KR200419965Y1 - Magnet rotor for motor - Google Patents

Abstract

The present invention relates to a permanent magnet rotor for a motor, which is provided with a double permanent magnet having different magnetic field strengths on the outside of the synthetic resin core, and has a ring-shaped first permanent magnet of barium ferrite on the inside, and a neodymium ferrite on the outside. 2 Permanent magnets are injection molded to provide a double, so that a more coercive rotor can be obtained.

The present invention is a permanent magnet rotor for a motor comprising a synthetic resin core having a rotation axis in the center and a ring-shaped permanent magnet provided on the outer surface of the synthetic resin core, the permanent magnet is provided as a double permanent magnet of different magnetic field strength, The outer permanent magnet is characterized by having a greater magnetic field strength than the inner permanent magnet.

Permanent magnet rotor, double permanent magnet,

Description

Permanent magnet rotor for motors {MAGNET ROTOR FOR MOTOR}

1 is a cross-sectional view showing a permanent magnet rotor for a conventional motor,

2 is a cross-sectional view showing a permanent magnet rotor for a motor according to the present invention,

3 is a perspective view showing a permanent magnet rotor for a motor according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10a: resin core 11: rotating shaft

12: rib 13: ring

14: flange 20a: permanent magnet

21: 1st permanent magnet 22: 2nd permanent magnet

The present invention relates to a permanent magnet rotor, which is a rotor of a motor. More specifically, a ring-shaped permanent magnet of barium ferrite is provided on the outside of a synthetic resin core having a rotating shaft, and a permanent magnet of neodymium ferrite on the outside thereof has a predetermined thickness. The present invention relates to a permanent magnet rotor for a motor that can be obtained by injection molding the core to have a diameter larger than the boundary diameter of the permanent magnet and to obtain a rotor having improved coercive force.

In general, the rotor, which is a rotor of the motor, has been developed in various shapes according to the purpose of the motor, and when classified into these, the inner rotor type in which the rotor is rotated inside the driving coil, and the outer side of the driving coil There are an outer rotor type in which a cup-type permanent magnet rotor is rotated, and a flat rotor type in which a permanent magnet rotor is formed in a disk shape and a drive winding is sandwiched between a yoke and a permanent magnet.

Inner rotor-type permanent magnet rotor related to this technology, as shown in the Republic of Korea Patent Publication No. 10-0172091, after coupling the permanent magnet to the outer diameter of the core of the rotor, after forming the groove in the outer diameter of the core in advance, It is proposed to combine the concentric permanent magnet by injection molding on the surface so as to be integrated.

The rotor configured as described above is formed to maintain the concentricity in accordance with the axis of rotation of the core, so that the eccentricity is not generated and thus the concentricity is guaranteed so that the life of the motor is extended without vibration and noise.

However, in this motor rotor, most of the permanent magnets that are injection-molded on the outer surface of the core are made of barium ferrite, and thus the material is inexpensive, but the coercive force is low, and the bushing is fitted on the outer side of the rotating shaft, and the permanent magnet is fixed to the outer side of the core. There is a problem that the weight of the rotor is increased because the structure is provided thick, it is not possible to obtain a lightweight motor.

Meanwhile, in order to solve these problems, a motor rotor having a light weight is shown in FIG. 1, which is provided with a rotating shaft 11 at the center thereof and a radial rib 12 around the rotating shaft 11. The ring-shaped synthetic resin core (10) formed and provided with a thin thickness of the ring-shaped permanent magnet (20) on the outer surface of the synthetic resin core (10) merely intended to reduce the weight of the rotor, the permanent magnet (20) There is a problem that the coercive force cannot be improved by ordinary barium ferrite.

The present invention has been researched and developed in order to solve the conventional problems as described above, the purpose is to provide a ring-shaped first permanent magnet made of barium ferrite inside the dual permanent magnet having a different magnetic field strength outside the synthetic resin core The present invention provides a permanent magnet rotor for a motor that provides a rotor with improved coercive force by providing a double permanent magnet made of neodymium ferrite on the outside and injection molding.

Another object of the present invention is to provide a lightweight rotor by providing a flange on the synthetic resin core with a diameter larger than the interface of the double injection-molded first and second permanent magnets, as well as the first and second rotations when the rotor is rotated at high speed. Another object of the present invention is to provide a permanent magnet rotor for a motor, which prevents separation and separation even when the boundary surfaces of the first and second permanent magnets are separated due to different thermal expansion of the permanent magnets.

