The present disclosure relates to a bottle storage for storing a bottle such as a wine bottle.
Wine is regularly drunk all over the world. Also, sake has begun to spread worldwide and is distributed in bottles (720 ml) of substantially the same size as wine bottles.
Wine can be stored at constant temperature in a wine cellar. A typical wine cellar electrically cools wine by using a compressor, fan, or the like. Although wine cellars are superior in managing the temperature, they are large and hard to carry. In addition, the compressor or the fan generates noise, and thus, wine cellars are not often suitable to be used at tables.
Thus, a wine cooler that cools wine with ice and water serves as a bottle storage at tables. However, wine coolers with ice and water have the disadvantage of cooling wine to be cooler than appropriate temperatures (e.g., 5 to 20° C.). In addition, a wine bottle gets wet by using such a wine cooler, and the water around the bottle needs to be wiped off with a towel every time the bottle is taken out of the wine cooler before wine is poured into a glass.
As a measure against such inconvenience, Japanese Patent No. 4406683 proposes a wine cooler in which a refrigerant can be fixed in a detachable manner on an inner wall of a refrigerating container. Japanese Patent No. 4406683 discloses that the temperature can be flexibly adjusted by adjusting the quantity or size of the refrigerant.
However, the wine cooler disclosed in Japanese Patent No. 4406683 needs further improvement.
In one general aspect, the techniques disclosed here feature a bottle storage including: a container that contains a bottle; a cooling-warming apparatus provided to surround a position where the bottle is contained; and an image capturer that captures an image of the bottle contained in the container. The cooling-warming apparatus has a gap at least at a portion of the cooling-warming apparatus corresponding to at least a part of an image capturing region of the image capturer.
These general and specific aspects may be implemented using a system, a method, and a computer program, and any combination of systems, methods, and computer programs.
According to the aspect of the present disclosure, it is possible to cool the bottle and to provide an added value based on image capturing of the bottle.
It should be noted that general or specific embodiments may be implemented as a system, a method, an integrated circuit, a computer program, a storage medium, or any selective combination thereof.
Additional benefits and advantages of the disclosed embodiments will become apparent from the specification and drawings. The benefits and/or advantages may be individually obtained by the various embodiments and features of the specification and drawings, which need not all be provided in order to obtain one or more of such benefits and/or advantages.
Now, embodiments of the present disclosure will be described below in detail with reference to the drawings as appropriate. Note that detailed description more than necessary will be omitted in some cases. For example, a well known item will not be described in detail, and components that are substantially the same will not be repeatedly described, in some cases. This prevents the following description from becoming unnecessarily redundant and makes it easier for a person skilled in the art to understand the present disclosure.
Note that the attached drawings and the following description are provided so that a person skilled in the art can fully understand the present disclosure and is not intended to limit the subject matter of the claims.
<1> Fundamental Configuration of Bottle Storage
The bottle storage 100 has a substantially cylindrical shape. Inside the bottle storage 100, a container 101 including a space for containing a bottle 1 is provided. On a side surface of the bottle storage 100, as an example of a presenter, a display 102 including a liquid crystal display or the like and a notifier 102a including a light emitting diode (LED) or the like are provided. On a top surface of the bottle storage 100, an operation input 103 including an electrostatic button or the like is provided.
The controller 107 controls the overall operation of the bottle storage 100. The cooling-warming apparatus 104 has a function of cooling or warming the bottle 1 inserted into the bottle storage 100. The position adjuster 105 adjusts the position of the cooling-warming apparatus 104 to adjust the temperature of the bottle 1. The temperature sensor 106 measures the temperature of the bottle 1 or the ambient temperature thereof.
The log information storage 109 stores, for example, an operation log, a log about the brand of the bottle 1 that is inserted, and the like.
The brand database 110 stores, for example, a large number of brand label images. In accordance with a user operation through the operation input 103, by using the image capturer 315, the controller 107 and the information manager 108 can read the label of the bottle 1 that is inserted and can retrieve a label image corresponding to the read label from the brand database 110 to be displayed on the display 102. In addition, if the brand database 110 stores other information about the large number of brands, information about the bottle 1 that is inserted (e.g., information about a maker of the beverage and information about its taste) can be retrieved from the brand database 110 to be displayed on the display 102.
