KR0154146B1 - Ignition detecting circuit of electronic gas oven range - Google Patents

Abstract

The present invention relates to an ignition detection circuit of an electronic gas oven such that the ignition presence is displayed on the front display when the ignition knob of the electronic gas oven is rotated and ignited. The key input circuit 20 for inputting a command to the microcomputer and the output of the chicom 10 allow the gas valve MPU and the thermocouple TC to form a closed circuit and according to the electromotive force generated by the thermocouple TC. The flame detection and gas valve driving circuit 30 for inputting a signal to the microcomputer 10 and the present time, cooking time, hour, minute, second, and cooking indication are controlled to the controlled output of the microcomputer 10. When a clock mode command is being inputted through the display circuit 40 and the key input circuit 20 through the key input circuit 20, a predetermined output is output to the flame detection and gas valve driving circuit 30 to provide a thermocouple TC and a gas. Valve (M PU) to form a closed circuit, and when the salt voltage is input to the value according to the ignition success through the flame detection and gas valve driving circuit 30, the signal is output to the display circuit 40 so that the lamp during cooking is turned on. When the timer mode command is being input through the key input circuit 20, the flame detection and gas valve driving circuit 30 performs a predetermined output so that the thermocouple TC and the gas valve MPU form a closed circuit. And a microcomputer 10 for outputting a signal to turn on the lamp during cooking to the display circuit 40 when the salt voltage is input to the value according to the ignition success through the gas valve driving circuit 30, and starting the counting timer. In addition, the conventional mechanical gas oven has the effect of reducing the cumbersome and ignition failure rate that the consumer must directly check whether the grill / oven ignition.

Description

Ignition detection circuit of electronic gas oven

1 is an embodiment showing a circuit diagram according to the present invention.

2 is an embodiment of a display unit to which the present invention is applied.

3 is a control flow chart according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: microcomputer 20: key input circuit

30: flame detection and gas valve driving circuit 40: display circuit

AMP: Amplifier TC: Thermocouple

MPU: Gas valve R1 to R5: Resistance

RY: Relay Q1: Transistor

The present invention relates to an ignition detection circuit of an electronic gas oven, and more particularly, to an ignition detection circuit of an electronic gas oven such that the ignition presence is displayed on the front display of the set when the ignition knob is rotated and ignited.

In general, a gas oven is a cooking device that performs a variety of cooking functions by providing a gas stove at the top, an oven stove at the bottom, a grill burner at the top of the oven, and an oven burner at the bottom of the oven.

The gas oven is provided with a thermocouple (thermocouple) on the top of the burner, the electromotive force of the thermocouple is connected to the electric wire so that the gas supply pipe is applied to the gas valve located in the predetermined portion, the thermocouple is a spark generated from the burner upper portion Electromotive force is generated by a phenomenon in which resistance values of two internal metals are different. The gas valve is electrically connected to a thermocouple and mechanically coupled to an ignition knob for opening a gas valve.

Therefore, when the ignition knob is rotated and the ignition is performed, the gas valve is opened in conjunction with the rotation of the ignition knob, thereby being introduced into the gas or burner, and the ignition is activated by a spark means (mechanically coupled with the ignition knob). The thermocouple then detects the presence of a flame. Here, when the thermocouple detects the flame, electromotive force is generated, and the generated electromotive force is applied to the gas valve so that the gas valve remains open and ignition is successful.

However, a gas oven using a thermocouple and a gas valve has an ignition knob until a current flows through the thermocouple so that the user can keep the gas valve open when the oven / grill is ignited. In order to check whether the ignition knob has to be held, the user must bow down and look directly at the fire, and the gas valve is closed and ignited when the ignition knob is released when there is no current flowing to maintain the gas valve. There was a problem that caused the failure.

The present invention has been made to solve the above problems.

Accordingly, an object of the present invention is to provide an ignition detection circuit of an electronic gas oven which can reduce ignition failure by displaying the ignition presence when the gas oven is ignited to the outside.

In order to achieve the above object, the present invention provides a control circuit for a gas oven, including a key input circuit for inputting a command such as a clock, a timer, a time deceleration function, and the like to a microcomputer, and a gas valve and a thermocouple closed by a microcomputer output. And the flame detection and gas valve driving circuit for inputting a predetermined signal according to the electromotive force generated in the thermocouple to the microcomputer, and displaying the current time, cooking time, hour, minute, second, and cooking time. When the clock mode command is being input through the key input circuit and the display circuit lit or turned off by the output, the flame detection and gas valve driving circuit performs a predetermined output so that the thermocouple and the gas valve form a closed circuit. When the salt voltage is input to the value according to ignition success through the gas valve driving circuit, the lamp during cooking is turned on by the display circuit. Signal is outputted, and when the timer mode command is inputted through the key input circuit, the flame detection and gas valve driving circuit performs a predetermined output so that the thermocouple and the gas valve form a closed circuit. When the salt voltage is input to the value according to the ignition success, it is characterized by consisting of a microcomputer that outputs a signal to turn on the lamp during cooking to the display circuit and then starts the timer count.

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

1 is an embodiment showing a circuit diagram according to the present invention, wherein reference numeral 10 is a one-chip microcomputer, which incorporates a constant program according to the present invention, and the set controls the overall operation.

Reference numeral 20 denotes a key input circuit, which is composed of a clock switch SW1, a timer switch SW2, a time increase / decrease switch SW3, and the like. After inputting key to input port P11, set the current time using time increase / decrease switch (SW3), and then press clock switch (SW1) once again to finish time setting. In addition, when setting the time using the timer function, the timer switch (SW2) once the key input to the input port (P12) of the microcomputer 10, and then set the time using the time increase and decrease switch (SW3) and then again the timer switch Press (SW1) once to end the timer time setting.

