KR200365694Y1 - a structure to adjust rotor position for a magnetic levitation motor - Google Patents

Abstract

The present invention provides a rotor in a magnetic levitation motor in which the permanent magnets having different polarities of faces opposite to each other are installed in the lower portion of the rotor and the lower portion of the support bracket installed in the vertical direction. The rotor position adjustment structure of the magnetic levitation motor to adjust the height of the lift. In the related art, since the permanent magnet at the lower part of the rotor and the permanent magnet of the polarity which repel each other are completely fixed to the support bracket, the fixed height is fixed from the support bracket. There is a problem that it becomes very difficult to adjust the spacing between the permanent position and the permanent magnet installed on the outer circumference of the rotor to be supported as much as the bar, the coupling hole 34 formed in the support bracket (30) Screw 35) and correspond to the lower permanent magnet 13 on the upper portion of the elevating stopper 35; According to the present invention, the permanent magnet 33 is installed so that the distance S between the stator 11 and the rotor outer permanent magnet 14 can be adjusted according to the lifting degree of the lifting stopper 35. By elevating the lifting stopper 35, the distance between the stator 11 and the rotor outer peripheral center permanent magnet 14 can be optimally adjusted within a predetermined range, so that the rotor 12 supports the bracket 20. Physical contact with or irregular rotation can be prevented to significantly improve the quality of the magnetic levitation motor (10).

Description

{A structure to adjust rotor position for a magnetic levitation motor}

The present invention provides a rotor in a magnetic levitation motor in which the permanent magnets having different polarities of faces opposite to each other are installed in the lower portion of the rotor and the lower portion of the support bracket installed in the vertical direction. It relates to a rotor position adjustment structure of the magnetic levitation motor to be able to adjust the height of the lift, and more particularly relates to the installation of the permanent magnet of the support bracket for floating the rotor to move in the vertical direction.

The magnetic levitation motor to which the present invention relates is provided with permanent magnets having different polarities of faces opposite to each other in the lower part of the rotor and the support brackets below the rotors so that the rotor is supported by a certain height from the lower support brackets. Since the floating motor hardly generates friction between the rotor and the lower support bracket, operating noise is suppressed and durability is good.

On the other hand, in the magnetic levitation motor, the stator fixed to the support bracket and the permanent magnet installed on the outer circumference of the rotor must maintain a certain distance. When the interval is narrowed, the permanent magnet can be in physical contact with the stator or the support bracket. In addition, the magnetic force between the permanent magnet and the stator becomes stronger, so that the rotation of the rotor becomes faster or irregular, so that a constant number of revolutions cannot be obtained. When the interval is widened, the magnetic force between the permanent magnet and the stator becomes weak, so the rotation becomes slow. As a result, if the rotation speed is too high, the rotor cannot rotate even if the power is applied to the stator.

Therefore, in the magnetic levitation motor, it is necessary to maintain a constant distance between the stator fixed to the support bracket and the permanent magnet installed on the outer circumference of the rotor. Conventionally, the support bracket has a polarity that repels the permanent magnet under the rotor. Since the permanent magnet is completely fixed, there is a problem in that it is very difficult to adjust the spacing between the permanent magnet and the stator installed on the support position of the rotor that is supported by a certain height from the support bracket and the outer circumference of the rotor.

The present invention is conceived in view of the conventional situation as described above, the purpose of the rotor is installed in the lower portion of the rotor installed in the vertical direction and the support magnets of the lower surface of the opposite opposite to each other is provided with a permanent magnet In the magnetic levitation motor supported by a certain height from the lower support bracket, the height of the rotor can be adjusted so that the distance between the stator fixed to the support bracket and the permanent magnet installed on the outer circumference of the rotor can be set accurately. The purpose of the present invention is to provide a rotor lift height control structure of the magnetic levitation motor.

