KR100611451B1 - Rotor of motor for drum type washing machine - Google Patents

Abstract

Disclosed is a rotor structure of a motor for a drum washing machine, in which a rotor is manufactured in an optimized simple shape, which is easy to assemble, and in which rotational force transmission between the rotating shaft of the motor and the rotor can be stabilized. According to the present invention, the outer end of the yoke surface is bent end portion is formed in a circular cross-section, the bent portion is formed smaller than the height of the permanent magnet, the inclined surface for setting the position of the permanent magnet is formed at the connection portion of the bottom surface of the rotor and the yoke surface The insert portion is formed on the outer circumferential surface of the rotor bushing to provide a rotor structure of the motor for a drum washing machine in which the rotor and the shaft bushing are integrally formed. As a result, the rotor installed in the drum washing machine in which the outer rotor type non-commutator DC motor is installed is simply and optimally manufactured in terms of strength and functional aspects, and the rotational force is stably transmitted while reducing the manufacturing labor of the motor. This has the effect of being improved.

Drum washing machine, motor, rotor, drive unit

Description

Rotor structure of motor for drum washing machine {ROTOR OF MOTOR FOR DRUM TYPE WASHING MACHINE}

1 is a perspective view of a conventional rotor.

Figure 2 is a cross-sectional view of the conventional rotor and the rotating shaft coupled state.

3 is a perspective view of a rotor according to the present invention.

Figure 4 is a cross-sectional view of the drive unit of the drum washing machine provided with the rotor of the present invention.

<Description of the symbols for the main parts of the drawings>

10: rotor 15: yoke face

20: permanent magnet 22: bend

24: slope 26: protrusion rib

28: vent hole 30: shaft bushing

38: reinforcing rib 39: insert portion

The present invention relates to a rotor structure of a motor for a drum washing machine, and more particularly, a rotor structure of a motor for a drum washing machine, in which a rotor of an outer rotor type motor used in a drum washing machine is simply manufactured and assembled to improve the manufacturability of the rotor. It is about.

Among the various motor starting methods, induction electromotive motors which are synchronized by induction electromotive force are a kind of rotational magnetic motor, which is a kind of AC motor in which rotational force is generated by interaction between the rotating magnetic field generated in the stator and the induction magnetic field generated in the rotor. .

It can be variously designed as single phase, three phase induction motor, three phase winding type induction motor, etc., and is one of the most easy-to-use motors among AC motors.

Such induction electric motors are suitable as power motors due to the characteristics of rotational speed and long lifespan according to the load, and among the small ones, single phase condenser motors are most widely used.

In the basic configuration of the induction electric motor as described above, the induction magnet generated from the stator is supported by a rotating shaft supported by the housing and a stator that is fixed to the housing and receives power from the outside through a coil wound to generate the induction magnet, and a bearing installed in the housing. It is provided with a rotor that rotates with the rotary shaft coupled by.

Such an induction electric motor is a current induced in the secondary winding by the electromagnetic induction of the primary winding connected to the power source, and obtains the rotational force by the interaction of the current and the rotating magnetic field induced in the secondary winding, the stator and the rotor It is divided into inner rotor type and outer rotor type according to the relative position.

Among the motor types described above, an outer rotor type induction motor has recently been utilized in which a rotor is provided outside the stator to increase torque at the same volume and utilize the internal space of the stator for other purposes.

The outer rotor type induction motor has a characteristic that a rotor composed of a drive shaft, a magnet, a rotor case, and the like rotates outside the stator composed of an iron core, a core, a base, and a bearing, that is, the rotor rotates around the stator.

The rotor of such an outer rotor type induction motor is shown in FIG. 1.

The rotor shown in FIG. 1 is a steel rotor (1) press-formed to form an exterior of a motor, a laminated iron core (2a) and a laminated iron core (2a) which are punched into the inner circumferential surface of the rotor (1) and forcibly pressed in. Rotor core (2) consisting of a ring-shaped ending member (2b) provided on the upper and lower surfaces of the), and a rotor bushing (3) for coupling the rotor (1) and a rotating shaft (not shown).

As such, the rotating rotor 1 is used with the rotor bushing 3 to transmit the rotational force to the axis of rotation, the combination of the rotor 1 and the rotor bushing 3 being shown in FIG. 2.

In FIG. 2, the rotor bushing 3 is fastened by a bolt 6 below after being laid out on the rotary shaft 4, and when the rotor bushing 3 is fastened, a fixing protrusion 7 formed on its outer circumferential surface or a separate The bolts 8 are fastened to each other in a manner that is coupled to the rotor 1. Reference numeral 5 is a bearing for supporting the rotating shaft (4).

