KR940002897B1 - Apparatus for calibrating the zero-point in the weight sensor - Google Patents

Abstract

The device is advantageous for users using arbitrary vessels. The device includes a key input (17), a power supply (11), a clock generator unit (12) which periodically generates clock signals, a weight sensor (13) which detects the weight of food, a zero adjuster (14) which outputs the signal, weight of vessel, a micom (10) which adjusts the zero point according to the key input signal, a display (15) which displays the current states with segments, and a turn table motor driver (16) which drives the turn table by the micom (10) control.

Description

Weight Sensor Zero Point Adjuster of Microwave Oven

1 is a circuit diagram of a conventional weight sensing unit.

2 is an overall block diagram of the present invention.

Figure 3 is an internal configuration of the present microcomputer.

4 is a circuit diagram of the weight sensor detection unit of the present invention.

5 is a circuit diagram of the zero point adjusting unit of the present invention.

6 is a flowchart of the overall operation of the present invention.

Figure 7 is a flow chart showing a zero adjustment assistance process of the present invention.

* Explanation of symbols for main parts of the drawings

10: microcomputer 11: power unit

12: clock generator 13: weight sensor detection unit

14: zero adjustment unit 15: display unit

16: turntable motor driving unit 17: key input unit

18: counter 19,20: A / D converter

21: weight sensing receiver 22: memory

23: control unit 24: key input receiving unit

25: T.T drive part 26: Zero adjustment output part

The present invention relates to a weight sensor zero point adjusting device for a microwave oven, and in particular, to enable cooking by a user using any container.

Conventionally, in order to sense the weight of the container placed on the turntable of the electronic lane, as shown in FIG. 1, the shaft 1 of the turntable is positioned between the primary side and the secondary side of the differential transformer T, and the diode on the secondary side. The microcomputer 10 was connected and configured through (D ₁ ) (D ₂ ), resistors R ₁ -R ₄ , variable resistors VR ₁ (VR ₂ ), and capacitor C ₁ .

Referring to the operation state of the conventional weight sensing unit configured as described above, when the vessel is placed on the turntable while the power supply Vcc and the oscillation frequency of 2KH are applied to the primary side of the differential transformer T, the shaft 1 is pressed to the differential transformer T. A voltage difference induced from the primary side of the coil to the secondary side coil occurs.

Therefore, the microcomputer 2 detects the voltage difference and detects the weight. In the related art, when the container is placed on the turntable, the variable resistor VR ₂ is adjusted as much as the output voltage to output to the terminal AN ₁ . Since the user adjusts the food into the container and cooks the food weight by subtracting from the data inputted to the terminal AN ₀ as much as the data inputted to the terminal AN ₂ .

However, in the prior art as described above, by adjusting the variable resistance (VR ₂ ) so that the output voltage and the reference output voltage at the unloading load is the same as the base container when manufacturing the product, the user can use any other container other than the basic container It is difficult to cook at the optimum state as the first because the output voltage changes because the shaft 1 is deformed when the product is used for a long time.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned drawbacks, and an object of the present invention is to provide a weight sensor zero point adjusting device of a microwave oven capable of performing optimum cooking even when using any container in addition to the basic container.

Hereinafter, an embodiment of the present invention for achieving such an object will be described in detail with reference to FIGS. 2 to 7.

2 is a microcomputer 10 for controlling each unit of the overall block diagram of the present invention, a power supply unit 11 for supplying power to the microcomputer 10 and each unit, and a clock signal of a predetermined cycle to the microcomputer 10. Clock generation unit 12 for generating a, and the weight sensor detection unit 13 for detecting the weight of the container mounted on the turntable to send to the microcomputer 10, and zero adjustment unit 14 to send to the microcomputer 10 for adjusting the zero point ), A display unit 15 for displaying a current state in segments under the control of the microcomputer 10, a turntable motor driving unit 16 for driving the turntable under the control of the microcomputer 10, and the microcomputer. And a key input unit 17 for inputting a signal to the 10.

3 is a block diagram showing the internal structure of the microcomputer 10. A counter 18 for counting clocks, a weight sensing receiver 21, and a memory unit comprising two A / D converters 19 and 20 are shown in FIG. And a key input receiver 24 that receives the key signals from the control unit 23, the key input unit 17, the TT driver 25, and a zero adjustment output unit 26.

4 is a circuit diagram of the weight sensor detecting unit 13 of the present invention. The shaft 1 of the turntable is inserted between the primary side and the secondary side of the differential transformer T, and Vcc and 2 kHz are first supplied. On the secondary side, the terminals (AN ₀ ) (GND) of the microcomputer 10 are connected through the diodes D ₁ (D ₂ ), the resistors R ₁ -R ₄ , and the variable resistors VR ₁ and the capacitor C. It is connected.

FIG. 5 shows a circuit diagram of the zero point adjusting unit 14 of the present invention, wherein the transistors Q ₁ -Q ₄ are disposed between the terminals AN ₁ (R ₀ -R ₃ ) and the power supply Vcc terminal of the microcomputer 10. ) And a resistor (R _11- R ₂₄ ).

In this configuration, when the user puts the container on the turntable on the shaft 1, the shaft 1 enters the differential transformer T by the weight of the container, so that the voltage according to the weight of the terminal of the microcomputer 10 It is entered as (AN ₀ ).

