KR20060114903A - Refrigerator with user liking-pattern recognition function - Google Patents

Abstract

A refrigerator with a pattern recognition function is provided to obtain a user pattern by analyzing insertion and extraction of foods and consumption period of foods. A refrigerator with a user favorite pattern recognition function includes a storage unit(40), and a microprocessor(70). The storage unit stores at least food consumption information of foods. The microprocessor analyzes a favorite pattern of a user about the food consumption with reference to the food consumption information, and stores the analyzed favorite pattern to the storage unit. The food consumption information includes information of an amount of foods, insertion and extraction of the foods, and the number of extraction of foods.

Description

REFRIGERATOR WITH USER LIKING-PATTERN RECOGNITION FUNCTION}

1 is a block diagram of a refrigerator according to the prior art.

2 is a schematic configuration diagram of a refrigerator having a user preference pattern recognition function according to the present invention.

3 is an embodiment of food consumption information.

4 is an embodiment of symbol pattern information.

<Description of the symbols for the main parts of the drawings>

20: input means 30: reading means

40: storage means 50: display means

60: clockwork means 70: microprocessor

The present invention relates to a refrigerator, and more particularly, to a refrigerator having a user's preference pattern recognition function for generating a user's preference pattern for food consumption stored in a refrigerator according to the number of input and / or withdrawal of food.

In order to maintain the freshness of stored foods according to the refrigerator products, a separate freshness maintaining room is prepared to be selectively used by users. Various kinds of foods are stored in these refrigerators. Since the user cannot remember the foods stored in the refrigerator, the user has to go through the effort of opening and closing the refrigerator door every time. Confirmation of the food stored in the refrigerator in this way causes the consumption of electrical energy due to the opening and closing of the refrigerator door, and also caused waste of food because the food is decayed because the storage period is exceeded.

In order to solve this problem, the present applicant discloses a refrigerator which can check the stored food inside from the outside in Korean Patent Registration No. 0377741 (name of the invention: storage food display control device of the refrigerator). This is illustrated in FIG. 1.

As shown in FIG. 1, the conventional refrigerator includes an oscillation circuit 10 for oscillating a predetermined frequency and a frequency division circuit 11 for generating time by dividing an oscillation frequency output through the oscillation circuit 10 into a specific frequency signal. ), A time counting means 12 for inputting an output signal of the frequency divider circuit, and counting time, and a date counting means for changing a date when a predetermined time is reached based on the time counted by the time counting means 12 ( 13), a storage means 14 for storing various kinds of information about stored foods in the store, a selection key 15 for receiving various kinds of information about stored foods such as the type, quantity, storage period, etc. of the stored foods by the user; , The stored food date / time display unit 16 for displaying and updating the time and date at regular time intervals by the central processing unit 19, the expired food display unit 17 for displaying the expired foods, and the storage means. Information of the stored food stored in (14). Based on the stored food sequential display unit 18, which updates and displays at regular intervals, and the stored food information stored in the storage means 14, the stored food time / date, the expired food information, and the current stored food are sequentially It consists of a central processing unit 19 to be displayed

From this configuration, in the conventional refrigerator, after storing information of the stored food directly input by the user through the selection key unit 15 in the storage means 14, the stored food time / date, the expired food information and the current storage Information about the food is displayed.

As described above, the conventional refrigerator not only has a user's inconvenience in manually inputting names of a plurality of foods in order to obtain stored food information, but also provides a function of simply providing time information for foods stored in the refrigerator. Just do

In order to solve the problems of the prior art, an object of the present invention is to provide a refrigerator having a user's preference pattern recognition function for analyzing the user's preference pattern for food consumption by acquiring stored food information and information related to consumption. .

In addition, the present invention is a refrigerator having a user preference pattern recognition function for analyzing a more accurate preference pattern by analyzing according to the number of input and / or withdrawal and / or consumption period of the food according to the user's operation directly related to the consumption of the user The purpose is to provide.

In addition, an object of the present invention is to provide a refrigerator having a user preference pattern recognition function that analyzes the user's preference pattern and analyzes the nutritional status of the user, thereby providing a desirable diet.

In addition, an object of the present invention is to provide a refrigerator having a user preference pattern recognition function for analyzing the preference pattern of the user to provide the user with information on the remaining amount of food.

