JP3881884B2 - Food storage - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a food storage that can perform inventory management of food to be stored.
[0002]
[Prior art]
Conventionally, inventory management of food stored in a refrigerator has been performed. For example, a non-contact tag that records food information such as food name and expiration date is attached to a container or package of food to be stored, and then the food is stored in the refrigerator, and the refrigerator reads the information stored in the non-contact tag. That is what has been devised. According to this, even if the user does not read the information about the food stored from the food container or package, the refrigerator can automatically recognize and manage the information about the food.
[0003]
[Problems to be solved by the invention]
However, the non-contact tag only stores information specific to the food determined by the type of food such as the name of the food and the expiration date, and information that changes according to the use situation of the user, for example, the weight and quantity of the food. Information is not stored. For this reason, in the conventional method, the refrigerator cannot grasp the remaining amount of food and cannot manage the remaining amount of food. Since it is frequently performed that the user uses a small amount of food and returns it to the refrigerator, managing the remaining amount of food is a very important factor in managing food.
[0004]
In addition, in the conventional method, it is possible to obtain information about the food stored from the non-contact tag, but it is not possible to obtain information about where the food is in the refrigerator. For this reason, for example, when a user searches for a food whose expiration date has expired, there is a problem in that it cannot be found in a short time, and the time for opening the refrigerator door becomes long, resulting in excessive power consumption.
[0005]
As a solution to this problem, there is a management method in which a place where food is stored is determined in advance, a contact sensor is installed in that place, and a predetermined food is always placed in that place. It is necessary for the user to confirm the storage location for each food item, and the time for keeping the refrigerator door open becomes long.
[0006]
This invention is made | formed in view of this point, and it aims at providing the food storage which can manage the storage position and weight of the stored food in addition to the information peculiar to the stored food.
[0007]
[Means for Solving the Problems]
The food storage of the present invention includes a tag reading means for reading a non-contact tag storing information of food attached to the stored food, a position detecting means for detecting the position of the stored food, and detecting the weight of the stored food. Weight detecting means.
[0008]
Thereby, in addition to the information on the stored food, the storage position of the stored food and the remaining amount of the stored food can be recognized and managed.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
  The food storage according to the first aspect of the present invention includes a tag reading unit that reads a non-contact tag that stores information on the food attached to the stored food, and a position detection unit that detects a position where the food is stored. And weight detection means for detecting the weight of the food.The weight detection means is a weight detection sensor disposed on a bottom surface of a storage portion provided inside, and when new food is stored, the weight detection sensor is stored before the new food is stored. The difference between the detected weight and the weight detected by the weight detection sensor after the new food is stored is defined as the weight of the new food.Take the configuration.
[0010]
  With this configuration, it is obtained from a non-contact tag that stores information on food to be stored.AndFrom the position detection means and the weight detection means, the storage position of the stored food and the remaining amount of the stored food can be recognized and managed.In addition, the difference between the weight detected by the weight detection sensor before new food is stored and the weight detected by the weight detection sensor after new food is stored is the weight of the new food. Thus, the weight of the added food can be detected by a simple structure of a weight detection sensor that measures the weight of all the stored food.
[0017]
  First of the present invention2The aspect of the first aspectLikeThe food storage has an information input means for storing information in the non-contact tag, and stores information input by the user in the non-contact tag when new food is stored.
[0018]
Thereby, the food information defined by the user can be stored in the non-contact tag of the food produced by the user. As a result, the application range of the non-contact tag is not limited to food manufactured by the manufacturer, and versatility increases.
[0019]
  First of the present invention3The aspect of the first aspectOr the second aspectThe food storage has a display unit for displaying a list of the stored foods, and when the list of the stored foods is displayed on the display unit, information on the foods whose expiration date is near or has expired Is displayed in a different form from other foods.
[0020]
Thereby, not only can the user recognize the list of food stored therein from the display unit, but the user can also visually recognize the relationship between the food and the expiration date.
[0021]
  First of the present invention4The aspect of the first aspectOr the second aspectIn the food storage, comprising a display unit that displays a list of the stored food, when displaying the list of stored food, depending on any of the type of food, the remaining number of expiration dates, the input date, The food list is sorted and displayed.
[0022]
Thereby, the user can see the information rearranged according to the preferred conditions.
