KR0125716B1 - Control device of microwave oven - Google Patents

Abstract

Disclosed is a selective control apparatus for multi-function of an microwave oven. The apparatus comprises a controller(40) and a solenoid(43). The electric power is supplied to the controller(40) via a timer switch. The controller(40) controls a magnetron, a heater and a convection motor according to the set temperature and the current temperature. The solenoid(43) drives a damper according to the control signal from the controller(40). Thereby, the precision and the reliability of the control are improved.

Description

Multifunction Selective Control Device of Microwave Oven

1 is a front view of a control panel of a conventional mechanical microwave oven.

2 is a side cross-sectional view of a control panel of a conventional mechanical microwave oven.

3 is a front view of the multi-function selector control panel of the microwave oven according to the present invention.

4 is a driving circuit diagram based on the multifunction selection apparatus of the present invention microwave oven.

5 is a flowchart of selection control of a control unit according to the present invention.

6 is a function selection table according to the present invention.

Explanation of symbols on the main parts of the drawings

10: temperature knob 20: selection knob

30: timer knob 40: control unit

41: variable resistor 42: thermistor

43: solenoid 52: magnetron / heater selection switch

53: Heater / Convection Selection Switch 54: Heater

55: high voltage transformer 58: magnetron

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multifunction selection device for a microwave oven, and more particularly, to a multifunction selection device for a microwave oven for simplifying the structure of a control assembly and improving labor savings and defective rate.

In general, the microwave oven can be divided into a microwave oven to control the selection and selection of each function and a microwave oven to control electronically. In the microwave oven, by pressing the key without using the selection knob to select the function and cooking, It is equipped with various cooking control sensors and controlled by the microcomputer which stores the automatic cooking data in advance. Therefore, the electronic control circuit is very complicated, the microcomputer design is difficult, and the cost is much higher than the mechanical type. There was a downside.

In the conventional mechanical multifunction microwave oven, as shown in FIG. 1, a selection knob 1 capable of selecting a multifunction such as a thaw, a high, a grill, a convection, and a high internal temperature is used. The temperature knob 2 for setting, the timer knob 3 for setting the cooking time, the door open button 4 and the start button 5 are provided on the control panel.

Accordingly, as shown in FIG. 2, the control panel has a selection switch 1a for generating a multi-function selection signal by the selection knob, and a damper driving for opening / closing the damper in conjunction with the selection knob 1. The temperature control unit is connected to a gear 1b and a temperature sensing rod 2b installed at a predetermined portion such as an exhaust port and senses the internal temperature of the vehicle, and generates a temperature control signal according to the internal temperature set by the temperature knob 2 ( 2a) and a timer 3a interlocked by the timer knob 3 to set and control a cooking time are installed, and a door opening device and a start switch device are installed under the timer 3a.

Therefore, a large number of parts and gears should be attached and installed on a control panel with a narrow space, which causes disadvantages in productivity, such as difficulty in assembling and increase in assembly time.

In addition, in the conventional mechanical multifunction microwave oven, since the temperature control unit 2a connected to the temperature sensing rod 2b is controlled according to the set temperature and the sensed internal temperature, it is impossible to precisely control the internal temperature so that the cooking deviation deepens. There was a problem.

In addition, since the damper is mechanically opened and closed through the gear 1b interlocked by the selection knob 1, the damper driving device is very complicated, thereby increasing space occupancy, increasing the defective rate, and increasing the unit cost. There was a problem.

SUMMARY OF THE INVENTION In view of the above problems, the present invention provides a multifunctional selection apparatus of a microwave oven for improving assembly performance by reducing mechanical assembly time by simplifying mechanical configuration on the control panel and improving assembly performance. There is this.

Another object of the present invention is to set the high temperature inside the variable resistance type by the temperature knob and to detect the temperature by the thermistor to enable the multi-function selection device of the microwave oven to enable precise control of the high temperature through the electronic control unit It is to provide.

The object of the present invention is a temperature knob for setting a high temperature resistance with a rotary variable resistance value, a selection knob for selecting a magnetron of a multi-stage output, a grill, a convection and a multi-stage combination heating, and a timer knob for setting a cooking time. It is provided with power through a timer switch and controlled by the operation of a magnetron, a heater and a convection motor according to the selection of the selection knob, the variable resistance of the set temperature by the temperature knob and the temperature detection of the temperature detection thermistor. It is achieved by including a control unit for controlling the solenoid for opening and closing the damper according to the selection of the knob in the drive circuit of the microwave oven. According to the present invention, the mechanism configuration of the control panel is simplified, and the temperature control is precisely In addition, there are various effects such as the accuracy of damper driving.

