FR2970956A1 - Container for containing e.g. white wine, has thermally insulating main wall in form of cylindrical shaped insulating tube, and thermally conducting complementary wall in contact with controlled temperature surface of receiving base - Google Patents

Abstract

The container (201) has a thermally insulating main wall and a thermally conducting complementary wall that is in contact with a controlled temperature surface (121) of a receiving base (101). The main wall is in the form of a cylindrical shaped thermally insulating tube (211) having a closed end and a closable end. The complementary wall is integrated in a closing element to be fixed to the closable end of the tube. The closing element is in the form of a thermally interfacing disk (221). A temperature sensor provides an electrical signal indicating a temperature within the container. An independent claim is also included for a container receiving base.

Description

The present invention relates to a container which can contain a consumable product. The consumable product may be in a refill that has been introduced into the container. The consumable product may be, for example, wine. Another aspect of the invention relates to a home base for accommodating such a container. STATE OF THE PRIOR ART [0004] The patent application published under the number US 2007/0245765 A1 describes a system that can accommodate several wine containers which are cooled by 1 o a bottom tray. SUMMARY OF THE INVENTION [0005] There is a need for a solution allowing the distribution of a consumable product in a more flexible and suitable manner, especially for the end user. According to one aspect of the invention, a container adapted to contain a consumable product characterized in that the container comprises: a thermally insulating main wall, and a thermally conductive complementary wall adapted to contact a temperature-controlled surface. Such a container may be used separately from a home base including the temperature controlled surface. The consumable product contained in the container can reach a desired consumption temperature, when the container is in the home base. However, a consumer may at any time remove the container from the home base to, for example, place the container on a meal table or other place of consumption such as, for example, a picnic spot. The consumable product deviates only relatively slowly from the consumption temperature due to the fact that the container is substantially thermally insulating. After a meal or other consumption event, the container may return to the home base by placing it on a temperature controlled surface. According to another aspect of the invention, a home base is arranged to accommodate a container as defined in the foregoing, the home base comprising a temperature-controlled surface on which the container can be placed. [Oolo] An embodiment of the invention advantageously comprises one or more of the following additional features, which are described in the following paragraphs. These additional features generally contribute to the distribution of a consumable product in a more flexible and convenient manner, especially for the end user. The container advantageously comprises two removably fixable parts to one another, a part comprising the main thermally insulating wall, and the other part comprising the complementary thermally conductive wall. Thus, the container is able to accommodate a refill of consumable product which, when empty, can be replaced by another refill of consumable product. The main wall is advantageously in the form of a thermally insulating tube having a closed end and another closable end. The complementary wall is advantageously included in a shutter member which can be fixed to the closable end of the thermally insulating tube. The tube is preferably cylindrical in shape, the shutter member being in the form of a disc. The tube is advantageously provided with a rotational fixing member and the closure member is provided with a complementary rotational fixing member. The tube advantageously comprises a cutout at the end closable, the cutout being arranged to accommodate a valve, the valve being taken between the thermally insulating tube and the thermally conductive sealing member when the latter are fixed one. to the other so that the tap is locked in translation. This allows the faucet to be a separate piece that can be cleaned and used interchangeably on different refills. The container advantageously comprises a code reader adapted to read a code affixed to a consumable product refill introduced into the container. This allows a desired consumption temperature to be communicated to a home base including the temperature-controlled surface. The container advantageously comprises a window for a visual reading of a visual indication affixed to a refill of consumable product. The container advantageously comprises a temperature sensor capable of providing an electrical signal indicating a temperature within the container. This allows a host base to perform accurate temperature control by means of a servo loop. The container advantageously comprises an electrical circuit which may comprise at least one of the following entities mentioned in the foregoing: the code reader and the temperature sensor. The container further includes an electrical interface for electrically connecting the electrical circuit to a home base including the temperature controlled surface. [0o2o] The reception base advantageously comprises a plurality of temperature-controlled surfaces, the reception base being arranged to control these temperature