KR100613488B1 - Rotor structure of radial core type motor - Google Patents

Abstract

The present invention relates to a rotor structure of a radial core type motor, and more particularly, to a stator installed in a circumferential direction by winding a coil fixed to a main frame to form a magnetic field, and interacting with a magnetic field generated in the stator. A radial core type motor comprising a rotor mounted with a magnet to be rotated circumferentially; A body part formed of powder metallurgy such that a mounting groove for installing the magnet is formed inside; It is composed of a connecting portion for interconnecting the side of the body portion.

According to the present invention as described above, it is possible to apply a neodymium having a strong magnetic to the rotor, it is possible to miniaturize the overall size of the motor, to provide a structure of high efficiency and high output.

Radial Core Type Motor, Rotor, Neodium, Body

Description

Rotor structure of radial core type motor

Figure 1 is a side cross-sectional view showing a conventional radial core type motor.

Figure 2 is a perspective view showing the rotor structure of the radial core type motor according to the embodiment of the present invention.

3 is a plan view of the rotor shown in FIG.

Figure 4 is a side cross-sectional view showing a fixed state of the body portion mounted to the magnet in FIG.

Figure 5 is a side cross-sectional view showing a fixed state of the body portion according to another embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

30: rotor 32: base surface

34: vent 36: heat dissipation wing

38: support portion 40: coupling portion

42: lower side 44: support piece

46: upper side 50: yoke

52: body 54: mounting groove

56: magnet 57: connection projection

58: connecting groove 59: connecting portion

60: upper part 62: installation groove

64: bolt 70: jaw

72: Lower Bolt

The present invention relates to a rotor structure of a radial core type motor, and more particularly, to a rotor structure of a radial core type motor in which the size of the motor is miniaturized by mounting a neodymium having strong magnetism with only a small volume in a rotary rotor. It is about.

In general, various electronic devices including a washing machine use a motor as a power source, and are provided with rotational power through an axis connected to the motor.

Hereinafter, a conventional radial core type motor will be described with reference to the drawings.

As shown in FIG. 1, the radial core type motor 1 has a stator 5 fixed to the main frame 3 and a rotor 9 which rotates by interacting with a magnetic field generated by the stator 5. It consists of.

The coil 7 is wound around the teeth protruding in the circumferential direction from the stator 5, and forms 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 protrudes from 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.

The coupling groove is formed inside the coupling part 23, and the rotational power of the radial core type motor 1 is transmitted to the outside through the driving shaft 25 formed on the outer surface of the coupling protrusion inserted into the coupling groove. do.

In the conventional radial core type motor 1 having the same structure as described above, the magnet 11 is fixed to the rotor 9, and generally a ferrite magnet is used.

However, the magnet of the ferrite series has a relatively weak magnetic force compared to the size.

Due to this, the outer shape of the rotor 9 for mounting the magnet 11 is also relatively large, which causes a problem that the weight and volume of the radial core type motor 1 are increased. The phenomenon that the output falls.

An object of the present invention for solving the above-mentioned conventional problems, the phenomenon that the efficiency and output is reduced by using a magnet of a ferrite series of relatively weak magnetic force in mounting the magnet to the rotor rotated outside the radial core and It is to provide a rotor structure of a radial core type motor to solve the problem that the appearance and weight of the motor is increased.

The present invention for achieving the above object, the stator is fixed to the main frame to form a magnetic field is wound around the stator is installed along the circumferential direction, and a magnet for rotating and interacting with the magnetic field generated in the stator is mounted along the circumference In a radial core type motor including a rotor; A body part formed of powder metallurgy such that a mounting groove for installing the magnet is formed inside; It is composed of a connecting portion for interconnecting the side of the body portion.

Preferably, the magnet is installed in the mounting groove is characterized in that the use of neodymium.

And, the connecting portion is formed with a connecting projection and a connecting groove are formed on the side in contact with the body is mutually coupled by the fitting method.

In the body portion is coupled to the rotor, the body portion is fixed to the rotor by an adhesive.

Or, the installation groove is opened in the side of the rotor to be fixed to the rotor by the interference fitting method.

Alternatively, the body portion is fixed to the rotor by a bolting method.

Alternatively, the fixing jaw protrudes along the outer circumference of the rotor to support the side of the body portion, and the lower side of the body portion is fixed to the rotor.

According to the present invention as described above, it is possible to apply a neodymium having a strong magnetic to the rotor, it is possible to miniaturize the overall size of the motor, to provide a structure of high efficiency and high output.