In addition, an object of the present invention is to provide a refrigerator having a user preference pattern recognition function that can analyze the user's preference pattern using the input means included in the prior art.

A refrigerator having a user's preference pattern recognition function according to the present invention is a refrigerator which stores at least food in a frozen state and / or refrigerated state in a refrigerator, the storage means storing at least food consumption information of the food and the food consumption information based on the food consumption information. And a microprocessor for analyzing the user's preference pattern for the food consumption and storing the analyzed preference pattern in the storage means.

In this case, the food consumption information preferably includes information on the amount of food and information on the number of times the input and / or withdrawal of the food.

In addition, the food consumption information preferably includes the consumption period of the food.

In addition, the consumption period is preferably calculated from the first time and the last time of withdrawal of the food.

In addition, the refrigerator preferably further comprises a one-hour clock means for calculating the current date and time.

In addition, the microprocessor preferably receives the current date and time from the one-hour clock means at the time of inputting and / or withdrawing the food, and storing the current time.

In addition, the microprocessor preferably reads the symbol pattern of the food and determines the remaining amount of the food at present, in consideration of the amount of the food and the number of times the food is input and / or taken out.

In addition, the microprocessor reads the preference pattern of the food, it is preferable to determine the current amount of the food in consideration of the amount of food and the current consumption period.

In addition, the storage means stores the standard nutritional information, the microprocessor preferably analyzes the nutritional degree of the food based on the standard nutritional information and stores in the preference pattern.

In addition, the storage means stores the standard nutritional status information, the microprocessor preferably analyzes the nutritional status of the user according to the stored preference pattern on the basis of the standard nutritional status information.

In addition, the storage means stores the diet information, the microprocessor preferably reads from the diet information to provide a diet considering the nutrition required by the user according to the nutritional status of the user.

In addition, the refrigerator preferably further includes reading means for reading food information of the food from the identification means attached to the food.

In addition, the identification means is preferably RFID or bar code.

In addition, the food consumption information includes the food information, the microprocessor determines the number of times of the input and / or withdrawal of the food in accordance with the input of the food information from the reading means to determine the number of input and / or withdrawal information It is preferable to generate and store in the food consumption information.

In addition, the food information preferably includes at least a name and / or amount of the food.

In addition, the refrigerator preferably further includes an input means for receiving a food selection and / or input and / or withdrawal selection from the user.

In addition, the refrigerator has a predetermined display means, the storage means stores food selection information for the user's food selection, the microprocessor displays the food selection information through the display means, accordingly the user It is preferable that the food information is received from the input means and stored in the food consumption information.

In addition, the food information preferably includes the name and / or amount of the food.

In addition, the microprocessor preferably receives the input selection and / or withdrawal selection from the input means to generate the input and / or withdrawal information of the food accordingly and to store in the food consumption information.

In the following, the invention has been described in detail based on the embodiments of the invention and the accompanying drawings. However, the scope of the present invention is not limited by the following embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

2 is a schematic configuration diagram of a refrigerator having a user preference pattern recognition function according to the present invention.

As shown, the refrigerator includes input means 20 for receiving a predetermined selection command from a user, reading means 30 for reading food information from identification means displayed or attached to food, and predetermined food (s). A storage means 40 for storing at least food consumption information for the &lt; RTI ID = 0.0 &gt;), &lt; / RTI &gt; a display means 50 for displaying predetermined food selection information to the user, a one-time counting means 60 for calculating a current date and time, and the above-described configuration. The microprocessor 70 controls elements and analyzes and stores a preference pattern for a predetermined food of a user based on pre-stored food consumption information. Here, the refrigerator includes a refrigerating compartment and / or a freezer compartment capable of refrigerating and / or freezing food in the refrigerator, and the microprocessor 70 naturally controls such refrigerating and / or freezing process, but is not related to the present invention. , Description thereof is omitted.

In detail, the input means 20 is a food selection unit 21 for inputting the food information to be stored in the store (and / or a specific place in the store), and when the user inputs or withdraws the food in the store, An input / output selection section 22 for informing the microprocessor 70 of the input and / or withdrawal thereof. Here, the input means 20 is related to the user interface displayed on the display means 50, and means for inputting content required by the displayed user interface.