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

3 is a front view of the control panel based on the multifunction selection device of the microwave oven of the present invention, and FIG. 4 is a driving circuit diagram based on the multifunction selection device of the microwave oven of the present invention, and as shown in FIG. Selects the temperature knob 10 for setting the internal temperature by varying the resistance value, the magnetron (M / W), the grill, the convection, and the combination of 1 to 3 stages that can control the output strength of the 1 to 5 stages. A selection knob 20 and a timer knob 30 for setting a cooking time, and the power is supplied through a timer switch in which a driving time is set by the timer knob 30 to function as the selection knob 20. According to the selection, the variable resistance value of the set temperature by the temperature knob 10 and the temperature detection of the temperature detection thermistor, respectively, control the driving of the magnetron 58, the heater 54, and the convection motor CM. Dam according to the choice of 20 A control section 40 for controlling the solenoid (43) was constructed by including the drive circuit of the microwave oven to open and close.

In the microwave driving circuit including the control unit 40 according to the present invention, as shown in FIG. 4, the primary and secondary door switches SW1 ( SW2) is connected, the monitor switch (MS / W) is connected to the output terminal of the primary door switch (SW1), the normal cross (NC) terminal of the monitor switch (MS / W) and the secondary door switch ( The monitor resistor MR is connected between the pressure terminals of SW2).

The normal open terminal NO of the monitor switch MS / W is connected to the timer switch TS / W, and the output terminal of the timer switch TS / W is a variable power control switch VPC-S / W. Is connected to the primary winding of the high voltage transformer 55 through the magnetron driving relay switch M / W-RY controlled by the controller 40, and the output terminal of the timer switch TS / W is a timer. It is connected to a motor (TM), a fan motor (FM), a cavity lamp (CL), a turntable rotation geared motor (GM) and to the control unit 40, and the output terminal of the timer switch (TS / W) It is connected to the heater 54 through the heater selection switch (M / S1) of the magnetron / heater selection switch 52 controlled by the selection knob 29 and through the heater thermostat (H _TH ), the timer The heater drive relay switch HR of the heater / convection selector 53 whose output terminal of the switch TS / W is controlled by the control unit 20. It is connected to the heater 54 through Y) and is connected to the convection motor CM through a convection driving relay switch Conv-RY.

In addition, the control unit 40 is connected to a rotary type variable resistor 41 controlled by the temperature knob 10, a thermistor (THERMISTOR) 42 for detecting a high temperature inside is connected, opening and closing the damper The solenoid 43 is connected, and the magnetron selection switch M / S2 of the magnetron / heater selection switch 52 controlled by the selection knob 20 is connected to the controller 40.

In addition, the output terminal of the secondary door switch SW2 is connected to the timer motor TM, the controller 40, the convection motor CM and the heater 54, and a magnetron thermostat M _TH . The output terminal of the magnetron thermostat (M _TH ) is connected to the fan motor (FM), the cavity lamp (CL) and the geared motor (GM) in common, and at the other end of the primary winding of the high voltage transformer (55). Connected.

The filament winding of the high voltage transformer 55 is directly connected to the magnetron 58, and the secondary winding of the high voltage transformer 55 is connected to the high voltage capacitor 56 and the high voltage diode 57 to which the anode is grounded. It is configured to be connected to the magnetron 58 with one end of the winding.

Accordingly, in the present invention, the mechanical control using the timer and the electronic control using the control unit are configured, and the temperature knob 10 on the control panel is configured to adjust the resistance of the rotary variable resistor 41 and is selected. The knob 20 selects and applies the magnetron, heater, convection and combination functions to the control unit 40 and turns on / off the variable wave control switch (VPC-S / W) according to the output strength of the magnetron on the timer side. It is configured to deliver the off period mechanically, the timer knob 30 is configured to set the operating time of the timer motor (TM), the control unit 40 to control the operation of each part according to the temperature control and function selection It is configured to control through.

