KR100640755B1 - Stator of radial core type motor - Google Patents

Abstract

A stator of a radial core type motor is provided to prevent scraps from being generated during a fabricating process of a core body by forming second loading parts on top and bottom sides of the core body. A radial core type motor is fixed to a main frame, a plurality of cores installed in a circumferential direction, a stator(50) for forming magnetic field with coils, a magnet rotated by the magnetic field generated from the stator, and a rotor installed along a circumference. The stator of the radial core type motor includes a core body(52) formed by powder metallurgy, a loading part including a first loading part(54a) formed on both sides of the core body and a second loading part(54b) formed on top and bottom sides, and a coil wound around the loading part in order to form the magnetic field.

Description

Stator of radial core type motor {STATOR OF RADIAL CORE TYPE MOTOR}

1 is a plan view showing a typical radial core type motor,

2 is a plan view showing a core body of a radial core type motor according to the prior art,

3 is a cross-sectional view showing a core body of a radial core type motor according to the prior art;

4 is a plan view showing a core body of a radial core type motor according to the present invention;

5 is a side cross-sectional view showing a core body of a radial core type motor according to the present invention;

6 is a front sectional view showing a core body of a radial core type motor according to the present invention.

<Explanation of symbols on main parts of the drawings>

50: stator 52: core body

54 seating part 54a: first seating part

54 b: second seating part

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radial core type motor, and more particularly, to a stator of a radial core type motor in which a cross-sectional area of a core main body of which a coil is wound to form an electromagnet is reduced, thereby reducing the amount of coil wound around the core main body. will be.

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 includes a stator 5 fixed to a main body frame, and a rotor 9 that rotates by interacting with a magnetic field generated by the stator 5. .

A coil 7 is wound around the core body 6 protruding in the circumferential direction from the stator 5, and becomes a magnet by electric power supply to form a magnetic field, and a magnet 11 installed adjacent to the stator 5. ) Are circumferentially fixed along the side of the rotor 9 to allow them to interact.

As shown in FIGS. 2 and 3, a plurality of the core bodies 6 protrude radially from the stator 5, and a seating part 6a having both side surfaces concave inward is formed to form the seating part 6a. The coil 7 is wound up.

However, in the radial core type motor according to the prior art, since the core body 6 is formed by stacking a plurality of silicon steel sheets 6b and engaging with an interlock, the coil wound around the core body 6 There is a problem that can not be reduced.

In addition, since the size of the core composed of the core body 6 and the coil 7 is difficult to reduce, it is difficult to secure an insulation distance, and there is a problem that interference with the body frame occurs, and the temperature inside the motto is low due to low thermal conductivity. There is a problem of heating above the temperature.

In addition, since it is difficult to delete unnecessary portions of the core body 6, it is difficult to suppress the loss of materials, and the occurrence of scrap cannot be suppressed when the magnet 11 is used for the rotor 9. There is this.

The present invention has been made to solve the above-mentioned problems of the prior art, the seating portion is extended to the top and bottom of the core body, the cross-sectional area of the core body is reduced, so that the amount of coil wound on the seating portion is reduced, It is an object of the present invention to provide a stator of a radial core type motor, in which a volume of a wound core is also reduced.

The stator of the radial core type motor according to the present invention for solving the above problems is fixed to the main body frame, a plurality of core main body is installed radially along the circumferential direction, the coil is wound to form a core to form a magnetic field In a radial core type motor including a stator to be formed and a rotor mounted along a circumference of a magnet for rotating in interaction with a magnetic field generated by the stator, the core includes: a core body molded from powder metallurgy, and And a seating portion including a first seating portion formed concave on both sides of the core body, and a second seating portion recessed on the top and bottom surfaces of the core body, and a coil wound around the seating portion to form a magnetic field. .

Hereinafter, an embodiment of a stator of a radial core type motor according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a plan view showing a stator of the radial core type motor according to the present invention.

The radial core type motor according to the present invention includes a stator 50 fixed to a main body frame, and a plurality of core main bodies are radially installed along the circumferential direction, and a coil is wound to form a core, thereby forming a magnetic field. It includes a rotor mounted along the circumference of the magnet for rotating in interaction with the magnetic field generated in 50.

Here, the core may include a core body 52 in which soft magnetic powder is formed of powder metallurgy, a first seating portion 54a formed on both sides of the core body 52, and the core body 52. A seating portion 54 comprising a second seating portion 54b formed concave on the top and bottom surfaces, and a coil wound around the seating portion 54 to form a magnetic field.

As a result, the cross-sectional area of the core body 52 is reduced by the seating portion 54, thereby reducing the amount of coils wound around the circumferential surface of the core body 52, thereby reducing the volume of the core body consisting of the core body 52 and the coils. In addition, since the distance to the main body frame is reduced, the interference generated while driving the motor can be prevented, and the insulation distance is also secured.

Such soft magnetic powders are conventional soft magnetic powders used in transformers, generators, and computer memories. Examples thereof include electric steel, soft ferrite, and the like, but any soft magnetic powder generally used may be used.

Here, the second seating portion (54b), as shown in Figures 5 and 6, both ends are formed in a curved surface, so that the cross-sectional area of the core body 52 is further reduced so that the circumference of the core body 52 The amount of coil wound on the face also allows for further reduction.

Looking at the manufacturing method and operation of the stator of the radial core type motor according to the present invention configured as described above are as follows.

First, when the soft magnetic powder is molded into powder metallurgy, the first seating part 54a and the second seating part 54b are formed, and a coil is wound around the seating part 54 to form a stator 50. By installing a rotor provided with a magnet, a radial core type motor is achieved.

Then, when power is applied and current flows in the coil, a magnetic field is formed, and the rotor is rotated by interaction with the magnet.

At this time, since the volume of the core body 52 is small and the amount of coil wound around the seating portion 54 is reduced, interference generated between the body frame and the rotor is prevented.

In the stator of the radial core type motor according to the present invention configured as described above, the soft magnetic powder is formed of powder metallurgy to form a core body, so that the second seating part can be formed on the upper and lower surfaces of the core body. It is possible to prevent the occurrence of scrap (Scrap) during the manufacture of, there is an advantage that the volume and coil amount of the core body is reduced to reduce the material cost.

In addition, since the volume of the core made of the core body and the coil is reduced, interference between the body frame or the rotor generated during the driving of the motor is prevented, thereby preventing the motor from malfunctioning and breaking.

In addition, since the amount of the coil is reduced and the slot between the coils wound around the seating part is reduced, the coil resistance is reduced, thereby preventing the temperature inside the motor from being increased more than necessary.

Claims (3)

It is fixed to the main frame, a plurality of core body is installed radially along the circumferential direction, the stator to form a magnetic field because the coil is wound to form a core, and the magnet for rotating in interaction with the magnetic field generated in the stator In the radial core type motor including a rotor mounted along; The core includes a core body molded from powder metallurgy; A seating portion including a first seating portion formed concave on both sides of the core body and a second seating portion recessed on the top and bottom surfaces of the core body; The stator of the radial core type motor, characterized in that it comprises a coil wound around the seating portion to form a magnetic field. The method of claim 1; The core body is a stator of a radial core type motor, characterized in that molded from soft magnetic powder. The method of claim 1; The second seating part is a stator of a radial core type motor, characterized in that both ends are formed in a curved surface.

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