KR20060121001A - Rotor structure of washer motor - Google Patents

Abstract

A rotor structure of a washing machine motor is provided to reduce the production cost and the number of working steps by not producing a bottom surface having a combining unit, a supporting unit, and radiating vanes using separate components, to remove a step for attaching a magnet on the rotor by using an adhesive agent, and to improve operating reliability by reducing defective rate of magnet mounted position. A rotor structure of a washing machine motor comprises: a stator fixed with a main body frame and wound of a coil forming the magnetic field; a rotor(30) mounted with a magnet(50) along the circumference and formed with radiating vanes(38) on the bottom surface to be rotated by interacting with the magnetic field generated at the stator; and a combining unit(40) mounted at the rotation center of the rotor to connect a driving shaft with the rotor. The combining unit, the radiating vanes, and the magnet are integrally injection-molded with the rotor.

Description

Rotor structure of washer motor

1 is a side cross-sectional view showing the structure of a conventional washing machine motor.

2 is a plan view showing a rotor structure of a motor according to an embodiment of the present invention.

3 is a perspective view of FIG. 2;

4 is a cross-sectional view of the A side in FIG.

5 is a cross-sectional view of the B side in FIG.

<Description of Symbols for Main Parts of Drawings>

30: rotor 32: side

34: bottom surface 36: vent

38: heat dissipation wing 39: reinforcement projection

40: coupling part 50: magnet

52: inner side 54: upper side

56: outer side 58: joint

60: fixed column 62: joint bar

64: vertical member 66: horizontal member

68: support bar 70: conductor

The present invention relates to a rotor structure of a motor for a washing machine, and more particularly, to form the coupling part and the heat dissipation wing by forming the rotor by injection molding, and the magnet is also integrally coupled with the main body through the injection molding process. Thereby, the number of parts and the production process also relates to a rotor structure of a washing machine motor is shortened.

In general, the washing machine uses a motor as a power source, while washing the washing tub connected to the motor is rotated to wash the laundry inside the washing machine.

Hereinafter, a conventional washing machine motor will be described with reference to the drawings.

As shown in FIG. 1, the washing machine motor 1 includes a stator 5 fixed to the main frame 3 and a rotor 9 that rotates by interacting with a magnetic field generated by the stator 5. do.

A coil 7 is wound around the stator 5 to form a magnetic field by becoming an electromagnet by power supply.

The magnet 11 installed adjacent to the stator 5 is fixed in a circumferential shape along the side surface 13 of the rotor 9, and the heat dissipation blade 17 is bent on the bottom surface 15 of the rotor 9. As a result, air for radiating heat is supplied to the stator 5.

At the center of the rotor 9, a support 19 formed of synthetic resin is fixed to the bottom surface 15 by a fastening screw 21, and a coupling part 23 is fixedly installed inside the support 19. do.

A coupling groove is formed inside the coupling part 23, and the driving shaft 25 formed on the outer surface of the coupling protrusion inserted into the coupling groove is connected to the washing tub, so that the rotational power of the washing machine motor 1 is increased. Is transmitted to the drive shaft 25 through the coupling portion 23 to rotate the washing tub.

On the other hand, the nut 29 is coupled to one end of the screw portion 27 of the drive shaft 25, so that the connection between the coupling portion 23 and the drive shaft 25 is not separated.

In the conventional washing machine motor having the same structure as described above, the rotor 9 includes a coupling part 23 for supporting the drive shaft 25 and a support part 19 for fixing the coupling part 23 to the center of the rotor 9. By using the bottom surface 15 on which the heat dissipation blade 17 is installed as a separate component, the production process is increased by the work process of mutual coupling.

In addition, in coupling the magnet 11 to the side surface 13 of the rotor 9, the work process is increased by fixing each magnet 11 to the rotor side surface 13 using an adhesive. As the defective rate is increased by fixing the position of 11), a problem arises in that the operation reliability of the motor 1 is lowered.

An object of the present invention for solving the above-mentioned conventional problems, to solve the problem that the production cost increase and work process is increased by producing the bottom portion is installed as a separate part, the coupling portion, the support portion and the heat dissipation wing is installed. It is to provide a rotor structure of a motor for a washing machine.

