KR20130063212A - Motor of outer rotor type - Google Patents

Abstract

PURPOSE: A motor of an outer rotor type is provided to improve durability and to simplify a structure by having a built in magnet in a salient pole of a stator part. CONSTITUTION: A motor of an outer rotor type comprises a rotor part(10) including a cylindrical rotor core and multiple salient poles protruding to a center of an inside in the rotor core; a stator part(20) arranged in the inside of the rotor core, and including a stator core forming a penetration hole in a center, and multiple salient poles protruding to a radiated direction from the stator core to the outside; a shaft(30) passing through the penetration hole of the stator part; a control unit(40) which is electronically connected to a coil wound in the salient pole of the stator part. An inside of the salient pole of the stator part has a built in magnet(M).

Description

[0001] The present invention relates to an outer rotor type motor,

The present invention relates to an outer rotor type motor.

The drum washing machine is classified into an indirect type of belt connection in which the driving force of the motor is transmitted to the drum through a belt wound around the motor pulley and the drum pulley according to the driving method, and a direct type in which the rotor of the motor is directly connected to the drum. It is becoming.

The drum washing machine to be driven indirectly by the belt connection method is to drive the belt by fixing the pulley to the shaft pressed into the rotor, and generally uses an inner rotor type motor.

However, indirectly driven drum type washing machine of belt connection type indirectly transfers the driving force of the motor through the belt wound around the motor pulley and the drum pulley without being directly transmitted to the drum, so energy loss and a lot of noise There is no choice but to accompany.

In order to solve such a problem, it is a reality that an outer rotor type motor is applied instead of the inner rotor in the drum washing machine.

An example of such an outer rotor is disclosed in Patent Document 1.

The outer rotor disclosed in Patent Literature 1 is provided with a magnet on the inner wall of the rotor portion.

Roughly, the outer rotor part according to the prior art has a cup-shaped rotor frame composed of a bottom surface and sidewalls extending in a vertical direction from the bottom edge thereof, and a magnet is provided inside the sidewall of the rotor frame.

This type of outer rotor type motor according to the prior art should have a separate component for seating the magnet on the rotor frame, and if the magnet is separated from the inside of the side wall of the rotor frame during high-speed rotation, the motor will be fatally damaged. Coated. Other measures to address these problems should be considered.

Patent Document 1: Republic of Korea Patent No. 10-1079091

The present invention has been made to solve the above-mentioned disadvantages, and to provide an outer rotor type motor which can not only structurally simplify the outer rotor type motor but also improve durability.

The present invention includes a rotor portion having a cylindrical rotor core and a plurality of protrusions protruding from the rotor core toward an inner center thereof; A stator portion arranged inside the rotor core, the stator core having a through hole at the center thereof and having a plurality of protrusions radially projecting outward from the stator core and winding coils; A shaft passing through the through hole of the stator portion; And an outer rotor type motor including a controller electrically connected to a coil wound on the stator pole of the stator unit. In particular, a magnet is embedded in the stator pole.

In the outer rotor type motor according to the preferred embodiment of the present invention, the stator core alternately arranges a pole with a magnet and a coil winding of the pole.

The present invention is surrounded by a cup-shaped rotor case having a cup-shaped rotor case having a top surface and a side wall extending vertically from the top edge thereof, and a cup-shaped housing having a bottom surface and a side wall extending vertically from the bottom edge thereof. All.

In particular, the rotor case is provided with a pulley in the upper center, while the rotor portion and the stator portion are disposed therein, and the housing seats the control portion on the lower surface.

According to the present invention, the upper end of the shaft passing through the through hole of the stator part is bound to the pulley by means of a first bearing, and the shaft is bound by means of a second bearing disposed inside the upper surface of the rotor case.

In addition, the present invention axially arranges the housing and the rotor case on the housing, and insulates the housing and the rotor case. To this end, the present invention is to seal the lower surface of the rotor case with an insulator.

According to the description of the present invention, the present invention provides an outer rotor type motor in which a magnet is built in the protrusion of the stator portion.

In addition, the outer rotor type motor according to the present invention is provided with an integrated control unit inside the motor to easily control each phase constituting the motor, as well as to install the motor assembly according to the present invention in a washing machine, for example. This is easy and the space occupancy inside the washing machine can be significantly reduced.

In addition, the present invention, unlike the conventional outer rotor, is equipped with a magnet in the stator portion can further improve the reliability of the motor drive.

