KR900002247Y1 - Driven circuit of motor in suction cleaners - Google Patents

Abstract

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Description

Motor drive circuit of vacuum cleaner

1 is a circuit diagram of a vacuum cleaner according to the present invention.

2 is a circuit diagram of a general vacuum cleaner.

3 is a circuit diagram of a conventional circuit of the general circuit of FIG.

* Explanation of symbols for main parts of the drawings

1: switching circuit 2: motor start / stop circuit

3: Motor delay stop circuit in abnormal condition 4: AC-DC conversion circuit

Th: Triac U ₄ : Operational Amplifier

U ₂ : Level Comparison

The present invention relates to a motor driving circuit of a vacuum cleaner, and in particular, when the limit line of the dust collection amount is reached or the inlet of the hose is blocked, the motor is automatically stopped to prevent damage to the motor due to overload operation. A motor driving circuit of a vacuum cleaner employing an electronic switching method.

In general, when the vacuum cleaner reaches the dust collection line or the inlet of the hose is blocked, the intake air is blocked, which increases the degree of vacuum between the impeller and the filter, while the pressure inside the air drops, and the motor operates under overload due to overheating. In order to solve this problem, there was a possibility of damage to the motor. In order to solve the above problem, there was a method of warning the user by displaying the above-mentioned abnormal state as an indication lamp (shown in FIG. 2). There was a closed end where the rotor was operated with overload.

The improvement is achieved by connecting the dust meter position SW ₄ to the secondary winding N ₂ of the trans relay TRY by a direct force as shown in FIG. 3 to reach the dust collection limit or to block the inlet of the hose. Otherwise, the dust meter position (SW ₄ ) is turned off to stop the motor (M), thereby preventing motor damage due to overload operation.However, the dust meter position ( SW ₄ ) is operated, the motor M is frequently stopped, and there is an inconvenience of restarting the motor M by turning on the start switch SW ₃ every time. In addition, the use of the TRY, the power consumption is large, expensive, as well as noise, such as unnecessary radiation and relay contact noise, there was a closure.

Accordingly, an object of the present invention is to temporarily stop the motor by stopping the dust meter switch operation due to an abnormal state such as reaching the dust collection line or clogging the hose in order to overcome the conventional problems as described above, the instantaneous clogging phenomenon. It is to provide a motor driving circuit of the vacuum cleaner that can prevent the motor from being stopped while preventing damage to the motor due to an overload condition.

Another object of the present invention is to provide a motor driving circuit of low power consumption, low noise and low-cost vacuum cleaner by configuring the motor driving circuit as an electronic switching circuit.

In order to achieve the above object, the present invention is characterized in that the electronic switching circuit is directly connected to the motor and the electronic motor start stop circuit and the motor delay stop circuit in the abnormal state are connected in parallel to the switching means.

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

1 is a circuit diagram of a vacuum cleaner according to the present invention, in which a motor (M) and an electronic switching circuit (1) are connected in series at both ends of a commercial AC power source (5), and a control signal input terminal of the switching circuit (1) is supported. The start / stop circuit (2) and the motor delay stop circuit (3) in parallel are connected in parallel, and these switching circuits (1), the motor start / battery circuit (2) and the motor delay stop circuit in the abnormal state are connected. (3) is connected to receive a drive DC power supply from the AC-DC conversion path 4 connected to both ends of the commercial AC power supply 5.

The switching circuit 1 connects a triac Th to one line of the motor M and the commercial AC power supply 5, and the triac Th is connected to the control terminal through a resistor R ₂ . collector is connected to the emitter of a grounded PNP-type transistor (Q ₁₎ and the + of the transistor (Q ₁₎ base, emitter ground type PNP-type transistor (Q ₂₎ collector and AC-DC converting circuit 5 of the and commonly connected to the resistance (R ₄₎ of the output stage is connected via a resistor (R _3), through the base, the resistor (R ₅₎ and diode (D ₁₎ of the PNP-type transistor (Q ₁₎ Motor start / stop The circuit 2 and the motor stop circuit 3 in the abnormal state are connected in common. Here, the resistor R ₁ and the capacitor C ₁ connected to both ends of the triac Th are connected from the surge to the triac ( Th) is to protect.

The motor start / stop circuit 2 includes a resistor R ₁₀ and a start switch SW ₁ , a capacitor C ₄ , and a resistor connected in parallel with each other between the + output terminal ground of the AC-DC converter circuit 4. In series connection with (R ₁₁ ), the common connection point is connected to the negative input terminal, and between the + output terminal and the ground of the AC-DC converter circuit 4, the resistor R ₈ and the stop switch (SW ₂ ) and the capacitor ( C ₃ ) and the resistor R ₉ are connected in series, and the output terminal of the operational amplifier U ₁ is connected to a common contact thereof. Here, the start switch SW ₁ and the stop switch SW ₂ interlock with each other to operate in reverse.