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

Figure 2 is a perspective view showing a rotor structure of a radial core type motor according to an embodiment of the present invention, Figure 3 is a plan view of the rotor shown in Figure 2, Figure 4 is a fixed state of the body portion the magnet is mounted in Figure 2 Figure 5 is a side cross-sectional view, Figure 5 is a side cross-sectional view showing a fixed state of the body portion according to another embodiment of the present invention.

The radial core type motor according to the embodiment of the present invention is a stator installed in a circumferential direction by winding a coil, which is fixed to the main frame to form a magnetic field, in a circumferential direction, and a magnet for rotating in interaction with a magnetic field generated in the stator ( 56 is composed of a rotor 30 mounted along the circumference, and is mainly used as a motor of a washing machine.

The rotor 30 has a base surface 32 that forms a bottom surface of the lower side, the vent hole 34 is formed at a predetermined interval on the base surface 32.

In addition, since the heat dissipation wing 36 is formed around the vent hole 34, the outside air sucked into the vent hole 34 is supplied to the stator by the heat dissipation wing 36 to perform a cooling operation.

The support portion 38 coupled to the center of the base surface 32 is made of a synthetic resin material, and the coupling portion 40 is formed inside the support portion 38 to be connected to the driving shaft.

The magnet 56 mounted on the rotor 30 may be used in various kinds, but in the embodiment of the present invention, neodymium is used.

The neodymium is a molded sintered product mainly composed of neodymium (Nd), iron (Fe), and boron (Boron), and is used when high magnetic properties are required because of excellent residual magnetic flux density and coercive force.

The neodymium has the largest magnetic force among the permanent magnets commercialized compared to other magnets 56 of the same volume.

However, since the neodymium is not directly adhered to the side surface of the rotor 30 by an adhesive or the like with a brittle property, the yoke portion 50 for inserting and mounting the magnet 56 made of neodymium is provided. do.

The yoke portion 50 has a mounting groove 54 for installing the magnet 56 therein, and has a body portion 52 made of an iron plate and a side surface of the body portion 52. It is composed of a connecting portion 59 for connecting.

The body portion 52 is formed of powder metallurgy, and the processing process is shortened because no separate processing is required, thereby preventing scrap loss due to processing or the like.

The body portion 52 is formed of powder metallurgy using soft magnetic powder, and the powder metallurgy is a method of obtaining a metal product of a desired form by pressing and shaping a metal powder to harden, heating, and sintering. Says technology.

By forming the body portion 52 using the powder metallurgy in the embodiment of the present invention, it is possible to produce a small amount of multi-variety body portion 52 with a small capital investment cost than forming the body portion 52 with an iron plate, Various shapes of the body portion 52 can be implemented.

In addition, cost reduction is achieved by the absence of material loss during the production of the body portion 52, thereby providing an environment-friendly production line.

And, the body portion 52 using the soft magnetic powder is installed in contact with the magnet 56, to prevent the phenomenon that the strength of the magnet is weakened due to iron damage caused by the magnet 56 is installed in contact with the iron component. Done.

Inside the body portion 52, the mounting groove 54 is formed so that the magnet 56 can be inserted and mounted, two or more magnets 56 are installed in one body portion 52, In the embodiment of the present invention, six magnets 56 are mounted to the body portion 52, but only by the embodiment, and the number of the magnets 56 mounted on the body portion 52 depends on the size of the motor and the product specification. The increase or decrease accordingly is another embodiment of the present invention.

As shown in FIGS. 2 and 3, the connecting protrusions 57 protrude from the side of the body portion 52, and the connecting grooves 58 are inserted to prevent the connecting protrusions 57 from being separated and inserted. Since the other side of the body portion 52 is formed to be coupled to each other by the fitting method, it constitutes a connecting portion 59 according to the embodiment of the present invention.

The connecting portion 59 may be variously changed in the technical concept for interconnecting the body portion 52, a method using a bolt or adhesive will also be another embodiment of the connecting portion 59 according to the present invention.

Since the body portion 52 is fixed to the rotor 30, various coupling methods are applied, which will be described with reference to FIGS. 4 to 7.

The body portion 52 of the yoke portion 50 is fixed to the upper side 46 of the rotor 30 by an adhesive, as shown in Figure 4, the lower side of the body portion 52 is It is fixed by the support piece 44 bent stepped on the upper side 46.

In addition, one end of the support piece 44 and the base surface 32 are interconnected by the lower side 42 of the rotor 30, so that the side surface of the rotor 30 is the lower side 42 and the support piece ( 44 and the upper side 46.

As shown in FIG. 5, an upper end 60 is bent at an upper end of the upper side 46 of the rotor 30, and the upper end 60, the upper side 46, and the support piece 44 are formed. The installation groove 62 for forming the body portion 52 is forcibly fitted.