The food selection unit 21 can input at least the name (or type) of the food and / or the amount stored in the refrigerator (eg, g unit, ml unit, etc.), and thus the name and / or amount of the food. This is food information. The food information may be displayed by the microprocessor 70 through the display means 50. In addition, the input / withdrawal selection unit 22 is a means for receiving input of the input and / or withdrawal from the user when the user puts the food into the container and / or withdrawal, consisting of one button or a plurality of buttons Can be. In order to utilize the input / output selection section 22, the microprocessor 70 first displays the food information on the display means 50, so that the user can first select the food to be added or withdrawn, and the selected food Make an input selection or withdrawal selection. This input means 20 may comprise an additional input for the selection of the complete withdrawal (or final withdrawal) of the food, ie the complete consumption selection of the food.

Next, the reading means 30 includes an RF reader 31 for reading the food information stored in the RFID displayed or attached to the food and / or a barcode reader 32 for reading the food information indicated by the barcode. Here, the food information includes at least the name (type) and / or amount of food. However, the amount of food may be input separately through the input means 20 described above.

The RF reader 31 may be installed near the display means 50 (front of the refrigerator) for the user's convenience, or may be installed in the warehouse. When installed near the display means 50, when the user inserts and withdraws the food, if the food is placed near the RF reader 31, the user reads the food information accordingly. If the number is even, it can be read as drawn. In addition, when installed in the refrigerator, the user reads the RFID before and after the food is put in and withdrawn. Therefore, when the food information is read, the food is read into the refrigerator. However, the input and withdrawal of the food may be input through the input means 20.

The barcode reading unit 32 reads a barcode printed on food or on a food container or food wrapping paper, and is installed near the display means 50 for the convenience of the user. The reading of the food information by the barcode reading unit 32 is the same as a general barcode reading method, and it is determined that an input is read when an odd number is read, and that it is withdrawn when an even number is read, except for input and withdrawal of food. It may be input via means 20.

Both the input means 20 and the reading means 30 described above may be mounted or optionally mounted.

Next, the storage means 40 stores the food selection information for a plurality of foods so that food selection by the input means 20 is made. The food selection information includes at least a user interface capable of selecting a name (or type) of a food, selecting a quantity, and the like. The storage means 40 also includes food information including the name and / or quantity of the food selected by the user and / or food information read from the reading means 30. In addition to the food information, the storage means 40 also stores food consumption information including the number of times the food is put into and / or taken out of the food storage and the consumption period of the food. Here, the consumption period may be calculated by the time interval between the first internal input time and the final withdrawal time of the food when the consumption of the food is completed, the input and withdrawal time is by the one-hour counting means 60 described below Is done.

In addition, the storage means 40 stores the standard nutrition information for a plurality of foods in order to determine the nutritional level of the food, and determines the nutritional status of the user according to the total nutritional level (nutrition of the entire food consumed by the user) Standard nutritional status information is stored for the purpose, and dietary information is additionally stored to provide a desirable diet according to the nutritional status of the user. Here, the standard nutrition information is, for example, in the case of milk, as the basic data for determining the nutrients of food, such as the analysis data of nutrients contained per 100 ml. In addition, the standard nutritional status information includes data on the degree of nutrition that the user should consume for a certain period of time (eg, 1 day). In addition, the diet information includes a diet for adequate nutrition for the nutritional status of the user, and insufficient nutrition for the user's nutrition.

Next, the display means 50 is a display device for displaying the above-described food selection information, food information, preference pattern, nutritional level, diet, etc., LCD monitor may be used, a kind of touch screen with the input means 20 It may be configured in the form.

Next, the one-time clock means 60 is a device which calculates and provides the current time periodically or when a request from the microprocessor 70 is provided. will be. In addition, the one-time clock means 60 may operate like a clock to provide a current time for display on the display means 50.

Next, the microprocessor 70 receives the food information input or read from the input means 20 and / or the reading means 30 and applies it to the data control unit 74, and the food consumption information. Data processing unit 72 for analyzing a user's preference pattern, and food selection information, food information, preference pattern information, nutrition status, diet, and the like received from the data control unit 74 so as to be displayed on the display means 50. The data transmission unit 73 and the above-described components are controlled to generate food consumption information from the received food information, store the same in the storage means 40, and analyze the user's preference pattern from the food consumption information. And a data controller 74 for controlling the data and transmitting the data displayed on the display means 50 to the data transmitter 73.

