KR100319555B1 - Motor for driving disk - Google Patents

Abstract

Disc drive motors are disclosed in which the rotor assembly is prevented from being floated due to rotational force. The motor is provided with a suction magnet, a thrust plate and a washer stopper which suck the rotor assembly or allow the rotor assembly to be sucked. The motor assembly does not float on the suction force and suction of the suction magnet, washer stopper and thrust plate. Therefore, even when a high speed rotation or a small external shock is applied, the rotor assembly rotates while maintaining the horizontal state so that the pick up can accurately read the information recorded on the disc. In addition, even if the material of the magnet is changed from rare earth to rubber, the motor seating base can be changed from the iron plate to the mold, thereby reducing the cost.

Description

Disk Drive Motor {MOTOR FOR DRIVING DISK}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disk drive motor, and more particularly, to a disk drive motor which prevents the rotor assembly from being lifted up by rotational force.

A conventional motor will be described with reference to FIGS. 1 and 2. 1 is a cross-sectional view showing a conventional disk drive motor, Figure 2 is a cross-sectional view showing another conventional disk drive motor.

As shown, when the chip component 22 detects the position of the driving magnet 32 magnetized to the N pole and the S pole and transfers the result to the PCB 20, the PCB 20 moves to the wound coil 70. Supply with current. Then, the yoke 30, the t-bush 52, the turntable 50, and the rotation shaft 10 are rotated by the interaction between the driving magnet 32 and the coil 70. Reference numeral 24 in FIG. 2 denotes a base substrate.

The conventional disk drive motor as described above has a disadvantage in that the rotor assembly floats due to the rotational force when the rotor assembly is rotated. In detail, the rotor assembly includes a driving magnet 32, a yoke 30, a t-bush 52, a turntable 50, a rotating shaft 10, and the like, and the rotor assembly floats due to rotational force. To prevent this, about 200 gf of force is required. However, since the weight of the rotor assembly is only about 20 gf, the rotor assembly floats when the motor is driven. Then, the rotor assembly may be vibrated even more by eccentricity or a small external impact of the disc. In particular, when the rotor assembly is rotated at a high speed, the rotor assembly may cause severe vibration, thereby preventing pickup of reading data recorded on the disc.

The present invention has been made to solve the above problems, an object of the present invention is to install a suction magnet for sucking the rotor assembly to prevent the floating of the rotor assembly, the disk drive for improving the performance In providing a motor.

1 is a cross-sectional view showing a conventional disk drive motor.

Figure 2 is a cross-sectional view showing another conventional disk drive motor

3 is a cross-sectional view showing a disk driving motor according to an embodiment of the present invention.

4 is a cross-sectional view showing a disk driving motor according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: rotating shaft 20: printed circuit board

22: chip component 24: base substrate

26,54: suction magnet 30: rotor yoke

32: driving magnet 34: yoke chin

40: bearing housing 42: thrust plate

44: thrust stopper 46: metal bearing

48: home 50: turntable

52: tibush 60: washer

62: washer stopper 70: core

Disc drive motor according to the present invention for achieving the above object, a PCB; A bearing housing having a lower end fixed to the PCB; A metal bearing and a coil in which the bearing housing is press-fitted and fixed to an inner circumferential surface and an outer circumferential surface of a central portion, respectively; A thrust stopper and a thrust plate laminated and fixed on an inner circumferential surface of the lower end of the bearing housing; A lower end is in contact with the thrust stopper, a central part is supported by the metal bearing, and an upper end is a rotating shaft exposed to the upper side of the bearing housing, a tea bush pressed into the upper end of the rotating shaft, and pressed into an outer surface of the tea bush. Rotor assembly including a turntable is mounted, a yoke is pressed into the outer surface of the tee bush, the bottom is open, the lower surface is a jaw protruding outwardly, and a driving magnet attached to the inner peripheral surface of the yoke to face the coil In the disk drive motor having:

A suction magnet is installed at a portion of the PCB positioned vertically below the yoke jaw.

Disc drive motor according to the present invention for achieving the above object, a PCB; A bearing housing having a lower end fixed to the PCB; A metal bearing in which the bearing housing is press-fitted and fixed to the inner peripheral surface of the central portion; A thrust stopper and a thrust plate in which the bearing housing is press-fit and fixed to the inner peripheral surface of the lower end; Washers and washer stoppers, each press-fitted and secured in a stacked manner in grooves formed on the inner circumferential surface of the upper end of the bearing housing; The lower part is supported by the thrust stopper, the center part is supported by the metal bearing, and the upper part is exposed to the upper side of the bearing housing, and the groove-shaped groove into which the inner circumferential side of the washer is inserted is formed in the portion corresponding to the washer. In the disk drive motor having a rotor assembly including a rotating shaft and a tee bush pressed into the upper end of the rotating shaft,

A suction magnet is press-fitted and fixed to a portion of the rotating shaft between the t-bush and the washer stopper.

Hereinafter, a disk driving motor according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. For convenience of description, the same reference numerals are used for the same components as in the related art.

3 is a cross-sectional view showing a disk driving motor according to an embodiment of the present invention.

As illustrated, the bearing housing 40 is vertically fixed and installed on the PCB 20, and the thrust stopper 44 and the thrust plate 42 are stacked on the inner circumferential surface of the lower end of the bearing housing 40. It is fixed. The metal bearing 46 is press-fitted and fixed to the inner peripheral surface of the center of the bearing housing 40, and the wound coil 70 is press-fitted and fixed to the outer peripheral surface. The metal bearing 46 is supported by a rotation shaft 10 having a lower end contacting the thrust stopper 44.

