KR940001084Y1 - Electric power controlling circuit of vacuum cleaner - Google Patents

Abstract

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Description

Power supply stabilization circuit of vacuum cleaner

1 is a perspective view showing a dust suction part of the vacuum cleaner.

2 is a conventional vacuum cleaner drive block diagram.

3 is a conventional vacuum cleaner driving circuit diagram.

4 is a vacuum cleaner drive block diagram of the present invention.

5 is a vacuum cleaner driving circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: constant voltage circuit 2: microprocessor

3: drive control unit 4: dust detection unit

BD: Bridge Rectifier Circuit T: Trans

31: brush power drive unit 32: main power drive unit

41: amplification unit MM: main power unit

BM: Sol power unit D ₁ -D ₄ : Diode

C ₁ -C ₄ : Capacitor

The present invention relates to a driving circuit of a vacuum cleaner, and in particular, the main focus is to supply each stable power to each load in order to prevent malfunction caused by the load variation.

The driving circuit of the conventional vacuum cleaner is a microprocessor (2) and the solenoid power drive unit, the main power supply of the AC power is stable DC power through the transformer (T), bridge rectifier circuit (BD) and the constant voltage circuit (1) as shown in FIG. Power was applied to the drive control unit 3 and the dust detection unit 4 including the power unit drive unit, the display unit, and the key input unit.

Referring to FIG. 3, which is a detailed circuit diagram according to the block of FIG. 2, the AC power is full-wave rectified through the transformer T and the bridge rectifying circuit BD, and the rectified voltage is smoothed by the capacitor C ₁ . The constant voltage circuit 1 obtains a stable output voltage.

This voltage Vcc is applied as a driving power source of the microprocessor 2, and the main power unit driving unit 31 for controlling the sole power unit driving unit 31 for controlling the sole power unit BM and the main power unit MM ( 32 is applied to the display unit 33 and the key input unit 34 as driving power, and applied to the driving power of the amplifying unit 41 which detects and amplifies the signal of the dust detecting unit 4 and the dust detecting unit.

Referring to the operation of the conventional circuit as described above, when the sole power unit BM or the main power unit MM selects the key of the key input unit 34, the signal is processed by the corresponding signal microprocessor 2 and the display unit 33 is displayed. At the same time as the element is turned on, the corresponding output signal is output from the output terminals P ₁ and P ₂ , and the transistors TR ₁ and TR _{2 of} the sole power unit BM or the main power unit MM are conducted. Turn on the photodiode (PT ₁ ) (PT ₂ ) by turning on the light emitting diode (PD ₁ ) (PD ₂ ) of the triac (PT ₁ ) (PT ₂ ) to make the phototriac (PT ₁ ) (PT ₂ ) By turning on the thyristor (SCR ₁ ) (SCR ₂ ) is turned on to drive the sole power device (BM) or the main power device (MM).

In addition, the light emitting diode LD of the dust detection unit 4 is turned on according to the signal selected by the key input unit 34 to detect a potential that is changed as the phototransistor TR that receives the light, and amplify the amplification unit 41. The microprocessor 2 is then used as data to properly control the power unit BM MM.

In the above, the light emitting diode LD and the light receiving phototransistor TR of the dust detection unit 4 are installed symmetrically up and down in a passage through which the dust is suctioned as shown in FIG. 1 and the light receiving phototransistor ( As the base potential of TR) is shaken, a ripple voltage is generated, and this signal is amplified by the amplifying unit 41, compared, and the data is input to the microprocessor 2.

That is, when dust enters, the power unit BM (MM) is strongly driven, and when less dust enters, the power unit (BM) (MM) is weakly driven.

The driving circuit of the conventional vacuum cleaner detects the phototransistor (TR) potential change of the detector (4) for detecting dust, but the potential of the transistor (TR) changes even when no dust is sucked in (load variation). When the input power Vcc fluctuates, the microprocessor 2 detects that dust is sucked in, causing a malfunction of raising and lowering the output of the power unit BM (MM), and also causing the key input unit 34 to fail. Even if the key selection (on / off) of is repeated quickly, the potential change occurs, which causes the above malfunction.

The present invention has been made in order to solve the conventional problems as described above by having a constant power supply to the sensing unit, the key input unit and each load so that the malfunction can be prevented in advance so as not to be affected by the load variation. It is.

Referring to the present invention with the purpose as described above in detail.

As shown in FIG. 4, the AC power outputs a constant voltage through the transformer T, the bridge rectifier circuit BD, and the constant voltage circuit 1, and the diode stabilizes the voltage between the constant voltage circuit 1 and the ground point. D ₁ ), the diode (D ₂ ) (D ₃ ) (D ₄ ) and the capacitor (C ₂ , C ₃ , C ₄ ) are connected to the output of the constant voltage circuit (1), and the output voltage The processor 2 is connected to the input voltage of the drive control unit 3 and the dust detector 4.

FIG. 5 shows a detailed circuit diagram according to the above block, and the diode D ₂ is provided on the driving power side of the microprocessor 2, the drive controller 31-34, and the dust detector 4 of FIG. _3. ) (D ₃ ) (D ₄ ) and condenser (C ₂ , C ₃ , C ₄ ) are connected.

It will be described the operation and effect of the present invention configured as described above.

When the key of the key input unit 34 is selected and turned on, the main power unit (MM) and the sole power unit (BM) operate to inhale dust through the dust suction passage, and the main power unit (MM) inside the vacuum cleaner main body. By the phototransistor TR of the dust detection unit 4 provided in the passage, which is the inlet of, an output potential proportional to the amount of dust can be obtained.

The output potential is amplified by the amplifier 41 and input to the microprocessor 2 to control the power unit.

However, since the diode D ₁ is connected to the constant voltage circuit 1, the set voltage becomes the set voltage of the constant voltage circuit 1.

Since the capacitors C ₂ , C ₃ , and C ₄ are connected, a smooth and stable voltage is supplied to the microprocessor 2, the drive controller 3, and the dust detector 4, respectively, so that stable power supply is possible. Even if voltage fluctuations occur due to external influences on the respective loads, they do not affect other loads. (In other words, each diode acts as a reverse protection.)

Therefore, the power unit MM (BM) is started and the waveform of the input voltage is irregularly (crushed) to generate a voltage drop phenomenon, and the voltage unstable phenomenon may occur due to the load current flowing through the display unit 33. This mutual interference is blocked by the diodes D ₂ , D ₃ , and D ₄ , and the capacitors C ₂ , C ₃ , and C ₄ enable a very stable power supply. The voltage of the phototransistor (TR) is also unaffected by the voltage fluctuations of other loads, so that it detects the exact amount of dust and does not cause a malfunction.

As such, the present invention is useful because it is possible to connect the anti-reduction diode and the smoothing capacitor to the power supply side supplied to the load of the vacuum cleaner so that stable driving is achieved without being influenced by each other.

Claims (1)

Rectifying the AC power input to output a constant voltage, a constant voltage unit, a dust detection unit for detecting the amount of dust sucked by using the output voltage of the constant voltage unit as a driving power, and the dust detection by using the output voltage of the constant voltage unit as the driving power In the vacuum cleaner having a control device for controlling the strength of the power of the sole power unit and the main power unit according to the amount of dust detected by the unit, and a key input unit and a display unit using the output voltage of the constant voltage unit as a driving power source, the constant voltage unit And a rectifier smoothing means for rectifying and smoothing the output voltage of the constant voltage input to the dust detection unit, the control unit, the key input unit, and the display unit. Cleaner power stabilization circuit.