Referring to the operation and effect of the present invention configured as described above are as follows.

When the door is closed after cooking is prepared in the cavity of the microwave oven, the primary and secondary door switches SW1 and SW2 are short-circuited to load the driving power of the microwave oven, and when the temperature knob 10 is turned, the rotary type When the resistance value of the variable resistor 41 is varied and the control temperature is set in the controller 40, and the selection knob 20 is turned to select a function, the magnetron and the combination function are selected in the first to fifth and first stages. The output strength selected among the three stages is transferred to the timer motor TM, and the output strength is set. Then, when the timer knob 30 is turned, the timer switch TS / W is turned on and the timer motor TM turns the knob. It is driven for a set time, and the variable power control switch (VPC-S / W) is periodically on / off controlled by the timer motor (TM) to adjust the output strength of the magnetron (58) when the magnetron and the combination function, At this time, the output strength selected by the selection knob 20 To on / off gain is controlled in multiple stages will control the output intensity of the magnetron.

In addition, when the timer switch TS / W is turned on, power is supplied to the fan motor FM, the cavity lamp CL, the geared motor GM, and the controller 40 to be driven, respectively, and the controller 40 is operated. Is a magnetron drive relay switch M-RY or heater / convection selector 53 heater drive relay switch H- in accordance with the function selected by the selection knob 20 in the control flow as shown in FIG. RY) or the convection driving relay switch C-RY is selectively turned on to control driving according to the selected function.

In this case, in the case of driving only the magnetron 58, the control unit 40 drives the solenoid 43 to open the damper of the intake port so that air is introduced into the cavity, and according to the cooking temperature set by the variable resistor 41. The magnetron driving relay (M-RY) is controlled to sense the temperature in the cavity through the temperature sensing thermistor 42 installed at the exhaust port side to maintain the set temperature.

On the other hand, according to the function selection of the selection knob 20, the control unit 40 is controlled as shown in the control flow diagram shown in Figure 5, when the door is closed, the timer switch (TS / W) is on Power is supplied to the control unit 40 to start the control operation according to the function selection, and it is determined whether the magnetron selection switch M / S2 of the magnetron / heater selection switch 52 is turned on, and the magnetron selection switch M In each case of / S2) being turned on and turned off, the temperature knob 10 is turned to determine whether the resistance value of the temperature regulating variable resistor 41 is set to perform control for each function.

At this time, the magnetron selection switch (M / S2) and the heater selection switch (M / S1) of the magnetron / heater selection switch 52 is a switch that is interlocked opposite to each other, when the magnetron selection switch (M / S2) is turned on, heater selection The switch M / S1 is turned off, on the contrary, when the magnetron selector switch M / S2 is off, the heater selector switch M / S1 is turned on and the magnetron selector switch M / S2 is the magnetron M / W. On when the function and combination function are selected, and when the grill and convection function are selected, the temperature is controlled only when cooking with a heater, that is, when the grill function and the convection function are selected. The logic may be determined by the controller 40 to control each function.

Accordingly, the controller 40 determines whether the magnetron selector switch M / S2 is turned on and whether the temperature knob 10 is turned to set the temperature control, and as shown in the function selection table of FIG. It controls the load drive.

If the magnetron selection switch (M / S2) is turned on and the temperature control is not set, the magnetron drive relay (M-RY) is turned on as the magnetron function, and the convection drive relay (C-RY) is turned on. The solenoid 43 is turned on to drive the damper.

Accordingly, power is supplied to the high voltage transformer 55 through the magnetron driving relay M-RY to drive the magnetron 58, the heater selector switch M / S1 is turned off, and the heater / convection selector 53 Since the relay H-RY (Conv-RY) of () is turned off, the heater 54 and the convection motor CM are turned off, and only the magnetron is driven.

When the magnetron selection switch M / S2 is turned on and the temperature control is set, the magnetron drive relay M-RY is turned on as a combination function, that is, the simultaneous heating function, and the convection drive relay C is used. -RY) to turn on the solenoid 43 to close the damper.

Accordingly, power is supplied to the high voltage transformer 55 through the magnetron driving relay M-RY to drive the magnetron 58, and the heater selector switch M / S1 is turned off, but the heater convection selector 53 is turned off. Since the relay H-RY (Conv-RY) is turned on, the heater 54 and the convection motor CM are turned on to perform the combination function.