1 is an exploded perspective view of an embodiment of the present invention

2A is a longitudinal sectional view of the embodiment;

FIG. 2B is a longitudinal cross-sectional view of the lift stopper in FIG. 2A;

<Explanation of Signs of Major Parts of Drawings>

10: motor 11: stator

12: rotor 13: permanent magnet

14: permanent magnet 30: support bracket

33: permanent magnet 34: coupling hole

34a: Female thread 35: Lifting stopper

35a: external thread

The present invention forms a coupling hole provided with a female screw in the support bracket to achieve the above object, and combines the lifting stopper provided with a male screw in the coupling hole, the permanent magnet corresponding to the lower permanent magnet in the upper portion of the lifting stopper It is characterized in that the height of the lift and the distance between the stator and the permanent magnet of the rotor outer periphery is adjusted according to the lifting degree of the lifting stopper, and the following detailed description of the technical details in accordance with the accompanying drawings Same as

That is, Figure 1 is an exploded perspective view of one embodiment of the present invention, Figure 2a and Figure 2b is a longitudinal cross-sectional view of the embodiment is shown, the present invention is the lower portion of the rotor 12 installed in the vertical direction and its Permanent magnets 13 and 33 having different polarities of faces facing each other are installed in the lower support bracket 30 so that the rotor 12 is supported by a certain height from the lower support bracket 30 and the rotor ( In the magnetic levitation motor 10 to maintain a predetermined distance (S) between the permanent magnet 14 installed on the outer periphery of 12 and the stator 11 fixed to the support bracket 30, the support bracket ( A coupling hole 34 having a female thread 34a is formed in the permanent magnet 33 installation portion of 30), and a lifting stopper 35 having a male screw 35a is coupled to the coupling hole 34, and a lifting stopper On the inner upper part of the 35, the permanent magnet 33 corresponding to the lower rotor permanent magnet 13 is installed and lifted. Depending on the extent of the lifting unit 35 will be such that hayeoseo interval (S) between the permanent magnet 14 provided on the outer peripheral surface central portion of the stator 11 and the rotor 12 is controlled.

Reference numeral 16 in the drawings is a rotating fan connecting shaft, 20 is a rotating fan, 21 is a fan cover.

In the present invention configured as described above, the permanent magnets 13 and 33 having different polarities are respectively installed at the lower portions of the rotor 12 installed in the vertical direction and corresponding positions of the support brackets 30 as shown in FIG. 2A. The rotor 12 is lifted by a certain height from the permanent magnet 33 mounting surface of the support bracket 30, thereby permanently installed on the outer periphery of the stator 11 and the rotor 12 fixed to the support bracket 30 Between the magnets 14 are also spaced apart by a certain height, as shown in FIG. 2b, when the lifting stopper 35 is raised, the rotor 12 supported by the permanent magnet 33 of the lifting stopper 35 is raised. The distance (S) between the rotor outer permanent magnet 14 and the stator 11 can be widened, and if the lifting stop 35 is lowered, the rotor 12 is lowered, so that the rotor outer permanent magnet 14 and The space S between the stators 11 can be narrowed.

Therefore, in the present invention, the distance S between the outer permanent magnet 14 and the stator 11 of the rotor 12 can be adjusted to an optimal state, so that the support bracket 20 is in physical contact or irregular rotation. Can be prevented.

As described above, the present invention is to screw the elevating stopper 35 to the coupling hole 34 formed in the support bracket 30, and corresponds to the lower rotor permanent magnet 13 in the upper portion of the elevating stopper 35; The permanent magnet 33 is installed so that the distance S between the stator 11 and the rotor outer permanent magnet 14 can be adjusted according to the lifting degree of the lifting stopper 35. According to the present invention, the lifting stopper By elevating (35), the distance between the stator 11 and the rotor outer peripheral center permanent magnet 14 can be optimally adjusted within a predetermined range, so that the rotor 12 is physically supported by the support bracket 20. It is possible to prevent the contact or irregular rotation to be able to greatly improve the quality of the magnetic levitation motor (10).

Claims (1)

Permanent magnets 13 and 33 having different polarities of faces facing each other are installed in the lower portion of the rotor 12 and the support bracket 30 at the lower portion thereof installed in the vertical direction, so that the rotor 12 has the support bracket at the lower portion thereof. A magnet that is supported by a certain height from 30 and is maintained between the permanent magnet 14 installed on the outer circumference of the rotor 12 and the stator 11 fixed to the support bracket 30 to maintain a predetermined distance S. In the floating motor 10, a coupling hole 34 having a female screw 34a is formed in the permanent magnet 33 installation portion of the support bracket 30, and a male screw 35a is formed in the coupling hole 34. Couple the elevating stopper 35 having, and the permanent magnet 33 corresponding to the lower rotor permanent magnet 13 on the inner upper portion of the elevating stopper 35 to stator 11 according to the lifting degree of the elevating stopper 35 ) And the distance (S) between the permanent magnet 14 installed in the center of the outer peripheral surface of the rotor 12 is adjusted Floating height adjustment structure of magnetic levitation motor.