The upper end portion 60 is formed to be bent at an angle in the downward direction so that the body portion 52 is fixed in the installation groove 62 by interference fit.

Meanwhile, as shown in FIG. 6, the body part 52 may be fixed to the upper side surface 46 by a bolt 64 fastening method.

And, as shown in Figure 7, the fixing jaw 70 is formed bent upward from one end of the support piece 44 along the outer periphery of the rotor 30, by the fixing jaw 70 The lower side of the body portion 52 is to be supported.

And, the lower side of the body portion 52 is fixed by an adhesive or a lower bolt 72, the yoke portion 50 is fixed to the rotor 30 is installed.

The operation of the rotor structure of the radial core type motor according to the embodiment of the present invention having the above configuration will be described.

The body portion 52 of the yoke portion 50 is formed by a powder metallurgy method using the soft magnetic powder as a material.

Insertion of the connecting projection 57 formed on the side of the other body portion 52 into the connecting groove 58 formed on the side of the body portion 52 so that the sides of the body portion 52 is fixed to each other by fitting do.

Then, the neodymium magnet 56 is inserted into the mounting groove 54 of the body portion 52.

The body portion 52 in the above state is fixed to the upper side 46 by an adhesive, as shown in Figure 4, or as shown in Figure 5, the upper end 60 and the upper side 46 and the support piece The mounting groove 62 formed by the 44 is mounted by an interference fit method, and in this case, the adhesive may be used in parallel.

Alternatively, as shown in FIG. 6, the upper side surface 46 of the rotor 30 and the side of the body portion 52 are coupled to each other by bolts 64, or as shown in FIG. 7, the fixing jaw. The lower side of the body portion 52 is fixed to the support piece 44 by the lower bolt 72 while supporting the lower side of the body portion 52 by the 70.

According to the present invention as described above, by forming the body portion to which the magnet is mounted with powder metallurgy as a soft magnetic powder as a material, it does not need any additional processing, etc., providing an effect of shortening the work process to improve productivity. Done.

Further, by applying a neodymium magnet having a strong magnetism to the same volume to a radial core type motor, the motor's appearance is downsized.

And, due to the configuration of the yoke portion 50 for solving the problem that the neodymium magnet 56 can not be directly attached to the side of the rotor 30, the neodymium magnet 56 is easily rotor 30 Can be installed on the side of the.

And, in fixing the body portion 52 to the side of the rotor 30, a variety of fastening methods, etc. are used, the combination using the adhesive method or the interference fit method is that no separate fastening member is used. The work process will be shortened.

And, as shown in Figure 6, by fixing the body portion 52 to the side of the rotor 30 by the bolt 64 provides a firm coupling force, as shown in Figure 7, the upper side (46) By omitting the structure to support the side of the body portion 52 with only the fixing jaw 70 and at the same time to fix the lower side of the body portion 52 with the lower bolt 72, the weight of the rotor 30 Oversized dimensions are reduced, making the motor smaller.

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 radial core type motor according to the present invention, a neodymium magnet having strong magnetism with only a small volume is inserted into and mounted on the yoke part in the rotor rotated outside the radial core. It prevents the phenomenon that the operation efficiency and output is lowered, and at the same time, the motor's appearance and weight are reduced, thereby minimizing the motor and providing the effect of maximizing space utilization.

Claims (7)

In the radial core type motor including a stator, which is fixed to the main frame to form a magnetic field, is wound and wound along the circumferential direction, and a rotor mounted along the circumference of a magnet for rotating by interacting with the magnetic field generated by the stator. In; A body part formed of powder metallurgy such that a mounting groove for installing the magnet is formed inside; Rotor structure of a radial core type motor, characterized in that it comprises a connecting portion for interconnecting the side of the body portion. The rotor structure of claim 1, wherein the magnet installed in the mounting groove uses neodymium. The rotor structure of claim 1, wherein the connection part is coupled to each other by a fitting method because the connection protrusion and the connection groove are respectively formed at the side contacting the body part. The rotor structure according to claim 1, wherein the body portion is fixed to the rotor by an adhesive. The rotor structure of a radial core type motor according to claim 1, wherein an opening groove is formed in a side surface of the rotor such that the body portion is fixed to the rotor by an interference fit method. The rotor structure according to claim 1, wherein the body part is fixed to the rotor by a bolting method. The rotor of claim 1, wherein a fixing jaw protrudes along an outer circumference of the rotor to support the side of the body, and a lower side of the body is fixed to a base surface of the rotor. rescue.

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