KR0136056B1 - Heater/fan control method of a microwave oven - Google Patents

Abstract

The present invention relates to a microwave oven, and in particular, chaotic analysis from the temperature change of the charcoal to extract the frequency characteristics, and control the heater and the fan according to the extracted permeability characteristics to achieve the same taste as charcoal grill when grilling A method of controlling a heater / fan during grill cooking of a microwave oven.

The conventional microwave oven has a problem in that the cost is increased by using a plurality of heaters to implement the charcoal temperature when cooking the grill, the heat source of the heater according to the position of the heater is turned on by controlling the plurality of heaters sequentially on and off There was also a problem that the cooking of the heater was incomplete because it was not delivered to the food, and the temperature distribution characteristic of the charcoal near the heater even when the temperature distribution in the heating chamber of the microwave oven had a charcoal-like characteristic by controlling the heater simultaneously without controlling it sequentially However, as time passes, there is a problem in that the temperature distribution in the heating chamber becomes uniform, so that temperature characteristics such as charcoal cannot be maintained.

Accordingly, the present invention is the charcoal temperature analysis process to generate a chaotic data identical to the charcoal temperature characteristics by the chaotic analysis of the charcoal temperature characteristics, and to analyze the response characteristics to the heating chamber of the fan and the hatter correspondingly generated A chaotic data filtering process for filtering chaotic data, a reference temperature setting process for setting a reference temperature range for controlling a heater / fan with the filtered chaotic data, and a temperature sensor for sensing and detecting the temperature. Heater / fan control determination process for determining whether there is a heater or fan control in comparison with temperature and the reference temperature, and cooking by controlling the heater / fan in contrast to the detected temperature and the reference temperature according to the determination result The heater / fan control process was executed sequentially to solve the above problems of the prior art.

Description

Heater / Fan control method for grill cooking of microwave oven

1 is a perspective view of a typical microwave oven

2 is a block diagram of a heater control device applied to a conventional microwave oven

3 is a heater structure diagram applied to FIG.

4 is a circuit diagram of a microwave oven according to the present invention.

5 is a signal flow chart of the heater / fan control process for grill cooking of the present invention

6 is a first embodiment of the grill cooking process of the present invention

7 is a second embodiment of the grill cooking process of the present invention

8 is a heater or fan control pattern diagram according to the present invention

(A) and (b) of FIG. 9 are temperature fluctuations of charcoal applied to the present invention, (a) is a temperature characteristic of oak charcoal, and (b) is a temperature characteristic of sawdust charcoal.

10 is a characteristic diagram of a filter applied to the present invention

11 is a correlation analysis of charcoal temperature

12 is a frequency characteristic of charcoal temperature

13 is an autocorrelation function characteristic of charcoal temperature

14 is kolmogorov entropy characteristics of charcoal temperature

* Description of the symbols for the main parts of the drawings *

100: temperature detection unit 101: microcomputer

102: heater driving unit 103: fan driving unit

The present invention relates to a microwave oven, and in particular, chaotic analysis from the temperature change of the charcoal to extract the frequency characteristics and to control the heater and the fan according to the extracted frequency characteristics to achieve the same taste as charcoal grill grill The present invention relates to a heater / fan control method for grill cooking of a microwave oven.

1 is a perspective view of a general microwave oven, an exhaust port 1 formed on one side of a cavity as shown to discharge air circulated in a heating chamber to the outside, and a heat source formed at the upper side of the heating chamber when grilled. It was composed of a heater (2) for generating a.

2 is a configuration diagram of a heat source control apparatus of a conventional microwave oven, and as shown in FIG. 2, at least one heater 12 differentially generating a heat source by differently distributing internal nichrome wires formed on the heating chamber 1. -1-12-n), a temperature sensor 6 for sensing the temperature of the air discharged to the exhaust port formed on one side of the heating chamber 1, and according to the temperature detected by the temperature sensor 6 A heater for individually controlling the microcomputer 7 generating different heater control signals and the at least one heater 12-1-12-n according to different heater control signals output from the microcomputer 7; Control means (13).

In the figure, reference numeral 5 denotes a magnetron that generates electromagnetic waves (microwaves).