1 is a perspective view of an outer rotor type motor according to the present invention.
Figure 2 is a longitudinal sectional view schematically showing a motor of the outer rotor type according to the present invention.
3 is a cross-sectional view of the outer rotor type motor shown in FIG. 1.

Now, the motor of the outer rotor type according to the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages, features, and ways of accomplishing the same will become apparent from the following description of embodiments taken in conjunction with the accompanying drawings. In the present specification, in adding the reference numerals to the components of each drawing, the same reference numerals refer to the same or similar components throughout the specification. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a perspective view of an outer rotor type motor according to the present invention.

The outer rotor type motor according to the present invention is casing into the rotor case 100 opening the lower portion and the housing 200 opening the upper portion as shown, the rotor case 100 is accommodated in the rotor portion and the stator portion, In the housing 200 will accommodate the control unit. This will be described in detail below.

The bracket 300 is, for example, a facility for mounting the outer rotor type motor of the present invention inside the washing machine, and is provided in the housing 200.

Figure 2 is a longitudinal sectional view schematically showing a motor of the outer rotor type according to the present invention.

The present invention relates to an outer rotor type motor having a rotor portion 10 and a stator portion 20. That is, the present invention is configured as an outer rotor type in which the stator portion 20 is disposed inside and the rotor portion 10 is disposed outside the stator portion 20.

The outer rotor type motor according to the present invention is surrounded by the rotor case 100 and the housing 200, and is designed to accommodate the rotor part 10 and the stator part 20 described above. In particular, the rotor case 100 accommodates the rotor portion 10 and the stator portion 20, while the housing 200 includes a control portion 40.

As shown, the rotor case 100 has a cup shape having an upper surface and a side wall extending in a vertical direction from the upper surface edge. The rotor case 100 includes a pulley 110 at the center of the upper surface.

The housing 200 has a cup shape with a lower surface and sidewalls extending in a vertical direction from the lower edge of the lower surface. Optionally, when the rotor case 100 rotates, the rotor case 100 is disposed not to come into contact with the inner surface of the housing 200, and the rotor case 100 and the housing 200 are coaxially arranged.

Preferably, the housing 200 may reduce the size of the motor by disposing a control unit 40, for example, a printed circuit board therein. In addition, the housing 200 may be fixed to a hardware such as a washing machine by the bracket 300.

The stator part 20 is rotatably received inside the hollow part of the rotor part 10, and has a stator core 21 having a plurality of protrusions projecting in a radial direction with a through hole in the center thereof, and a coil wound around the poles. (See Fig. 3).

The rotor part 10 is positioned inside the side wall of the rotor case 100, and preferably, the rotor part 10 and the rotor case 100 are assembled by a press-fit method. The rotor unit 10 should be fixed to the inner surface of the rotor case 100 by a press-fit method as described above to be able to transfer the rotation of the rotor unit 10 to the rotor case 100 as it is. Optionally, the rotor part 10 may be coupled through another fixing method in addition to the press-fit method to fix the rotor case 100.

The structure of the rotor unit 10 and the stator unit 20 according to the present invention will be described in more detail in FIG. 3.

The outer rotor type motor according to the present invention includes a rotor part 10 and a stator part 20 in the rotor case 100 disposed above as described above, and has a housing 200 under the rotor case 100. ). The shaft 30 is extended in the vertical direction from the center of the rotor case 100 and the housing 200, the upper end of the shaft 30 is the first bearing in the hollow of the pulley 110 of the rotor case 100 It is coupled to the 111, the shaft 30 is coupled to the second bearing 112 provided inside the upper surface of the rotor case 100.

As illustrated, the present invention includes a control unit 40 such as a printed circuit board inside the housing 200, and preferably inside the bottom surface. The controller 40 applies an external power source to the coil to be wound around the pole 22 of the stator unit 20, and serves to easily control each phase constituting the motor.

Although a conventional motor includes a control unit outside the motor, the present invention includes a control unit 40 inside the motor, more specifically, inside the housing 200 to integrate the motor and the control unit.

For the unique structure of the present invention, the outer rotor type motor according to the present invention is an open lower portion of the rotor case to prevent magnetic interference between the magnetic force generated in the rotor case 100 and the control unit 40. The face can be sealed with an insulator (no reference sign).

