KR100397786B1 - Apparatus for driving a driving motor for clothes washing machine - Google Patents

Abstract

An induction motor starting device for a washing machine for improving the workability of a starting capacitor for operating an induction motor is disclosed. An induction motor starting device for a washing machine according to the present invention is a washing machine equipped with a starting capacitor of an induction motor and a triac, which is electrically connected to a coil of an induction motor through a starting capacitor, in which power is applied in accordance with forward and reverse driving signals. The starter capacitor is characterized in that it is provided with a film-type capacitor for charging and discharging the power supply, and a ferrite core which is installed between the input and output of the film-type capacitor, and wound with a coated wire connecting the input and output of the capacitor.

Description

Induction motor starting device of washing machine {APPARATUS FOR DRIVING A DRIVING MOTOR FOR CLOTHES WASHING MACHINE}

The present invention relates to an induction motor starting device for a washing machine, and more particularly, to an induction motor starting device for a washing machine capable of easily manufacturing a starting capacitor for initially starting the induction motor.

A general washing machine is a device for removing various contaminants attached to clothes, bedding, etc. by using emulsification of detergent, friction action of water flow due to rotation of washing blade (pulsator), and impact action of pulsator on laundry. to be.

As shown in FIG. 1, the washing machine includes a control unit 1 for controlling laundry and dewatering operation, a drain valve 2 for draining the washing water, a water level detecting unit 3 for detecting the level of the washing water, Induction motor driving unit 4 for driving the induction motor 5 under the control of the control unit 1, and a rotational speed detection unit 6 for detecting the rotational speed of the induction motor 5.

In the washing machine having such a configuration, when the washing and rinsing process of the laundry is completed and the dehydration operation is performed, the control unit 1 drives the drain valve 2 to drain the washing water, and the water level detecting unit 3 supplies air. When sensing the above, the induction motor drive unit 4 drives the induction motor 5 to start the dehydration stroke. When the rotational speed of the induction motor 5 is detected through the rotational speed detector 6, the controller 1 increases the rotational speed of the induction motor 5 step by step according to the detection signal of the rotational speed detector 6. Intermittent dehydration and final dehydration are performed.

In the washing machine as described above, the induction motor driving unit 4, as shown in Figure 2, the power source AC is triac TR11 (TR12) and the resistor (R1) R2 and capacitor (C1) ( C2 is connected to the coils L1 and L2 of the induction motor 5, respectively, and the starting capacitor C3 is connected between the connection points, and the gate of the triac TR11 and TR12 is connected. The forward driving signal CW and the reverse driving signal CCW output from the controller 1 are selectively provided through the resistors R3 and R4.

In the induction motor driver 4, when the control unit 1 outputs the forward drive motor CW while the power source AC is applied, the triac TR11 is triggered to conduct, so that the power source AC is turned on. It is applied to one coil L1 of the induction motor 5 through the evil TR11 and at the same time to the other coil L2 of the induction motor 5 through the start capacitor C3 again so that the induction motor 5 moves in the forward direction. When the control unit 1 outputs the reverse driving motor CCW, the triac TR12 is triggered and conducted, so that the power source AC is connected to one coil of the induction motor 5 through the triac TR12. At the same time as being applied to L2), it is applied to the other coil L1 of the induction motor 5 through the start capacitor C3 again and the induction motor 5 is driven in the reverse direction.

3 is a diagram showing the configuration of the starting capacitor C3. Here, the starting capacitor C3 is provided with a film type capacitor 11 and a coil 12 in which the input / output wires of the capacitor 11 are wound in a cylindrical case injection-molded with resin.

In such a starter capacitor C3, since the voltage between both ends of the film capacitor 11 is twice the power supplied to the control unit 1 during the washing operation, the 60 μH wire of the coil 12 is connected to the film capacitor 11. ) In parallel. Therefore, this high voltage generates heat in the coil 12, resulting in malfunction of the induction motor. In addition, the coil 12 has a problem in that the workability is complicated because the wire is wound in the cylindrical case injection-molded resin, thereby reducing the productivity.

Therefore, the present invention was created to eliminate the above problems, the present invention is provided with a starting capacitor by the film capacitor and the ferrite core, the induction motor starting device of the washing machine that can simplify the work process and lower the manufacturing cost The purpose is to provide.