In the above, the heater control unit 13 controls the heaters 12-1-12-n individually according to the heater control signal output from the microcomputer 7. 13-n).

In the above, the heaters 12-1 to 12-n are constituted by linear heaters in which the distribution of each of the internal nichrome wires 14 is different.

The operation and effects of the heat source control apparatus of the present invention configured as described above will be described in detail with reference to FIGS. 5 to 3 as follows.

First, when the grill function is selected by the user, the microcomputer 7 controls the heater control means 13 to sequentially control the heaters 12-1 to 12-n at regular intervals.

Accordingly, the heater control means 13 is a heater 12-1-12-in accordance with a control signal differently output from the micom 7 to the first to n-th heater controllers 13-1 to 13-n therein. n) sequentially turn on and off with a certain time interval.

According to the individual control of the heater control means 13, the heaters 12-1 to 12-n are sequentially turned on and off to differentially generate a heat source to perform a grill function.

At this time, the temperature sensor 6 detects the temperature of the air discharged through the exhaust port (not shown in the drawing) formed on one side of the heating chamber 1 and inputs it to the microcomputer 7 as described above. ) Ends the cooking by controlling the heater control means 13 to turn off all of the heaters 12-1-12-n when the exhaust temperature value is equal to or higher than an appropriate temperature.

However, such a conventional microwave oven has a problem that the cost is increased by using a plurality of heaters to implement the charcoal temperature when cooking the grill, and also according to the position of the heater that is turned on by controlling the plurality of heaters sequentially on and off. Since the heat source of the heater is not delivered to the food, there is a problem that the heater cooking is incomplete.

In addition, the temperature distribution characteristics of the charcoal are close to the heater even when the heaters are simultaneously controlled to control the temperature distribution in the heating chamber of the microwave oven to have a charcoal-like characteristic. However, as time passes, the temperature distribution in the heating chamber becomes There was also a problem that can not be maintained by the temperature characteristics such as charcoal uniformity.

Therefore, the present invention is to solve the problems of the conventional microwave oven as described above, an object of the present invention is to extract the frequency characteristics by the chaos analysis from the temperature change of the charcoal and to control the heater and fan according to the extracted frequency characteristics In order to achieve the same taste as grilling charcoal grill, to provide a pan / heater control method for grill cooking of a microwave oven.

The method for achieving the object of the present invention is to analyze the charcoal temperature characteristics of the charcoal temperature analysis process to generate the same chaotic data as the charcoal temperature characteristics, and to analyze the response characteristics of the fan and heater in the heating chamber A corresponding chaotic data filtering process for filtering the generated chaotic data, a reference temperature setting process for setting a reference temperature range for controlling a heater / fan with the filtered chaotic data, and a temperature sensor. A heater / fan control determination process for detecting a temperature and determining whether there is a heater or a fan control by comparing the detected temperature with the reference temperature, and according to the determination result, the heater / fan is compared with the detected temperature and the reference temperature. It consists of a heater / fan control process to control the cooking.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

4 is a circuit diagram of a microwave oven applied to the present invention, and as shown, a temperature sensor consisting of a temperature sensor (TH) and a resistor (R) for detecting a temperature of air discharged from an exhaust port formed at one side of a heating chamber. The unit 100, the microcomputer 101 for controlling the grill function according to the temperature value detected by the temperature sensing unit 100, and drives the heater 102c according to the heater control signal output from the microcomputer 101 And a fan driver 103 for driving the fan by controlling the fan motor 103c according to the fan control signal output from the microcomputer 101.

In the above, the microcomputer 101 analyzes the chaotic characteristics of the charcoal temperature data such as frequency characteristic, correlation dimension, autocorrelation function, entropy, and attractor. Charcoal temperature analysis unit that extracts common characteristics of various charcoal temperatures and artificially generates chaotic data with common frequency characteristics of various charcoal temperatures. Design of a filter having a time delay characteristic such as a time delay affecting a temperature change and a heater / fan analyzer for filtering chaos data generated by the charcoal temperature analyzer, and heating when the heater and the fan are turned on or off, respectively. To set the temperature range over which the room temperature can fluctuate and use the filtered data as reference data to turn the heater / fan on and off. Stored, and in case the reference temperature, and stored in the detected temperature and the memory and a controller for controlling the heater / fan.

