JP2004254739A - Cooking data recording system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve the reliability of safety of foods to be cooked massively. <P>SOLUTION: This cooking data recording system is provided with a data collection device 20 having a first temperature sensor 22 detecting the cooking temperature in a cooker 10 at prescribed time intervals and a first wireless transmission part 23 transmitting data detected at the cooker 10 to a computer device 50; a portable terminal device 30 having a second temperature sensor 32 detecting the temperature in the foods cooked by the cooker 10, an operation part 36 for inputting the cooking start and the cooking finish of the foods therein and a second wireless transmission part 33 transmitting the data showing the temperature measured by the second temperature sensor 32 and the cooking start and the cooking finish; and the computer device 50 having a third wireless transmission part 53 receiving the data wirelessly transmitted from the data collection device 20 and the portable terminal device 30, and database 72 and a printer 74 recording the data received by the third wireless transmission part 53 in a recording medium along with the time. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a cooking data recording system, and more particularly to a cooking data recording system that records cooking data necessary for managing hygiene of foods cooked in large quantities.
[0002]
[Prior art]
When cooking a large amount of food, (1) confirm that the temperature of the cooker has become equal to or higher than the set temperature at the start of cooking, (2) record the time at which cooking has started, (3) the person in charge of cooking It is necessary to pierce a thermometer into the center of the food to measure the center temperature of the food, record the measured center temperature of the food, and (4) record the time when cooking is completed. That is, cooking of food is specified as a critical control point (CCP: Critical Control Point) in food hygiene management, and there is a possibility that food-cooked food may cause harm to food hygiene such as bacterial propagation. Hazard analysis (HA) is performed to determine whether or not there is. Here, if there is any food whose central temperature does not reach the predetermined reference temperature or higher, the cooking staff will transfer the food to the next process such as food delivery unless corrective measures such as reheating are taken. It must not be provided.
[0003]
In general, the above-mentioned (1) is visually confirmed and written by hand on a designated sheet. (2) The time is confirmed by a clock and the cooking start time is written by hand on the designated sheet. (3) In (4), the user checks the temperature displayed on the thermometer and fills in the designated form by hand, and (4) checks the time with a clock and writes the cooking end time in the designated form by hand.
[0004]
When responding to an abnormal operation of the cooking appliance during cooking, a person senses the content displayed on the cooking appliance and responds.
[0005]
Also, a temperature sensor for measuring the central temperature of food and a personal computer device are connected via a network cable, and the personal computer device sequentially records the central temperature of the food measured by the temperature sensor. The following has been proposed (for example, see Patent Document 1).
[0006]
[Patent Document 1]
JP-A-2000-41592
[0007]
[Problems to be solved by the invention]
However, if the record in the heating cooking is handwritten, there is a possibility that omission of the record, erroneous entry, and deception may occur, and the authenticity is lacking, and the record does not make sense as a HACCP record.
[0008]
Even if the personal computer sequentially records the central temperature of food, the recording of the central temperature of food alone still lacks credibility.
[0009]
For example, if a large amount of fried food is cooked, even if the center temperature of the first fried food in the large amount of fried food is recorded as being equal to or higher than the reference temperature, it is difficult for heat to pass through portions where heat easily passes. In some parts of the fried food, the temperature of the food may have been measured in a part where the temperature is not sufficiently raised and the part is easily fried.
[0010]
In addition, between the fried food and the fried food that recorded that the center temperature was higher than the reference temperature, the unheated food was excessively poured into the oil, and temporarily fried with the oil whose temperature fell below the appropriate temperature. There is no denying that some fried food has been produced.
[0011]
Generally, qualified cooks are supposed to cook in order to avoid such inaccuracies during cooking, but due to recent advances in technology and the enrichment of food menus, With various types of cookers, foods of various structures are cooked, and even if a qualified cook cooks the food, recording the center temperature of the food alone may cause unexpected Suspicion that an abnormal cooking state has occurred cannot be denied.
[0012]
In addition, when food is provided at approximately noon, such as during lunch, and when a large amount of food must be provided at one time, the food is provided within a predetermined time (for example, from 10 am to noon). ), A large amount of food must be cooked, and delays in coping with abnormalities in the cooker may cause great confusion.
[0013]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a cooking data recording system that can improve the reliability of safety of foods cooked in large quantities.