However, in the structure of the rotor 1 as described above, the assembly process is difficult due to the press-fit of the rotor core 2 using the laminated iron core 2a and the ending member 2b, and the rotor bushing 3 and the rotor 1. By assembling the assembly by a separate bolt 6 there is a problem that the instability of the clamping force is caused to reduce the stability of the rotor.

 The present invention has been invented in view of the above problems, and an object of the present invention is to manufacture a rotor in an optimized simple shape, easy to assemble, and a drum washing machine for the rotational force transmission of the rotating shaft and the rotor of the motor can be stabilized. It is to provide a rotor structure of a motor.

In order to achieve the above object, the present invention, the rotating shaft is installed in the bearing housing, and a permanent magnet for magnetic action with the winding field of the stator is attached while rotating from the outside in a manner to accommodate the stator of the winding field In the rotor of the drum washing machine comprising a rotor having a yoke surface and a shaft bushing for fastening the rotor and the rotating shaft, the outer end of the yoke surface is bent in a circular cross-section end of the permanent magnet A bent portion is formed smaller than the height, the inclined surface for setting the position of the permanent magnet is formed on the connecting portion of the yoke surface and the bottom surface of the rotor, the insert portion for insert molding the rotor bushing is formed on the outer peripheral surface of the rotor bushing Characterized in that the rotor and the shaft bushing are integrally formed To provide a rotor structure of a washing machine motor for a column.

The present invention is characterized in that the rotor rotating in the outer rotor type non-commutator DC motor is simply and optimally manufactured in terms of strength and functional aspects, thereby providing a rotor in which the rotational force is stably transmitted while reducing the manufacturing labor of the motor.

The rotor of the present invention having the above characteristics is shown in FIG. 3.

The rotor 10 of the outer rotor-type motor according to the present invention is formed in a cylindrical shape made of steel, which is formed by being divided into a bottom portion 18 and a shaft bushing 30 of the rotor 10 as a whole.

More specifically, the insert portion 39 for insert molding the rotor 10 is formed on the outer circumferential surface of the shaft bushing 30 so that the rotor 10 and the shaft bushing 30 are integrally formed so that the rotor ( 10) can be manufactured integrally. Meanwhile, as shown in FIG. 3, between the shaft bushing 30 and the insert portion 39, ribs 38 for strength reinforcement are integrally formed in the shaft bushing 30.

In addition, the press-processed rotor 10 extends to both side walls and a yoke surface 15 is formed. The yoke surface 15 is attached to magnetic interaction with the field-wound stator, and the rotor ( 10) is attached to the yoke surface 15 to the inner peripheral surface of the rotor by bonding or other methods so as not to be separated during the rotation of the 10).

On the other hand, the outer end of the yoke surface 15 is formed with a bent portion 22 is formed in a circular cross section smaller than the height of the permanent magnet 20, that is, the permanent magnet 20 is the yaw of the rotor 10 The end length of the outer end is limited to be attached to protrude partly upward from the large surface 15 side end to improve the adhesion of the permanent magnet 20.

In addition, the inclined surface 24 is formed at the bottom surface connection portion of the yoke surface 15 and the rotor 10, and the inclined surface 24 is formed when the permanent magnet 20 is attached to the yoke surface 15. It is for setting the position easily.

In addition, a vent hole 28 and a protruding rib 26 are alternately formed at the bottom 18 of the rotor 10, and the protruding rib 26 is the shaft bushing 30 at the bottom 18. It is insert molded integrally with the vent hole 28 is formed for heat exchange inside the rotor 10, the protruding ribs 26 extend from the shaft bushing 30 to be integrally formed after the rotor 10 Insert injection molding is applied to the bottom portion 18 of the bottom portion 18 so as to reinforce the strength of the bottom portion 18.

The motor installation unit of the drum washing machine according to the present invention in which the rotor configured as described above is installed is shown in FIG. 4.

The drum washing machine shown in FIG. 4 is not intended to limit the present invention, and as an embodiment of the motor installation unit of the drum washing machine in which the present invention can be installed, for example, the drum washing machine of the present embodiment is installed with an inclined drum. Regardless of the gist, it is well known that the present invention can be applied to a case where the drum is installed horizontally, and various modified embodiments are possible.

The motor installation unit of the drum washing machine is installed at the rear of the cabinet 40 which forms the exterior of the washing machine, and the door 42 is installed at the front of the cabinet 40 to suspend laundry from the inside of the cabinet 40. It is possible to open and close so as to be introduced into the drum 44 and the tub 45 suspended by the ().

The drum 44 is rotatably installed inside the tub 45. The drum 44 is connected to a motor, and the rear end of the drum 44 is injection molded integrally with the shaft 50 of the motor. The rotational force of the motor is formed to be transmitted to the drum 44.