With reference to the microwave oven applied to the present invention configured as described above with reference to Figures 5 to 14 attached to the heater / fan control method when cooking the present invention as follows.

First, the microcomputer 101 analyzes the chaotic characteristics of the charcoal temperature data such as frequency characteristics, correlation dimensions, autocorrelation functions, entropy, and attractors.

As a result of characterizing the chaotic charcoal, as shown in FIG. 11, the correlation dimension shows a converging slope value as the embedding dimension increases, and the frequency characteristic is shown in FIG. Likewise, it includes a wide band of frequency components such as noise.

In addition, the autocorrelation function has a characteristic of converging to zero as shown in FIG. 13, and entropy is converged to a value greater than zero as shown in FIG.

In addition, the chaotic analysis of various charcoal temperatures indicates that the charcoal temperature changes have a common frequency characteristic, and in Figure 9 (a) shows the frequency characteristics of oak charcoal, and (b) sawdust. Figure 1 shows the frequency characteristics of char.

As such, when the chaotic characterization of the charcoal temperature is completed, chaos data having the same frequency characteristic as the charcoal temperature is generated to reproduce the frequency characteristic of the temperature change of the charcoal as the temperature change in the heating chamber.

Subsequently, in order to control the heater / fan with the generated chaos data, a filter having a time delay characteristic such as a time delay in which on / off of the heater and the fan affects the temperature change in the heating chamber is designed.

That is, as shown in FIG. 10, a filter having a time delay characteristic of one second is designed when the temperature in the heating chamber starts to rise after one second has elapsed.

The designed filter filters the artificially generated chaotic data, and the filtered chaotic data is stored in a memory and used as a reference temperature for heater / fan control.

On the other hand, by analyzing the characteristics of the charcoal temperature as described above and filter the analyzed result data to set the temperature range for controlling the heater and fan in the state stored in the memory.

That is, when the heater is turned off for 5 seconds after driving the heater for 5 seconds while the temperature in the heating chamber is 100 ° C, if the temperature in the heating chamber is changed from 150 ° C to 100 ° C, the temperature in the heating chamber by the on / off of the heater The change range is set at 50 ° C.

In such a state, when the grill cooking is selected through the function input unit, the heater driving unit 102 and the fan driving unit 103 are driven to drive the heater and the fan, and simultaneously sense the temperature in the heating chamber through the temperature sensing unit 100. .

At this time, if the temperature change range in the heating chamber according to the on and off of the heater and the fan is R1, R2, it is determined whether to control the heater or the fan by comparing the detected temperature with R1, R2.

For example, the reference temperature, which is the control temperature of the heater and fan stored in the memory, is in the range of 100 ° C to 200 ° C, and the temperature in the heating chamber is increased from 100 ° C to 150 ° C by turning the heater on and off Assuming that the temperature change in the heating chamber has changed from 150 ° C to 200 ° C by the on / off of the fan (the heater is driven), the fan is kept on when the detected current temperature in the heating room is 110 ° C. To control the heater on and off.

In addition, if the detected current temperature in the heating chamber is 180 ° C, the heater is fixed to the on state and only the fan is turned on and off.

When the currently read temperature value is within the temperature range (100 ℃-150 ℃) of the heater control object, the microcomputer 101 compares with the reference temperature stored in the memory and keeps operating the heater if the detected temperature is lower than the reference temperature. If the sensed temperature is higher than the reference temperature, the driven heater is turned off.

Likewise, if the currently read temperature value is within the temperature range of the fan control target (150 ℃-200 ℃), the temperature is set based on the currently detected temperature value by comparing the reference temperature stored in the memory with the currently detected temperature. If the value is larger than the value, the fan is turned off. If the current temperature value is lower than the set temperature value, the fan is continuously driven.

FIG. 6 shows another embodiment of the present invention, in which the heaters and the fans are controlled by setting the on / off cycle and time of the heaters fixedly and setting only the temperature change range in the heating chamber by the fans.