[0023]
  First of the present invention5The aspect of the first aspectOr the second aspectThe food storage has a display unit for displaying a list of the stored foods, and when displaying the list of stored foods on the display unit, the display position of the stored foods Display according to the storage position.
[0024]
As a result, the user can visually recognize the relationship between the food and its storage position.
[0025]
  First of the present invention6The aspect of the first aspectOr the second aspectThe food storage has a display unit for displaying a list of the stored foods, and when displaying the list of stored foods, the display size of the stored foods is changed according to the size of the foods. To do.
[0026]
Thereby, the size of the stored food can be visually imaged.
[0027]
  First of the present invention7The aspects of the first aspect to the first aspect6The food storage in any one of the aspects comprises communication means for communicating with a terminal via a communication network, and transmits a list of the stored food to the terminal.
[0028]
Thereby, the user can recognize the information in the food storage from an external terminal, and can perform processing for the food storage from the terminal.
[0029]
  First of the present invention8The aspects of the first aspect to the first aspect6The food storage in any one of the aspects includes a communication unit that communicates with a portable terminal via a portable communication network, and transmits the list of stored food items to the portable terminal.
[0030]
Thereby, the user can recognize the information in the food storage from the external portable terminal, and can perform processing for the food storage from the portable terminal.
[0031]
Hereinafter, an inventory management system using a food storage according to an embodiment of the present invention will be described. In this embodiment, a refrigerator is used as the food storage, but a food storage other than the refrigerator, such as a wine server, may be applied.
[0032]
First, the structure of the refrigerator according to the above embodiment will be described with reference to FIG. FIG. 1 is a diagram illustrating an appearance of the refrigerator according to the embodiment. In the following description, description of the refrigeration apparatus, which is the original function of the refrigerator, is omitted.
[0033]
A display unit 101 that visually displays information such as a list of foods stored in the refrigerator is provided on the front side of the refrigerator 100. The display unit 101 is a display unit such as a liquid crystal panel. In addition, an operation panel 102 on which a user inputs various information is provided on the side surface of the refrigerator 100 and in the vicinity of the lower part of the display unit 101. The operation panel 102 is provided with a plurality of input buttons, and the user can input desired information by operating the buttons. Information corresponding to information input from the operation panel 102 is displayed on the display unit 101.
[0034]
Next, the internal structure of the refrigerator 100 will be described with reference to FIG. FIG. 2 is a diagram showing an internal structure of the refrigerator according to the embodiment.
[0035]
A shelf 201 can be installed inside the refrigerator 100. With the shelf 201, the refrigerator 100 has two storage portions 203 a and 203 b with the shelf 201 and the bottom plate 202 of the refrigerator 100 as the bottom surfaces. In FIG. 2, for convenience of explanation, the shelf 201 is illustrated as a single sheet, but a plurality of shelves 201 may be provided.
[0036]
Moreover, pressure sensitive detection sensors 205a and 205b, which are storage position detection means for the stored food 204, are provided on the top surfaces of the shelf 201 and the bottom plate 202, which are the bottom surfaces of the storage units 203a and 203b of the refrigerator 100. A plurality of pressure-sensitive detection sensors 205 a and 205 b are arranged in a lattice pattern on the top surfaces of the shelf 201 and the bottom plate 202. Moreover, the pressure sensitive detection sensors 205a and 205b not only detect the pressure generated when the food 204 is stored, but also detect that the food 204 has come into contact.
[0037]
Thus, since the pressure sensitive detection sensors 205a and 205b are arranged in a grid, the position of the food 204 can be detected by determining whether any of the pressure sensitive detection sensors 205a and 205b is responding. . Further, since the pressure-sensitive detection sensors 205a and 205b also have a function as a contact sensor, it is determined whether or not the food 204 is directly on the shelf 201 or the bottom plate 202 from the contact determination result of the pressure-sensitive detection sensors 205a and 205b. You can also.
[0038]
The refrigerator 100 can also determine the size of the food 204 by detecting the pressure-sensitive detection sensors 205a and 205b at the portions that are in contact with the food 204. In the above-described embodiment, a plurality of pressure-sensitive detection sensors are used as the position detection means. However, any means may be used as long as it is a means for detecting the storage position of the food 204.
[0039]
In addition, weight detection sensors 206 a and 206 b that detect the weight of the stored food 204 are provided on the top surfaces of the shelf 201 and the bottom plate 202, which are the bottom surfaces of the storage units 203 a and 203 b of the refrigerator 100. Thereby, the refrigerator 100 can recognize the weight of the food 204.