[0014]
[Means for Solving the Problems]
In order to achieve the object, the invention according to claim 1 is provided in a cooking device installed in a kitchen facility or the like, and a sensor that detects data including a cooking temperature in the cooking device at predetermined time intervals. A data collection device having first wireless communication means for transmitting data detected by the sensor to a computer device, a temperature sensor for detecting a temperature in food cooked by the cooker, and cooking of the food A portable terminal device having input means for inputting start and end of cooking, and a second wireless communication means for transmitting data indicating the temperature measured by the temperature sensor and the start and end of cooking to the computer device; A third wireless communication unit that receives data wirelessly transmitted from the data collection device and the portable terminal device, and a data recording unit that stores the data received by the third wireless communication unit together with a time. Is characterized by comprising, said computer apparatus having a recording means for recording.
[0015]
According to the present invention, data necessary for managing food hygiene, such as a cooking temperature in a cooker, a cooking start time, a temperature in food (center temperature), and a cooking end time, are accurately and reliably recorded. The reliability of the safety of foods recorded on media and cooked in large quantities is improved.
[0016]
According to a second aspect of the present invention, in the first aspect of the present invention, the computer device communicates the set temperature of the cooker and an actually measured temperature taken through the data collection device to the third wireless device. The portable terminal is transmitted from the communication unit to the portable terminal, and the portable terminal includes a unit that displays the set temperature of the cooker and the measured temperature received from the computer.
[0017]
With this configuration, even if the person in charge of cooking is at a position distant from the cooker, or the temperature is not displayed on the cooker, the cooker can know the set temperature and the measured temperature of the cooker on the portable terminal device. become.
[0018]
According to a third aspect of the present invention, in the first or second aspect of the invention, the portable terminal device includes means for notifying an abnormality of the cooking device when an abnormality occurs in the cooking device. Has become.
[0019]
With this configuration, the person in charge of cooking can know the abnormality of the cooker even if the cook is away from the cooker and does not need to analyze the contents based on the contents and experiences displayed on the cooker. , It is possible to immediately deal with the abnormality.
[0020]
Further, the invention according to claim 4 is provided in a cooking device installed in a kitchen facility or the like, wherein the sensor detects data including a cooking temperature in the cooking device at predetermined time intervals, and the sensor detects the data. A data collection device having first wireless communication means for transmitting data to the portable terminal device, a temperature sensor for detecting a temperature in the food cooked by the cooker, and a start and end of cooking of the food. The portable terminal, comprising: input means to be input; and recording means for recording data wirelessly transmitted from the data collection device, temperature measured by the temperature sensor, data indicating cooking start, and data indicating cooking end together with time. And a device.
[0021]
With this configuration, data necessary for managing food hygiene is sufficiently and accurately recorded on a recording medium accurately and reliably, and the reliability of safety of foods cooked in large quantities is improved.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a preferred embodiment of a cooking data recording system according to the present invention will be described in detail with reference to the accompanying drawings.
[0023]
FIG. 1 is an overall configuration diagram of an embodiment of a cooking data recording system according to the present invention. FIG. 2 is a main block diagram of the cooking data recording system shown in FIG.
[0024]
In FIG. 1, a cooker 10 is a device that is installed in a kitchen facility or the like and heats and cooks food such as frying a croquette. The data collection device 20 is a device that collects data of the cooking device 10. When the temperature sensor is not provided in the cooking device 10, the temperature of the cooking device 10 is detected by the temperature sensor 22 provided in the data collection device 20. The portable terminal device 30 is a device that is mainly carried by the person in charge of cooking, and the person in charge of cooking pierces the temperature sensor 32 provided in the portable terminal device 30 into the center of the food, so that the cooked food is cooked. The center temperature is measured. The computer device 50 is a device for acquiring and managing various data from the data collection device 20 and the portable terminal device 30.
[0025]
Note that a plurality of cookers 10 and data collection devices 20 are actually arranged. In addition, the example in which the data collection device 20 is provided externally to the cooking device 10 is illustrated, but the data collection device 20 may be provided inside the cooking device 10.
[0026]
2, the cooker 10 has a food heating unit 11 for heating food, a display unit 14, and an operation unit 16 on which various operations such as temperature setting are performed.
[0027]
The data collection device 20 includes a temperature sensor 22 that detects the temperature of the cooking device 10, a wireless communication unit 23 that wirelessly communicates with the computer device 50, a timer 27 that measures time, a memory 28, It has a CPU 29 that controls each unit.
[0028]
The CPU 29 of the data collection device 20 acquires the heating state of the cooking device 10 at regular time intervals (for example, at one-second intervals) from the temperature sensor 22 or the like of the data collection device 20. In addition, the heating state of the cooking device 10 is wirelessly transmitted to the computer device 50 at fixed time intervals (for example, at one-second intervals) by the wireless communication unit 23 of the data collection device 20 together with the time.