Induction motor starting device of the washing machine according to the present invention for achieving the above object,

In a washing machine provided with a starting capacitor of an induction motor and a triac, which is conducted in accordance with forward and reverse driving signals to cause power to be applied to the coil of the induction motor through the starting capacitor.

The starting capacitor,

Film-type capacitors for charging and discharging power; And

It is characterized in that it is provided between the input and output of the film-type capacitor, and provided with a ferrite core wound by a coated wire connecting the input and output of the capacitor.

According to the present invention, the starter capacitor is provided with a film capacitor and a ferrite core, thereby preventing malfunction of the induction motor due to heat generation, simplifying the work process of the starter capacitor, and reducing the manufacturing cost. Get

1 is a view showing the configuration of a general washing machine.

2 is a view showing in detail the configuration of the induction motor driving unit of FIG.

FIG. 3 is a diagram illustrating a configuration of the starting capacitor of FIG. 1.

Figure 4 is a diagram showing the configuration of the motor drive unit to which the present invention is applied.

5 is a view showing the configuration of a starting capacitor according to the present invention.

FIG. 6 is a view illustrating a state in which a wire coated on the ferrite core of FIG. 5 is wound.

<Explanation of symbols for main parts of drawing>

111: capacitor 112: ferrite coil

Hereinafter, the present invention will be described in more detail with reference to the following examples.

Figure 4 is a view showing the configuration of the induction motor driving unit of the washing machine to which the present invention is applied, Figure 5 is a view showing the configuration of the starting capacitor of Figure 4, Figure 6 is a wire wound on the ferrite core of Figure 5 The figure shows the state. Therefore, the induction motor driving unit to which the present invention is applied, the power source AC of the coil of the induction motor 15 through the triac TR11 (TR12) and the resistors R11 (R12) and capacitors C11 (C2) ( L11 and L12 are connected to each other, and the start capacitor C13 is connected between the connection points, and the forward drive signal output from the control unit 11 is connected to the gate of the triac TR11 and TR12. The CW and the reverse driving signal CCW are selectively provided through the resistors R13 and R14.

Here, the start capacitor C13 is provided between the film capacitor 111 for charging and discharging the power and the input / output of the film capacitor 111, as shown in FIGS. 5 and 6, and the capacitor 111. It is provided with a ferrite core 112 is wound by a coated wire connecting the input and output of the.

At this time, the number of turns of the coated wire of the ferrite core 112 is several times (about 3 times).

In the induction motor driving unit, when the control unit 11 outputs the forward drive motor CW while the power source AC is applied, the triac TR11 is triggered to conduct, so that the power source AC is the triac TR11. Is applied to one side coil (L11) of the induction motor (15) and at the same time through the start capacitor (C13) to the other coil (L12) of the induction motor (15) is driven in the forward direction When the control unit 11 outputs the reverse driving motor CCW, the triac TR12 is triggered and conducted, so that the power supply AC is connected to one coil L12 of the induction motor 15 through the triac TR12. At the same time as it is applied to the other coil (L11) of the induction motor 15 through the start capacitor (C13) again, the induction motor 15 is driven in the reverse direction.

As described above, the starter capacitor according to the present invention is provided with a film type capacitor and a ferrite core wound with a wire coated with a male circuit, thereby preventing malfunction of the induction motor due to heat generation, and thus, a work process of the starter capacitor It is simple and has the effect of lowering the manufacturing cost

While the invention has been shown and described with respect to specific preferred embodiments thereof, the invention is not limited to the embodiments described above, and is commonly used in the art to which the invention pertains without departing from the spirit of the invention as claimed in the claims. Anyone with knowledge will be able to make various variations.

Claims (2)

In a washing machine provided with a starting capacitor of an induction motor and a triac, which is conducted in accordance with forward and reverse driving signals to cause power to be applied to the coil of the induction motor through the starting capacitor. The starting capacitor, Film-type capacitors for charging and discharging power; And Induction motor starting device of the washing machine, characterized in that the ferrite core is provided between the input and output of the film-type capacitor, wound by a coated wire connecting the input and output of the capacitor. The induction motor starting device of a washing machine according to claim 1, wherein the number of turns of the ferrite core is three times.