In the abnormal state, the motor stop circuit 3 includes a dust meter switch SW ₃ and a charge / discharge capacitor C connected in parallel with each other and a resistor R ₁₂ between the + output terminal and the ground of the AC-DC conversion circuit 4. ₅ ) are connected in series, and the common contact is connected to the negative input terminal of the level comparator (U ₂ ), and a resistor (R ₁₃ ) and a capacitor (C ₆ ) are connected between the + output terminal and the ground of the AC-DC conversion circuit (4). connected in series and connected to the output end of the common contact point to the level comparator (U ₂₎ and hayeoseo connected to the output terminal of the operational amplifier (U ₂₎ through a bypass diode (D ₂₎ reverse the output terminal of the level comparator (U ₂₎ the will be.

The operation and effects of the present invention configured as described above are as follows. First, when the start switch SW ₁ is pressed while the power is turned on, a zero level signal is input to the negative input terminal of the operational amplifier U ₁ , and the stop switch SW ₂ is turned off to the positive input terminal of the operational amplifier U ₁ . The divided voltage value of the resistor R ₇ is input to the input. An amplified positive signal is output to the output terminal of the operational amplifier U ₁ , and this positive signal is applied to the base of the transistor Q ₂ of the switching circuit 1 and the transistor Q ₂ is conducted. Accordingly, the collector side of transistor Q ₂ is in a low level state, and by this low level switching, transistor Q ₁ is turned on and a gate signal is applied to the gate terminal of triac Th connected to its emitter axis. The triac (Th0 is in the conduction state is supplied with a commercial AC power supply 5 to the motor M, and the impeller (not shown) connected to the motor M is rotated. When the meter switch SW ₃ is turned off, the charge / discharge capacitor C ₅ is charged through the resistor R1 _12. However, before the charge voltage of the charge / discharge capacitor C ₅ becomes higher than the partial pressure of the resistor R ₁₄ . Since the dust meter switch SW ₃ is turned on again, the charge / discharge capacitor C ₅ is discharged through the dust meter switch SW ₃ , so that the output terminal of the level comparator U ₂ remains in the high level state. M) is due to instant blockage System continues to be operated, of course, where the charge and discharge capacitor (C _5), and adjusting the value of resistance (R ₁₂₎ and Motor time of about multitude not go to (M) by the overload operation, for example, of about 3 seconds delay Therefore, when the clogging phenomenon of the hose is more than 3 seconds, the charge voltage of the charge capacitor (C ₅ ) becomes higher than the resistance (R ₁₄ ) partial pressure value, so that the level comparator (U _S ) puts the output stage at the low level. Since the diode D ₂ is in a conductive state, a low level signal is applied to the base of the transistor Q ₂ regardless of the output of the motor start / stop circuit 2 so that the transistor Q ₂ is cut off. The collector output is switched to the high level so that the transistor Q ₁ is turned off and the triac Th is turned off.

Therefore, the motor (M) is stopped so that the user can immediately detect the abnormal state and take action on it.

In this way, the dust meter switch SW ₃ is restored to the on state and the charge / discharge capacitor C ₅ is discharged. Therefore, the output terminal of the level comparator U ₂ is switched to the high level state so that the reverse diode D is blocked. As described above, the switching circuit 1 is brought into a conductive state again, and the motor M is rotated.

When the stop switch (SW ₂ ) is turned on after cleaning, the start (SW ₁ ) is linked and turned off.The zero input signal is input to the positive input terminal of the operational amplifier (U ₁ ) and the voltage of the resistor (R ₁₁ ) is applied to the negative input terminal. Value is entered. Therefore, the amplified low level signal appears at the output terminal of the operational amplifier U ₁ , the transistor Q ₂ is switched to the cutoff state, and as described above, the switching circuit 1 is turned off, so that the motor M is stopped. do.

In this way, the present invention is the motor (M) continues to operate during the instantaneous clogging of the hose within a certain time so that the motor does not overdo the use of the vacuum cleaner, the dust collection limit is reached or the hose is the predetermined time In the case where the clogging phenomenon continues, the motor M is automatically stopped to prevent damage to the motor M due to overload operation and to solve the conventional defect.

In addition, the conventional high-cost, high power consumption, and instead of the trans-relay that generates a lot of noise, such as unnecessary radiation and relay contact noise, using an electronic contactless switching means to control this by a cheap electronic circuit configuration to solve the conventional problems There is this.

Claims (1)

In the vacuum cleaner for supplying electric power to the commercial AC power supply (5) to rotate the motor (M), the motor (M) triac (Th), PNP transistor (Q ₁ ) and PNP transistor (Q) ₂ ) a series of switching circuits 1) are connected in series, and a start switch SW ₁ , a stop switch SW ₂ , and a resistor R ₇ (R ₈ ) (R ₉ ) are connected to the control input terminal of the switching circuit 1. (R ₁₀ ) (R ₁₁ ) and operational amplifier (U ₁ ) motor start / stop circuit (2), dust meter switch (SW ₃ ), charge and discharge capacitor (C ₅ ), resistor (R ₁₂ ), resistance _{(R 13) (R 14)} , the level comparator (U ₂₎ and back-flow preventing diode Motor of the vacuum cleaner of the movement state when Motor delay stop circuit (3) to (D _2), characterized in that the hayeoseo connected in parallel Driving circuit.