The present application claims priority from Japanese Application 2019-54220, the content to which is hereby incorporated by reference into this application.
The present disclosure relates to a heating apparatus which heats and defrosts such products as food products.
A typical heating and cooking appliance to be used for heating and cooking to serve a product needs to be designed to ensure safety of a user, so that the user is kept from burning himself or herself when he or she takes the product at a high temperature out of the appliance immediately after the heating. As an example, a heating and cooking appliance is devised to lock the door when the temperature inside the appliance is higher than a certain temperature, thereby improving the safety of the appliance.
When such food products as frozen sushi and sweets are heated close to room temperature to be served, the products are often unevenly heated immediately after heating. An unevenly heated food product is likely to have a warm portion and a cold portion to be clearly distinctive. Such an unevenly heated portion deteriorates the quality of the product. Hence, it is not appropriate to serve the product immediately after heating, and the product needs to be left at room temperature for a certain time period (usually several to several dozen minutes) until the product whose temperature is unevenly distributed after heating has the temperature uniformly distributed.
For example, the heating and cooking appliances disclosed in Japanese Unexamined Patent Application Publication Nos. 2004-198077, 2005-188880, and 2008-096011 ensure safety by locking the door when the temperature inside the appliances is higher than a certain temperature. However, if heated is a product to be served near room temperature as described above, the door is unlocked immediately after the product has been heated. Accordingly, the user is inadvertently allowed to take the product out of the appliances before the unevenly distributed temperature of the product is uniformly distributed.
The present disclosure intends to provide a heating apparatus capable of reducing the risk of serving a product whose temperature is left unevenly distributed.
An aspect of the present disclosure provides a heating apparatus including a heating circuit heating a product to be heated; a door; a door lock mechanism locking the door with the door closed; and a processor controlling the heating circuit and the door lock mechanism, wherein, based on an indication of a heating time period and a “settling” time period, the processor causes the door lock mechanism to lock the door, with the door closed, from a beginning of the heating until an end of the “settling” time period.
The present disclosure provides a heating apparatus capable of reducing the risk of serving a product whose temperature is left unevenly distributed.
Described below are embodiments of the present disclosure with reference to the drawings. In the descriptions below, identical reference signs are used to denote identical components. The identical components share the same name and function. Hence, detailed descriptions of such components shall not be repeated.
(Configuration of High Frequency Defroster)
Described first is an overall configuration of a heating apparatus 100 according to a first embodiment. The heating apparatus 100 includes as main components: an input unit 10; a heating circuit 20; a controller 30; a door unit 40; an output unit 50; and a communication interface 60.
The input unit 10 includes such components as an operation button switch 11 and a bar-code reader 12. The operation button switch 11 receives commands to indicate a heating time period and a “settling” time period. The bar-code reader 12 reads a bar code provided to a label of a product to obtain information such as a heating time period, a power level, and a “settling” time period. Note that the “settling” time period is a waiting time period required until uneven temperature distribution of the heated product becomes less obvious.
The heating circuit 20, which includes: a power source 21; a matching device 22; and an electrode 23, outputs a microwave from the electrode 23 to heat and cook a product to be heated.
The controller 30 includes: a central processing unit (CPU) 31; and a memory 32. With reference to various kinds of data stored in the memory 32, the CPU 31 controls the components of the heating apparatus 100 in accordance with a control program stored in the memory 32. The components such as the power source 21 and the matching device 22 are included in the heating circuit 10.
The door unit 40 includes: a door 41; a door lock mechanism 42; and an open-close detection sensor 43. Based on an instruction from the controller 30, the door lock mechanism 42 locks the door 41 with the door 41 closed. The open-close detection sensor 43 detects whether the door 41 is open or closed, and transmits the detected state to the controller 30.
The output unit 50 includes: a display 51; and a speaker 52. The display 51 presents a text message and an image based on an instruction from the controller 30. Note that the operation button switch 11 and the display 51 may be included in a touch panel. The speaker 52 outputs audio based on an instruction from the controller 30.
Based on an instruction from the controller 30, the communication interface 60 transmits data to, and receives data from, another apparatus through Wi-Fi (Registered), the Internet, and a carrier network. Note that the communication interface 60 may include an antenna 61 for wireless communications and a connector 62 for wireline communications.
Described below is processing on the controller 30 according to this embodiment. Through the operation button switch 11 and the bar-code reader 12, the CPU 31 according to this embodiment receives instructions for a heating time period and a “settling” time period and a command to start cooking, and executes the processing illustrated in
First, the CPU 31 sets a received heating time period (Step S102). The CPU 31 causes the door lock mechanism 42 to lock the door 41 with the door 41 closed (Step S104). The CPU 31 causes the heating circuit 20 to start heating and cooking (Step S106).
The CPU 31 determines whether the set heating time period has elapsed since the beginning of the heating and cooking (Step S108). If the heating time period has elapsed (Step S108: YES), the CPU 31 causes the heating circuit 20 to finish cooking and heating (Step S110), and notifies through the display 51 and the speaker 52 that the heating and cooking has ended (Step S112).