[0040]
In the present embodiment, an RF-ID (Radio Frequency Identification) tag (hereinafter simply referred to as a tag) 207, which is a non-contact tag compatible with the ISO 15693 standard, which is a global standard, is attached to the food 204, for example. The tag 207 can store information regarding the food 204. Information stored in the tag 207 will be described in detail later.
[0041]
On the other hand, tag input units 208 a and 208 b for reading information stored in the tag 207 of the stored food 204 and writing information to the tag 207 are provided on the inner side surfaces of the storage units 203 a and 203 b of the refrigerator 100. ing. Thereby, the refrigerator 100 can not only recognize the information on the food 204 from the tag 207 but also write new information on the food 204 on the tag 207. In the above embodiment, the RF-ID tag 207 is used as a means for storing food information, but other means may be used as long as it is a non-contact tag that communicates information using wireless communication. .
[0042]
Next, a hardware configuration for the refrigerator 100 to perform inventory management will be described with reference to FIG. FIG. 3 is a hardware configuration diagram of the refrigerator and the tag according to the embodiment. Note that the same reference numerals are given to the parts already described.
[0043]
The refrigerator 100 is provided with a control unit 300 that controls each processing unit. The control unit 300 also performs inventory management processing, which will be described later.
[0044]
The refrigerator 100 is provided with the display unit 101, the operation panel 102, the pressure-sensitive detection sensor 205, the weight detection sensor 206, and the tag input unit 208 that have already been described.
[0045]
The tag input unit 208 is provided with a wireless unit 302 that performs wireless communication with the tag 204 via the antenna 301. The tag input unit 208 is provided with a tag information transmission / reception unit 303 that sends information sent via the wireless unit 302 to the control unit 300 or sends information sent from the control unit 300 to the wireless unit 302. It has been.
[0046]
On the other hand, the tag 207 of the food 204 is also provided with a wireless unit 305 that performs wireless communication with the tag input unit 208 of the refrigerator 100 via the antenna 304. The tag 207 is provided with a tag information transmission / reception unit 306 that sends information sent via the wireless unit 305 to the memory 307 or sends information in the memory 307 to the wireless unit 305.
[0047]
By configuring the tag input unit 208 and the tag 207 in this way, the control unit 300 of the refrigerator 100 can obtain information on the food 204 from the memory 307 of the tag 207. Further, the control unit 300 of the refrigerator 100 can write the information on the food 204 in the memory 307 of the tag 207.
[0048]
The refrigerator 100 is provided with a weight storage unit 317 that stores weight information detected by the weight detection sensor 206. The weight storage unit 317 stores the total weight of the currently stored food 204 detected by the weight detection sensor 206. The information in the weight storage unit 317 is updated every time the food 204 is stored.
[0049]
As a result, when new food 204 is stored in the refrigerator 100, the control unit 300 stores the weight detected by the current weight detection sensor 206 and the new food 204 stored in the weight storage unit 317. By comparing the previous weight information, the weight of the newly stored food can be detected.
[0050]
In addition, the refrigerator 100 includes a database holding unit 308 that stores a manufacturer product database 309 that stores information about foods 204 manufactured by a manufacturer, and a general food database 310 that stores information about foods manufactured by a user. Is provided. The configurations of the manufacturer product database 309 and the general food database 310 will be described in detail later.
[0051]
In addition, the refrigerator 100 is provided with an inventory information storage unit 311 that stores the inventory information of the stored food 204. The configuration of the inventory information storage unit 311 will be described in detail later.
[0052]
The refrigerator 100 is provided with a timer unit 312 that measures the current date. The timer unit 312 is used to recognize whether the expiration date of the food information in the inventory information storage unit 311 is approaching within n days.
[0053]
In addition, information stored in the inventory information storage unit 311 is transmitted to or transmitted from the portable terminal 316 to the refrigerator 100 via the external network 314, the base station 315 that communicates wirelessly with the portable terminal, or the like. A communication unit 313 that receives information via the external network 314 and the base station 315 is provided. Thereby, the user can recognize the information of the refrigerator 100 from the external portable terminal 316 and can perform processing for the refrigerator 100 from the portable terminal 316.