On the other hand,
Note that, in the cooling-warming apparatus 104 including a Peltier device, the position of the Peltier device may be adjusted. In addition, the cooling-warming apparatus 104 and a gap may have different shapes.
Note that a cross-section of the cooling-warming apparatus 104 may have a polygonal shape instead of a circular shape. In addition, the number of gaps is not limited to two but may also be three or more.
Furthermore, the gaps do not have to be physical gaps. For example, the case 104b may be formed of a material that transmits light, and a gap for image capturing may be provided by not disposing the cooling-warming medium 104a.
<2> Air Blow Function
Note that in addition to or in place of the opening-closing door 202, an air blow fan may be provided, and the temperature may be adjusted by using the air blow fan. For example, during cooling, the air blow fan may be rotated with the opening-closing door 202 closed so as to perform quick cooling, and when it becomes too cold, the air blow fan may be rotated with the opening-closing door 202 open so as to quickly increase the temperature.
<3> Cooling Facilitating Function
The Peltier device 312 is disposed such that a cooling surface 312a faces the bottle 1 and a heat generating surface 312b faces away from the bottle 1. The cooling-warming-apparatus controller 313 controls current flowing to the Peltier device 312 so as to control a cooling operation of the Peltier device 312.
The cooling facilitator 311 includes a container 311a provided on the heat generating surface 312b side of the Peltier device 312 and a coolant 311b stored in the container 311a. The coolant 311b may be referred to as a regenerating agent or a refrigerant and is cooled at, for example, 0° C. or less in advance by using another cooling-warming apparatus or the like.
The cooling-warming apparatus 310 according to this embodiment is configured such that the heat generating surface 312b of the Peltier device 312 is cooled with the coolant 311b, and accordingly, noise is eliminated compared with a case in which the heat generating surface 312b of the Peltier device 312 is cooled by airflow of a fan or the like. In particular, since it is assumed that the bottle storage according to this embodiment is used at tables, noise generated by a fan may be annoying. However, the configuration illustrated in
As found from
In addition, although the size of the gaps of the cooling-warming apparatus 310 changes in accordance with the movement of the cooling-warming apparatus 310 as in the cooling-warming apparatus 104, both the image capturing of the image capturer 315 and cooling can be achieved. For example, if image capturing takes priority, as illustrated in
In addition, the image capturer 315 and the cooling-warming apparatus 310 are disposed to be distant from each other. For example, in
In addition, the display 102 is provided to be adjacent to the image capturer 315. The display 102 displays an image based on a captured image obtained by image capturing of the image capturer 315.
<4> Liquid Temperature Detecting Function Using Communication
In accordance with the temperature information received from the bottle cap device 500, the controller 107 of the bottle storage 400 controls the cooling-warming apparatus 310, the position adjuster 105, and/or the air blow controller 201 to adjust the temperature. Thus, the temperature of the beverage is directly measured, and the temperature can be adjusted in a preferred manner compared with a case in which the temperature is adjusted in accordance with the temperature outside the bottle 1 by using the temperature sensor 106.
<5> Weight Detecting Function
The cloud server 800 includes a storage manager 801, a log information storage 802, and a brand database 803. The cloud server 800 can perform communication with a plurality of bottle storages 600, log information of the plurality of bottle storages 600 can be recorded in the log information storage 802, and a considerably large number of brand data items can be stored in the brand database 803. The information apparatus 900 is, for example, a smartphone or the like, and includes a communicator 901, a display 902, a controller 903, an operation input 904, and the like.
Note that the cooling-warming apparatus 310 is held by the position adjuster 105, and the position adjuster 105 is moved by a moving mechanism, which is not illustrated, including a motor or the like. As a result, the cooling-warming apparatus 310 is configured to be movable to be close to or distant from the bottle 1.
Weight information obtained by the weight sensor 601 is stored in the log information storage 109 of the bottle storage 600 or the log information storage 802 of the cloud server 800.