The CPU 31 sets a received “settling” time period (Step S114), and starts a “settling” step (Step S116). Through the operation button switch 11, the CPU 31 determines whether to have received a command to cancel the “settling” step (Step S118).
If receiving the command to cancel the “settling” step (Step S118: YES), the CPU 31 finishes the “settling” step (Step S122), and notifies through the display 51 and the speaker 52 that the “settling” time period has ended (Step S124). The CPU 31 causes the door lock mechanism 42 to unlock the door 41 (Step S126).
If not receiving the command to cancel the “settling” step (Step S118: NO), the CPU 31 determines whether the “settling” time period has elapsed (Step S120). If the “settling” time period has not elapsed (Step S120: NO), the CPU 31 repeats the processing from Step S118.
If the “settling” time period has elapsed (Step S120: YES), the CPU 31 executes processing from Step S122.
Hence, the heating apparatus 100 according to this embodiment is designed so that the user cannot take out the heated product unless the heated product is left at room temperature for a certain time period (i.e., the “settling” time period). Such a feature makes it possible to reduce the risk that a product whose temperature is unevenly distributed immediately after the heating is served before the temperature is uniformly distributed, contributing to an improvement in quality of the product.
Moreover, the heating apparatus 100 allows for setting of two kinds of time periods; namely, a heating time period and a “settling” time period. Such a feature makes it possible to prioritize safety and mandatorily lock the door during the heating time period, whereas, the feature allows the user to unlock the door at the user's discretion during the “settling” time period because there is no concern about safety during the “settling” time period. As a result, the heating apparatus 100 can improve the quality of the product while ensuring the safety.
In the above embodiment, the user inputs a heating time period and a “settling” time period through the controller. Alternatively, the bar-code reader is used to read a heating time period and a “settling” time period of a product to be heated. However, the features of the heating apparatus 100 shall not be limited to those in the first embodiment. An example of the features is to prepare multiple patterns of combinations between the heating time period and the “settling” time period.
For example, the memory 32 stores a “settling” time period table 32A illustrated in
Then, the memory 32 stores a product information table 32B illustrated in
As illustrated in
When receiving a command to start heating and cooking (Step S208), the CPU 31 sets the heating time period read from the “settling” time period table 32A (Step S102). The CPU 31 causes the door lock mechanism 42 to lock the door 41 with the door 41 closed (Step S104). The CPU 31 causes the heating circuit 20 to start heating and cooking (Step S106).
The CPU 31 determines whether the set heating time period has elapsed since the beginning of the heating and cooking (Step S108). If the heating time period has elapsed (Step S108: YES), the CPU 31 causes the heating circuit 20 to finish cooking and heating (Step S110), and notifies through the display 51 and the speaker 52 that the heating and cooking has ended (Step S112).
The CPU 31 sets the “settling” time period read from the “settling” time period table 32A (Step S114), and starts the “settling” step (Step S116). Through the operation button switch 11, the CPU 31 determines whether to have received a command to cancel the “settling” step (Step S118).
If receiving the command to cancel the “settling” step (Step S118: YES), the CPU 31 finishes the “settling” step (Step S122), and notifies through the display 51 and the speaker 52 that the “settling” time period has ended (Step S124). The CPU 31 causes the door lock mechanism 42 to unlock the door 41 (Step S126).
If not receiving the command to cancel the “settling” step (Step S118: NO), the CPU 31 determines whether the “settling” time period has elapsed (Step S120). If the “settling” time period has not elapsed (Step S120: NO), the CPU 31 repeats the processing from Step S118.
If the “settling” time period has elapsed (Step S120: YES), the CPU 31 executes processing from Step S122.
In addition to the configurations of the above embodiments, a third embodiment further involves displaying (i) the “settling” step in progress until the “settling” time period elapses and (ii) a time period remaining until the end of the “settling.”
More specifically, as illustrated in
When receiving a command to start heating and cooking (Step S208), the CPU 31 sets the heating time period read from the “settling” time period table 32A (Step S102). The CPU 31 causes the door lock mechanism 42 to lock the door 41 with the door 41 closed (Step S104). The CPU 31 causes the heating circuit 20 to start heating and cooking (Step S106).
Particularly in this embodiment, the CPU 31 causes the display 51 to present the heating and cooking currently in progress, and to present a time period remaining until the end of the heating and cooking (Step S302).
The CPU 31 determines whether the set heating time period has elapsed since the beginning of the heating and cooking (Step S108). If the heating time period has elapsed (Step S108: YES), the CPU 31 causes the heating circuit 20 to finish cooking and heating (Step S110), and notifies through the display 51 and the speaker 52 that the heating and cooking has ended (Step S112).
Next, the CPU 31 sets the “settling” time period read from the “settling” time period table 32A (Step S114), and starts the “settling” step (Step S116).
Particularly in this embodiment, the CPU 31 causes the display 51 to present the “settling” step currently in progress, and to present a time period remaining until the end of the “settling” time period (Step S304).
