KR20000008148A - Motor for driving disk - Google Patents

Abstract

PURPOSE: A motor for driving a disk is to attach an inhaling magnet at a lower surface of a tee bush inserted at an upper portion of a PCB located in a lower portion of a yoke jaw of a rotor yoke and at an upper portion of a rotation axis for improving a inhaling power and for preventing a vibration occurrence by a concentricity disk. CONSTITUTION: A motor for driving a disk comprises: a tee bush(52) for supporting at an upper side of a rotation axis(10); a turntable(50) to be stably installed on the rotation axis(10) of the tee bush(52); a bearing housing(40) to be inserted by compression for smoothly rotating the rotation axis(100) and supporting the rotation axis(100); a rotor yoke(30) to be combined and installed in a circumference of the bearing housing(40) forming a jaw at a lower side; a PCB(20) to be installed at a lower side of the rotor yoke(30); a thruster stopper(44) for supporting a low portion of the rotation axis(10) in the bearing housing(40); a thruster plate(42) to be installed at a low side of the thruster stopper(44); and inhaling magnets(26,54) to be informed on the PCB(20) at a lower side of the jaw formed at the lower side of the rotor yoke(30). Since the inhaling magnet, the thruster plate and the washer stopper are used with a magnet material, the inhaling power of the thruster of the rotation unit is improved.

Description

Disc drive motor

The present invention relates to a disc drive motor, and in particular, a suction magnet is attached to an upper end of a printed circuit board located at a lower end of a yoke jaw of a rotor yoke and a lower side of a tee bush inserted into an upper end of a rotating shaft to improve suction force and an eccentric disc. It is for preventing the vibration caused by.

Referring to FIG. 1, a disc driving motor according to the prior art is as follows.

1 is a cross-sectional view showing a disk drive motor according to the prior art, Figure 2 is a cross-sectional view of the yoke jaw formed in the rotor yoke in order to prevent the rotating part from falling off the fixing portion during extraction of the disk.

As shown in FIG. 1, the disk driving motor according to the related art includes a fixing part and a rotating part, and the rotating part guides the inner diameter of the disk, and the tibush 52 and the rotating shaft 10 into which the rotating shaft 10 is press-fitted. And a turntable 50 for seating the disc, a multi-pole magnetized drive magnet 32, and a rotor yoke 30 for forming a magnetic path of the drive magnet 32.

The fixing part includes a bearing housing 40 into which the metal bearing 46 is press-fitted for smooth rotation of the rotating shaft 10, an inner diameter of the bearing housing 40, and a core 70 in which a coil is wound, and a chip. A printed circuit board 20 on which the component 22 is mounted, a thrust stopper 44 supporting an end of the rotary shaft 10 to support a force in the direction of the rotary shaft 10 of the rotary part, and the thrust The thrust plate 42 in the lower side of the stopper 44, and the washer (60) which is caught in the groove 48 formed in the rotary shaft 10, and prevents the fall of the rotating part, and supports the washer 60 It consists of a washer stopper 62.

Referring to the operation of the disk drive motor according to the prior art made of the above configuration as follows.

First, the chip part 22 senses the positions of the driving magnets 32 magnetized to the north pole and the south pole, and sequentially flows current to the core 70 in which the coil is wound, thereby rotating the motor. The metal bearing 46 is used to support the rotating shaft 10 and smoothly rotate the rotating shaft 10. The rotating shaft 10 is displaced due to misalignment of the magnetic center of the driving magnet 32 and the core 70. Since the thrust plate 42 supporting the thrust suction force received downward and assisting the rotation of the rotary shaft 10 is below the thrust stopper 44, the thrust plate 42 is the bearing housing 40. The cock is fixed and fixed to the lower end of the thrust stopper 44.

In order to prevent the rotating part from falling off the fixing part when extracting the disk, the washer 60 is hung on the groove 48 formed in the rotating shaft 10, and the washer 60 is a bearing housing 40. Cocked and fixed to the upper end of the washer stopper 62 is fixed.