3 is a cross-sectional view of the outer rotor type motor shown in FIG. 1.

As described above, the stator portion 20 is rotatably disposed inside the hollow portion of the rotor portion 10.

More specifically, the rotor part 10 is formed of a hollow rotor core 11 hollow so as to be seated inside the side wall of the rotor case 100. In particular, the rotor unit 10 is characterized in that the rotor core 11 is formed only of an iron core without separately providing an excitation device such as a coil and / or a permanent magnet.

In addition, the rotor core 11 includes a plurality of salient poles 12, which project from the rotor core 11 toward the inner central axis.

The stator unit 20 includes a stator core 21, a protrusion 22, and a through hole 23. The stator portion 20 has a through hole 23 that provides a through-path of the shaft 30 (see FIG. 1) at the center as illustrated, while the outer surface of the stator core 21 is radially outwardly facing the outside. A plurality of protrusions 22 protruding are provided.

As shown, the stator part has a plurality of protrusions radially protruding from the stator core, and alternately arranges the protrusions in which the magnet M is embedded and the winding poles wound by the coil 50 to which power is applied from the outside. .

Optionally, one salient pole 22 and the other salient pole 22 of the stator portion 20 are arranged to face each other on the same line to constitute one phase. For reference, the number of the poles 22 need not be limited to the number illustrated in the reference drawings.

In particular, the motor of the outer rotor type according to the present invention has a plurality of magnets M built into the stator part 20, and the magnet M is provided in the stator core 21 of the stator part 20. It is seated and fixed in the formed insertion groove (no reference numeral).

In other words, the motor of the general outer rotor type is provided with a magnet in the rotor, whereas the present invention is characterized in that the magnet M is provided in the stator unit 20.

In the outer rotor type motor of the present invention having such a configuration, when a current flows to the coil 50 from the outside in the magnetic field formed by the magnet M, the rotor part 10 is applied to the magnetic force generated in the coil 50. Torque is generated to rotate in the direction of minimizing the resistance of the magnetic circuit. The rotational force of the rotor rotates the rotor case, and a belt (not shown) wound between the drum of the drum washing machine (not shown) or the pulley of the rotor case and the pulley of the drum washing machine connected to the pulley 110 (see FIG. 2) of the rotor case. Can not be used).

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, this is for explaining the present invention in detail, and the motor of the outer rotor type according to the present invention is not limited thereto, and the scope of the appended claims and / or Or within the scope it will be known in advance that modifications or variations are possible by those skilled in the art.

10 ----- rotor part, 20 ----- stator part,
30 ----- shaft, 40 ----- control unit,
50 ----- coil, 100 ----- rotor case,
200 ----- Housing, M ----- Magnet.

Claims (10)

A rotor portion having a cylindrical rotor core and a plurality of protrusions protruding from the rotor core toward an inner center thereof;
A stator unit arranged inside the rotor core and having a stator core having a through hole at a center thereof, and a plurality of protrusions protruding radially outwardly from the stator core;
A shaft passing through the stator part through hole; And
And a control unit electrically connected to a coil wound on the salient pole of the stator unit,
An outer rotor type motor, in which a magnet is built into the stator pole.
The method according to claim 1,
The stator unit is an outer rotor type motor for alternately disposing a pole with a magnet and a coil winding of the pole along the circumferential direction of the ring-shaped stator core.
The method according to claim 1,
An outer rotor type surrounded by a cup-shaped rotor case having a top surface and a side wall extending vertically from the top edge thereof, and a cup-shaped housing having a bottom side and a side wall extending vertically from the bottom edge thereof. Of the motor.
The method according to claim 3,
The rotor case is an outer rotor type motor having a pulley at the center of the upper surface.
The method according to claim 1,
The rotor unit of the outer rotor type is fixed to the inner surface of the side wall of the rotor case.
The method according to claim 1,
The stator portion of the rotor rotor type motor is disposed concentrically in the rotor case.
The method according to claim 3,
The rotor case is an outer rotor type motor that binds the upper end of the shaft to the pulley by means of a first bearing, and binds the shaft inside the upper surface of the rotor case by means of a second bearing.
The method according to claim 3,
The rotor case is an outer rotor type motor for sealing the lower surface thereof with an insulator.
The method according to claim 1,
The control unit is an outer rotor type motor disposed in the housing.
The method according to claim 1,
The rotor core is an outer rotor type motor consisting of an iron core.

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