[0029]
For example, if the cooker 10 is a fryer that fries food, the oil temperature is acquired at regular time intervals from the temperature sensor 22 that detects the oil temperature. As shown in FIG. 6A, in the case of a fryer that conveys the food item 90 in the oil 122 by the conveyor 112, the conveying speed v of the conveyor 112 is acquired at regular time intervals, and the conveying speed v The heating time of one food is calculated based on the transport distance d in the oil, and the calculated heating time is transmitted from the data collection device 20 to the computer device 50. The transport speed v may be transmitted to the computer device 50. Note that the proper state of the heating state also differs depending on the type of cooker and the type of food.
[0030]
When an abnormality is detected in the cooking device 10, the data collection device 20 notifies the computer device 50 of the occurrence of the abnormality together with the content of the abnormality by the wireless communication unit 23.
[0031]
The portable terminal device 30 includes a temperature sensor 32 that detects the temperature (center temperature) in the food, a wireless communication unit 33 that wirelessly communicates with the computer device 50, a notification of the set temperature and the measured temperature of the cooking device 10, A display unit 34 and an audio output unit 35 for notifying the occurrence of an abnormality in the cooker 10 and various operations such as an input operation for starting cooking, a selection operation of a cooker and food, and an input operation for finishing cooking. The portable terminal device 30 includes an operation unit 36, a timer 37 for measuring time, a memory 38, and a CPU 39 for controlling each unit of the portable terminal device 30.
[0032]
The wireless communication unit 33 of the mobile terminal device 30 requests the computer device 50 for cooking schedule data under the control of the CPU 39 of the mobile terminal device 30 and receives the cooking data from the computer device 50. FIG. 7 shows an example of the schedule data. The schedule data 720 in FIG. 7 indicates a cooker name 722, a food name 724, a quantity 726 of food to be cooked, and an appropriate cooking temperature 728, respectively. In addition, the wireless communication unit 33 of the portable terminal device 30 wirelessly receives, via the computer device 50, a notification of the heating state of the cooking device 10 and a notification of the occurrence of an abnormality, transmitted from the data collection device 20.
[0033]
The CPU 39 of the portable terminal device 30 determines whether or not the heating state of the cooking device 10 is in an appropriate state based on the schedule data received from the computer device 50. If the state is not in the proper state, the measurement of the center temperature of the food is prohibited until the heating state of the cooker 10 is in the proper state. Allow the center temperature measurement of
[0034]
The display unit 34 of the mobile terminal device 30 displays the set temperature and the measured temperature of the cooking device 10 transmitted from the data collection device 20 and received via the computer device 50.
[0035]
The display unit 34 and the audio output unit 35 of the portable terminal device 30 notify a person of the occurrence of the abnormality in the cooking appliance 10 when the abnormality occurs in the cooking appliance 10.
[0036]
In addition, the wireless communication unit 33 of the mobile terminal device 30 detects an abnormality during the center temperature of the food measured by the temperature sensor 32 of the mobile terminal device 30, the measurement time, the cooking start time, the cooking end time, and the cooking during heating. Corrective measures in the event of such a situation and other information necessary for recording are wirelessly transmitted to the computer device 50.
[0037]
The computer device 50 includes a wireless communication unit 53 that wirelessly communicates with the data collection device 20 and the portable terminal device 30, a display unit 54, an operation unit 56, a memory 58, a CPU 59, a database 72, and a printer 74. Have.
[0038]
The wireless communication unit 53, the database 72, the printer 74, and the like do not need to be built in the computer device 50, and may be provided externally to the computer device 50 via a serial cable or a LAN.
[0039]
The CPU 59 of the computer device 50 extracts the schedule data from the database 72 in response to a request from the mobile terminal device 30 and transmits the schedule data to the mobile terminal device 30 by the wireless communication unit 53 of the computer device 50. The CPU 59 of the computer device 50 transfers the heating state of the cooker 10 received from the data collection device 20 to the portable terminal device 30 by the wireless communication unit 53 of the computer device 50.
[0040]
In addition, the CPU 59 of the computer device 50 uses the database 72 and the printer 74 to transmit data received from the cooking device 10 (set temperature of the cooking device 10, measured temperature of the cooking device 10, content of occurrence of abnormality of the cooking device 10, etc.) and a portable terminal. The data (cooking start time, food center temperature, cooking end time, corrective action content, etc.) received from the device 30 is recorded in a time-series manner in association with each other.
[0041]
Next, the operation of the cooking data recording system having the above configuration will be described.