For example, if the heater on / off control cycle is set to 30 seconds and the dual heater on time is set to 15 seconds, 15 seconds will turn on the heater and 15 seconds will be turned off regardless of the temperature sensor temperature value. The fan turns on when the temperature is higher than the reference temperature stored in the memory of the microcomputer.

7 is another embodiment of the present invention, on the contrary, the on / off control cycle and time of the fan are fixedly set, and only the temperature change range in the heating chamber by the on / off of the heater is controlled to control the heater and the fan.

For example, if you set the fan's on / off control cycle to 30 seconds and the fan's on time to 15 seconds, the heater will start 15 seconds on and 15 seconds from the start of heater cooking regardless of the temperature sensor temperature. Is controlled to be off, and when the temperature value of the temperature sensor is greater than the reference temperature value stored in the memory, the heater is turned off, and when the temperature value is smaller than the reference temperature value, the heater is turned on.

As described in detail above, the present invention has the effect of controlling the heater and the fan to have the same temperature characteristics as the charcoal charcoal charcoal analysis.

In addition, in the conventional method of implementing the charcoal temperature, there is an increase in cost by using a plurality of separate heaters, but the present invention has an effect that there is no increase factor in cost by performing control by a microcomputer for a conventional fan and a heater.

Claims (6)

The charcoal temperature analysis process generates the chaotic data identical to the charcoal temperature characteristics by chaotic analysis of the charcoal temperature characteristics, and the response characteristics of the heating chamber of the fan and the heater are analyzed accordingly. A chaotic data filtering process for filtering, a reference temperature setting process for setting a reference temperature range for controlling the heater / fan with the filtered chaotic data, and a comparison between the temperature detected by a temperature sensor and the reference temperature Heater / fan control determination process for determining whether there is a heater or fan control, and a heater / fan control process for cooking by controlling the heater / fan in contrast to the detection temperature and the reference temperature according to the determination result. How to control pan / heater when cooking grills in a microwave oven. The method of claim 1, wherein the charcoal temperature analysis process is based on the charcoal temperature data, such as frequency characteristics, correlation dimension (Correlation Dimension), autocorrelation function, entropy (Entropy), attractor (Attractor) Analyzing and extracting the common characteristics of the various charcoal temperatures and artificially generating chaotic data having the common frequency characteristics of the various charcoal temperatures. How to control heater / fan when grilling. The method of claim 1, wherein the chaotic data filtering process comprises designing a filter having a time delay characteristic such as a time delay in which on / off of a heater and a fan affects a temperature change in a heating chamber. The method of controlling a heater / fan during grill cooking of a microwave oven, characterized in that the step of filtering the generated chaotic data. The method of claim 1, wherein the heater / fan control process compares the detected temperature with the reference temperature stored in the memory when the currently detected temperature is within the heater control range as a result of the comparison between the currently sensed temperature and the heater and fan control temperature ranges. And turning off the heater when the sensed temperature is greater than the reference temperature, maintaining driving of the heater when the sensed temperature is less than the reference temperature, and controlling the fan for the current temperature detected as a result of the comparison. Comparing the detected temperature with a reference temperature stored in the memory, turning off the fan if the detected temperature is greater than the reference temperature, and turning off the fan if the detected temperature is less than the reference temperature. Heater / fan control method for grill cooking of a microwave oven, characterized in that the step of maintaining the drive. The method of claim 1, wherein the heater / fan control process comprises setting a fixed on / off cycle and time of the heater and setting only a temperature change range in the heating chamber by the fan, and the detected temperature value is stored in a memory. The method of controlling a heater / fan in a grill of a microwave oven, characterized in that it comprises a step of turning on the fan when the reference temperature value is higher than the reference temperature value. The method of claim 1, wherein the heater / fan control process comprises setting the on / off control cycle and time of the fan to be fixed and setting only a temperature change range in the heating chamber by the on / off of the heater, and the detected temperature value. When the heater is greater than the reference temperature value stored in the memory, the heater is turned off, and if the temperature is less than the reference temperature, heater / fan control method for a grill cooking of a microwave oven.