The present invention for achieving the above object is a permanent magnet rotor for a motor comprising a synthetic resin core having a rotation axis in the center and a ring-shaped permanent magnet provided on the outer surface of the synthetic resin core, the permanent magnet has a different magnetic field strength It is provided as a double permanent magnet, characterized in that the outer permanent magnet is provided with a greater magnetic field strength than the inner permanent magnet.

The double permanent magnet is formed by providing a ring-shaped first permanent magnet of barium ferrite on the outer surface of the synthetic resin core and injection molding a second permanent magnet of neodymium ferrite on the outside thereof. It is characterized by.

The synthetic resin core is formed on the upper and lower ends of the ring part surrounding the inner surface of the first permanent magnet of barium ferrite in order to prevent separation from the interface between the first and second permanent magnets which are double injection molded. Preferably, the flange is formed so as to wrap to a diameter larger than the interface.

Hereinafter, a permanent magnet rotor for a motor according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view of a permanent magnet rotor for a motor according to the present invention, Figure 3 is a perspective view of the permanent magnet rotor for a motor according to the present invention.

As shown in the figure, the permanent magnet rotor for the motor of the present invention includes a synthetic resin core 10a having a rotating shaft 11 at the center, and a ring-shaped permanent magnet 20a on the outer surface of the synthetic resin core 10a. It is composed.

The synthetic resin core 10a has a radial rib 12 formed around the rotation shaft 12 and a ring portion 13 surrounding the inner surface of the permanent magnet 20a and an upper end of the ring portion 13. The flange 14 surrounding the bottom is formed. Although the ribs 12 are shown to be divided into a 60 degree conformal shape, other numbers, that is, three to eight can be freely selected.

The permanent magnet 20a is provided as first and second permanent magnets 21 and 22 which are dual permanent magnets having different magnetic field strengths, but the second permanent magnet 22 located outside the first permanent magnet ( The magnetic field strength is larger than that of 21). For example, the first permanent magnet 21 is provided as a barium ferrite of a ring type on the outer surface of the synthetic resin core 10a, and the second permanent magnet 22 is formed of the first permanent magnet 21. A ring-shaped neodymium ferrite is provided on the outside.

In addition, the flange 14 of the synthetic resin core 10a may include an inner surface of the first permanent magnet 21 of barium ferrite, as well as an interface between the first and second permanent magnets 21 and 22 injection-molded on the upper and lower ends thereof. It is preferred to form larger diameters. The reason is that due to the heat generated when the rotor is rotationally driven, the interface between the first and second permanent magnets 21 and 22 may be peeled off due to the thermal expansion difference of the first and second permanent magnets 21 and 22. Even if the interface between the first and second permanent magnets 21 and 22 is peeled off, it is supported by the flange 14 to prevent separation.

As described in detail above, according to the permanent magnet rotor for a motor according to the present invention, a double permanent magnet having a different magnetic field strength is provided on the outer side of the synthetic resin core, but a ring-shaped first permanent magnet of barium ferrite is provided and the outer side thereof. It is a useful design to obtain a rotor with more coercive force by providing a double permanent magnet made of neodymium ferrite by injection molding.

In addition, the present invention provides a lightweight rotor by providing a flange on the synthetic resin core with a diameter larger than the interface of the double injection molded first and second permanent magnets, and when the rotor is rotated at high speed, the first and second permanent Due to different thermal expansion of the magnet, even if the interface between the first and second permanent magnets is peeled off, it is possible to prevent separation and separation.

Claims (3)

In the permanent magnet rotor for a motor comprising a synthetic resin core having a rotation axis in the center and a ring-shaped permanent magnet provided on the outer surface of the synthetic resin core, The permanent magnet is a permanent magnet rotor for a motor, characterized in that the magnetic field strength is provided with a double permanent magnet having a different magnetic field strength than the inner permanent magnet provided in the permanent magnet. The method of claim 1, The double permanent magnet is a permanent magnet rotor for a motor, characterized in that the outer surface of the synthetic resin core is provided with a ring-shaped first permanent magnet of barium ferrite and a second permanent magnet of neodymium ferrite on the outside of the first permanent magnet. . The method of claim 1, The synthetic resin core has a diameter larger than the boundary of the first and second permanent magnets at the upper and lower ends of the ring part surrounding the inner surface of the first permanent magnet of barium ferrite in order to prevent separation from the boundary of the first and second permanent magnets. Permanent magnet rotor for the motor characterized in that the formed flange.

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