surfaces independently. Thus, the home base can provide and maintain different types of consumables at respective temperatures that suit them. For example, the base can hold a container containing full-bodied red wine at 17 °, another container containing light red wine at 14 °, and another container containing 12 ° white wine. The reception base advantageously comprises a structure in the form of an arc covering a temperature-controlled surface so that the container can be removably placed between the arcuate structure and the surface. at controlled temperature. The reception base advantageously comprises a presence detector 30 capable of detecting a container placed on the temperature-controlled surface, and a control system for carrying out temperature control of the temperature-controlled surface, the control system. being arranged to inhibit temperature control when the presence detector indicates that no container is placed on the temperature controlled surface. This allows energy savings. The reception base advantageously comprises a Peltier element thermally connected to the temperature controlled surface, and a controlled current source arranged to pass an electric current through the Peltier element as a function of a temperature measured within of the container. The home base advantageously comprises a weight detector capable of providing an indication of a weight based on the surface temperature controlled 1 o. The host base further comprises a processor capable of determining a number of consumable units remaining in a container placed on the surface at a controlled temperature from the indication of the weight provided by the weight detector, and a display capable of displaying the number of consumable units remaining. It should be noted that the implementation of these features does not require a container and a docking base according to the invention. The features are applicable to any type of device that can accommodate a container containing a consumable product, the container may be a conventional container. [0025] A detailed description with reference to drawings illustrates the invention briefly described above, as well as the additional features identified above. SUMMARY DESCRIPTION OF THE DRAWINGS - Figure 1 is a schematic diagram illustrating a front view of a consumables distributor. FIG. 2 is a schematic diagram illustrating a perspective view of a home base of the consumable dispenser. FIG. 3 is a schematic diagram illustrating a perspective view of a container forming part of the consumables dispenser during the introduction of a refill of consumable product. FIG. 4 is a schematic diagram illustrating a perspective view of a main portion of the thermally insulating wall container. - Figure 5 is a schematic diagram illustrating a sectional view of the dispenser of consumables. FIGS. 6 and 7 are diagrammatic diagrams illustrating a code carrier forming part of a refill of consumable product, the code carrier engaging with a code reader forming part of the container. FIG. 8 is a schematic diagram illustrating an exploded perspective view of a valve and an operable shutter device as part of the consumable refill. FIG. 9 is a schematic diagram illustrating a sectional view of the valve and shutter device operable in an assembled state. DETAILED DESCRIPTION [0028] FIG. 1 schematically illustrates a distributor of consumable products by means of a front view. The dispenser of consumable products allows, for example, to keep and serve different types of wine, each wine at a temperature that is appropriate to it. The consumables dispenser comprises a home base 101 and three separate containers 201, 202, 203. These three containers 201, 202, 203 may comprise three different types of wine, each container containing a particular type of wine. The three containers 201, 202, 203 are releasably placed in the home base 101. Any of the three containers 201, 202, 203 shown in FIG. 1 can therefore be removed from the home base 101 independently of other containers. In addition, the three containers 201, 202, 203 can be interchanged arbitrarily with each other. In more detail, the reception base 101 comprises a carrier plate 102 and a structure in the form of an arc 103 covering the carrier plate 102. The three containers 201, 202, 203 can therefore be removably placed. between the carrier plate 102 and the structure in the form of an arc 103. The reception base 101 comprises three displays 111, 112, 113, a display for each location of a container. A display, which is below a location, displays information about a container in that location and, more particularly, information relating to a consumable product contained in the container. For example, a display may display a measured temperature within the container. A display may also display a quantity of the consumable product still present in the container, in the form of a number of consumable units. For example, in the case where the consumable product is a wine, the display makes it possible to display the number of glasses of wine that can still be served from the quantity of wine remaining in the container. The three containers 201, 202, 203 have an identical structure. A container 201 among these three containers 201, 202, 203 will be described in more detail. This description therefore also applies to other containers 202, 203. The container 201 comprises a main portion 211 and a complementary portion 221 which can be fixed to one another removably. In this case, the main part 211 forms a thermally insulating wall of the container. The complementary part 221 forms a thermally conductive wall of the container. This thermally conductive wall is in contact with the carrier plate 102 of the reception base 101. The container 201 comprises a window 212 making it possible to visually identify a content of the container 201. [0034] A tap 301 enables the contents of the container to be removed. 