KR20050016732A - motor for washing machine - Google Patents

Abstract

PURPOSE: A motor for a washing machine is provided to increase the output power of the washing machine by increasing magnetic flux density by forming a magnetic field in internal and external directions of a stator coil. CONSTITUTION: A motor for a washing machine includes a rotor(110) and a stator(120). The rotor includes an external magnet and an inner magnet which is spaced with a predetermined distance from the external magnet in a radius direction. The stator includes a stator coil(2) which faces the external and internal magnets with a predetermined distance. Each of the external and internal magnets is supported by an external support(111) or an internal support(113).

Description

Motor for washing machine

The present invention relates to a washing machine motor for rotating a washing tank, and more particularly, to a washing machine motor to increase the output of the motor transmitted to the drive shaft without increasing the size and weight of the motor.

In general, a washing machine of a pulsator type forms a water flow for washing by rotating a pulsator installed in a lower part of a washing tank in a forward and reverse direction so that washing is performed.

Such a pulsator type washing machine requires a drive shaft for driving the pulsator and another drive shaft for rotating the washing tank when dewatering, and a clutch device for selectively driving these two drive shafts must be installed. do.

Such a clutch device is a device for transmitting the rotational force transmitted from the motor only to the pulsator when washing, and at the same time to the pulsator and the washing tank at the time of dehydration, it is essential in the pulsator type washing machine configured as described above.

However, since the clutch device must selectively transmit the rotational force from the motor to the pulsator or the washing tank, the internal structure is quite complicated, the number of parts and the assembly process are complicated, resulting in an increase in manufacturing cost and also a disadvantage in terms of maintenance. It was.

Therefore, in order to solve this disadvantage, the clutch device is omitted from the washing machine, and a method of directly rotating the washing tank by connecting the washing tank in which the pulsator is integrally connected to the rotor of the motor has been proposed.

1 is a cross-sectional view schematically showing a structure of a washing machine motor in which a driving shaft of a washing tank is directly connected to a motor as described above, and FIG. 2 is a cross-sectional view taken along line AA of FIG. 1, and illustrates the structure of the washing machine shown in FIG. Is as follows.

The outer tub 10 is supported in a fixed state inside the case of the washing machine, and the washing tub 20 is rotatably installed in the outer tub 10.

In addition, a pulsator 30 is integrally installed on the inner bottom of the washing tub 20 so as to be rotatable simultaneously with the rotation of the washing tub 20, and a drive shaft 50 is connected to the outer side of the bottom of the washing tub 20.

That is, the rotational force of the drive shaft 50 is directly transmitted to the washing tub 20, so that the washing tub 20 rotates in the forward and reverse directions, thereby washing laundry contained in the washing tub 20.

On the other hand, the rotational force for rotating the drive shaft 50 is generated and transmitted by the motor unit 80 is installed in the lower portion of the drive shaft (50).

The motor unit 80 is composed of a stator 70 is fixed to the outside of the bottom surface of the outer tub 10 and a rotor 60 connected to the lower end of the drive shaft 50, the drive shaft 50 is a rotor 60 ) Is fixed to the central portion of the center by a fastening means such as a bolt.

The stator coil 2 is formed on the outer circumferential side of the stator 70, and the permanent magnet 1 is installed on the inner side of the outer support 61 formed upward along the circumferential part of the rotor 60. do.

At this time, when power is applied to the stator coil 2 and the rotor 60 rotates, the drive shaft 50 rotates simultaneously, thereby rotating the washing tub 20 connected to the upper portion thereof.

However, the conventional washing machine is required to improve the output of the motor for rotating the washing tank in accordance with the recent trend that the washing capacity of the washing machine becomes large, bar to increase the output of such a motor by increasing the size of the rotor and stator There was a problem that the size and weight are increased.

The present invention has been made to solve the above-mentioned conventional problems, the present invention is to provide a washing machine motor to increase the output of the motor without increasing the weight and size of the motor.

To achieve the above object, the present invention provides a rotor having an outer magnet, an inner magnet installed radially spaced apart from the outer magnet at a predetermined distance, and a stator coil facing the outer magnet and the inner magnet at predetermined intervals, respectively. It provides a motor for a washing machine comprising a stator having a.

Hereinafter, a preferred embodiment of a washing machine motor according to the present invention will be described in detail with reference to the drawings.

The same components as in the prior art designate the same reference numerals and description thereof will be omitted.

Figure 3 is a longitudinal sectional view schematically showing the structure of a washing machine motor according to an embodiment of the present invention, Figure 4 is a cross-sectional view taken along line BB of Figure 3, for a washing machine according to an embodiment of the present invention with reference to the figure The structure of the motor is as follows.

Washing motor according to an embodiment of the present invention, unlike the prior art by additionally installing the inner support portion 113 is formed by being spaced apart by a predetermined interval radially inward from the outer support portion 111 of the rotor 60 Permanent magnet 1 is installed on the side, and the coil support 121 is installed on the stator 120 so as to be located between the outer support 111 and the inner support 113, the stator on both the outer and inner surfaces The stator coils 2 are provided by the stator coils 2 installed on the coil support 121 and the permanent magnets 1 opposed to the stator coils 2, respectively, by the configuration in which the coils 2 are installed. The magnetic field is formed in both the inner and outer directions so as to sufficiently increase the magnetic flux density.