In detail, the data controller 74 receives the food information from the data receiver 71, stores the food information in the storage means 40, and applies the data information to the data transmitter 73 so as to be displayed on the display means 50. The data controller 74 generates food consumption information including the received food information and stores it in the storage means 40. The food information includes at least the name and / or quantity of the food as described above, but the food consumption information includes the number of times of food input and / or withdrawal into the food in addition to the food information, as shown in FIG. In addition, the consumption period of this food is included.

First, look at the generation of food consumption information through the input means 20. The data controller 74 reads the food selection information from the storage means 40 and transmits it to the data transmitter 73 so that it is displayed on the display means 50. Accordingly, the data control unit 74 receives food information including the name and / or amount of food stored in the store by the user input through the food selection unit 21 through the data receiving unit 71 and includes the food consumption. The information is generated and stored in the storage means 40. At this time, the data controller 74 may set the number of times of input of the food consumption information to '1' and the number of times of withdrawal to '0' (that is, because it is the first time of input), but the input of the input from the input selector 22 is selected. After the input, the number of inputs and withdrawals may be set in this manner. In addition, the data control unit 74 receives the current time from the one-hour counting means 60 and stores the first input time of the food (the time for calculating the consumption time) in the food consumption information.

Subsequently, the data control unit 74 transmits the stored food consumption information to the data transmission unit 73 so as to be displayed on the display unit 50, selects the food consumption information (or food) drawn out or put in by the user, and A withdrawal or input selection is input through the withdrawal selection / input selection section 22, and the withdrawal or input number of the food consumption information is increased according to the withdrawal or input selection. At this time, the data control unit 74 stores each withdrawal time in the food consumption information according to the current time from the one-hour number means 60.

In addition, since the consumption period of the food can be calculated only by determining the complete withdrawal (ie, consumption) of the food, when the data controller 74 receives a selection for complete withdrawal from the input means 20, the withdrawal time at this time Is stored in the food consumption information at the time of the last withdrawal of this food. Alternatively, if the input selection for the food is not input from the input / output selection section 22 for a predetermined time (for example, six hours) after the data control section 74 is withdrawn, it is determined that complete consumption has been made. The last withdrawal is determined as the last withdrawal, and this withdrawal time is determined as the withdrawal time. Thereafter, the data control unit 74 calculates the difference between the first input time and the last withdrawal time as the consumption period and stores the difference in the food consumption information.

Next, look at the generation of food consumption information through the reading means (30). The data control unit 74 receives the food information (first food information) of the food introduced into the refrigerator from the reading means 30, and generates food consumption information. At this time, the number of inputs is set to '1', the number of withdrawals may be automatically set to '0', or may be set after receiving the input selection from the input / withdrawal selector 22 of the input means 20. have. In addition, the data control unit 74 receives the current time from the one-hour counting means 60 and stores the first input time of the food (the time for calculating the consumption time) in the food consumption information.

Thereafter, the data controller 74 transmits the stored food consumption information to the data transmitter 73 so as to be displayed on the display means 50. For example, when the RF reader 31 or the barcode 30 is installed in the vicinity of the display means 50 (i.e., the front of the refrigerator), when the user withdraws or injects food, after the withdrawal or At least the food is brought close to the reading means 30 before feeding, and the data control part 74 receives the food information read by the reading means 30 through the data receiving part 71 and the storage means 40. It is determined whether the same food information and / or food consumption information exists in the. In this judgment, if the same food information and / or food consumption information exists, it is judged as re-entry and / or withdrawal of food, otherwise it is judged as new food by initial input. Also, if the same food information and / or food consumption information exists, if the number of times the retrieved food consumption information is greater than the number of withdrawals, the food information received now is determined to be a receipt for withdrawal, and the number of times of withdrawal and the number of withdrawals is the same. If the food information received now is determined to receive the input, increase the number of times or withdrawal. Even in this case, the identification of the food to be fed or withdrawn is made by RFID or a barcode, and the identification of the fed or withdrawn can be made through the input / output selection unit 22 of the input means 20. In addition, when a plurality of RFID readers 31 are installed in the refrigerator compartment, since the RFID reader 31 periodically reads the identification means of the food in the refrigerator, the data controller 74 has food consumption information. However, if food information is not received at some point after receiving food information, it is determined to be withdrawn, and if food information is received again later, it is determined as input, and if food information is continuously received, it is determined that the input state is maintained. . In accordance with this determination, the data processing unit 74 increases the number of times of withdrawing or inputting the food consumption information. At this time, the data control unit 74 stores each withdrawal time in the food consumption information according to the current time from the one-hour number means 60.

