KR20110137184A - Apparatus for rotating disc - Google Patents

Abstract

PURPOSE: A disk rotation apparatus is provided to form a turn table and a yoke in one body and to reduce the number of assembly processes. CONSTITUTION: A turn table-yoke integrated rotor(100) includes a turn table body(110), a yoke fixing part(120), a yoke(130), and a magnet(140). A rotary shaft is combined in a rotary shaft hole and a penetration hole of the yoke fixing part. A stator(300) includes a bearing assembly, a core, and a coil. The rotary shaft is inserted into a bearing. A bearing housing accepts the bearing.

Description

Disk Rotator {APPARATUS FOR ROTATING DISC}

The present invention relates to a disk rotating apparatus.

In recent years, technology development of an optical disk driver (ODD) for storing massive data on an optical disk and reading and processing massive data from the optical disk has been made.

The optical disk driver includes a disk rotating device for rotating the optical disk at high speed.

The disk rotating device included in the optical disk driver includes a turn table coupled to the yoke and the yoke that are rotated together with the rotating shaft rotating at high speed and supporting the optical disk.

Conventional disk rotating apparatus has a structure for fixing the turntable to the rotating shaft after pressing and fixing the burring portion of the yoke to the rotating shaft.

In the conventional disk rotating apparatus, the turn table is fixed to the rotating shaft by an adhesive. When the amount of the adhesive is insufficient, the bonding strength of the turn table and the rotating shaft is weak, and when the amount of the adhesive is excessive, the adhesive flows out of the rotating shaft to generate a defect.

In addition, the conventional disk rotation apparatus has a problem that the number of assembling process is increased and various defects occur during the assembling process because the yoke and the turn table are fixed to the rotating shaft, respectively.

The present invention provides a disk rotating apparatus which forms a turn table and a yoke integrally to reduce the number of assembly processes and further improves the coupling force of the turn table and the rotating shaft to reduce various defects generated during the assembly process.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned above may be clearly understood by those skilled in the art from the following description. will be.

In one embodiment, the disk rotating apparatus is a turn table body having a through hole, a yoke fixing portion extending from a lower surface of the turn table body and having a rotating shaft hole, and inserted into a predetermined depth from an outer surface of the yoke fixing portion, A turntable yoke integrated rotor integrally formed with a yoke spaced from the turntable body and a magnet disposed inside the yoke; A rotating shaft coupled to the rotating shaft hole and the through hole of the yoke fixing part; And a stator including a bearing into which the rotating shaft is inserted and a bearing housing accommodating the bearing, a core fixed to an outer circumferential surface of the bearing housing, the core facing the magnet, and a coil wound around the core.

According to the disk rotating apparatus according to the present invention, by forming the turn table and the yoke integrally by an injection process or the like, the number of assembling processes can be greatly reduced, and the turn table without adhesive by press-fitting the rotating shaft to the yoke extension portion extended from the turn table It has an effect that can be coupled to the rotating shaft.

1 is a cross-sectional view showing a disk rotating apparatus according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the turn table yoke-integrated rotor of FIG. 1. FIG.
3 is a cross-sectional view showing a disk rotating apparatus according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be interpreted as meanings and concepts corresponding to the technical spirit of the present invention based on the contents throughout the present specification.

1 is a cross-sectional view showing a disk rotating apparatus according to an embodiment of the present invention. FIG. 2 is a cross-sectional view of the turn table yoke-integrated rotor of FIG. 1. FIG.

1 and 2, the disk rotating apparatus 600 includes a turn table-yoke integrated rotor 100, a rotating shaft 200, and a stator 300. In addition, the disk rotating apparatus 600 may further include a base plate 400 coupled to the stator 300.

The turn table yoke integrated rotor 100 includes a turn table body 110, a yoke fixture 120, a yoke 130, and a magnet 140. The turn table yoke integrated rotor 100 may further include a suction magnet 150.

The turn table body 110 includes, for example, a body portion 112, a disk fixing portion 114, a back yoke 116 and a clamp magnet 118.

The body portion 112 is, for example, formed in a cylindrical shape, the body portion 112 includes a through hole 112a penetrating through the upper surface and the lower surface facing the upper surface.

A trench is formed in the upper surface of the body portion 112 in a donut shape along the periphery of the through hole 112a, and a back yoke 116 and a clamp magnet 118 having a donut shape are disposed in the trench.

The outer side of the body portion 112 is formed with a sharp portion 112b in contact with the opening formed in the center of the optical disk to align the rotation center of the optical disk with the rotation center of the rotation shaft 200.

The disk fixing portion 114 is formed on the side of the body portion 112 having a cylindrical shape, the disk fixing portion 114 serves to support the optical disk. On the upper surface of the disk fixing part 114, a felt 114a for preventing rotational slip of the optical disk is disposed.

The yoke fixing part 120 extends (or protrudes) from the center of the lower surface of the turn table body 110 to a predetermined length. The yoke fixing part 120 has a cylindrical shape having a rotating shaft hole 122.

