KR940004129B1 - Combustion control system for a range - Google Patents

Abstract

The controller provides clean combustion by eliminating incomplete combustion of gas oven. The controller comprises: a heating room (2) and a turn table (3) on a convection motor bracket (7); a convection motor guiding extra heat to the exhaust duct; a thermal sensor (9) set on the ventilation way; a magnetron (16) performing microwave oven function; a governer (13) controlling the gas pressure related to gas combustion; a microprocessor (18) controlling a drive circuit (17) with a color detection circuit and a temperature detection circuit.

Description

Optimal combustion control method and apparatus for gas oven range for microwave oven

1 is a schematic view showing a structure of a conventional microwave oven oven.

2 is a schematic view showing the structure of the present invention microwave oven oven.

3 is a configuration diagram of a color detection circuit in the microwave oven gas oven range of the present invention.

4 is a characteristic diagram of a short-circuit current ratio / wavelength in the microwave oven gas oven range of the present invention.

Figure 5 is a schematic diagram showing the structure of the damper in the microwave oven gas oven range of the present invention.

6 is a signal flow chart for the optimum combustion control of the microwave oven gas oven range of the present invention.

7 is a table showing the relationship between the wavelength and the color name in the microwave oven gas oven range of the present invention.

* Explanation of symbols for main parts of the drawings

1: food 2: heating chamber

3: rotating table 4: rotating table motor

5: gas burner 6: convection motor

7: convection motor bracket 8: exhaust duct

9: temperature sensor 10: main tube

11, 12: solenoid valve 13: governor

14 igniter 15 semiconductor color sensor

16: magnetron 17: driving circuit

18: micom 19: color detection circuit

20: temperature sensing circuit 21: damper

22: damper drive motor 23: door

The present invention relates to a method and apparatus for optimal combustion control of a gas oven range for a microwave oven. In particular, the use of a semiconductor color sensor prevents incomplete combustion by detecting the color of a flame during operation of a gas oven range, thereby maintaining a clean indoor environment and minimizing it. The heating time is to increase the cooking efficiency.

1 is a schematic view showing a structure of a gas oven range for a microwave oven according to the related art. As shown in the drawing, the heating chamber 2 and the rotating table motor 4 are heated to rotate the food 1, and the heating is performed. It is installed in the rotary table 3 to rotate the food (1) in the lower part of the chamber, and the convection motor bracket (7), and heats the combustion heat coming out through the gas burner (5) from the rear of the heating chamber (2) A convection motor (6), which sucks into the chamber (2) to heat the food (1), forms a flow path with the rear outer wall of the heating chamber (2), and discharges waste heat to the exhaust duct (8). And a temperature sensor 9 installed at an appropriate position of the flow path so as to measure the temperature of the waste heat emitted from the heating chamber 2, and installed at the upper portion of the heating chamber 2 to operate a microwave function through high frequency oscillation. The magnetron 16 to perform and the gas pressure in relation to the combustion of gas To consist of too (Governer) (13) and a gas burner (5) doah 23 with a viewing window and a damper 21 to regulate the primary air flow, the front section into the now described description.

The food (1) is placed on the rotary table (3) of the heating chamber (2), the heating temperature and time is set, and when cooking starts, the rotary table motor (4) is driven to put the food (1) on the rotary table (3). Rotate At the same time, the convection motor 6 is driven to suck the combustion heat from the gas burner 5 into the heating chamber 2 to heat the food 1 and discharge the waste heat including waste gas out of the heating chamber 2 to exhaust the exhaust duct. Discharge to outside through (8).

At this time, when the temperature sensor 9 installed in the flow path reaches the set temperature while detecting the temperature of the waste heat, the cooking is terminated or the cooking is performed while maintaining the set temperature until the set time is reached.

Here, when gas is introduced through the governor 13 which is initially adjusted to the pressure of the gas according to the gas used and the conditions of use, the primary air is introduced in accordance with the open state of the damper 21 and the gas burner 5 is It is combusted and its heat is sent to the heating chamber by the convection motor 6.

However, in the conventional microwave oven range as described above, the damper is initially set to the optimum state, and thus the incomplete combustion cannot be coped with the change in the gas pressure generated during the heating or the change in the combustion state according to the heating state. There is a problem in that to pollute the indoor air and lower the combustion rate.

The purpose of the present invention is to solve the conventional problems as described above by using a semiconductor color sensor to detect the flame color during operation of the gas oven range to maintain the optimal combustion state to prevent incomplete combustion to maintain a clean indoor environment and to minimize The invention provides a method and apparatus for optimal combustion control of a gas oven range for a microwave oven to increase cooking efficiency with a heating time of.

The present invention for performing the above object is to detect the color of the flame during the operation of the gas oven range by using a semiconductor color sensor, when the incomplete combustion by changing the damper opening by the operation of the damper driving motor to control the primary air inflow It is characterized in that to maintain the optimum combustion state through, it will be described in detail by the accompanying drawings.