[0042]
FIG. 3 is a flowchart illustrating an example of processing in the cooking device 10 and the data collection device 20.
[0043]
First, a set temperature for heating and cooking food is input (S102). The set temperature is set and operated by, for example, the operation unit 16 of the cooking device 10, and is input to the CPU 29 of the data collection device 20. When the temperature of the cooker 10 is set, the food heating unit 11 of the cooker 10 raises the temperature of the cooker 10. For example, in the case of a fryer for frying fried foods, the oil temperature of the fryer (the temperature of the cooker) increases toward the set temperature. The mechanism for raising the temperature of the cooker 10 and keeping it within a predetermined range near the set temperature may be automatic or manual depending on the type of the cooker 10.
[0044]
The CPU 29 of the data collection device 20 samples the temperature of the cooking appliance detected by the temperature sensor 22 of the data collection device 20 at regular time intervals (S104). For example, in the case of a flyer, the oil temperature of the flyer is obtained. Further, the CPU 29 of the data collection device 20 determines the heating state of the cooking device 10 such as the set temperature of the cooking device 10 and the measured temperature of the cooking device 10 together with the time by the wireless communication unit 23 of the data collection device 20 at regular time intervals. Then, the data is transmitted wirelessly to the computer device 50 (S106). The actual measurement of the temperature of the cooking device 10 (S104) and the transmission of the data of the cooking device 10 (S106) are continued until it is determined that the cooking is completed (S108).
[0045]
FIG. 4 is a flowchart illustrating an example of processing in the mobile terminal device 30. Each step of the flowchart of FIG. 4 is executed by the CPU 39 of the mobile terminal device 30 according to a program.
[0046]
When a cooking start request is input to the operation unit 36 of the mobile terminal device 30, the wireless communication unit 33 of the mobile terminal device 30 requests the computer device 50 to schedule data related to food cooking (S202). Here, the schedule data is stored in the database 72 in advance, and as shown in an example in FIG. 7, the quantity 726 of the food to be cooked and the appropriate amount for each cooker and each food (each of 722 and 724). Information such as a proper cooking temperature 728 is shown. Then, the schedule data from the computer device 50 is wirelessly received by the wireless communication unit 33 of the portable terminal device 30 (S204).
[0047]
When the schedule data is received, the display unit 34 and the audio output unit 35 of the mobile terminal device 30 prompt the cook to select a cooker and a food, and the operation unit 36 of the mobile terminal device 30 selects the cooker and the food. Is performed (S206). Identification information indicating the selected cooker and food (for example, “Flyer 1” and “Croquette”, which may be an identification number) is wirelessly transmitted to the computer device 50 by the wireless communication unit 33 of the mobile terminal device 30. Then, it is recorded on a recording medium (S208).
[0048]
The heating state of the cooking device 10, such as the set temperature of the cooking device 10 and the measured temperature of the cooking device 10, is wirelessly received by the wireless communication unit 33 of the portable terminal device 30 (S210). Here, the heating state of the cooking device 10 is data transmitted from the data collection device 20 at regular time intervals and transferred to the portable terminal device 30 by the computer device 50.
[0049]
When the heating state of the cooker 10 is received, it is determined whether the heating state of the cooker 10 is in an appropriate state based on the schedule data received from the computer device 50 (S212). If not, the measurement of the center temperature of the food is prohibited, and the person is notified that cooking cannot be started (S214).
[0050]
Specifically, first, it is determined whether or not the set temperature of the cooker 10 is equal to or higher than the cooking temperature at the time of cooking the corresponding food with the corresponding cooker 10 indicated in the schedule data. For example, when cooking “croquette” with “Fryer No. 1”, it is determined whether the set temperature of the cooking device 10 is 180 ° C. or higher. When the set temperature of the cooker 10 is not appropriate, the display unit 34 and the audio output unit 35 of the portable terminal device 30 notify that the set temperature of the cooker 10 is not appropriate. In addition, for example, the food temperature measurement permission lamp provided on the display unit 34 of the portable terminal device 30 is lit in red (indicating that food temperature measurement is prohibited). Further, it is determined whether or not the actually measured temperature of the cooking device 10 is equal to or higher than the cooking temperature for cooking the corresponding food with the corresponding cooking device 10 indicated in the scheduled data. For example, when cooking “croquette” with “Fryer No. 1”, it is determined whether or not the oil temperature of the cooker (actually measured temperature of the cooker) is 180 ° C. or higher. If the measured temperature of the cooking device 10 is not appropriate, the display unit 34 and the audio output unit 35 of the portable terminal device 30 notify that the temperature of the cooking device 10 is not appropriate. In the case of a fryer, for example, the display section 34 of the portable terminal device 30 displays a message “Please wait until the temperature of the cooker becomes an appropriate temperature”. In addition, for example, the audio output unit 35 of the portable terminal device 30 outputs an audio message “Please wait until the temperature of the cooker reaches an appropriate temperature”. In addition, for example, the food temperature measurement permission lamp provided on the display unit 34 of the portable terminal device 30 is lit in red (indicating that food temperature measurement is prohibited). Further, for example, it is determined whether or not the heating time (or the food transport speed) of the food in the cooker 10 is appropriate, and if not, the measurement of the stop temperature of the food is prohibited.