201. The valve 301 comprises a pushbutton 302 and a discharge conduit 303 through which the contents can flow from the container 201 when a user presses the push button 302. The valve 301 is taken between the part main 211 of the container 201 and its complementary part 221 when these parts are firmly fixed to each other as shown in Figure 1. In this situation, the valve is locked in translation which prevents the valve 301 is removed inopportunely. The valve 301 forms a separate part: the valve 301 can be removed when the two aforementioned parts of the container 201 are no longer firmly attached to one another. Thus, the valve 301 can be cleaned when needed. [0035] Figure 2 schematically illustrates the home base 101 by means of a perspective view. In this figure, no container is placed in the reception base 101. Figure 2 illustrates that the carrier plate 102 comprises three surfaces 121, 122, 123 at controlled temperature. Each temperature-controlled surface corresponds to a location for a container 201. A temperature-controlled surface 121 therefore corresponds to a location of the container 201 shown in FIG. 1, which has been described in more detail. This container 201 is thus placed so that the thermally conductive wall mentioned in the foregoing and the surface 121 at controlled temperature are in contact. In an advantageous embodiment, the temperature-controlled surface 121 and the thermally conductive wall are respectively provided with a relief and a complementary relief defining a single and correct orientation of the container 201 with respect to the reception base 101. For example, these reliefs may have a triangular shape pointing to a center of the surface 121 at controlled temperature. In this case, the surface 121 at controlled temperature may comprise a triangular projection, the thermally conductive wall comprising a triangular hollow, or vice versa. These reliefs guide a user to correctly place the container 201 in the reception base 101. [0036] Figure 3 is a schematic diagram illustrating a perspective view of the container 201 upon introduction of a consumable refill. 401. Figure 3 illustrates that the main portion 211 of the container 201 is in the form of a thermally insulating cylindrical tube. This tube comprises a closed end 213 which faces the structure in the form of an arc 103 illustrated in FIG. 1 when the container 201 is placed in the reception base 101. The tube comprises another closable end 214. The complementary portion 221 of the container 201 constitutes a closure member which removably attaches to the closable end 214 of the tube. The shutter element is in the form of a disk that acts as a thermal interface. In the following, the main portion 211 of the container 201 will be called insulating tube 211, and the complementary portion 221 will be called thermal interface disk 221 for reasons of convenience. The consumable product refill 401 comprises a code carrier 411 in the form of a wafer. This carrier code 411 will be called platelet coded 411 in the following for reasons of convenience. The coded wafer 411 comprises a machine-readable code, in this case the container 201 placed in the receiving base 101 as illustrated in FIG. 1. The code indicates an appropriate consumption temperature for the contents in 401. This indication can also indicate the content itself, such as, for example, a type of wine that is in the consumable product refill 401. The appropriate consumption temperature can be unequivocally associated with the type of consumable. wine. This association can be fixed or modifiable by a user. The coded wafer 411 may comprise a visual indication which is visible through the window 212 in the insulating tube 211 when the refill of consumable product 401 has been correctly inserted into the insulating tube 211. The visual indication may indicate, for example, for example, a type of wine contained in the refill of consumable product 401 by means of a color such as, for example, the yellow color for a white wine, the pink color for a rosé wine, and the red color for a red wine. The visual indication may also include one or more alphanumeric characters. 3 illustrates that the valve 301, also shown in Figure 1, is removably attached to the consumable product recharge 401. The valve 301, with its push button 302 and its exhaust duct 303, can therefore be removed from the consumable product refill 401 to, for example, undergo cleaning. The valve 301 is universal in the sense that this part can be placed on any refill consumable product arranged to be introduced into the container 201. [oo4o] The insulating tube 211 comprises a cutout 215 at its end closable 214 as illustrated FIG. 3. The valve 301, which is fixed on the consumable product refill 401, is housed in the cutout 215 when the refill of consumable product 401 is introduced into the insulating tube 211. The cutout 215 is arranged in such a way that the Valve 301 is wedged between the insulating tube 211 and the thermal interface disk 221 when the latter two elements are firmly attached to each other. In addition, the cutout 215 accommodates the code carrier 411 of the consumable product refill 401, which will be described in more detail in the following. The insulating tube 211 may be provided with a fixing element by rotation.