[0054]
Note that the terminal with which the refrigerator 100 communicates may be a terminal such as a PC provided outside instead of a portable terminal.
[0055]
Next, information on the food 204 stored in the tag 207 will be described with reference to FIG. Fig.4 (a) is a block diagram of the food information in the tag concerning the said embodiment.
[0056]
The tag 207 stores a tag ID 401 that is an identification number of the tag 207. In addition, the tag 207 can store, for each tag 207, manufacturer information 402, product ID 403, food ID 404, expiry date 405, expiration date 406, and storage condition 407 as information about the food 204. It has become.
[0057]
The manufacturer ID 402 is an identification number of a manufacturer who sells the food 204. The correspondence between the manufacturer ID 402 and the manufacturer is stored in the manufacturer product database 309 of the database holding unit 308.
[0058]
The product ID 403 is an identification number indicating which product of the manufacturer indicated by the manufacturer ID 402 the food 204 corresponds to. The correspondence between the product ID 403 and the product is stored in the manufacturer product database 309 of the database holding unit 308.
[0059]
The food ID 404 is a user-defined identifier that is stored in a tag 207 attached to a container or package that stores food cooked by the user, not food sold by the manufacturer. What kind of food the food ID 404 is actually stored is stored in the general food database 310. The information in the general food database 310 is stored when the user stores the food ID in the tag 207 using the tag input unit 208.
[0060]
Further, since the manufacturer ID 402 and the product ID 403 are assigned to the manufacturer's product, they are not assigned to the food produced by the user. FIG. 4B shows information stored in the tag 207 assigned to the manufacturer's product. As can be seen from this figure, in the case of a manufacturer's product, the food ID 404 is “0”.
[0061]
On the other hand, the food ID 404 is assigned to the food produced by the user and is not assigned to the product of the manufacturer. FIG. 4C shows information stored in the tag 207 given to the food produced by the user. As can be seen from this figure, in the case of food produced by the user, the manufacturer ID 402 and the product ID 403 are “0”.
[0062]
Next, the configuration of the manufacturer product database 309 in the database holding unit 308 will be described with reference to FIG. FIG. 5 is a diagram showing the configuration of the manufacturer product database according to the embodiment.
[0063]
The manufacturer product database 309 stores a plurality of product databases 500 for each manufacturer ID 402. The product database 500 stores a manufacturer ID 402 and name information 501 of the manufacturer corresponding to the manufacturer ID 402. The product database 500 stores a plurality of sets of a product ID 403 for the manufacturer's product indicated by the manufacturer ID 402, a product name 502 indicated by the product ID 403, and product nutrient information 503 indicated by the product ID 403.
[0064]
By configuring the manufacturer product database 309 in this way, the control unit 300 of the refrigerator 100 can know the entities of the manufacturer ID 402 and the product ID 403 stored in the tag 207.
[0065]
Next, the configuration of the general food database 310 in the database holding unit 308 will be described with reference to FIG. FIG. 6 is a diagram showing a configuration of a general food database according to the embodiment.
[0066]
The general food database 310 stores a plurality of sets of a food ID 404, a food name 601 indicated by the food ID 404, a product nutrient information 602 indicated by the food ID 404, and a product expiration date 603 indicated by the food ID 404. .
[0067]
By configuring the general food database 310 in this way, the control unit 300 of the refrigerator 100 can know the substance of the food ID 404 stored in the tag 207.
[0068]
Next, the configuration of the inventory information storage unit 311 will be described with reference to FIG. FIG. 7 is a diagram illustrating a configuration of the inventory information storage unit according to the embodiment.
[0069]
The inventory information storage unit 311 includes a tag ID 401, location information 701 in which food corresponding to the tag ID 401 is stored, food size information 702 corresponding to the tag ID 401, information 703 relating to food corresponding to the tag ID 401, A plurality of sets of information 704 added by the user for the food corresponding to the tag ID 401 and food weight information 705 corresponding to the tag ID 401 are stored.
[0070]
The position information 701 is composed of a shelf number 706 in which food is stored, position information 707 in the x direction on the shelf, position information 708 in the y direction on the shelf, and tag ID information 709 of the underlying food. The position information 701 is information that is recognized when the control unit 300 detects the position of the pressure-sensitive detection sensor 205 that has reacted when the food 204 is stored.