The content ID is an ID for identifying the bottle (thus, the content ID may be referred to as a bottle ID). For example, a user inputs information for identifying the bottle 1 by using the operation input 103 when inserting the bottle 1 into the bottle storage 600.
Note that in a case of a bottle storage including an image capturer such as a camera, the image capturer captures an image of a label of the bottle, and the information manager 108 checks the captured image against an image stored in the brand database 110 so that the content ID can be identified.
The weight stored as the weight history log may be the weight of the beverage excluding the weight of the bottle as illustrated in the example in
In a case in which the bottle storage 600 is used at a restaurant, for example, a user such as a server can know from the information apparatus 900, the remaining amount of the beverage in the bottle 1 currently inserted into the bottle storage 600. If the remaining amount becomes small, the user can prepare the next bottle 1. For example, as illustrated in the example in
<6> Liquid Amount Detecting Function Using Bottle Cap
In particular, the color of emitted light of a light emitter provided on the surface of the bottle storage 1000 can be switched to another color when the remaining amount becomes smaller than a predetermined threshold, which is convenient because the color of emitted light can inform a user or a server that the beverage in the bottle storage 1000 becomes scarce.
<7> Other Embodiments
<7-1>
An audio input/output may be provided for any of the above-described bottle storages so that various kinds of information may be audibly output. For example, the brand of the bottle inserted into the bottle storage or information about the brand may be audibly output. In addition, in a case in which a sensor that detects the remaining amount of the beverage in the bottle 1 is provided, the audio output may inform a user or a server that the remaining amount of the beverage is small.
Furthermore, the bottle storage may perform interactive communication. For example, in response to a request that is audibly input from the audio input/output, information retrieved from the log information storage 109 or the brand database 110 may be output from the audio input/output.
<7-2>
The configuration in which the Peltier device 312 and the coolant 311b that has been cooled outside in advance are provided to cool the heat generating surface 312b of the Peltier device 312 with the coolant 311b, as illustrated in
<7-3>
A group 2000 is, for example, a company, an organization, a home, or the like, and may be of any scale. The group 2000 includes a plurality of bottle storages 600 and a home gateway 2001. The plurality of bottle storages 600 include one or more bottle storages that are connectable to the Internet and one or more bottle storages that are not connectable to the Internet by themselves. The one or more bottle storages that are not connectable to the Internet by themselves may include one or more bottle storages that are connectable to the Internet via the home gateway 2001. The group 2000 also includes a user 2002 who uses any of the bottle storages 600. The bottle storages 600 may perform communication with an electronic apparatus 2003 such as a smartphone used by the user 2002.
A data center managing company 2100 includes a cloud server 2101. The cloud server 2101 is a virtual server that cooperates with a variety of apparatuses via the Internet and mainly manages big data that is difficult to handle with a normal database management tool or the like. The data center managing company 2100, for example, manages data, the cloud server 2101, and a data center that manages data and the cloud server 2101.
Note that each of the bottle storages 600 may perform communication indirectly with the cloud server 2101 via a personal gateway such as a mobile phone or a wireless communication router. In addition, each of the bottle storages 600 may perform communication directly with the cloud server 2101 without a gateway.
Note that the data center managing company 2100 is not limited to a company that only manages data, the cloud server 2101, or the like. For example, in some cases, as illustrated in
In addition, the data center managing company 2100 is not limited to a single company. For example, in some cases, as illustrated in
A service provider 2200 has a server 2201. The server 2201 here may be of any scale and includes, for example, a memory in a personal computer. In addition, in some cases, the service provider 2200 does not have the server 2201.
Note that the home gateway 2001 is not necessary in the above service. For example, in a case in which the cloud server 2101 manages all data, the home gateway 2001 is unnecessary. In addition, for example, in a case in which various apparatuses at home are connected to the Internet, there are no apparatuses that are not connectable to the Internet by themselves.
Next, an information flow in the above service will be described.