In this case, the thermal interface disk 221 is provided with a complementary rotation fastening element. For example, the insulating tube 211 may be provided with a thread and the thermal interface disc 221 may be provided with a complementary thread. In this case, the thermal interface disk 221 can be screwed onto the insulating tube 211 when the consumable refill 401 has been correctly inserted into the insulating tube 211. However, a rotational attachment can be obtained by other means. as, for example, a bayonet device. [0042] Figure 4 illustrates the insulating tube 211 and its cutout 215 in more detail. The insulating tube 211 includes a slot 216 at its closable end 214. The slot 216 surrounds the blank 215. In addition, the slot 216 defines a pair of grooves 217, 218 at opposite edges of the blank 215. The window 212 in the The insulating tube 211 passes through the slot 216. The coded plate 411 shown in FIG. 3 engages firstly in the pair of grooves 217, 218 when the refill of consumable product 401 is correctly inserted into the insulating tube 211. The slot 216 is arranged to accommodate the coded plate 411; the coded wafer 411 substantially occupies the slot 216 when the refill consumable 401 is in the container 201. The window 212, which passes through the slot 216, then shows the visual indication on the coded wafer 411. [0043] Figure 5 schematically illustrates the dispenser of consumables by means of a sectional view. The insulating tube 211 comprises a code reader 231 able to read the code carried by the coded plate 411. The code reader 231 is located in the slot 216 illustrated in FIG. 4, or near the tooth 216. The insulating tube 211 further comprises a temperature sensor 241 which provides an electrical signal indicative of a temperature within the vessel 201. This temperature will be referred to as the temperature measured in the following. The insulating tube 211 may comprise a plurality of temperature sensors as illustrated in FIG. 5 by showing an additional temperature sensor 242 in dashed lines. The code reader 231 and the temperature sensor 241 are electrically connected to an electrical interface 251 which is part of the insulating tube 211. The reception base 101 receives the read code of the coded plate 411, and the signal indicating the temperature within the container 201, through this electrical interface 251. The docking base 101 typically comprises a complementary electrical interface which is not shown in Figure 5 for reasons of simplicity. The base 101 includes a temperature control system 131-134 for performing a temperature control of the surface 121 at a controlled temperature. This temperature control is advantageously carried out on the basis of the code read from the coded plate 411 and the electrical signal indicating the temperature within the container 201. The temperature control system 131-134 advantageously constitutes a control loop which brings the temperature measured at the consumption temperature indicated by the code. The temperature control system 131-134 can be arranged in such a way that a user can derogate from the consumption temperature indicated by the code. For example, the user might prefer a consumption temperature of one degree more or one degree lower and thus program the temperature control system 131-134. In what follows, the consumption temperature indicated by the code carried by the coded plate 411, with a possible derogation, will be called the reference temperature in what follows. Each of the other temperature controlled surfaces 122, 123 shown in FIG. 2 also includes a temperature control system of its own. The three surfaces 121, 122, 123 at controlled temperature are therefore controlled independently. The following description relating to the temperature control system 131-134 for the temperature-controlled surface 121 therefore also applies to the other temperature control systems for the other temperature controlled surfaces 122, 123. In more detail, the temperature control system 131-134 can be implemented as follows. A Peltier element 131 is thermally connected to the surface 121 at a controlled temperature. Specifically, the Peltier element 131 includes a cooling side and an opposite side that heats when an electric current passes through the Peltier element 131. In this example, the cooling side is thermally connected to the surface 121. at controlled temperature. The side which heats up, and which therefore gives off heat, is provided with a cooling grid 132 to evacuate this heat. A fan 133 draws the heat downward so that the heat is exhausted to the outside. A servocontrol circuit 134 passes an electric current through the Peltier element 131 as a function of the temperature measured in the container 201. The servocontrol circuit 134 advantageously compares the