The upper portion of the rotary shaft 10 is press-fitted and fixed with a metal t-bush 52, and the turntable 50 on which the disk is mounted and the yoke 30 with the bottom open are press-fitted and fixed to the outer circumferential surface of the t-bush 52. . The lower end surface of the yoke 30 forms a rim protruding outward, and a driving magnet 32 facing the coil 70 is press-fitted and fixed to the inner circumferential surface.

Then, a stepped groove 48 is formed in the inner peripheral surface of the upper end of the bearing housing 40, and the washer 60 and the washer stopper 62, which are magnets, are press-fitted and fixed in the groove 48. At this time, the portion of the rotating shaft 10 corresponding to the washer 60 is recessed to form a groove forming a rim. The inner diameter of the washer 60 is smaller than the outer diameter of the rotary shaft 10, and is provided larger than the outer diameter of the groove of the rotary shaft 10 forming the frame. Since the upper and lower sides of the grooves of the rotating shaft 10 are formed on the inner circumferential surface of the washer 60, the rotating shaft 10 is not separated upward.

The thrust plate 42 according to the present embodiment is provided with a magnet. At this time, since the rotating shaft 10 is attracted to the thrust plate 62, the rotor assembly including the driving magnet 32, yoke 30, the t-bush 52, the turntable 50 and the rotating shaft 10 is The rotor assembly does not float even when rotated.

In addition, the washer stopper 62 is also provided with a magnet. At this time, since the metal bush 52 is attracted to the washer stopper 62 side, the rotor assembly is not floated even when the rotor assembly is rotated.

In addition, a suction magnet 54 is press-fitted and installed at the portion of the rotary shaft 10 between the t-bush 52 and the washer 60, and the suction magnet 54 is sucked to the washer stopper 62 or the metal bearing 46 side. Therefore, the rotor assembly is not injured. At this time, the suction magnet 54 and the washer stopper 62 is provided as a magnet having the opposite polarity, and reference numeral 22 is a chip component for detecting the position of the driving magnet (32).

4 is a cross-sectional view showing a disk driving motor according to another embodiment of the present invention, and only the difference from FIG. 3 will be described.

This shows that the PCB 20 is installed on the base substrate 24 and the bearing housing 40 is fixed. In order to prevent the rotor assembly from being floated, a suction magnet 26 is installed on the PCB 20 located directly below the protruding jaw 34 of the lower surface of the yoke 30. At this time, the suction magnet 26 is installed to face each other with respect to the rotation axis (10). That is, the suction magnets 26 are 180 degrees with respect to the rotational axis 10 mutually opposing mutually, and are installed in an even number.

An operation of the disc driving motor according to the present embodiments configured as shown in FIGS. 3 and 4 will be described.

When the chip component 22 detects the position of the driving magnet 32 and transmits the same to the PCB 20, the PCB 20 supplies current to the wound coil 70. Then, the driving magnet 32, the yoke 30, the tibush 52, the turntable 50, and the rotating shaft 10, which are the rotor assembly, rotate by the interaction between the driving magnet 32 and the coil 70. do. The rotor assembly is not injured by the suction force and suction of the suction magnets 54 and 26, the washer stopper 62 and the thrust plate 42.

As described above, in the disc drive motor according to the present invention, the rotor assembly does not float on the suction force and suction of the suction magnet, washer stopper and thrust plate. Therefore, even when a high speed rotation or a small external shock is applied, the rotor assembly rotates while maintaining the horizontal state so that the pick up can accurately read the information recorded on the disc.

In addition, even if the material of the magnet is changed from rare earth to rubber, the motor seating base can be changed from the iron plate to the mold, thereby reducing the cost.

Claims (5)

PCB; A bearing housing having a lower end fixed to the PCB; A metal bearing and a coil in which the bearing housing is press-fitted and fixed to an inner circumferential surface and an outer circumferential surface of a central portion, respectively; A thrust stopper and a thrust plate laminated and fixed on an inner circumferential surface of the lower end of the bearing housing; A lower end is in contact with the thrust stopper, a central part is supported by the metal bearing, and an upper end is a rotating shaft exposed to the upper side of the bearing housing, a tea bush pressed into the upper end of the rotating shaft, and pressed into an outer surface of the tea bush. Rotor assembly including a turntable is mounted, a yoke is pressed into the outer surface of the tee bush, the bottom is open, the lower surface is a jaw protruding outwardly, and a driving magnet attached to the inner peripheral surface of the yoke to face the coil In the disk drive motor having: Disk drive motor, characterized in that the suction magnet is installed in the portion of the PCB which is located on the vertical lower side of the yoke jaw. The method of claim 1, The suction magnet is installed so as to be opposed to the center of the rotation shaft, characterized in that the pair drive motor. The method of claim 1, The thrust plate is a disk drive motor, characterized in that the magnet. PCB; A bearing housing having a lower end fixed to the PCB; A metal bearing in which the bearing housing is press-fitted and fixed to the inner peripheral surface of the central portion; A thrust stopper and a thrust plate in which the bearing housing is press-fit and fixed to the inner peripheral surface of the lower end; Washers and washer stoppers, each press-fitted and secured in a stacked manner in grooves formed on the inner circumferential surface of the upper end of the bearing housing; The lower part is supported by the thrust stopper, the center part is supported by the metal bearing, and the upper part is exposed to the upper side of the bearing housing, and the groove-shaped groove into which the inner circumferential side of the washer is inserted is formed in the portion corresponding to the washer. In the disk drive motor having a rotor assembly including a rotating shaft and a tee bush pressed into the upper end of the rotating shaft, And a suction magnet is press-fitted and fixed to a portion of the rotary shaft between the t-bush and the washer stopper. The method of claim 4, wherein The washer stopper is a disk drive motor, characterized in that the magnet having a polarity opposite to the suction magnet.