First, each of the bottle storages 600 in the group 2000 transmits log information to the cloud server 2101 of the data center managing company 2100. The cloud server 2101 stores the log information from the bottle storages 600.
In some cases, the plurality of bottle storages 600 directly provide the log information to the cloud server 2101 via the Internet. In addition, the log information from the plurality of bottle storages 600 may be temporarily stored in the home gateway 2001 and may be provided from the home gateway 2001 to the cloud server 2101.
Subsequently, the cloud server 2101 of the data center managing company 2100 provides a certain amount of the stored log information to the service provider 2200. Note that the certain amount may be an amount by which the stored information can be organized by the data center managing company 2100 so as to be provided to the service provider 2200 or an amount requested by the service provider 2200. The certain amount may be variable, and the amount of information to be provided may change in accordance with the situation.
The log information is stored as necessary in the server 2201 that the service provider 2200 has. The service provider 2200 organizes the log information as information that fits a service provided to a user and provides the information to the user. The user may be the user 2002 who uses any of the plurality of bottle storages 600 or a user 2300 who manages the bottle storages 600. The user 2300 is, for example, a manager of a restaurant. Alternatively, the user may be an external user.
For example, the service may be directly provided from the service provider 2200 to the user. Alternatively, for example, the service may be provided to the user via the cloud server 2101 of the data center managing company 2100 again. Further alternatively, the cloud server 2101 of the data center managing company 2100 may organize the log information as information that fits the service provided to the user, and the information may be provided to the service provider 2200.
Note that the user 2002 and the user 2300 may be different users or an identical user.
<7-4>
The gaps of a bottle storage according to this embodiment may have a shape other than the above-described shapes.
For example, in
For example, in
In addition, in a case in which the position of the cooling-warming apparatus 104 is not adjusted, the cooling-warming apparatus 104 does not have to be divided. Thus, the shape of the cooling-warming apparatus 104 may be a shape other than the above-described shapes.
For example,
<7-5>
In a bottle storage according to this embodiment, the cooling-warming apparatus may be moved in accordance with the image capturing of the image capturer 315.
The controller 107 determines whether image capturing is to be performed (step S21). If it is determined that image capturing is to be performed (YES in step S21), the controller 107 determines whether the image capturing region is large enough (step S22). If it is determined that the image capturing region is not large enough (NO in step S22), the controller 107 causes the position adjuster 105 to move the cooling-warming apparatus 104 to be distant from the bottle containing position (step S23). Subsequently, the controller 107 causes the image capturer 315 to capture an image (step S24). Subsequently, the controller 107 causes the position adjuster 105 to move the cooling-warming apparatus 104 to be close to the bottle containing position (step S25). In other words, the controller 107 causes the position adjuster 105 to move the cooling-warming apparatus 104 back to its original position. Note that, if it is determined that the image capturing region is large enough (YES in step S22), the controller 107 causes the image capturer 315 to capture an image (step S26).
Thus, it is possible to more effectively perform both image capturing and cooling of the bottle.
<7-6>
A bottle storage according to this embodiment may move the cooling-warming apparatus in accordance with the size of the bottle that is contained. For example, the size of the bottle is determined by using the weight sensor or by performing an image recognition process.
The controller 107 determines whether a bottle has been detected (step S31). If it is determined that a bottle has been detected (YES in step S31), the controller 107 determines whether the size of the detected bottle is smaller than or equal to a threshold (step S32). If it is determined that the size of the bottle is smaller than or equal to the threshold (YES in step S32), the controller 107 causes the position adjuster 105 to move the cooling-warming apparatus 104 to be close to the bottle containing position (step S33).
Thus, even in a case in which a bottle that is smaller than an assumed size has been inserted, the cooling-warming apparatus 104 is moved to be close to the bottle containing position, and accordingly, it is possible to cool the bottle as in a case in which the size of the bottle is the assumed size. For example, the arc of the cooling-warming apparatus 104 can be optimized in accordance with the bottle.