[0051]
In the state where the measurement of the center temperature of the food is prohibited, even if the temperature sensor 32 of the portable terminal device 30 is pierced by the food, the measurement of the center temperature of the food is invalidated, and the cooking start time and Do not record the center temperature of the food.
[0052]
Generally, in the case of a flyer, even if the set temperature is set properly, if the oil temperature has not risen to an appropriate temperature, it is necessary to wait until the oil temperature rises to an appropriate temperature. .
[0053]
Until the heating state of the cooking device 10 becomes the proper state, the reception of the heating condition of the cooking device 10 (S210) and the proper determination of the heating condition of the cooking device 10 (S212) are repeated, and the heating condition of the cooking device 10 is proper. When the state is reached, measurement of the center temperature of the food is permitted, and a person is notified that cooking can be started (S220). In the case of a fryer, for example, the display unit 34 of the portable terminal device displays a message that "the cooking device has reached an appropriate temperature and cooking can be started." In addition, for example, the voice output unit 35 of the portable terminal device 30 outputs a voice saying, "The temperature of the cooker has reached an appropriate temperature, cooking can be started." In addition, for example, the food temperature measurement permission lamp provided on the display unit 34 of the portable terminal device 30 is turned on in green (indicating that the food temperature measurement is permitted).
[0054]
Further, the time measured by the timer 37 of the portable terminal device 30 is wirelessly transmitted to the computer device 50 by the wireless communication unit 33 of the portable terminal device 30 as the cooking start time, and recorded on the recording medium (S222). The transmission of the start time is automatically performed when the heating state of the cooking device 10 becomes an appropriate state because the operation of starting cooking of the specific food in the specific cooking device 10 has already been performed (S206). May be transmitted. In addition, after the heating state of the cooking device 10 becomes an appropriate state, the transmission may be transmitted when an operation for confirming the start of cooking is further performed on the operation unit 36 of the portable terminal device 30. In the former case, the operation is omitted, so that cooking can be started immediately, which is convenient. In the latter case, the cooking start time is recorded according to the intention of the cook.
[0055]
In the state where the center temperature measurement of the food is permitted, if the temperature sensor 32 of the portable terminal device 30 is stabbed at the center of the food by the cook, the central temperature of the food is acquired from the temperature sensor 32 of the portable terminal device 30 ( S230). Further, the wireless communication unit 33 of the mobile terminal device 30 wirelessly transmits the heated state of the food, such as the center temperature of the food, together with the time to the computer device 50 by the wireless communication unit 33 of the mobile terminal device 30 and records the time. It is recorded on a medium (S232).
[0056]
Next, it is determined whether or not the center temperature of the food meets the standard (S240).
[0057]
As described above, cooking is started after it is confirmed that the temperature of the cooking device 10 has already reached an appropriate cooking temperature (for example, the oil temperature is 180 ° C. or more), and the center temperature of the food is measured. The center temperature of such properly cooked food is usually determined to conform to criteria (eg, 75 ° C. or higher).
[0058]
If the central temperature of the food does not conform to the standard for some reason, the display unit 34 and the audio output unit 35 of the portable terminal device 30 notify that the central temperature of the food does not conform to the standard. (S242). Next, the corrective action candidates are displayed on the display unit 34 of the mobile terminal device 30, and the selection of the corrective action is received by the operation unit 36 of the mobile terminal device 30 (S244). Here, candidates for corrective actions regarding post-treatment of cooked food, such as "reheat" and "food waste," and "raising the set temperature of the cooker" and "extending the cooking time of the cooker" Such a corrective action candidate for the cooking appliance 10 is displayed and selected. The selected corrective action is wirelessly transmitted to the computer device 50 by the wireless communication unit 33 of the mobile terminal device 30 along with the time, and is recorded on the recording medium (S246). The corrective action may be automatically performed by instructing the cooker 10 on the selected corrective action, or may be performed manually. For example, as shown in FIG. 6B, when the food 90 is transported by the annular conveyor 112, the loading and unloading of the food 90 is stopped, and the food 90 is transported to the original position and reheated. Corrective measures such as cooking may be taken.