In FIG. 2, the yoke jaw 34 is formed at the lower end of the rotor yoke 30 and the protrusion is formed on the set mechanism to prevent the rotating part from falling off the fixing part during extraction of the disk. Projection is applied to the yoke jaw to prevent the rotating part of the motor from falling off the fixing part.

By the way, the conventional disk drive motor of such a configuration, when used in the set up due to the weak suction force generated by the deviation of the magnetic center of the drive magnet and the core, the rotating part vibrates by an eccentric disk or external vibration, especially at high speed Increasingly severe vibration causes the pickup that reads the data recorded on the disc to read the data on the disc, and changes the driving magnet from the rare earth magnet to the rubber magnet. As a result, there was a fatal problem with the set, which was further reduced on the disk.

Accordingly, the present invention has been made in order to solve the above problems, the purpose of the suction is the suction of the upper end of the printed circuit board located in the lower end of the yoke jaw of the rotor yoke, and the lower side of the Tibush inserted into the upper end of the rotating shaft The present invention provides a disk driving motor for attaching a magnet to improve suction power and to prevent vibration caused by an eccentric disk.

1 is a cross-sectional view showing a disk drive motor according to the prior art.

Figure 2 is a cross-sectional view showing a motor having a locking jaw in the rotor of the disk drive motor according to the prior art

3 is a cross-sectional view showing a disk drive motor according to the present invention.

Figure 4 is a cross-sectional view showing a motor having a locking jaw in the rotor of the disk drive motor according to the present invention

Explanation of symbols on the main parts of the drawings

10: axis of rotation 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 tee bush supporting at least the upper side of the rotating shaft,

A turntable seated on a rotary shaft below the t-bush;

A bearing housing in which a bearing is press-fitted to smoothly rotate and support the rotating shaft;

A rotor yoke coupled to the periphery of the bearing housing and having a jaw formed at its lower side and magnetized by an electrical signal;

A printed circuit board provided under the rotor yoke,

A thrust stopper for supporting a lower end of the rotating shaft in the bearing housing;

A thrust plate formed below the thrust stopper;

At least one magnet means formed on the lower printed circuit board of the jaw formed on the lower side of the rotor yoke is characterized in that it is made.

In this case, the magnet means may be implemented even to face each other 180 ° around the rotation axis, the thrust plate may be used as a magnet.

In addition, a ring-shaped washer formed on the inner upper end of the bearing housing, and a washer stopper used as a ring-shaped magnet having an inner diameter larger than the inner diameter of the washer above the washer. Here, the rotating shaft facing the washer is formed with a groove so that the outer diameter is smaller than the inner diameter of the washer, it is preferable that the outer diameter of the other rotating shaft is larger than the inner diameter of the washer.

Hereinafter, a disk driving motor according to the present invention will be described with reference to the accompanying drawings. For the sake of simplicity, the same reference numerals are used for the same parts as the conventional description to avoid descriptive clutter.

3 is a cross-sectional view showing the disk drive motor of the present invention according to the first embodiment, wherein a suction magnet is attached to the lower end of the t-bush to increase the suction force of the thrust by pulling a washer stopper, which is a magnetic body. 4 is a diagram illustrating a disk driving motor of the present invention in which a suction magnet is attached to an upper end of a printed circuit board to face a lower end of a rotor yoke on the upper side.

As shown in FIG. 3 according to the first embodiment, the disk driving motor according to the present invention first comprises a fixing part and a rotating part, and the rotating part guides the inner diameter of the disk and has a rotating shaft 10 at the center of the fixing part. Is formed, and a tee bush 52 press-fitted to the rotary shaft 10 is formed.

The turntable 50 for seating the disk around the rotating shaft 10, the multi-pole magnetized driving magnet 32, and the rotor yoke 30 forming a path of the driving magnet 32 are the turntable 50. Is formed on the lower side. Further, suction magnets 26 and 54 having magnetic flux for pulling the yoke jaw 34 of the rotor yoke 30 are formed at the lower end of the yoke jaw 34 of the rotor yoke, and the fixing part includes a rotating shaft ( 10) has a bearing housing 40 to which the metal bearing 46 is press-fitted for smooth rotation, and a core 70 having an inner diameter bonded to the bearing housing 40 and having a coil wound thereon.