[0071]
The tag ID information 709 of the food item below is information indicating that a certain food item 204 is stacked and stored on another food item 204, and the tag ID 401 of the food item 204 located below is described. The example of FIG. 7 indicates that there is a food item with a tag ID 401 “3” under a food item with a tag ID 401 “4”. The fact that a certain food 204 is overlaid on another food 204 can be recognized from the fact that the pressure-sensitive detection sensor 205 detects pressure but does not detect contact.
[0072]
The size information 702 is information that is detected from the positions of the plurality of pressure-sensitive detection sensors 205 that the control unit 300 has reacted when the food 204 is stored.
[0073]
The food information 703 is food information described in the tag 207, and specifically includes the information shown in FIG.
[0074]
The user addition information 704 is information arbitrarily added by the user, and information such as the food ID 404 is stored.
[0075]
The weight information 705 is the weight information of the food 204 corresponding to the tag ID 401. The weight information 705 includes the weight detected by the weight detection sensor 206 and the weight information already stored in the weight storage unit 317 when the control unit 300 stores the food 204 corresponding to the tag ID 401 in the refrigerator 100. Is detected, the weight of the food 204 corresponding to the tag ID 401 is detected.
[0076]
Next, the inventory management process of the refrigerator 100 configured as described above will be described with reference to FIG. FIG. 8 is a flowchart of the inventory management process according to the above embodiment.
[0077]
First, the control unit 300 of the refrigerator 100 detects that the food 204 has been stored in the refrigerator 100 by obtaining information indicating that the pressure is detected from the pressure-sensitive detection sensor 205 (ST801).
[0078]
Next, control section 300 detects pressure-sensitive detection sensor 206 that has reacted when food 204 is stored, and estimates the position and size of stored food 204 from the position of pressure-sensitive detection sensor 206 (ST802). ).
[0079]
Next, the control unit 300 adds this time by subtracting the total weight of the past food 204 stored in the weight storage unit 317 from the total weight of the food 204 in the refrigerator 100 detected by the weight detection sensor 206. The calculated weight is calculated (ST803). Then, it is determined whether the additional weight is 0 or more (ST804). If the additional weight is 0 or more, it is determined that the weight of the added food 204 has been normally calculated.
[0080]
Next, using the tag input unit 208, the control unit 300 reads information stored in the tags 207 of all foods 204 stored therein (ST805), and stores the inventory information stored in the inventory information storage unit 311. Then, the information of the tags 207 of all foods 204 read this time is compared (ST806). At this stage, the control unit 300 compares only the tag ID 401.
[0081]
If there is a difference between the inventory information stored in inventory information storage section 311 and the information of tags 207 of all foods 204 read this time, control section 300 determines that new food 204 has been added (ST807). ).
[0082]
Next, control section 300 analyzes the information of tag 207 of added food 204 by referring to database holding section 308, and stores the analyzed information in inventory information storage section 311 (ST808).
[0083]
In ST808, if manufacturer ID 402 and product ID 403 stored in tag 207 of added food 204 are not “0”, control section 300 obtains information about food 204 from manufacturer product database 309.
[0084]
In ST808, when manufacturer ID 402 and product ID 403 stored in tag 207 of added food 204 are “0”, information on food is obtained from information corresponding to food ID 404 with reference to general food database 310. .
[0085]
In ST808, if the manufacturer ID 402 and the product ID 403 stored in the tag 207 of the added food 204 are “0” and the food ID 404 is also “0”, information about the food 204 stored this time is displayed. The fact that it is not stored in the tag 207 is displayed on the display unit 101. And the user who recognized this operates the operation panel 102, and inputs the information regarding the food 204 accommodated this time. The tag input unit 208 stores the information input by the user in the tag 207, and the control unit 300 stores the information in the general food database 310 in association with the tag ID 401.
[0086]
Next, control section 300 stores the position information detected in ST802 and the weight information detected in ST803 in inventory information storage section 311 in association with tag ID 401 (ST809).
[0087]
Next, the control unit 300 refers to the inventory information storage unit 311 in order to determine whether the currently stored food 204 is overlaid on other foods 204, and is located at the same position as the food 204 stored this time. It is detected whether there is another food 204 (ST810). If it is determined that there is another food 204 at the same position as the food 204 stored this time (ST811), the added food 204 already exists on the other food 204 at the same position. Is saved (ST812). At this time, the control unit 300 stores the information of the food 204 already existing at the same position in association with the tag ID 401 of the food 204 stored this time.