measured temperature with the reference temperature. In the case where the measured temperature is greater than the reference temperature, the servocontrol circuit 134 passes an electric current through the Peltier element 131. In the opposite case, the measured temperature is lower than the reference temperature, the servo circuit 134 does not run any electric current through the Peltier element 131. This constitutes an "on / off" control, which typically includes a hysteresis. However, a control in which the electric current varies in amplitude is also possible. The reception base 101 advantageously comprises a detector 1 o presence able to detect a container placed on the surface 121 at controlled temperature. This presence detector is not shown in Figure 5 for reasons of simplicity. The presence detector can detect whether a container is present, yes or not, from the presence or absence of an electrical connection with a container. For example, the absence of a signal indicating a temperature within the container, or the absence of a read code, indicates the absence of a container. The temperature control system 131-134 advantageously inhibits temperature control when the presence detector indicates that no container is placed on the surface 121 at a controlled temperature. In this case, the temperature control functions only when a container 20 is placed on the surface 121 at a controlled temperature. [0o5o] The base 101 advantageously comprises a weight detector capable of providing an indication of a weight based on the surface 121 at controlled temperature. A processor advantageously determines a number of consumable units remaining in the container 201 from this weight indication. The number of consumable units can then be displayed by the display illustrated in Figure 1 which is below the location for the container 201. The base 101 may further include a proximity sensor 141 adapted to detect a person who is relatively close to the home base 101. In the case where the proximity detector 141 detects a person, the three displays 111, 112, 113 shown in Figure 1 are active. In the case where the proximity detector 141 detects no person during a predefined period of time, the three displays 111, 112, 113 can be in standby mode, or even disabled. Figures 6 and 7 schematically illustrate an implementation of the coded wafer 411 and the code reader 231 that goes with it. Figure 6 illustrates a situation where these elements are separated. FIG. 7 illustrates a situation where coded wafer 411 is engaged with code reader 231. Code reader 231 comprises a set of switches 232. Coded wafer 411 includes a mechanical keying 441 which, in this example, is 'apparent at a toothed edge. The mechanical keying 441 imposes respective states on the respective switches when the coded wafer 411 is engaged with the set of switches 232 as shown in FIG. 7. The code reader 231 transforms these respective states of the switches into an electrical code. . This electrical code appears in the reception base 101 shown in FIG. 5 via the electrical interface 251 of the container 201. The servocontrol circuit 134 is advantageously arranged to interpret this code and to deduce the consumption temperature therefrom. . Figure 8 schematically illustrates the valve 301 and an actuatable shutter 410 by means of an exploded perspective view. The operable shutter 410 is part of the consumable refill 401 shown in FIG. 3. The valve 301 can be removably attached to the operable shutter 410. FIG. 8 illustrates the push button 302 and FIG. the exhaust pipe 303 of the valve 301 also shown in Figures 1 and 3. The push button 302 is attached to a piston 304, these two elements can form a single piece. The valve 301 comprises a main body 305 in which the exhaust duct 303 is located. The push-button 302, as well as the piston 304 fixed thereto, is housed in an actuating duct 306 in the main body 305. The actuating conduit 306 permits translational movement of these elements in the main body 305 of the valve 301. The main body 305 includes a front face 307 on one end and nozzles 308, 309 on an opposite end. FIG. 8 illustrates that the coded plate 411, also illustrated in FIGS. 3, 6 and 7, is fixed on the operable shutter device 410 of the consumable product refill 401. More specifically, the coded plate 411 is attached to a drain plug 412. The drain plug 412 accommodates a valve device 413 which fits within the drain plug 412. The drain plug 412 attaches firmly to a drain collar 414 around a filling and evacuation opening. This opening is in a pocket adapted to contain a consumable product such as, for example, wine. Once attached to the exhaust collar 414, the drain plug 412 becomes integral with the consumable refill 401. The exhaust plug 412 includes notches 415 in which the nozzles 308, 309 on the