<7-7>
A bottle storage according to this embodiment may move the cooling-warming apparatus in accordance with the contents of the bottle. Specifically, the controller 107 causes the position adjuster 105 to adjust the position of a part of the cooling-warming apparatus 104 in accordance with the remaining amount detected by the above-described remaining amount sensor 1103. For example, if the remaining amount detected by the remaining amount sensor 1103 becomes smaller than or equal to a threshold in a bottle storage including the cooling-warming apparatus 104 that is divided into two parts, as illustrated in
Note that in a case in which the cooling-warming apparatus is a Peltier device, the controller 107 may control a part of the cooling-warming apparatus to be cooled, in accordance with the remaining amount detected by the remaining amount sensor 1103. For example, if the remaining amount detected by the remaining amount sensor 1103 becomes smaller than or equal to a threshold, the controller 107 sets two lower parts of the cooling-warming apparatus 310 among four divided parts as a cooling control target.
In addition, the bottle may be moved instead of the cooling-warming apparatus. Specifically, the bottle storage further includes a raising-lowering mechanism that raises and lowers the bottle that is contained, and the controller 107 controls the raising and lowering of the raising-lowering mechanism. For example, if the remaining amount detected by the remaining amount sensor 1103 becomes smaller than or equal to a threshold, the controller 107 causes the raising-lowering mechanism to raise the bottle.
<7-8>
A bottle storage according to this embodiment may further include a rotational mechanism that rotates the bottle so as to uniformly cool the bottle by rotating the bottle. For example, if a temperature bias inside the bottle is detected, the controller 107 causes the rotational mechanism to rotate the bottle. The rotational mechanism includes a motor, and the driving of the motor rotates the bottle stand, thereby rotating the bottle. Note that the controller 107 may control the rotational speed of the bottle in accordance with the degree of the temperature bias inside the bottle. Thus, it is possible to increase the bottle cooling efficiency.
In addition, the position adjuster 105 may operate in cooperation with the above-described rotational mechanism. For example, the position adjuster 105 moves the cooling-warming apparatus 104 by using the rotation torque of the rotational mechanism. Thus, it is possible to simplify the configuration of the bottle storage and to reduce cost.
<7-9>
A bottle storage according to this embodiment may individually control the cooling performed by a plurality of Peltier devices included in the cooling-warming apparatus 310. For example, the controller 107 controls whether the plurality of Peltier devices perform cooling in a predetermined order. Alternatively, the controller 107 may control whether each of the plurality of Peltier devices performs cooling in accordance with the ambient temperature of the bottle or the temperatures of the plurality of Peltier devices. Thus, it is possible to prevent a part of the bottle from being cooled too much or to suppress a temperature bias. In addition, it is possible to suppress overheating of the Peltier devices and to efficiently discharge heat.
<7-10>
A bottle storage according to this embodiment may move the cooling-warming apparatus by using the weight of the bottle. For example, the bottle storage includes a rotational mechanism that is driven by the weight of the bottle, and the cooling-warming apparatus is moved in accordance with the rotation of the rotational mechanism. In addition, the cooling-warming apparatus may be provided with a mechanism that holds the bottle in order to fix the bottle. Thus, it is possible to omit a component such as a motor, to simplify the configuration of the bottle storage, and to reduce cost. Note that a mechanism other than the rotational mechanism may be used.
In addition, a mechanism for protecting the bottle or the label of the bottle may be provided. For example, sharp portions may be excluded from the cooling-warming apparatus. Furthermore, the cooling-warming apparatus may be disposed such that a space of a predetermined distance is provided between the cooling-warming apparatus and the bottle to be contained, and the moving range of the cooling-warming apparatus may be set. In addition, when the bottle is to be taken out, the bottle may be released from being held. For example, when the weight becomes light, the bottle is released from being held.
<7-11>
A bottle storage according to this embodiment may include a configuration for preventing air from being leaked from the opening for inserting the bottle. Specifically, the bottle storage includes an opening-closing mechanism that closes the opening upon the bottle being inserted into the container 101. For example, the opening-closing mechanism may be a mechanism such as the above-described mechanism using the weight of the bottle. In addition, the opening-closing mechanism may be an electric shutter, and upon the weight sensor detecting the weight of the bottle, the controller 107 causes the electric shutter to be closed.