[0088]
As described above, the refrigerator 100 can not only obtain the original food information of the newly stored food 204, but also recognize information that changes depending on the use of the user, such as the storage position of the food 204 and the weight information of the food 204. And manage.
[0089]
The refrigerator 100 displays a list of inventory information on the display unit 101. Thereby, even if a user does not open the door of the refrigerator 100, the information of the food stored in the inside can be recognized. As a result, power consumption can be reduced.
[0090]
Hereinafter, a process in which the refrigerator 100 displays a list of inventory information on the display unit 101 will be described with reference to FIG. FIG. 9 is a flowchart of the inventory information display process according to the above embodiment.
[0091]
When there is an instruction to display inventory information from operation panel 102 (ST901), control unit 300 refers to inventory information storage unit 311 and extracts inventory information (ST902). Next, control section 300 determines whether the display format instructed from operation panel 102 is an image format or a text format (ST903).
[0092]
If it is determined in ST903 that the display format is the image format, the image shown in FIG. 10 is created (ST904) and displayed on the display unit 101 (ST905). FIG. 10 is a diagram illustrating an image displayed on the display unit according to the embodiment.
[0093]
The image image 1000 reflects the size information 702 in a schematic view of the inside of the refrigerator 100, the name of the food in stock extracted by the control unit 300 from the stock information storage unit 311 in a position corresponding to the position information 701 of the food. It has been described in the size. Specifically, the image image 1000 describes a portion 1001a corresponding to the storage portion 203a shown in FIG. 2 and a portion 1001b corresponding to the storage portion 203b. The names of the food items stored in the storage units 203a and 203b are described in the portions 1001a and 1001b in sizes corresponding to the size of the food item 204, respectively.
[0094]
Thereby, the size of the stored food 204 can be visually imaged. For example, from the example of FIG. 10, the upper storage unit 203a stores tofu at the left end, yogurt next to tofu, and a cake at the right end with a little space between them, and the yogurt is larger than the tofu and cake. I understand that. In the lower storage section 203b, beef is stored at the left end, cabbage next to beef, and butter next to cabbage. Cabbage is larger than beef and butter, and beef is stacked on the left. It can be seen that it is stored.
[0095]
Thereby, the user can visually recognize the relationship between the food name and its storage position.
[0096]
In the image image 1000, the display form of the food name is changed according to the expiration date. Specifically, beef 1002 is displayed with a yellow product name because the expiration date is close (for example, three days ago), and beef 1003 is displayed with a red product name because the expiration date is exceeded. Yes.
[0097]
Accordingly, the user can visually recognize the relationship between the food and the expiration date.
[0098]
On the other hand, when it is determined in ST903 that the display format is the text format, the text image shown in FIG. 11 is created (ST906) and displayed on the display unit 101 (ST905). FIG. 11 is a diagram illustrating a text image displayed on the display unit according to the embodiment.
[0099]
The text image 1100 includes information on the type, quantity, expiration date, input date, and place of the stored food. As a result, the user can easily recognize the stored food list. The text image 1100 changes the color of the text displayed according to the expiry date of the food. Accordingly, the user can visually recognize the relationship between the food and the expiration date.
[0100]
In addition, a list of foods can be rearranged and displayed on the operation panel 102 according to any of food type, quantity, expiration date, input date, and storage location.
[0101]
Thereby, the user can see the information rearranged according to the preferred conditions.
[0102]
As described above, according to the above-described embodiment, the tag 207 storing food information is attached to the food to be stored, the pressure-sensitive detection sensor 205 serving as a position detection unit, and the weight detection sensor 206 serving as a weight detection unit. In addition to the information on the stored food, the storage position of the stored food and the remaining amount of the stored food can be recognized and managed.
[0103]
In the above embodiment, the position detection means is configured with a simple configuration and at a low cost by adopting a form in which the pressure sensitive detection sensors 205 are arranged in a grid pattern on the bottom surfaces of the storage portions 205a and 205b as the position detection means. it can.
[0104]
In the above-described embodiment, since the pressure-sensitive detection sensor 205 detects that food is newly stored according to the change in the detected pressure, a sensor for detecting that food is newly stored is dedicated. There is no need to provide it.