2 is a schematic view showing a structure of a gas oven range for a microwave oven according to the present invention. As shown in FIG. 2, the heating chamber 2 and the rotating table motor 4 are rotated by the heating chamber 2 as the space for heating the food 1. The rotary table 3 for rotating the food 1 in the lower part of the heating chamber 2 and the convection motor bracket 7 are installed in the rear of the heating chamber 2 through the gas burner 5. The convection which inhales the combustion heat which flows out into the heating chamber 2, heats the food 1, and forms the flow path with the rear outer wall of the heating chamber 2, and discharges waste heat to the exhaust duct 8. The motor 6, the temperature sensor 9 installed at an appropriate position of the flow path so as to measure the temperature of the waste heat from the heating chamber 2, and the upper portion of the heating chamber 2 through the high frequency oscillation The magnetron 16 performs a microwave function, and the gas pressure is adjusted in relation to the gas combustion. The governor 13, the damper 21 for adjusting the primary air amount entering the gas burner 5, the door 23 having a viewing window at the front, and the governor 13 is connected to the required pressure Gas valves 11 and 12 which are mixed with the primary air of the damper 21 while being held, and are sucked into the gas burner 5, and the main tube which controls the amount of gas by passing through the solenoid valves 11 and 12; 10), an igniter 14, a semiconductor color sensor 15, the rotary table motor 4, and a convection motor installed around the gas burner 5 and serving to detect ignition and sparks of gas. (6), the solenoid valves (11, 12), the igniter (14), the damper driving motor (22), the drive circuit (17) electrically connected to and driven by the magnetron (16), and the temperature sensor (9) A temperature sensing circuit 20 connected to sense a temperature, a color sensing circuit 19 connected to the semiconductor color sensor 15 to detect a flame, and the knife Constitute a detection circuit 19, the microcomputer 18 receives the output signal of the temperature sensing circuit 20 for controlling the drive circuit (17).

3 is a configuration diagram of a color sensing circuit in a microwave oven gas oven range according to the present invention, as shown in FIG. 2, flames during gas combustion of the semiconductor color sensor 15 through _two photodiodes PD ₁ and PD ₂ . The color is received by the incident and the short-circuit current (I _SC1 , I _SC2 ) flows through the operational amplifier (OP ₁ , OP ₂ ) connected to the diode (D ₁ , D ₂ ) and then the resistance (R ₁ -R ₄ ) and It is configured to output the voltage (Vo) by comparative amplification through the connected operational amplifier (OP ₃ ). When the light of any color is received, the short-circuit current (I _SC2 / I _SC1 ) is known and the wavelength of the light received at the value is determined. It can be distinguished and adjusted to the desired flame color through the relationship between the wavelength and the color of light.

4 is a characteristic diagram with respect to a short-circuit current ratio / wavelength in the microwave oven and gas oven range of this invention, and FIG. 7 is a table which shows the relationship of wavelength and color name.

5 is a schematic view showing the structure of a damper in the microwave oven and gas oven of the present invention, as shown in the figure, a hole is formed in the damper 21 to allow air to flow therein, and the damper outer case 24 It is attached to the damper driving motor 22 and rotates. When the incomplete combustion generator microcomputer 18 operates the damper driving motor 22 through the driving circuit 17, the hole of the damper outer case 24 and As the openings increase according to the coincidence of the inner holes, the inflow of primary air increases, thereby preventing incomplete combustion.

Hereinafter, the effect of the present invention configured as described above will be described with reference to FIG. After placing the food (1) on the rotary table (3) sets the temperature and time according to the cooking and press the start cooking key, the drive circuit 17 is operated by the control of the microcomputer 18 to operate the solenoid valves (11, 12) By operating the rotary table motor (4), the convection motor (6), the igniter (14), the gas burner is started in the gas burner (5), and the magnetron (16) starts to oscillate. Start cooking the food 1, and when cooking starts, the microcomputer 18 checks the output of the temperature sensor 9 and the temperature sensing circuit 20 and detects the temperature in the heating chamber 2. The color of the gas flame burned by the gas burner 5 is detected through the semiconductor color sensor 15 and the color sensing circuit 19.

At this time, the microcomputer 18 detects the temperature change in the heating chamber 2 through the temperature sensor 9 and the temperature sensing circuit 20 to determine whether or not the set temperature is higher than the set temperature. 12), while the igniter 14 and the magnetron 16 are kept on, the gas flame which is burned through the semiconductor color sensor 15 and the color sensing circuit 19 is normally burned blue (wavelength range 467 to 483 nm). ) If the gas flame is not blue because the factor is continuously detected and determined, the damper driving motor 22 is driven through the driving circuit 17 to expand the opening of the damper 21 to intake the primary air. Increase the

After the opening of the damper 21 is adjusted to adjust the primary air volume, when the temperature in the heating chamber 2 is not higher than the set temperature, the gas flame detected by the color sensor 15 and the color detection circuit 19 is detected. If blue, the microcomputer 18 turns off the igniter 14 and the damper driving motor 22 through the driving circuit 17 to maintain the opening state of the damper 21, and the temperature sensor 9 and the temperature sensing circuit ( Through 20), it is determined whether the temperature in the heating chamber 2 is equal to or higher than the set temperature.