The shaft 50 connected to the drum 44 is supported at both ends by a bearing 53 installed inside the bearing housing 52, and an end of the bearing housing 52 is separated from the installation of the motor by a base plate ( 54) is installed.

The base plate 54 is installed in such a manner as to surround the outside of the bearing housing 52 and the tub 45 of the motor. The base plate 54 serves to fix the bearing housing 52 of the motor to the tub. While being installed to protect the outer surface of the tub 45, in particular serves to separate the motor installed to one side of the base plate 54 and the tub 45.

In the base plate 54, the stator of the motor (not shown) is fixed to the base plate 54 in a predetermined fixing manner, and the stator is installed to perform magnetic action by a predetermined field winding.

In addition, the rotor 10 of the present invention installed in such a manner as to accommodate the stator is installed to surround the stator in a cylindrical shape while the permanent magnet 20 is attached to the inner surface to perform magnetic action with the stator.

As described above, the rotor 10 is composed of a bottom portion 18 forming a cylindrical bottom and a yoke surface 15 forming an upstanding outer surface, which is insert-molded in the center of the rotor 10. The shaft bushing 30 is formed integrally with the rotor 10.

Thus, the shaft bushing 30 is integrally processed in the rotor 10, so that the shaft bushing 30 connects the shaft 50 and the rotor 10 so that the rotational force of the rotor 10 is transmitted to the shaft 50. Be sure to

By the motor provided with the rotor 10 of the present invention configured as described above, in the inner surface of the rotor 10 of the present invention to act on the stator when the washing machine is operated, the inclined surface 24 from the yoke surface 15 Furnace permanent magnet 20 is attached to the optimum position to the optimum magnetic interaction with the rotor 10, whereby the rotor 10 is rotated at the optimum rotational force to be integrally attached to the rotor 10 The rotating force is transmitted to the shaft bushing 30.

On the other hand, by the bending portion 22 formed in a predetermined radius on the outer surface of the rotor 10 is prevented rigid deformation due to the rotational force of the rotor 10 is maintained a stable rotational force.

In addition, the reinforcing ribs 26 which are integrally insert-molded with the shaft bushings 30 in the bottom portion 18 of the rotor 10 to reinforce the strength of the bottom portion 18 during rotation of the rotor 10. And, the heat inside the rotor 10 generated during rotation to be discharged by the vents (28).

Thus, the rotational force transmitted to the shaft bushing 30 is axially supported by the bearing 53 supported inside the bearing housing 52 to rotate so that the drum 44 integrally molded with the shaft 50 rotates. The washing is performed.

Thus, the present invention, while the yoke surface 15 and the shaft bushing 30 of the bottom and side of the rotor 10 that rotates in the motor of the drum washing machine is integrally molded by insert injection, protruding rib 26 for strength reinforcement The insert is injected into the bottom surface 18 to facilitate processing. In particular, the inclined surface 24 is formed on the yoke surface 15 of the rotor 10 to facilitate the attachment position of the permanent magnet 20.

By the rotor of the drum washing machine motor of the present invention, the rotor installed in the drum washing machine in which the outer rotor-type rectifier DC motor is installed is optimally simply manufactured in view of strength and functional aspects, while reducing the manufacturing manpower of the motor. The transmission of the rotational force is stable, so that the reliability of the drum washing machine is improved.

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 (5)

The yoke surface to which the rotating shaft 50 arranged in the bearing housing 52 and the permanent magnet 20 for magnetic action with the winding field of the stator are rotated while receiving the stator of the winding field. In a rotor of a drum washing machine comprising a rotor (10) having a shaft (15) and a shaft bushing (30) which is mediated for engaging the rotor (10) with the rotating shaft (50), The outer end of the yoke surface 15 is bent end 22 is formed in a circular cross section is formed with a bent portion 22 smaller than the height of the permanent magnet 20, The inclined surface 24 for setting the position of the permanent magnet 20 is formed at the connection portion of the yoke surface 15 and the bottom surface portion 18 of the rotor 10, The outer circumferential surface of the rotor bushing 30 is an insert portion 39 for insert molding in the rotor 10 is formed for the drum washing machine, characterized in that the rotor 10 and the shaft bushing 30 is integrally formed Rotor structure of the motor. The drum washing motor according to claim 1, wherein a rib 38 for strength reinforcement is integrally formed in the shaft bushing 30 between the shaft bushing 30 and the insert portion 39. Rotor structure. 2. The rotor structure of claim 1, wherein the yoke surface is formed smaller than the height of the permanent magnet. The rotor structure according to claim 1, wherein a vent hole (28) and a protruding rib (26) are alternately formed at the bottom portion (18) of the rotor (10). 5. The rotor structure according to claim 4, wherein the protruding rib (26) is insert molded integrally with the shaft bushing (30) at the bottom portion (18).

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