[0105]
In the above embodiment, the difference between the weight detected by the weight detection sensor 206 before storing new food and the weight detected by the weight detection sensor 206 after storing new food is calculated. Since the weight of the new food is used, the weight of the added food can be detected by a simple structure of the weight detection sensor 206 that measures the weight of the whole stored food.
[0106]
Further, according to the above embodiment, the user-defined food information can be stored in the tag 207 of the food 204 produced by the user. Thereby, the application range of the tag 207 is not limited to food manufactured by the manufacturer, and versatility is increased.
[0107]
In the above embodiment, a new addition is made by comparing the inventory information stored in the inventory information storage unit 311 with the information of the tags 207 of all foods 204 read when a new food is added. The information of the added food 204 is read, but only the information of the tag 207 of the added food 204 is extracted, so that only the information of the tag 207 of the added food 204 is extracted. good.
[0108]
【The invention's effect】
As described above, according to the present invention, in addition to information on stored food, the storage position of the stored food and the remaining amount of stored food can be recognized and managed.
[Brief description of the drawings]
FIG. 1 is a diagram showing the appearance of a refrigerator according to an embodiment of the present invention.
FIG. 2 is a diagram showing an internal structure of the refrigerator according to the embodiment.
FIG. 3 is a hardware configuration diagram of the refrigerator and the tag according to the embodiment.
FIG. 4A is a configuration diagram of food information in a tag according to the embodiment.
(B) The figure which shows the information memorize | stored in the tag provided with respect to the manufacturer's product
(C) The figure which shows the information memorize | stored in the tag provided with respect to the food which the user produced.
FIG. 5 is a diagram showing a configuration of a manufacturer product database according to the embodiment.
FIG. 6 is a diagram showing a configuration of a general food database according to the embodiment.
FIG. 7 is a diagram showing a configuration of an inventory information storage unit according to the embodiment.
FIG. 8 is a flowchart of inventory management processing according to the embodiment.
FIG. 9 is a flowchart of inventory information display processing according to the embodiment.
FIG. 10 is a diagram showing an image displayed on the display unit according to the embodiment.
FIG. 11 is a diagram showing a text image displayed on the display unit according to the embodiment.
[Explanation of symbols]
100 refrigerator
101 Display
102 Operation panel
204 Food
205a, 205b Pressure sensitive sensor
206a, 206b Weight detection sensor
207 tag
208a, 208b Tag input part
300 Control unit
307 memory
308 Database holding unit
309 Manufacturer Product Database
310 General Food Database
311 Inventory information storage unit
312 Timer part
313 Communication Department
317 Weight storage unit
1000 images
1100 text image

Claims (8)

Tag reading means for reading a non-contact tag storing information on the food attached to the stored food, position detecting means for detecting a position where the food is stored, weight detecting means for detecting the weight of the food The weight detection means is a weight detection sensor disposed on a bottom surface of a storage unit provided inside, and when new food is stored, before the new food is stored, A food storage, wherein a difference between a weight detected by the weight detection sensor and a weight detected by the weight detection sensor after the new food is stored is defined as a weight of the new food. Includes an information input means for storing information in said non-contact tag, when a new food is housed, according to claim 1, characterized in that storing information entered by the user into the non-contact tag Food storage. A display unit that displays a list of the stored foods, and when displaying the list of stored foods on the display unit, information on the foods that are near to expiration or have expired The food storage box according to claim 1 or 2 , wherein is displayed in a different form. A display unit for displaying a list of the stored foods, and when displaying the list of the stored foods, the list of the foods is displayed according to any of the types of the foods, the remaining days of the expiration date, and the input date. The food storage according to claim 1 or 2 , wherein the food storage is rearranged and displayed. A display unit that displays a list of the stored foods, and when displaying the list of stored foods on the display unit, the display position of the stored foods is made to correspond to the storage position of the stored foods; The food storage according to claim 1 or 2 , wherein the food storage is displayed. A display unit for displaying a list of the stored foods, and when displaying the list of stored foods, the display size of the stored foods is changed according to the size of the food, The food storage of Claim 1 or Claim 2 to do. The food storage according to any one of claims 1 to 6 , further comprising communication means for communicating with a terminal via a communication network, wherein the list of stored foods is transmitted to the terminal. The food storage according to any one of claims 1 to 6 , further comprising a communication unit that communicates with a portable terminal via a portable communication network, wherein the list of stored foods is transmitted to the portable terminal. .

Images