Then, the printed circuit board 20 mounting the chip component 22, the thrust stopper 44 for supporting the end of the rotary shaft 10 to support the force in the direction of the rotary shaft 10 of the rotary part and A thrust plate 42 below the thrust stopper 44, a washer 60 inserted into the rotary shaft 10 to prevent the rotary part from falling off, and a washer stopper supporting the washer 60; 62 is seated in the upper groove 48 of the bearing housing 40.

In addition, the material of the thrust plate 42 and the washer stopper 62 is used as a magnet, the suction magnet 26, which is a magnetic material on the lower side of the t-bush 46 inserted into the upper end of the rotary shaft 10, It consists of 54.

Referring to the operation and operation of the disk drive motor according to the present invention made of the above configuration are as follows.

First, the chip part 22 senses the positions of the driving magnets 32 magnetized by the N pole and the S pole, and sequentially flows current to the core 70 in which the coil is wound, thereby rotating the motor. The rotary shaft 10 is supported. The metal bearing 46 is used to smoothly rotate the rotary shaft 10, and the suction magnets 26 and 54 are printed on the lower side of the lower jaw of the rotor yoke 30 coupled with the driving magnet 32. It is formed in the upper end of the circuit board 20.

At this time, the magnetic flux leaking from the suction magnets 26 and 54 increases the suction force of the thrust by pulling the yoke jaw 34 of the rotor yoke 30.

And, by using the thrust plate 42 and the washer stopper 62 located at the lower end of the rotary shaft 10 as a magnet, the thrust plate 42 pulls the rotary shaft 10 by magnetic force, and the washer stopper 62 ) Increases the thrust suction force by pulling the Tibush 52, which is a magnetic material.

Further, by attaching the suction magnets 26 and 54 having magnetic force to the lower end of the t-bush 52, the suction magnets 26 and 54 pull the washer stopper 62 in which the magnetic bodies are magnetic bodies. Thereby completing the operation by increasing the thrust absorption force.

As described above, according to the disk drive motor according to the present invention, by using the suction magnet and the thrust plate and the washer stopper as the magnet material, the thrust suction force of the rotating part is increased, so that the high speed rotation and the eccentricity in the set state can be achieved. You can read the pick-up recorded on the disc even when the rotating part caused by the disc and external vibration is vibrated in the fixing part. Even if the material of the magnet is made of clay from rubber, the motor seating base of the set mechanism is molded from the steel plate. It can be changed to water, which has an excellent effect on cost reduction.

Claims (5)

In a disk drive motor, A tee bush supporting at least the upper side of the rotating shaft, A turntable seated on a rotary shaft below the t-bush; A bearing housing in which a bearing is press-fitted to smoothly rotate and support the rotating shaft; A rotor yoke coupled to the periphery of the bearing housing and having a jaw formed at its lower side and magnetized by an electrical signal; A printed circuit board provided under the rotor yoke, A thrust stopper for supporting a lower end of the rotating shaft in the bearing housing; A thrust plate formed below the thrust stopper; Disk drive motor, characterized in that provided with at least one magnet means configured on the lower printed circuit board of the jaw formed on the lower side of the rotor yoke. The disk drive motor as set forth in claim 1, wherein the magnet means has an even number facing each other by 180 degrees about the rotation axis. The disk drive motor according to claim 1, wherein the thrust plate is used as a magnet. The method of claim 1, A ring-shaped washer formed at an inner upper end of the bearing housing; And a washer stopper, which is used as a ring-shaped magnet having an inner diameter larger than the inner diameter of the washer, on the upper side of the washer. 5. The disk driving motor according to claim 4, wherein the rotating shaft facing the washer has a groove formed so that its outer diameter is smaller than the inner diameter of the washer, and the outer diameter of the other rotating shaft is larger than the inner diameter of the washer.