In addition, since the consumption period of the food can be calculated only by determining the complete withdrawal (ie, consumption) of the food, when the data controller 74 receives a selection for complete withdrawal from the input means 20, the withdrawal time at this time Is stored in the food consumption information at the time of the last withdrawal of this food. Alternatively, if the input selection for the food is not input from the input / output selection section 22 for a predetermined time (for example, six hours) after the data control section 74 is withdrawn, it is determined that complete consumption has been made. The last withdrawal is determined as the last withdrawal, and this withdrawal time is determined as the withdrawal time. Thereafter, the data control unit 74 calculates the difference between the first input time and the last withdrawal time as the consumption period and stores the difference in the food consumption information.

As described above, the microprocessor 70 may generate a plurality of food consumption information for the same food, and thus determine a symbol pattern indicating a food consumption trend of the user.

As shown in FIG. 4, the data control unit 74 transmits food consumption information of the food to the data processing unit 72. Accordingly, the data processing unit 72, based on the received food consumption information, for the reference amount (for example, 100g), the average number of input / withdrawal, and the average consumption period (for example, six days) It is calculated and transmitted to the data control unit 74 as the symbol pattern information, and the data control unit 74 stores it in the storage unit 40.

In addition, the preference pattern information includes the degree of nutrition for this food. For the analysis of the nutritional level, the data control unit 74 reads the standard nutritional information from the storage means 40, analyzes the nutritional level corresponding to this food, and stores this nutritional level together with the preference pattern information. This degree of nutrition may include information such as the degree of component analysis (for example, the content of protein, fat, carbohydrate, etc.), calories, and the content of fiber of the food.

In addition, the data control unit 74 transmits the symbol pattern information of the food consumed by the user for a predetermined time to the data processing unit 72, and the data processing unit 72 analyzes the degree of nutrition included in the symbol pattern information. Analyzes the overall level of fostering the user will consume. This nutritional status may include the amount of calories consumed by a user for a predetermined period of time (eg, daily average), the proportion of nutritional components, the degree of fiber, and the like. The data processor 72 transmits the nutrition status of the user to the data controller 74, and the data controller 74 stores the data in the storage means 40.

In addition, the data control unit 74 reads the stored nutritional status of the user and the diet information from the storage unit 40 and transmits it to the data processing unit 72. Accordingly, the data processor 72 analyzes the nutritional status of the user, determines a preferred diet based on the diet information, and provides the diet to the data controller 74 in order to supply standard nutrition to the user. The data controller 74 stores this in the storage means 40.

In addition, the data control unit 74 transmits the preference pattern information, the nutrition state, and the preferred diet for the food of the user described above to the data transmission unit 73 so as to be displayed on the display unit 50.

In addition, the refrigerator according to the present invention may provide information on the amount of food remaining in the refrigerator. That is, the data control unit 74 reads the food consumption information of the food stored in the storage means 40, checks the amount of the food (the amount at the time of initial storage), the current number of inputs / disposals, and corresponds to the food. The user's preference pattern information can be read from the storage means 40, and the current remaining amount can be determined by comparing the average number of input / output with respect to the reference amount and the current number of input / discharge. For example, if the number of inputs / dispensations for the standard amount of food (100 g) is 4 times each, the current food storage amount is 300 g and the number of withdrawals is 4 times each (injection number 4). The amount is 100 g (= {300 g * (4/12)}), and the remaining amount can be estimated as 200 g.

Alternatively, the data controller 74 may determine the current remaining amount by comparing the average consumption period for this reference amount with the current food consumption period. For example, if the consumption period of the standard amount of food (100g) is 5 days, the current food storage amount is 300g, if the consumption period is 10 days, the amount consumed is 200g, the remaining amount can be estimated as 100g . Here, the above-described method can be applied when the distribution time of the food is longer than the current consumption period of the food (for example, 15 days).