[0059]
In addition, the heating state of cooker 10 is received by wireless communication unit 33 of portable terminal device 30 (S250). Here, the heating state of the cooking device 10 is data transmitted from the data collection device 20 at regular time intervals and transferred by the computer device 50 to the portable terminal device 30.
[0060]
When the heating state of the cooking device 10 is received, it is determined based on the schedule data received from the computer device 50 whether or not the heating state of the cooking device 10 is in an appropriate state (S260). If the heating state is not proper, the display unit 34 of the portable terminal device 30 and the audio output unit 35 of the portable terminal device 30 notify that the heating state of the cooking device 10 is not proper (S262). For example, when cooking “croquette” with “Fryer No. 1”, it is determined whether the set temperature of the cooking device 10 and the oil temperature of the cooking device 10 (measured temperature of the cooking device) are 180 ° C. or more. Is done. For example, there is a case where the set temperature is erroneously changed during cooking, or a case where the oil temperature of the cooking device 10 has dropped due to a malfunction of the cooking device 10. Next, corrective action candidates are displayed on the display unit 34 of the mobile terminal device 30, and selection of a corrective action is received by the operation unit 36 of the mobile terminal device 30 (S264). The selected corrective action is wirelessly transmitted to the computer device 50 by the wireless communication unit 33 of the portable terminal device 30 along with the time, and is recorded on the recording medium (S266). The corrective action may be automatically performed by instructing the cooker 10 on the selected corrective action from the computer device 50, or may be performed manually.
[0061]
When the cooking end operation is performed by the operation unit 36 of the portable terminal device 30, it is determined that the cooking is finished (S270), and the cooking end time is wirelessly transmitted to the computer device 50 by the wireless communication unit 33 of the portable terminal device 30. Then, the program is recorded on a recording medium by the computer device 50 (S272).
[0062]
FIG. 5 is a flowchart showing an example of processing in the computer device 50. Each step of the flowchart in FIG. 5 is executed by the CPU 59 of the computer device 50 according to a program.
[0063]
When the wireless communication unit 53 of the computer device 50 wirelessly transmits the schedule data to the mobile terminal device 30 in response to the request from the mobile terminal device 30 (S302) and receives the identification information of the cooker and the food from the mobile terminal device 30 The identification information of the cooker and the food is recorded in the database 72 (S312).
[0064]
Further, when the heating state of the cooking device 10 (set temperature, measured temperature, etc.), the content of the abnormality of the cooking device 10 and other data of the cooking device 10 are received from the data collection device 20 (S320), the received data is The data is transmitted wirelessly to the portable terminal device 30 (S322), and is recorded in the database 72 together with the time (S324).
[0065]
When the cooking start time is received from the portable terminal device 30 (S330), the cooking start time is recorded in the database 72 (S332). Similarly, when the heated state of the food (such as the center temperature of the food) and the time are received from the portable terminal device 30 (S340), the heated state of the food is recorded in the database 72 together with the time (S342). When the corrective action is received from S30 (S350), the corrective action information is recorded in the database 72 together with the time (S352).
[0066]
In this manner, the data transmitted from the data collection device 20 and the data transmitted from the mobile terminal device 30 are recorded in the database 72 in a time-series manner.
[0067]
When the cooking end time is received from the portable terminal device 30 (S360), the cooking end time is recorded in the database 72 (S362). The data received by the printer 74 from the data collection device 20 and the portable terminal device 30 (identification information of the cooking device 10, identification information of the food, setting temperature of the cooking device 10, heating state of the cooking device 10, food The central temperature, cooking start time, cooking end time, occurrence of abnormality, corrective measures, etc.) are collectively recorded on a sheet as a cooking history (S370).
[0068]
FIG. 8 shows an example of the cooking history recorded on the paper by the printer 74. In FIG. 8, the measured temperature 122 of the cooking device 10 is recorded before and after the cooking start time 372 (here, the time when the measured temperature 122 of the cooking device becomes appropriate), and the cooking is performed after the cooking start time 372. The measured center temperature 322 of the food is recorded in association with the actually measured temperature 122 of the cooking appliance in a time-series manner. Since no abnormality occurred in the cooking device 10, 366 is recorded as no abnormality. In addition, the measured temperature 122 of the cooking device 10 is always equal to or higher than the appropriate temperature after the cooking start time 372, and the measured temperature 322 of the food is always equal to or higher than the reference temperature 320 after the cooking start time 372. No action was recorded as 368. When an abnormality occurs in the cooking device 10 or when a corrective action is taken, the content is recorded with time. Further, identification information 362 of the cooker 10, food identification information 364, and cooking end time 374 are recorded. For recording the measured temperature 122 of the cooking device 10 before the cooking start time 372, for example, a temperature from a certain time before the cooking start time 372 (for example, five minutes before) is recorded.