More detailed description is as follows.

In the washing machine motor according to the present invention, the drive shaft 50 is connected to the bottom surface of the washing tub 20 in the same manner as the related art, and the drive shaft 50 includes the motor unit 100 including the rotor 110 and the stator 120. It is installed to be rotatable by the rotational force of).

Rotor 110 according to the present invention is connected to the drive shaft 50 in the center by a fastening means such as a bolt, the outer support portion 111 is molded toward the upper side to install the permanent magnet 1 along the periphery The inner support part 113 is formed by being spaced apart from the outer support part 111 in a radially inward direction.

That is, the outer support part 111 and the inner support part 113 are viewed from above as shown in FIG. 4, the outer support part 111 forms a circular rim outside the rotor 110, and the inner support part 113. Is to form a circular border with a smaller diameter in the inner spaced apart from the outer support portion 111 by a predetermined interval.

In addition, the inner surface of the outer support portion 111 and the outer surface of the inner support portion 113 are attached to each other by, for example, an adhesive or the like so that the plurality of permanent magnets 1 face each other at a predetermined interval.

The reason for installing the permanent magnet 1 by forming the inner support part 113 in the radially inward direction of the outer support part 111 as described above is to prevent the increase in size of the motor according to the increase in the installation space of the permanent magnet 1. As, it is to utilize the radially inner space of the rotor (110).

Meanwhile, in the stator 120 according to the present invention, the upper surface of the stator 120 is fixed to the bottom of the outer tub 20, and the bottom surface of the stator 120 is located between the space formed by the outer support 111 and the inner support 113. The coil support 121 extending downward is molded.

And stator coils 2 are provided on the outer and inner surfaces of the coil support 121, respectively.

At this time, the stator coil 2 installed on the outer surface of the coil support 121 corresponds to each other and the permanent magnet 1 installed on the inner surface of the outer support 111 of the rotor 110, and the coil support 121 Stator coil (2) is installed on the inner side of the) is installed to correspond to each other and the permanent magnet (1) installed on the outer side of the inner support portion 113 of the rotor (110).

Referring to the operation of the washing machine motor according to an embodiment of the present invention made of such a configuration as follows.

The permanent magnet 1 installed on the outer support part 111 and the inner support part 113 of the rotor 110 according to the present invention is a position corresponding to the stator coil 2 installed on the coil support part 121 of the stator 120. It is installed to have a bar, when the power is applied to the stator coil (2) by the electric field formed by the power applied to the stator coil (2) and the rotor by the magnetic field formed by the permanent magnet (1) 110 will rotate.

Therefore, the drive shaft 50 is rotated by the rotation of the rotor 110, the washing tub 20 directly connected to the upper side of the drive shaft 50 is rotated.

In addition, by controlling the motor unit 100 by a known control method of the microcomputer by rotating the rotor 110 forward or reverse, the washing tank 20 is reversely rotated to form an appropriate water flow to perform the washing.

In this case, according to the structures of the rotor 110 and the stator 120 according to the present invention, the conventional permanent magnet 1 forms a magnetic field only in one direction from the radially outer side to the inner side with respect to the stator coil 2. It can form a relatively large magnetic field.

That is, the magnetic field in both directions inside and outside of the stator coil 2 by means of the stator coils 2 installed on the inner and outer surfaces of the coil support 121 and the permanent magnets 1 opposed to the stator coils 2, respectively. It is possible to form by increasing the magnetic flux density sufficiently.

As described in detail above, the washing machine motor according to the present invention has the effect of increasing the output of the motor without increasing the size and weight of the motor.

1 is a longitudinal sectional view schematically showing the structure of a conventional washing machine motor;

2 is a cross-sectional view taken along the line A-A of FIG.

Figure 3 is a longitudinal sectional view schematically showing the structure of a washing machine motor according to an embodiment of the present invention,

4 is a cross-sectional view taken along the line B-B in FIG.

* Description of the symbols for the main parts of the drawings *

1: permanent magnet, 2: stator coil,

30: pulsator, 50: drive shaft,

110: rotor, 111: outer support,

113: inner support, 120: stator.

Claims (8)

A rotor having an outer magnet and an inner magnet which is spaced apart from the outer magnet by a predetermined distance in a radial direction; And a stator having a stator coil facing the outer magnet and the inner magnet at predetermined intervals, respectively. The washing machine motor of claim 1, wherein the outer magnet and the inner magnet are supported by an outer support part and an inner support part, respectively. 3. The washing machine motor of claim 2, wherein at least one of the outer magnet and the inner magnet is joined by an adhesive. The washing machine motor of claim 2, wherein at least one of the outer support part and the inner support part is formed to face upward. The washing machine motor of claim 2, wherein the outer support part and the inner support part are integrally formed. The washing machine motor according to claim 1, wherein the stator coil is supported by a coil support part. The washing machine motor according to claim 6, wherein the stator coil is supported by one coil support. The washing machine motor according to claim 6, wherein an outer stator coil is installed outside the coil support, and an inner stator coil is installed inside the coil support.