Reference numeral 30 denotes a flame detection and gas valve driving circuit, and a base of the transistor Q1 having an emitter terminal grounded through the resistors R4 and R5 is connected to the output port P01 of the microcomputer 10, and the transistor is connected. A collector of Q1 is connected to one end of the coil part of the relay RY, and a thermocouple TC and a gas valve MPU are connected to both ends of the switch of the relay RY through ground, and the thermocouple TC is connected. One end of the non-inverting terminal is connected to the inverting terminal of the amplifier (AMP) grounded through the resistor (R3) through the resistor (R1), the output of the amplifier (AMP) is connected to the input port of the microcomputer (10) When the microcomputer 10 outputs a low signal to the output port P01, the transistor Q1 is turned on and the relay RY is energized so that the thermocouple TC and the gas valve MPU form a closed circuit. . Therefore, when the ignition rotates the ignition knob (not shown) forcibly opening the gas valve (MPU) and the thermocouple (TC) detects the flame (by spark means) formed at this time, if the electromotive force is generated in the thermocouple (TC) The electromotive force is input to the inverting terminal of the amplifier AMP through the resistor R1 and amplified through the amplifier AMP. At this time, the amplified signal is input to the input port P15 of the microcomputer 10, and when the input signal at this time is about 2V or more, the gas valve (MPU) maintains an open state and means ignition success.

Reference numeral 40 denotes a display circuit, which is configured of a buffer B1 (B2), a plurality of lamps (LEDs), and a number display lamp (MTX) to display various marks of the display unit 50 shown in FIG. The letters such as 'local time', 'cooking time', 'hour', 'minute', 'second', and 'cooking' are notified to the outside by lighting or turning off the lamp (LED) built in them to correspond to each other. The number display lamp (MTX) lights up with the corresponding number. To this end, the microcomputer 10 outputs a scan signal to the output port group PON and outputs a predetermined output to turn on a corresponding lamp to the output port group PON.

Hereinafter, the operation and effect of the present invention will be described with reference to the flowchart of FIG. 3.

First, when power is applied, the micro 10 detects a value input through the key input circuit 20 to determine whether the current mode is a clock mode (step 100). When the timer switch SW2 is found to be in the non-keyed clock mode, the microcomputer 10 outputs a low signal to the flame detection and gas valve driving circuit 30 to turn on the relay RY (step 101), thereby providing a thermocouple ( TC and the gas valve (MPU) to form a closed circuit at this time detects the value input through the flame detection and gas valve driving circuit 30 to determine whether the value is 2V or more (step 102). If the salt voltage is detected to be 2V or more, a predetermined output is made to the display circuit 40, and the " during cooking " The combustion operation is then performed (step 104).

On the other hand, if it is determined in the timer mode in step 100, the microcomputer 10 outputs a low signal to the flame detection and gas valve driving circuit 30 to turn on the relay (RY) (step 105) to the thermocouple (TC) and gas The valve (MPU) is to form a closed circuit, and at this time, the value detected through the flame detection and gas valve driving circuit 30 is detected to determine whether the value is 2V or more (step 106). In this case, when the salt voltage is detected to be 2V or more, a predetermined output is performed to the display circuit 40. Make sure that the display "Cooking" is lit (step 107). The timer starts counting the time set in the timer (step 108). The combustion operation is then performed (step 104).

As described above, the present invention is a useful invention that can reduce the cumbersome and ignition failure rate that the consumer must directly check whether the conventional mechanical gas oven is grill / oven ignited.

Claims (2)

In the control circuit of the gas oven, the present invention provides a key input circuit 20 for inputting a command such as a clock, a timer, a time increasing function, etc. to a microcomputer, and a gas valve (MPU) and a thermocouple by the output of the microcomputer 10. A flame detection and gas valve driving circuit 30 for inputting a predetermined signal according to the electromotive force generated by the thermocouple TC to the microcomputer 10 to form a closed circuit (TC), and present time, cooking time, and hour. The display circuit 40 for turning on / off the display of the minute, second, and cooking time by the controlled output of the microcomputer 10 and the flame when a clock mode command is being input through the key input circuit 20. The thermocouple (TC) and the gas valve (MPU) form a closed circuit by performing a predetermined output to the sensing and gas valve driving circuit 30, and the flame voltage through the flame detection and gas valve driving circuit 30 causes ignition success. When inputted as a value, the display circuit 40 The lamp is turned on, and when the timer mode command is being input through the key input circuit 20, a predetermined output is output to the flame detection and gas valve driving circuit 30 so that the thermocouple TC and the gas valve ( MPU) to make a closed circuit, and when the salt voltage is input to the value according to ignition success through the flame detection and gas valve driving circuit 30, a signal is output to the display circuit 40 so that a lamp during cooking is turned on and then a timer. Ignition detection circuit of the electronic gas oven, characterized in that consisting of a microcomputer (10) to start counting. According to claim 1, The flame detection and gas valve driving circuit 30 is connected to the output port of the microcomputer 10 through the resistor (R4) (R5) is connected to the base of the transistor (Q1) of the emitter terminal is grounded, The collector of the transistor Q1 is connected to one end of the coil part of the relay RY, and the thermocouple TC and the gas valve MPU are connected to both ends of the switch of the relay RY through ground, and the thermocouple ( One end of the TC is connected to the inverting terminal of the amplifier AMP grounded through the resistor R3 through the resistor R1, and the output of the amplifier AMP is connected to the input port of the microcomputer 10. Ignition detection circuit of an electronic gas oven, characterized in that configured to be connected to.