body main 305 of the valve 301 are inserted. These tips 308, 309 and notches 415 have a function of guiding the valve 301 relative to the actuable shutter 410. In addition, the 1 o tips 308, 309 prevent the valve 301 to be removed when it is fixed on the operable shutter 410 and the consumable refill 401 is in a container 201 as shown in Fig. 1. The vent plug 412 includes an actuation point 417 which allows the piston 304 attached to the push-button 302 to actuate the valve device 413. The actuation point 417 is provided with a seal 418 by, for example, gluing. The drain plug 412 includes an exhaust outlet 419 which is located below the operating point 417 in FIG. 8. This exhaust outlet 419 is aligned with the exhaust duct 303 of the valve 301. [0056 Fig. 9 schematically illustrates the valve 301 and the operable shutter device 410 by means of a sectional view. The valve 301 is attached to the operable shutter 410, these elements being assembled with respect to Fig. 8. Fig. 9 illustrates the valve device 413 in more detail. The valve device 413 comprises a spring 420 and a valve member 430 connected to the spring 420. The valve member 430 includes an actuating portion 431 and a sealing portion 432. In the rest state, the spring 420 exerts a closing force on the valve member 430 so that the sealing portion 432 blocks the exhaust outlet 419. This prevents evacuation of the contents of the consumable refill 401. The vent Thus, when the user presses the push-button 302, the piston 304 performs a translational movement, so that the actuating portion 301 is discharged from the valve 301. 431 of the valve device 413 undergoes an actuating force. This actuating force has a direction opposite to that of the closing force. The actuating force causes a compression of the spring 420 and a translational movement of the shutter member in the same direction relative to the translational movement of the piston 304. Thus, the shutter member moves away from the exhaust outlet 419, which is released, as long as the actuating force is exerted. The contents of the consumable refill 401 can be evacuated through the exhaust outlet 419 and the exhaust duct 303 of the valve 301, which are aligned. Therefore the user no longer presses the push button 302, the spring 420 decompresses and the valve device 413 returns to the state of rest described 1 o in the foregoing. The exhaust outlet 419 is again blocked by the shutter portion 432 of the valve member 430. Referring to FIGS. 1-9, a method of dispensing and consuming a consumable product may understand the following steps. In a first charging step, the consumable product is introduced into a bag provided with the exhaust collar 414 shown in FIG. 8. Once the bag is filled, the drain plug 412 is firmly attached to the collar. 414. Then, the coded plate 411 can be affixed to the discharge plug 412. In a variant, the discharge plug 412 can already be provided with the coded plate 411 when the discharge plug is fixed on the exhaust collar 414. The bag filled with the consumable product and whose exhaust collar 414 has received the discharge plug 412 provided with the coded plate 411, constitutes a refill 401 as illustrated in FIG. 401 recharge can then be shipped to a consumer. In a first consumption stage, the consumer places the tap 301 on the drain plug 412. Then, the consumer introduces the refill 401 into the insulating tube 211 as illustrated in FIG. 3. By doing so, the valve 301 is housed in the cutout 215 and the coded wafer 411 is housed in the slot 216 illustrated in FIG. 4. Thus, the code reader 231 illustrated in FIG. 5 can read the code carried by the coded wafer 411. In a Alternatively, the consumer 30 can first introduce the refill 401 into the insulating tube 211 and then place the valve 301 on the drain plug 412. The consumer then attaches the thermal interface disc 221 to the insulating tube 211 which together constitute the container 201 illustrated in FIG. 1. The consumer places the container 201 on one of the temperature-controlled surfaces 121, 122, 123 of the reception base 101 illustrated in FIG. 2. The reception base 101 receives by the Two types of information are provided on the electrical interface 251: the code carried by the coded plate 411, indicating the consumption temperature, as well as the temperature measured within the vessel 201 by the temperature sensor 241. The control system temperature 131-134 brings the consumable product to the indicated consumption temperature, assuming that the consumer does not derogate. The consumer can at any time remove the container 201 from the base 101 to place, for example, the container 201 on a dining table or other place of consumption as, for example, a place of spades. picnic. The consumable product deviates only relatively slowly from the consumption