telecommunication equipment, the container control means controlling said at least one sensing source to generate said signal sequence sensory.
[0009]
9. The communication method as claimed in claim 8, comprising: reading (1100) an identifier associated with the container (1) by at least one of said at least two mobile telecommunication equipment (110, 120) comprising reading means (113, 123) of this identifier, and - the pairing (1200) of the container and of said mobile telecommunication equipment by respective pairing means (134, 114, 124) of the container and of said mobile telecommunication equipment . 25
[0010]
10. Communication method according to one of claims 8 and 9, comprising: - detection, by means of detection (116) of the first mobile telecommunication equipment, the presence of the container in the area of coverage of its means of short-distance communication; - the automatic connection of the first mobile telecommunication equipment (110) with the container (1) using at least predetermined pairing data stored at least on a storage medium (115) of the first mobile equipment of telecommunication, and - where appropriate, the opening of a communication session between the first mobile telecommunication equipment and the container via their respective means of short-distance communication (111, 131).
[0011]
11. The communication method according to one of claims 8 to 10, comprising downloading (1600) an application on at least one of said mobile telecommunication equipment (110, 120) from a remote server (140) with which the mobile telecommunication equipment is able to communicate, this application to be installed (1700) being dedicated to allow the definition and the storage at least on a storage medium (115, 125) of the mobile telecommunication equipment and / or the remote server of at least one of: - a personal data bank and - a correspondence table between data communicated to the container and a sequence of sensory signals to be generated.
[0012]
Communication method according to any one of claims 8 to 11, comprising: - detecting an event by at least one sensor (17) included in the container and arranged for this purpose, the sensor being functionally connected to the other electronic components of the container for triggering, if appropriate, the transmission, by the communication means (131) of the container, of data corresponding to the detected event, to the second mobile telecommunication equipment (120) and / or a remote server (140).
[0013]
13. The method of communication according to any one of claims 8 to 12, comprising the activation or extinction of said at least one source of sensory loading (7) by a timer (133) of the container, at least according to predetermined data stored on a storage medium (134) of the container or first mobile telecommunication equipment, the timer being operably connected to the other electronic components of the container.
[0014]
14. The method of communication according to any one of claims 8 to 13, further comprising determining the geolocation of at least one of said at least two mobile telecommunication equipment (110, 120) by geolocation means (126) of this mobile telecommunication equipment, so that the sensory signal sequence is, if necessary, generated according to corresponding geolocation data.
[0015]
Computer program comprising instructions for carrying out the method according to any one of claims 8 to 14, when said instructions are distributed over various storage media of the communication system according to any one of claims 1 to 7 and executed by various processors of said communication system.

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法律状态:
2016-01-28| PLFP| Fee payment|Year of fee payment: 2 |

2016-08-05| PLSC| Publication of the preliminary search report|Effective date: 20160805 |

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优先权:

申请号 | 申请日 | 专利标题

FR1550841A|FR3032184B1|2015-02-03|2015-02-03|COMMUNICATION SYSTEM AND METHOD USING A CONTAINER FOR A COSMETIC OR PHARMACEUTICAL PRODUCT OR A WINE OR A SPIRITUAL AND TWO MOBILE TELECOMMUNICATION EQUIPMENT|FR1550841A| FR3032184B1|2015-02-03|2015-02-03|COMMUNICATION SYSTEM AND METHOD USING A CONTAINER FOR A COSMETIC OR PHARMACEUTICAL PRODUCT OR A WINE OR A SPIRITUAL AND TWO MOBILE TELECOMMUNICATION EQUIPMENT|

EP16705253.9A| EP3254443B1|2015-02-03|2016-02-03|Communication system and method involving a container for a cosmetic or pharmaceutical product, a wine, or an alcoholic liquid as well as two mobile communication devices|

PCT/FR2016/050226| WO2016124857A1|2015-02-03|2016-02-03|Communication system and method implementing a recipient for a cosmetic or pharmaceutical product or a wine or a spirit and two mobile telecommunication devices|

CN201680012781.3A| CN107431724A|2015-02-03|2016-02-03|For cosmetics or the container of medicine or wine or liquor and the communication system and its implementation of two mobile communications devices|

BR112017016602-0A| BR112017016602A2|2015-02-03|2016-02-03|communication system and method implementing a container for a cosmetic or pharmaceutical product or a wine or an alcoholic beverage and two mobile telecommunication devices|

US15/548,361| US10264076B2|2015-02-03|2016-02-03|Communication system and method implementing a recipient for a cosmetic or pharmaceutical product or a wine or a spirit and two mobile telecommunication devices|

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