In this state, when the user presses the set zero adjustment key, the control unit 23 of the microcomputer 10 sets the TT motor driver 16 and drives the counter 18 so that the A / A of the weight detection receiver 21 is changed every 500 ms. Since the D converter 19 is driven, the value is stored in M (0.0) of the storage unit 22.

Further, the process of storing the average values of the M (0.0) data and the M (1.0) data is continued while the turntable motor rotates for one revolution, and the average value is continuously stored in M (1.0), which is the weight of the container.

When the above one rotation is completed, the T.T motor driver 16 is reset and zero adjustment is performed.

That is, first, the output data storage unit M (3.0) of the storage unit 22 is set to 0, and the data is outputted to the terminal R ₀ .

Therefore, the terminals R ₀ , R ₁ , R ₂ , and R ₃ of the microcomputer 10 are at the low level, and the transistors Q _{1 to} Q ₄ are turned off, so that the resistance values of the resistors R ₁₁ and R ₁₂ are reduced. by the divided voltage of Vcc is input to the terminal (aN _1).

Then, the control unit 23 drives the A / D converter 20 to store the value in M (3.3) of the storage unit 22, and stores the absolute value of the difference between M (1.0) and M (3.3). Remember in (3.4).

Next, M (3.0) is stored in M (3.1), and the zero counter storage unit M (2.0) is increased by one and stored again.

Next, when M (3.0) is increased by 1 again and stored in M (3.0) again and the value is driven by the zero adjustment unit 14, the output terminal R ₀ of the microcomputer 10 becomes a high level, and the terminal R _1- R ₃ is at a low level, and the divided voltage between the combined resistance of the resistors R ₁₂ and R ₂₂ and the resistor R ₁₁ is input to the terminal AN ₁ .

In addition, the controller 23 drives the A / D converter 20 to store the data in M (3.2), stores the absolute value of the difference between M (1.0) and M (3.2) in M (3.5), and 3.4) That is, the absolute value (3.4) and the current container weight data M (1.0) and the current zero adjustment A / are the difference between the A / D data of the previous container weight and the A / D converter 20 which is the zeroing data. Compared with M (3.5), the absolute value of the difference between D data values M (3.2), if M (3.5) is large, the data of M (3.1), M (3.4), and M (3.3) are not changed.

On the other hand, when M (3.5) is small, M (3.0) data is moved to M (3.1), M (3.5) data is moved to M (3.4), and M (3.2) data is moved to M (3.3).

Through the above-described process, the output combination of the zero point adjusting unit 14 obtains the output data M (3.1) closest to the practical weight M (1.0) due to the 16 combinations of resistances when the 4-bit output data is used.

Therefore, when zero adjustment is completed, the data of M (3.1) is output from the control unit 23 through the zero adjustment unit 14, so that the data input to the terminal AN ₀ is input closest to each other, and thus the user If the insert the food set, so that the terminal (aN ₀₎ of data with a terminal (aN ₁₎ the weight of ppaengap the actual food data input to the terminal (aN ₁₎ from the data input to the input to, regardless of the container always optimal Can keep cooking state.

As described above, the present invention has an advantage that the user can cook optimally using any container without limiting the container as in the related art.

Claims (4)

Key input unit 17 for inputting the signal, power supply unit 11 for supplying power, clock generation unit 12 for generating a clock signal of a predetermined period, the microcomputer by sensing the weight of the container and food put on the turntable Weight sensor detection unit 13 to be sent to (10), a zero point adjusting unit 14 for outputting a signal corresponding to the weight of the container detected by the weight sensor detection unit 13, and the clock generator 12 In the zero adjustment mode according to the clock signal and the input signals of the weight sensor detection unit 13 and the key input unit 17, the zero adjustment unit 14 outputs a value corresponding to the tare weight of the weight sensor detection unit 13. The microcomputer 10 for controlling the zero point by storing the control value at that time, the display unit 15 for displaying the current state as a segment under the control of the microcomputer 10, and the control of the microcomputer 10. Turntable for driving the turntable by means of Weight sensor zero point adjusting apparatus of a microwave oven, characterized by the yirueojim having an emitter drive 16. The microcomputer 10 of claim 1, wherein the microcomputer 10 includes a TT motor drive control unit 25 that is counted when the zero adjustment key is pressed, a counter 18 that starts counting when the TT motor drive control unit 25 is counted, and A weight sensing receiver 21 having two A / D converters 19 and 20 driven at a predetermined time count of the counter 18, and a storage unit for storing the values of the weight sensing receiver 21 ( 22) Weight sensor zero point adjusting device for a microwave oven. The terminal of the microcomputer 10 according to claim 1, wherein the weight sensor detecting unit 13 has a secondary side output of the differential transformer T, in which the turntable shaft 1 is inserted and varied, through one variable resistor VR ₁ . Weight sensor zero adjustment device of the microwave oven, characterized in that input to (AN). The zero point adjusting unit 14 is grounded by connecting a plurality of switching elements in parallel between the terminal (AN ₁ ) and the power supply (Vcc) terminal of the microcomputer 10, each switching element is connected to the microcomputer (10) Weight sensor zero adjustment device of the microwave oven, characterized in that connected by on / off.