Accordingly, when the temperature of the heating chamber 2 is determined to be equal to or higher than the set temperature, the microcomputer 18 controls the driving circuit 17 to operate the solenoid valves 11 and 12 to block the gas and to provide the magnetron 16. Stops oscillation and determines whether the set cooking time is reached, and if it is not the set time, determines again whether the temperature of the heating chamber 2 is higher than the set temperature, and controls the drive circuit 17 to control the rotary table motor ( 14) and off the convection motor (6) to cut off the power of the drive to complete the cooking.

That is, when the above operation is briefly described, when cooking starts and the temperature inside the heating chamber 2 is not higher than the set temperature, the color of the combustion flame is sensed by the color sensor 15 and the color sensing circuit 19 to detect the color of the flame. If it is not blue, and is out of the finishing combustion range because it is not blue, the damper driving motor 22 is driven through the driving circuit 17 to expand the opening of the damper 21 to increase the suction amount of the primary air. When the flame color is continuously detected through the semiconductor color sensor 15 and blue color is detected during normal combustion, the damper driving motor 22 is stopped to maintain the opening shape of the damper 21 to reach a set temperature. Determine.

Accordingly, when the temperature is higher than the set temperature, the solenoid valves 11 and 12 are operated to shut off the gas, stop the oscillation of the magnetron 16, determine whether the set time is reached, and cut off the power of the driving unit after the set time has elapsed. After completing the cooking.

As described in detail above, the present invention continuously detects the flame state during gas combustion through the semiconductor color sensor and prevents incomplete combustion by expanding the opening of the damper to match the normal combustion condition when the blue flame is not normal combustion state. This will prevent the air in the room from becoming cloudy and achieve maximum efficiency with minimum cooking time.

Claims (4)

Main tube controlling the amount of gas through the solenoid valve (11, 12) and the solenoid valve (11, 12) to maintain the necessary pressure through the governor (13) to suck the gas burner (5) through the damper (21) 10, the temperature sensing circuit 20 for sensing the temperature through the temperature sensor 9 for detecting the waste heat temperature, and the color sensing for detecting the flame of the gas burner 5 through the semiconductor color sensor 15 A circuit 19, a rotary table motor, a convection motor, a damper driving motor, a magnetron, a drive circuit 17 for driving the solenoid valves 11 and 12, and an igniter 14, and the color sensing circuit 19 ), The optimum combustion control apparatus for a microwave oven gas oven range, characterized in that the microcomputer (18) for controlling the drive circuit 17 by sensing the output of the temperature sensing circuit (20). The method of claim 1, wherein the color detection circuit 19 receives the flame through the semiconductor color sensor 15 of the photodiodes PD ₁ , PD ₂ , amplifies and computes through the operational amplifier (OP ₁ , OP ₂ ) Optimal combustion control apparatus for a gas oven range for a microwave oven, characterized in that configured to apply the output by comparison amplification through an amplifier (OP ₃ ). According to claim 1, the microcomputer 18 determines whether the flame detected by the semiconductor color sensor 15 and the color sensing circuit 19 is normal combustion, and if the deviation is outside the normal combustion range through the drive circuit 17 The damper driving motor 22 is driven to expand the opening of the damper 21, and if the gas flame continuously detected by the semiconductor color sensor 15 and the color sensing circuit 19 is normal combustion, the damper driving motor 22. Optimal combustion control apparatus for a gas oven range for a microwave oven, characterized in that the stopper is stopped to maintain the shape of the opening of the damper (21). When cooking starts, gas burner is started in the gas burner (5), the magnetron (16) is started, the temperature in the heating chamber (2) is detected, and the color of the gas flame burned in the gas burner (5) is detected. A first step of detecting and determining whether the sensed temperature is above the set temperature; and if the detected temperature is not above the set temperature in the first step, turning on the solenoid valves 11 and 12, the igniter 14 and the magnetron 16 The second step of determining whether or not the gas flame is blue of normal combustion while maintaining, and if the gas flame is not blue in the second step, the opening of the damper 21 is extended to increase the suction amount of the primary air, and then again the color of the gas flame If it is determined that the gas flame is blue, the third step of maintaining whether the damper 21 is opened and then returning to the first step to determine whether the detected temperature is above the set temperature, and the detected temperature is set in the first and third steps. Above temperature The fourth step for determining whether the set time has elapsed after turning off the valves 11 and 12 and the magnetron 16; and if the set time has not elapsed in the fourth step, the process returns to the first step and the detected temperature is higher than the set temperature. And a fifth step of completing cooking after turning off the rotary table motor (4) and the convection motor (6) when the set time has elapsed.