The present invention of such a configuration has the effect of analyzing the user's preference pattern for food consumption by obtaining information related to the stored food and consumption.

In addition, the present invention has the effect of analyzing the pattern pattern more accurate by analyzing according to the number of input and / or withdrawal and / or consumption period of the food according to the user's operation directly related to the user's consumption.

In addition, the present invention has an effect of resolving malnutrition and malnutrition of the user by analyzing the user's preference pattern and analysis of the nutritional status of the user, and thus provide a preferred diet.

In addition, the present invention has the effect of analyzing the user's preference pattern to provide the user with information on the remaining amount of the current food, so as to confirm the purchase of the food and the current inventory.

In addition, the present invention enables the user to analyze the user's preference pattern using the input means included in the prior art, there is an effect of providing the user's convenience in terms of cost and use.

Claims (19)

A refrigerator for storing food at least in a frozen state and / or refrigerated state in a refrigerator, Storage means for storing at least food consumption information of the food; And a microprocessor for analyzing a user's preference pattern for the food consumption based on the food consumption information, and storing the analyzed preference pattern in the storage means. The method of claim 1, And the food consumption information comprises information on the amount of food and information on the number of times of input and / or withdrawal of the food. The method of claim 2, And the food consumption information comprises a consumption period of the food. The method of claim 3, And the consumption period is calculated from an initial input time and a final withdrawal time of the food. The method according to any one of claims 1 to 4, The refrigerator has a user preference pattern recognition function, characterized in that it further comprises a clockwork means for calculating the current date and time. The method of claim 5, The microprocessor is a refrigerator having a user preference pattern recognition function, characterized in that for receiving and / or withdrawing the food, the current date and time from the one-hour clock means to store as the consumption period of the food. The method according to any one of claims 1 to 4, The microprocessor is a refrigerator having a user's preference pattern recognition function, which reads a preference pattern of the food and determines the remaining amount of the food in consideration of the quantity of the food and the number of times of food input and / or withdrawal. . The method according to any one of claims 1 to 4, And the microprocessor reads the symbol pattern of the food, and determines the remaining amount of the food in consideration of the quantity of food and the current consumption period, and has a user preference pattern recognition function. The method of claim 1, The storage means stores a standard nutritional information, the microprocessor is a refrigerator having a user preference pattern recognition function, characterized in that for analyzing the nutritional degree of the food based on the standard nutritional information to store in the preference pattern. The method of claim 9, And the storage means stores standard nutritional status information, and the microprocessor analyzes the nutritional status of the user according to the stored preference pattern based on the standard nutritional status information. The method of claim 10, The storage means stores the diet information, and the microprocessor provides a user preference pattern recognition function, characterized in that for providing a diet in consideration of the nutrition required by the user according to the analyzed nutritional status of the user from the diet information Refrigerator. The method according to any one of claims 1 to 4, And the refrigerator further includes reading means for reading food information of the food from the identification means attached to the food. The method of claim 12, The identification means is a refrigerator having a user symbol pattern recognition function, characterized in that the RFID or bar code. The method of claim 12, The food consumption information includes the food information, and the microprocessor determines the number of times of input and / or withdrawal of the food according to the input of food information from the reading means to generate the input and / or withdrawal number information. A refrigerator having a user's preference pattern recognition function, characterized in that stored in the food consumption information. The method of claim 12, And said food information comprises at least a name and / or quantity of said food. The method according to any one of claims 1 to 4, The refrigerator has a user preference pattern recognition function, characterized in that it further comprises an input means for receiving a food selection and / or input and / or withdrawal selection from the user. The method of claim 16, The refrigerator includes a predetermined display means, the storage means stores food selection information for the user's food selection, and the microprocessor displays the food selection information through the display means, and thus the user's food. A refrigerator having a user preference pattern recognition function, characterized by receiving information from an input means and storing the information in the food consumption information. The method of claim 17, And the food information comprises a name and / or quantity of the food. The method of claim 16, The microprocessor receives the input selection and / or withdrawal selection from the input means to generate the input and / or withdrawal information of the food according to the user preference pattern recognition function, characterized in that for storing in the food consumption information Refrigerator with

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