temperature due to the fact that the container 211 is substantially thermally insulating. After a meal or other consumption event, the container 211 may return to the home base 101 by placing it on one of temperature controlled surfaces 121, 122, 123. FINAL REMARKS [0064] The detailed description with reference to the figures is merely an illustration of the invention. The invention can be realized in many different ways. In order to illustrate this, some alternatives are indicated briefly. The invention can be advantageously applied in many applications in the field of the distribution of a consumable product. Wine is only one example of a drink that can be introduced into a container according to the invention and taken from it. The drink can be heated instead of cooled. There are different ways to implement a container according to the invention. A container can "directly" contain a consumable product without a refill being used. In this case, it is not necessary for the container to comprise at least two detachable parts to one another. For example, such a container may be disposable and, in this case, the container is preferably recyclable. In another example, a container may be reusable and refillable and for this purpose include a filler cap. In the case where a container comprises at least two detachably fixable parts to one another, it is not necessary for one part to be entirely thermally insulating and the other part to be entirely thermally conductive. . For example, a container may be in the form of a thermally insulating tube having a closed end comprising a thermally conductive wall having a role of thermal interface. A sealing member 1 fixable to the closable end of the thermally insulating tube can then also be thermally insulating. Furthermore, a container according to the invention is not necessarily a tube. A container may be, for example, in the form of a cube or parallelepiped having a wall of which at least a portion is thermally conductive, the other walls being thermally insulating. There are different ways to implement a refill of consumable product that can be introduced into a container according to the invention. The refill of consumable product is not necessarily in the form of a flexible pouch that can contain a consumable product. For example, the refill 20 of consumable product may have one or more rigid walls giving the refill a certain shape such as, for example, a cylindrical shape. In addition, a charge of consumable product may comprise one or more thermally conductive walls which contributes to achieving a relatively homogeneous temperature within the refill. These walls effectively transfer cold, or where appropriate heat, from a temperature-controlled surface to a portion of the refill lying relatively far away from that surface. There are different ways to provide a refill of consumable product with a machine readable code. For example, the refill may be provided with a bar code indicating a temperature of consumption. In this case, a container comprises an optical reader able to read the bar code. In another example, a refill of the consumable product may be provided with an electronic chip communicating by radiofrequency (in English: RFID tag). In this case, a container includes a radio frequency reader. A home base may also include such a reader. In this regard, it should be noted that in the case where refills are not used, the consumable product being directly contained in the container, the container would be provided with a code indicating the temperature of consumption. [oo7o] There are different ways to allow communication between a container and a home base. For example, the embodiment illustrated in FIG. 5 can be modified so that the electrical interface 251 faces the surface 121 at a controlled temperature. In this case, the controlled temperature surface 121 comprises a complementary electrical interface capable of making electrical contact with the electrical interface 251. In another example, the communication may be of the "wireless" type by transmission and reception of a radiation carrying information. Although the drawings show different functional entities in the form of different blocks, this does not exclude implementations where a single physical entity performs several functions, or several physical entities collectively perform a single function. The foregoing remarks show that the detailed description with reference to the figures illustrates the invention rather than limiting it. The signs of 20 references have no limiting character. The verbs "understand" and "include" do not exclude the presence of other elements or steps other than those listed in the claims. The word "a" or "an" preceding an element or a step does not exclude the presence of a plurality of such elements or steps.