[0069]
According to the cooking data recording system according to the above-described embodiment, the first temperature sensor 22 that detects the cooking temperature in the cooking device 10 at a predetermined time interval, and the data detected by the first temperature sensor 22 , A data collection device 20 having a wireless communication unit 23 for transmitting the data to the computer device 50, a second temperature sensor 32 for detecting the temperature in the food cooked by the cooker 10, and starting and ending the cooking of the food. And a wireless communication unit 33 that transmits data indicating the temperature measured by the second temperature sensor 32 and the start and end of cooking to the computer device 50, and data collection. A third wireless communication unit 53 that receives data wirelessly transmitted from the device 20 and the mobile terminal device 30, and a record of the data received by the third wireless communication unit 53 together with the time. The computer device 50 and a database 72 and a printer 74 for recording on the medium, since with a necessary data in order to hygiene of the food is well documented.
[0070]
In addition, the change state of the heating state of the cooker 10 and the change state of the center temperature of the food can be compared and confirmed in chronological order, and the heating state of the cooker before and after the cooking of the food is started can be checked. You can check. The safety of food at an early stage in mass cooking can also be sufficiently confirmed.
[0071]
In addition, when the heating state of the cooking device 10 is not in the predetermined proper state, the central temperature of the food by the temperature sensor 32 of the portable terminal device 30 is maintained until the heating state of the cooking device 10 becomes the proper state. The measurement is prohibited so that the center temperature of the food is not recorded, and when the heating state of the cooker 10 becomes an appropriate state, the measurement of the center temperature of the food by the temperature sensor 32 of the portable terminal device 30 is permitted. Thus, the center temperature of the food can be recorded, so that the cook must pierce the food with the temperature sensor 32 to measure the center temperature of the food and automatically record the temperature. The measurement of the central temperature of the food by the temperature sensor 32 is prohibited in the portable terminal device 30 until the heating state of the cooker 10 becomes a proper state. Measurement of core temperature of the food by the sub is allowed in the portable terminal device 30, the center temperature measurement of the food before the heating state of the cooker 10 is the proper state is eliminated. In addition, the cooking staff may determine whether or not to actually start cooking by confirming whether or not measurement of the center temperature of food is permitted on the portable terminal device 30 side. Even in the case where the heating state differs for each food item for each cooker 10, it is necessary to visually check whether the heating state of the cooker 10 has reached an appropriate state for each food item for each cooker 10 or not. There is no problem, misjudgment is reduced, and convenience is good.
[0072]
In addition, the set temperature of the cooker 10 and the measured temperature captured via the data collection device 20 are transmitted to the portable terminal device 30, and the display unit 34 of the portable terminal device 30 displays the set temperature of the cooker 10, the measured temperature, and Is displayed, so that the person in charge of cooking can set the cooking temperature of the cooking device 10 or measure the temperature even if the temperature is not displayed on the cooking device 10 even if the person in charge is away from the cooking device 10. The temperature can be known from the portable terminal device 30.
[0073]
In addition, when an abnormality occurs in the cooking device 10, the CPU 39 of the portable terminal device displays or sounds the cooking technician, even if the cooking person is away from the cooking device, and the content and experience displayed on the cooking device. It is possible to know the abnormality of the cooker without performing the analysis on the basis of the above, and to deal with the abnormality immediately.
[0074]
In the above-described embodiment, an example in which the data collection device 20 and the mobile terminal device 30 transmit the time to the computer device 50 has been described. However, the data collection device 20 and the mobile terminal device 30 do not transmit the time. A timer may be provided in the computer device 50, and recording may be performed at a time measured by the timer of the computer device 50.
[0075]
In the above-described embodiment, an example has been described in which data from the data collection device 20 is transmitted to the mobile terminal device 30 via the computer device 50. However, the mobile terminal device 30 is directly transmitted from the data collection device 20. The same effect can be obtained even if the data is acquired first.