And, to provide a rotor structure of the washing machine motor to solve the problem that the work process is increased by the process of adhering the magnet to the rotor by using an adhesive and the problem that the operation reliability decreases due to the increase in the defective rate of the mounting position of the magnet is provided. will be.

The present invention for achieving the above object, the coil is fixed to the main frame to form a magnetic field winding stator, and a magnet for rotating in interaction with the magnetic field generated in the stator is mounted along the circumference and the heat dissipation wings In the washing machine motor including a rotor is formed, and the coupling portion mounted to the center of rotation of the rotor to connect the drive shaft to the rotor; The coupling portion, the heat dissipation wing and the magnet is characterized in that the injection molding integrally with the rotor.

Preferably, the magnet is constrained by a fixed column spaced apart from the side of the rotor.

In addition, the fixing support is composed of a joint bar which is installed in the joint portion of the magnet and is fixed in contact with the inner side and the upper side of the magnet, and a support bar that is installed in the interruption portion of the magnet in contact with the inner side of the magnet.

In addition, the bottom surface of the rotor is formed with a vent along a circumferential circumference around the coupling portion.

In addition, a reinforcement protrusion protrudes along the circumferential circumference of the coupling part on the bottom surface of the rotor.

A conductor is mounted between the magnet and the side of the rotor.

According to the present invention as described above, since the magnet is injection molded in the state inserted into the rotor, it is possible to mount the magnet to the rotor without a separate mounting work to improve the workability, the reliability of the magnet position is improved The quality can be improved.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a plan view showing a rotor structure of a motor according to an embodiment of the present invention, FIG. 3 is a perspective view of FIG. 2, FIG. 4 is a cross-sectional view of the A side in FIG. 2, and FIG. 5 is a cross-sectional view of the B side in FIG. 2. to be.

The main frame of the washing machine is equipped with a stator wound with a coil to form a magnetic field.

The rotor 30 rotated by the stator is formed by injection molding, and forms an appearance with a disk-shaped bottom surface 34 and a side bent vertically from the circumference of the bottom surface 34.

Coupling portion 40 is formed in the rotation center of the rotor 30 is inserted into the drive shaft connected to the washing tank of the washing machine.

The coupling part 40 has a fixing groove formed inside the fixing protrusion of the drive shaft is fixed.

On the bottom surface 34 of the rotor 30, a plurality of vents 36 are formed along the circumferential circumference around the coupling part 40.

In addition, a reinforcement protrusion 39 protrudes along the circumferential circumference of the coupling part 40 on the bottom surface 34 of the rotor 30.

Preferably, the reinforcing protrusion 39 is formed between the vent holes 36 are formed to reinforce the rigidity of the rotor 30.

In addition, since the heat dissipation blade 38 protrudes radially about the coupling portion 40 on the bottom surface 34 of the rotor 30, air is blown upwards when the rotor 30 is rotated. To generate air to cool the stator.

The magnet 50 installed in the circumferential direction along the side of the rotor 30 generates the rotational power by the magnetic field of the stator.

As the rotor 30 is injection molded, the coupling part 40, the heat dissipation wing 38, the reinforcement protrusion 39, and the vent 36 are integrally formed, and the magnet 50 has the rotor side ( It is injection molded in a fixed state in 32).

The magnet 50 is constrained to move by the fixing column 60 spaced apart from the side of the rotor (30).

The fixing column 60 has a rod shape extending upward from the inner side of the rotor side 32 and is installed on the joint portion 58 of the magnet 50 so as to be located above the inner surface 52 of the magnet 50. The joint bar 62 is fixed to the side surface 54, and the support bar 68 is installed in the middle portion of the magnet 50 is fixed in contact with the inner surface 52 of the magnet 50.

The joint bar 62 is composed of a vertical member 64 which is connected to one end of the rotor 30 and extends upward, and a horizontal member 66 bent at an upper end of the vertical member 64.

The vertical member 64 is fixed in contact with the inner surface 52 of the magnet 50, the horizontal member 66 is fixed in contact with the upper surface 54 of the magnet 50.