When the magnetron selection switch M / S2 is turned off and the temperature control is not set, the magnetron drive relay M-RY is turned off as the convection function, and the convection drive relay C-RY is turned off. Turn on the solenoid (43) to close the damper.

Accordingly, the magnetron driving relay M-RY is turned off, the magnetron 58 is turned off, the magnetron / heater selection switch M / S1 is turned on, and the relay H-RY of the heater / convection selector 53 is turned on. (Conv-RY) is on, the convection function is performed with the heater 54 and the convection motor CM on.

In addition, when the magnetron selection switch M / S2 is turned off and the temperature control is not set, the magnetron drive relay M-RY is turned off and the convection drive relay C is used as a grill function for driving only the heater. -RY) is turned off and the solenoid 43 is turned off to close the damper.

Accordingly, the magnetron driving relay (M-RY) is turned off, the magnetron 58 is turned off, the magnetron / heater selector switch M / S1 is turned on to drive the heater 54, and the heater / convection selector 53 Since the relay H-RY (Conv-RY) is turned off, the convection motor CM is turned off, and the grill function is performed.

On the other hand, when the temperature control is set regardless of the on / off of the magnetron selection switch (M / S2), the control unit 40 controls the relay of the convection relay switch unit 53, the temperature control, This sets the cooking temperature based on the resistance value of the variable resistor 41 set by the temperature adjusting knob, and the cooking temperature is set by the convection relay on temperature and off temperature, respectively, and is detected by the thermistor 42. It is determined whether the temperature has reached the convection relay off temperature, and if the detected temperature has reached the convection relay off temperature, the relay H-RY (Conv-RY) of the convection relay switch unit 53 is turned off.

Subsequently, when the convection relay is turned off, it is determined whether the temperature sensed by the thermistor 42 has reached the convection relay on temperature. If the detected temperature has reached the convection relay on temperature, the relay of the convection relay switch unit 53 ( H-RY) (Conv-RY) is turned on.

When the cooking temperature is set as described above, the convection relay switch unit 53 compares the temperature detected by the thermistor 42 with the cooking temperature set by the rotary variable resistor 41, that is, the convection on temperature and the convection off temperature. ) To control temperature on / off.

As described in detail above, according to the present invention, the control panel assembly is simplified, so that the assembly is easy, the assembly labor is reduced, and the defect rate can be improved.

In addition, according to the present invention, by improving the problem caused by using a conventional capillary type temperature sensing rod to detect the temperature using a thermistor and set the temperature with a variable resistor, precise temperature control is possible and the cooking deviation is reduced to reduce performance There is an effect to improve.

In addition, since the inflow of external air into the interior is controlled electronically using a solenoid, the structure is simple, and the damper driving accuracy can be improved.

Therefore, by reducing the mechanical structure and the cost reduction effect and the electronic control in parallel, the reliability of the precision control and control is improved, there is an effect that can improve the microwave function.

Claims (3)

A temperature knob 10 for setting a high internal temperature with a rotary variable resistance value, a selection knob 20 for selecting a magnetron, a grill, a convection, and a multi-stage combination function of a multistage output, and a timer knob 30 for setting a cooking time. And a magnetron, a heater, according to the temperature sensing of the set temperature and the temperature detection thermistor 42 based on the selection of the selection knob, the variable resistance set by the temperature knob 10 by receiving power through a timer switch. And a solenoid (43) for driving the damper under the control of the controller (40) for controlling the driving of the convection motor. The on / off state of the magnetron selection switch M / S2 and the temperature knob 10 of the magnetron / heater selection switch 52 interlocked by the selection knob 20. The magnetron drive relay (M-RY) and the heater and the convection drive relay 53 for driving the heater and the convection motor are controlled based on whether or not the temperature control setting of the variable resistor 41 is set by the damper drive. Multifunctional selection control device for a microwave oven, characterized in that the solenoid for controlling. The temperature controller 10 of claim 1, wherein the controller 40 sets the convection on temperature and the convection off temperature according to the resistance values of the variable resistor 41 interlocked by the temperature knob 10, and sets the internal temperature of the thermistor 42. The multi-function selective control device of the microwave oven, characterized in that configured to control the temperature of the control of the convection motor and the heater according to the comparison with the set convection on / off temperature detected through.