In addition, instead of using the above-described configuration that physically blocks air, the bottle storage may prevent air from being leaked by using an air current. For example, the bottle storage includes an air current generator that generates an air current in the opening so as to block the opening. Upon the bottle being contained or upon starting of cooling, the controller 107 may control the air current generator. Thus, it is possible to create a wall of air between the container 101 and the outside air.
<7-12>
In a bottle storage according to this embodiment, the setting temperature of the cooling-warming apparatus 104 may be variable. Specifically, cooling-warming media 104a corresponding to temperatures are prepared, and a user puts, in the case 104b, a cooling-warming medium 104a corresponding to the setting temperature. The cooling-warming media 104a corresponding to predetermined temperature bands, such as minus 5 to 2° C., 2 to 8° C., and 8 to 10° C., are prepared. If a user puts a wrong cooling-warming medium 104a, the bottle may fail to be cooled at the setting temperature.
Accordingly, the controller 107 causes the display 102 or the notifier 102a to present a color representing a cooling-warming medium 104a to be put in. For example, the controller 107 acquires, from the brand database or the like, color information corresponding to the setting temperature in accordance with a brand that is identified on the basis of an image obtained from the image capturer 315, and causes the display 102 or the notifier 102a to display the color indicated by the acquired color information. Note that the color corresponding to the cooling-warming medium 104a may be presented by using a multi-color LED used for image capturing of the image capturer 315. This can prevent a user from putting a wrong cooling-warming medium 104a.
<8> Effects of Embodiments
As described above, according to the above embodiments, the container 101 that contains the bottle 1, the cooling-warming apparatus 104 that is provided around the container 101 for the bottle and that includes the cooling-warming medium 104a and the case 104b, and the position adjuster 105 are provided. The cooling-warming medium 104a is cooled or warmed outside in advance, and the case 104b contains the cooling-warming medium 104a. The position adjuster 105 moves the cooling-warming apparatus 104 such that the cooling-warming apparatus 104 becomes close to and distant from the bottle 1. Thus, by using a simple configuration, it is possible to provide an environment suitable for storing and drinking a beverage in a user-friendly manner.
In addition, the container 101 that contains the bottle 1, and the cooling-warming apparatus 310 that is provided around the container 101 for the bottle and that includes the Peltier device 312 are provided. The cooling-warming apparatus 310 includes the Peltier device 312 in which the cooling surface 312a faces the bottle 1 and in which the heat generating surface 312b faces away from the bottle 1, and includes the cooling facilitator 311 including the coolant 311b that cools the heat generating surface 312b of the Peltier device 312. Thus, by using a simple configuration, it is possible to provide an environment suitable for storing and drinking a beverage in a user-friendly manner.
Note that the present disclosure is not limited to the types, arrangements, numbers, and the like of the components in the above-described embodiments. Modifications may be made as appropriate without departing from the spirit of the disclosure by, for example, replacing a component with a component having substantially the same effects, as appropriate.
A bottle storage according to an embodiment of the present disclosure includes a container that contains a bottle; a cooling-warming apparatus provided to surround a position where the bottle is contained; and an image capturer that captures an image of the bottle contained in the container. The cooling-warming apparatus has a gap at least at a portion of the cooling-warming apparatus corresponding to at least a part of an image capturing region of the image capturer. Thus, it is possible to cool the bottle and to provide an added value based on image capturing of the bottle.
In the bottle storage according to an embodiment of the present disclosure, a position adjuster that moves the cooling-warming apparatus in at least one of a direction in which the cooling-warming apparatus becomes close to the position where the bottle is contained and a direction in which the cooling-warming apparatus becomes distant from the position where the bottle is contained may further be provided. In addition, the gap is reduced when the cooling-warming apparatus is moved to be close to the position where the bottle is contained, and is increased when the cooling-warming apparatus is moved to be distant from the position where the bottle is contained. Thus, it is possible to increase the cooling force by reducing the gap as a result of the cooling-warming apparatus becoming close and to decrease the cooling force by increasing the gap as a result of the cooling-warming apparatus becoming distant, and accordingly, too much or too little cooling can be suppressed.