In addition, since the conductor 70 made of steel is mounted on the rotor side 32 fixed to the outer surface 56 of the magnet 50, the magnetism of the magnet 50 is prevented from being weakened.

The manufacturing process and operation of the rotor structure of the washing machine motor according to the embodiment of the present invention having the above configuration will be described.

The rotor 30 is injection molded, the coupling portion 40, the vent 36, the heat dissipation blade 38, and the reinforcement protrusion 39 are integrally formed, and the magnet 50 is also fixed to the rotor side 32. Injection molded.

In order to fix the magnet 50 to the rotor side 32, a structure of the fixing column 60 is further formed in the rotor 30.

The joint bar 62 of the fixing column 60 is installed at the joint 58 where the respective magnets 50 are spaced apart from each other, and the inner surface of the magnet 50 is formed by the vertical member 64. 52 is fixed and the upper surface 54 of the magnet 50 by the horizontal member (66).

And, by supporting the stop portion of the magnet 50 by the support bar 68, the magnet 50 is prevented from being separated from the rotor side (32).

According to the exemplary embodiment, the shape of the joint bar 62 and the support bar 68 may be changed.

In addition, since a plurality of vents 36 are formed on the bottom surface 34 of the rotor 30, the rotor 30 is shrunk or expanded due to a change in heat, thereby preventing the external dimensions from being changed.

In addition, since the mechanical rigidity of the rotor 30 is reinforced by the reinforcing protrusion 39, the operation state is improved.

And, when the rotor side 32 made of thermosetting resin or synthetic resin is in direct contact with the magnet 50, in order to prevent the magnetism of the magnet 50 from weakening, in contact with the magnet 50 side, such as steel Conductor 70 will be installed.

The heat dissipation wing 38 is maximized the cooling efficiency by being able to change the number or size in accordance with the amount of heat generated by the stator irrespective of the size of the vent 36.

The embodiments of the present invention as described above are not intended to limit the scope of the present invention, but are presented by way of example, and various embodiments may be applied within the spirit of the present invention.

As described above, according to the rotor structure of the washing machine 1 motor according to the present invention, by injection molding the coupling portion, the support portion, the bottom surface and the magnet provided with the heat dissipation wing into an integral rotor structure, the parts cost is reduced. Significantly reduced production processes result in significantly improved productivity.

In addition, the magnet is fixed to the rotor side by the joint bar and the support bar of the fixing column, thereby preventing a bad mounting position of the magnet, thereby improving the operation reliability of the motor.

In addition, the weight is reduced by the vent shape of the rotor, and the rigidity of the rotor is increased by the heat dissipation wing and the reinforcement protrusion, thereby providing the effect of increasing durability.

In addition, regardless of the size of the vent, the heat dissipation wing may be changed in number or size in accordance with the amount of heat generated by the stator, thereby providing an effect of maximizing cooling efficiency.

Claims (6)

A stator with a coil wound around the main frame to form a magnetic field, a magnet for rotating and interacting with a magnetic field generated by the stator, mounted along a circumference thereof, and a rotor having a heat dissipation blade formed on a bottom surface thereof, and a driving shaft on the rotor In the washing machine motor including a coupling portion mounted to the rotation center of the rotor to be connected; The coupling part, the heat dissipation blade and the magnet rotor structure of the washing machine motor, characterized in that the injection molding integrally with the rotor. According to claim 1, wherein the magnet rotor structure of the motor for a washing machine, characterized in that the movement is constrained by a fixed support spaced apart from the side of the rotor. According to claim 2, wherein the fixing column is provided in the joint portion of the magnet is fixed to contact the inner side and the upper side of the magnet bar, and the support bar is installed in the interruption portion of the magnet and fixed in contact with the inner side of the magnet Rotor structure of the washing machine motor, characterized in that configured. The rotor structure of claim 1, wherein a vent is formed on a bottom surface of the rotor along a circumferential circumference around the coupling portion. The rotor structure of claim 1, wherein a reinforcement protrusion protrudes along a circumferential circumference of the coupling part on the bottom surface of the rotor. The rotor structure according to claim 1, wherein a conductor is mounted between the magnet and the side surface of the rotor.

Images