Claims (16)

REVENDICATIONS1. Container (201) adapted to contain a consumable product, characterized in that the container comprises: - a main wall (211) thermally insulating, and a complementary wall (221) thermally conductive able to contact a surface (121) temperature controlled. 2. Container (201) according to claim 1, comprising two mutually detachable parts to one another, a part comprising the main thermally insulating wall (211), and the other part comprising the thermally complementary wall 1 o conductive (221). The container (201) according to claim 2, wherein: - the main wall (211) is in the form of a thermally insulating tube having a closed end (213) and another closable end (214), and 15 - the complementary wall (221) is included in a shutter member fixable to the closable end (214) of the thermally insulating tube. The container (201) according to claim 3, wherein: - the tube (211) is cylindrical in shape, and the shutter member (221) is in the form of a disc. The container (201) of claim 4, wherein the tube (211) is provided with a rotational attachment member and the closure member is provided with a rotational attachment complementary member. Container (201) according to any one of claims 3 to 5, wherein the tube (211) comprises a cutout (215) at the closable end (214), the cutout being arranged to house a valve (301). the valve being taken between the thermally insulating tube and the thermally conductive sealing member when the latter are fixed to each other so that the valve is locked in translation. 7. Container (201) according to any one of claims 2 to 6, which comprises a code reader (231) capable of reading a code affixed to a refill of consumable product introduced into the container (401). A container (201) as claimed in any one of claims 2 to 7 which includes a window (212) for visually reading a visual indication affixed to a consumable refill (401). 9. Container (201) according to any one of the preceding claims, which comprises a temperature sensor (241) adapted to provide an electrical signal indicating a temperature within the container. A container (201) according to any one of claims 7 and 9, which comprises: an electrical circuit which may comprise at least one of the following entities: the code reader (231) and the temperature sensor (241), and an electrical interface (251) for electrically connecting the electrical circuit to a receiving base (101) including the temperature controlled surface (121). A receiving base (101) for receiving a container (201) as claimed in any one of the preceding claims, the receiving base comprising a temperature controlled surface (121) on which the container can be placed. 25 The docking base (101) according to claim 11, comprising a plurality of temperature-controlled surfaces (121, 122, 123), the docking base being arranged to independently control said temperature surfaces. The reception base (101) according to any one of claims 11 and 12, which comprises an arc-like structure (103) covering a temperature-controlled surface (121) so that the container ( 201) can be removably placed between the arc structure and the temperature-controlled surface. 14. Reception base (101) according to any one of claims 10 to 13, which comprises: - a presence detector capable of detecting a container (201) placed on the surface (121) at a controlled temperature, and - a control system (131-134) for temperature control of the temperature-controlled surface, the control system being arranged to inhibit temperature control when the presence detector indicates that no container is placed on the surface (121) at controlled temperature. 15. Reception base 101 according to any one of claims 11 to 14, which comprises: - a Peltier element (122) thermally connected to the temperature controlled surface, and - a controlled current source arranged to pass through a electric current through the Peltier element as a function of a temperature measured within the container (201). 16. Home base 101 according to any one of claims 11 to 15, which comprises: - a weight detector capable of providing an indication of a weight based on the surface (121) at a controlled temperature, a processor able to determine a number of consumable units remaining in a container (201) placed the surface (121) temperature controlled from the weight indication provided by the weight detector, and a display capable of displaying the number of Consumable units remaining.