In the bottle storage according to an embodiment of the present disclosure, the gap may have such a distance that the image capturing region of the image capturer includes the bottle when the cooling-warming apparatus is moved to be close to the position where the bottle is contained. Thus, it is possible to maintain the image capturing region even if the gap is reduced.
In the bottle storage according to an embodiment of the present disclosure, the gap may have such a distance that the image capturing region of the image capturer does not include the bottle when the cooling-warming apparatus is moved to be close to the position where the bottle is contained. Thus, cooling can take priority, and the cooling force for the bottle can be increased.
In the bottle storage according to an embodiment of the present disclosure, the position adjuster may move the cooling-warming apparatus in accordance with image capturing of the image capturer. Thus, it is possible to more effectively perform both image capturing and cooling.
In the bottle storage according to an embodiment of the present disclosure, the position adjuster may move the cooling-warming apparatus in such a manner that the cooling-warming apparatus becomes distant from the position where the bottle is contained, before the image capturer performs image capturing. Thus, it is possible to maintain the image capturing region while suppressing a decrease in the cooling force.
In the bottle storage according to an embodiment of the present disclosure, the position adjuster may move the cooling-warming apparatus in such a manner that the cooling-warming apparatus becomes close to the position where the bottle is contained, after the image capturer has performed image capturing. Thus, it is possible to suppress a decrease in the cooling force while maintaining image capturing opportunities.
In the bottle storage according to an embodiment of the present disclosure, the position adjuster may move the cooling-warming apparatus in accordance with a temperature of the bottle. Thus, it is possible to adjust the cooling force in accordance with the degree of cooling of the bottle and to manage the temperature of the bottle more appropriately.
In the bottle storage according to an embodiment of the present disclosure, a size detector that detects a size of the bottle may further be provided. In addition, the position adjuster may move the cooling-warming apparatus in accordance with the size that is detected. Although the distance to the cooling-warming apparatus may be variable depending on the size of the bottle so as to possibly cause too much or too little cooling, the above configuration adjusts the distance in accordance with the size. Thus, it is possible to optimize the cooling force regardless of the size.
In the bottle storage according to an embodiment of the present disclosure, a remaining amount detector that detects a remaining amount of contents of the bottle may further be provided. In addition, the position adjuster may move a part of the cooling-warming apparatus in accordance with the remaining amount that is detected. If the contents of the bottle are reduced, the contents in a bottom portion are unlikely to be cooled. However, the above configuration causes the bottom portion to be predominantly cooled if the remaining amount is reduced. Thus, the contents can be cooled more reliably.
In the bottle storage according to an embodiment of the present disclosure, the cooling-warming apparatus may include a cooling-warming medium and a case that contains the cooling-warming medium. Thus, a coolant of the related art can be used.
In the bottle storage according to an embodiment of the present disclosure, the cooling-warming apparatus may include a Peltier device in which a cooling surface faces the bottle and in which a heat generating surface faces away from the bottle, and a coolant that cools the heat generating surface of the Peltier device. Thus, cooling can be controlled more delicately.
In the bottle storage according to an embodiment of the present disclosure, the cooling-warming apparatus may be disposed such that a center of the cooling-warming apparatus is more distant from the image capturer than a center of the bottle storage. Thus, it is possible to prevent the image capturer from being cooled, otherwise causing a malfunction.
In the bottle storage according to an embodiment of the present disclosure, an information manager that identifies a brand of the bottle in accordance with an image obtained from the image capturer, and a presenter that presents the brand that is identified and related information related to the brand may further be provided. Thus, it is possible to provide an added value based on a captured image.
The bottle storage according to an embodiment of the present disclosure produces effects of cooling the bottle and of providing an added value based on image capturing of the bottle, and is suitably used as a bottle storage for a wine bottle or the like.
Number | Date | Country | Kind |
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2017-032640 | Feb 2017 | JP | national |
2017-208810 | Oct 2017 | JP | national |