Note that, in Step S304, the CPU 31 may cause the speaker 52 to present, along with or instead of the presentation on the display 51, a message and a ring tone notifying that the “settling” step is currently in progress. Moreover, the CPU 31 may cause the speaker 52 to present, along with or instead of the presentation on the display 51, the time period remaining until the end of the “settling” time period.
Through the operation button switch 11, the CPU 31 determines whether to have received a command to cancel the “settling” step (Step S118).
If receiving the command to cancel the “settling” step (Step S118: YES), the CPU 31 finishes the “settling” step (Step S122), and notifies through the display 51 and the speaker 52 that the “settling” time period has ended (Step S124). The CPU 31 causes the door lock mechanism 42 to unlock the door 41 (Step S126).
If not receiving the command to cancel the “settling” step (Step S118: NO), the CPU 31 determines whether the “settling” time period has elapsed (Step S120). If the “settling” time period has not elapsed (Step S120: NO), the CPU 31 repeats the processing from Step S304.
If the “settling” time period has elapsed (Step S120: YES), the CPU 31 executes processing from Step S122.
Particularly in this embodiment, after the door is unlocked (Step S126) until the door 41 is open (Step S306: YES), the CPU 31 causes, based on a signal from the open-close detection sensor 43, the display 51 to present a text message and an image notifying that the “settling” time period has ended (Step S308), encouraging the user to open the door 41. Note that the CPU 31 may cause the speaker 52 to present, along with or instead of the presentation on the display 51, a message and a ring tone notifying that the “settling” time period has ended.
In addition to the configurations of the above embodiments, a fourth embodiment further involves periodically transmitting to another apparatus information indicating (i) the “settling” step in progress until the “settling” time period elapses and (ii) a time period remaining until the end of the “settling.”
More specifically, as illustrated in
Furthermore, the CPU 31 may transmit through the communication interface 60 information to other pre-registered terminals such as a smartphone, a wearable terminal, and a speaker, the information including (i) information indicating the heating and cooking currently in progress and (ii) information indicating a time period remaining until the end of the heating and cooking (Step S402).
Moreover, the CPU 31 may transmit through the communication interface 60 information to other pre-registered terminals such as a smartphone, a wearable terminal, and a speaker, the information indicating that the “settling” time period has ended (Step S408).
In the above embodiments, the heating circuit 20 includes the power source 21, the matching device 22, and the electrode 23. Instead of utilizing a technique to heat with a microwave, the heating circuit 20 may utilize another technique to heat and cook with, for example, a heating wire.
<Summary>
Provided in the above embodiments is a heating apparatus including: a heating circuit heating a product to be heated; a door; a door lock mechanism locking the door with the door closed; and a processor controlling the heating circuit and the door lock mechanism. Based on an indication of a heating time period and a “settling” time period, the processor causes the door lock mechanism to lock the door, with the door closed, from a beginning of the heating until an end of the “settling” time period.
Preferably, the heating apparatus may further include a bar-code reader reading information from a label attached to the product, the information indicating the “settling” time period.
Preferably, the heating apparatus may further include an input unit receiving an input of information for indicating a combination included in the plurality of combinations.
Preferably, the heating apparatus may further include: a sensor configured to detect whether the door is open or closed; and a display. The processor may cause the display to present that the “settling” time period has not ended until the end of “settling” time period, and that the “settling” time period has ended until the door is open after the end of the “settling” time period.
Preferably, the processor may cause the door lock mechanism to unlock the door when receiving a predetermined operation even before the end of the “settling” time period.
Preferably, the heating apparatus may further include a communication interface. From the beginning of the heating until the end of the “settling” time period, the processor may cause the communication interface to transmit information including at least one of: a time period remaining until an end of the heating; and a time period remaining until the end of the “settling” time period.
Preferably, the heating circuit may include: a power source; a matching circuit; and an electrode. The heating circuit may utilize dielectric heating.
The embodiments disclosed herein are examples in every respect, and not limiting of the present disclosure. The scope of the present disclosure is defined not by the descriptions above but by the scope of claims, and is intended to include all the modifications within the scope of the claims along with the their full scope of equivalents.
Number | Date | Country | Kind |
---|---|---|---|
JP2019-054220 | Mar 2019 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
3214567 | Chisholm | Oct 1965 | A |
3699299 | Umezu | Oct 1972 | A |
3715552 | Umezu | Feb 1973 | A |
4101750 | Doner | Jul 1978 | A |
4862870 | Fox | Sep 1989 | A |
4899034 | Kadwell | Feb 1990 | A |
4982063 | Tsunekawa | Jan 1991 | A |
5293020 | Han | Mar 1994 | A |
5477030 | Buckshaw | Dec 1995 | A |
5517006 | Fredriksson | May 1996 | A |
20190234109 | Chen | Aug 2019 | A1 |
Number | Date | Country |
---|---|---|
1467434 | Jan 2004 | CN |
108451341 | Aug 2018 | CN |
2004-198077 | Jul 2004 | JP |
2005-188880 | Jul 2005 | JP |
2008-096011 | Apr 2008 | JP |
Number | Date | Country | |
---|---|---|---|
20200305243 A1 | Sep 2020 | US |