[0076]
In the above-described embodiment, an example has been described in which the computer device 50 records data in its own database 72 or the printer 74. However, after the portable terminal device 30 once records the cooking history in its own memory 38, When a print instruction operation is performed on the operation unit 36 of the terminal device 30, the cooking history may be transferred to the printer 74 via the computer device 50 and printed on paper.
[0077]
FIG. 9 shows a cooking data recording system according to another embodiment of the present invention. In the cooking data recording system shown in FIG. 1, a temperature sensor 22 for actually measuring the heating temperature of the cooking device 10 is provided externally to the data collection device 20, but the cooking data recording system shown in FIG. The cooker 10 has the sensor 22.
[0078]
Further, it goes without saying that the present invention is not limited to a fryer, and may be applied to any cooking device such as a roaster and a cooker.
[0079]
【The invention's effect】
As described above, according to the present invention, data necessary for managing the hygiene of food, such as the temperature of the cooker, the cooking start time, the temperature in the food, and the cooking end time, are sufficiently recorded on the recording medium. Thus, the reliability of safety of foods cooked in large quantities is improved.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of an embodiment of a cooking data recording system according to the present invention.
FIG. 2 is a block diagram of a main part of one embodiment of a cooking data recording system according to the present invention.
FIG. 3 is a flowchart showing an example of processing in the cooking device and the data collection device in the cooking data recording system according to the present invention.
FIG. 4 is a flowchart showing an example of processing in the portable terminal device in the cooking data recording system according to the present invention.
FIG. 5 is a flowchart showing an example of processing in the computer device in the cooking data recording system according to the present invention.
FIG. 6 is an explanatory diagram for describing an example in which food to be heated is conveyed by a conveyor.
FIG. 7 is an explanatory diagram showing an example of schedule data.
FIG. 8 is a diagram showing an example of cooking data recorded by a printer.
FIG. 9 is a diagram showing another embodiment of the cooking data recording system according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Cooker, 11 ... Cooker food heating part, 14 ... Cooker display part, 16 ... Cooker operation part, 20 ... Data collection device, 22 ... Temperature sensor of data collection device, 23 ... Data collection device Wireless communication unit (first wireless communication means), 27: timer of data collection device, 28: memory of data collection device, 29: CPU of data collection device, 30: portable terminal device, 32: temperature of portable terminal device Sensor, 33: wireless communication unit (second wireless communication unit) of portable terminal device, 34: display unit (notification unit) of portable terminal device, 35: voice output unit (notification unit) of portable terminal device, 36: portable Operation unit (input means) of terminal device, 37: timer of portable terminal device, 38: memory of portable terminal device, 39: CPU of portable terminal device, 50: computer device, 53: wireless communication unit of computer device (third device) of Line communication means), 54 ... display unit of computer device, 56 ... operation unit of computer device, 58 ... memory of computer device, 59 ... CPU of computer device, 72 ... database (recording means) of computer device, 74 ... computer device Printer (recording means)

Claims (4)

A sensor provided at a cooking device installed in a kitchen facility or the like, for detecting data including a cooking temperature in the cooking device at predetermined time intervals, and a first wireless device for transmitting the data detected by the sensor to a computer device. A data collection device having communication means,
A temperature sensor for detecting the temperature of the food cooked in the cooker, input means for inputting the start and end of cooking of the food, and indicating the temperature measured by the temperature sensor and the start and end of cooking. A portable terminal device having second wireless communication means for transmitting data to the computer device;
A third wireless communication unit that receives data wirelessly transmitted from the data collection device and the portable terminal device; and a recording unit that records the data received by the third wireless communication unit together with time on a recording medium. The computer device;
Cooking data recording system equipped with. The computer device transmits a set temperature of the cooker and an actually measured temperature taken through the data collection device to the portable terminal device from the third wireless communication unit, and the portable terminal device transmits the computer device. The cooking data recording system according to claim 1, further comprising means for displaying the set temperature of the cooker and the measured temperature received from the cooking device. 3. The cooking data recording system according to claim 1, wherein the portable terminal device has a unit configured to notify the abnormality of the cooking device when an abnormality occurs in the cooking device. 4. A sensor provided in a cooking device installed in a kitchen facility or the like, for detecting data including a cooking temperature in the cooking device at predetermined time intervals, and a first device for transmitting the data detected by the sensor to a portable terminal device. A data collection device having wireless communication means;
A temperature sensor for detecting a temperature in the food cooked in the cooker, input means for inputting start and end of cooking of the food, data wirelessly transmitted from the data collection device, and the temperature sensor; The measured temperature, the portable terminal device having recording means for recording data indicating the start and end of cooking with time,
Cooking data recording system equipped with.

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