The yoke 130 is formed in a cylindrical shape with a lower surface opened. The yoke 130 includes a yoke top plate 132 and a yoke side plate 134.

The yoke top plate 132 is formed in a disc shape, and the yoke side plate 134 extends from an edge of the yoke top plate 132 to one side. In one embodiment of the present invention, the yoke top plate 132 is spaced apart from the bottom surface of the turn table body 110, thereby causing a gap between the bottom surface of the turn table body 110 and the top surface of the yoke top plate 132. ) Is formed.

An opening is formed in the central portion of the yoke upper plate 132, and the inner surface of the yoke upper plate 132 formed by the opening formed in the central portion of the yoke upper plate 132 is inserted at a predetermined depth from the outer surface of the yoke fixing part 120. .

The magnet 140 is disposed along the inner side surface of the yoke side plate 134 of the yoke 130.

In one embodiment of the invention, the turn table body 110, yoke fixing portion 120 and yoke 130 is formed integrally. The turn table body 110, the yoke fixing part 120, and the yoke 130 may be integrally formed by, for example, an injection process.

The rotating shaft 200 is coupled to the through hole 112a of the turn table body 110 and the rotating shaft hole 122 of the yoke fixing part 120, and the turn table body 110 is rotated together with the rotating shaft 200.

As the rotation shaft 200 is coupled to the through hole 112a of the turn table body 110 as well as the rotation shaft hole 122 of the yoke fixing part 120, the coupling strength between the turn table body 110 and the rotation shaft 200 is increased. It is greatly improved to prevent the turn table body 110 from being removed from the rotation shaft 200, and thus does not require an adhesive for coupling the turn table body 110 and the rotation shaft 200.

Meanwhile, in order to further improve the coupling strength of the rotation shaft 200 and the turn table body 110, the rotation shaft hole 122 of the through hole 112a and the yoke fixing part 120 of the turn table body 110 of the rotation shaft 200. ), An oblique groove 210 having a line shape formed to be inclined with respect to the axial direction of the rotation shaft 200 may be formed. Alternatively, a portion of the rotary shaft 200 coupled to the through hole 112a of the turn table body 110 and the rotary shaft hole 122 of the yoke fixing part 120 is inclined with respect to the axial direction of the rotary shaft 200. The oblique projecting portion may be formed.

The stator 300 includes a bearing housing 310, a bearing 320, a core 330, and a coil 340.

The bearing housing 310 is formed in a cylindrical shape with an upper surface opened. A thrust bearing 315 supporting the rotating shaft 200 may be disposed on the bottom plate of the bearing housing 310. The bearing housing 310 is formed at a first height.

The bearing 320 is disposed inside the bearing housing 310. The bearing 320 has a pipe shape having a hollow in which the rotation shaft 200 is inserted. In one embodiment of the invention, the bearing 320 may comprise an oil-impregnated sintered bearing.

The bearing 320 inserted into the bearing housing 310 has a second height lower than the first height, whereby the upper surface of the bearing 320 is disposed at a position lower than the upper end of the bearing housing 310.

The core 330 is coupled to the outer circumferential surface of the bearing housing 310, and the core 330 is formed by stacking a plurality of iron pieces having a thin thickness. The through hole for coupling to the outer circumferential surface of the bearing housing 310 is formed in the central portion of the core 330.

The coil 340 is wound around the core 330 and generates a magnetic field by a driving signal applied from the outside.

The bearing housing 310 is coupled to the base plate 400 on which the burring portion is formed.

The rotating shaft 200 is inserted into the hollow of the bearing 320 of the stator 300. In the state in which the rotation shaft 200 is inserted into the bearing 320, the core 330 on which the coil 340 is wound face the magnet 140 formed on the inner side of the yoke side plate 320 of the yoke 300. Is placed.

When the rotating shaft 200 is rotated at a high speed in a state in which the rotating shaft 200 is coupled to the bearing 320, a part of the oil included in the bearing 320 leaks out of the bearing 320 along the rotating shaft 200. It may contaminate the core.

To prevent this, the end of the yoke fixing part 120 is disposed inside the bearing housing 310, and the oil recovery part 125 is formed at the end of the yoke fixing part 120.

The oil recovery part 125 is formed by an annular groove formed at a portion of the end of the yoke fixing part 120 in contact with the rotation shaft 200. That is, the oil recovery unit 125 provides the oil moving along the axial direction of the rotation shaft 200 back to the bearing 320 to prevent the oil leaked from the bearing 320 from leaking outside the bearing housing 310. do.

Meanwhile, in order to prevent the turn table yoke-integrated rotor 110 from rising from the bearing 320, the turn table yoke-integrated rotor 110 may include a suction magnet 150.

The suction magnet 150 is formed in an annular ring shape, the suction magnet 150 is attached to the inner surface of the yoke top plate 132 of the yoke 130 and the outer circumferential surface of the yoke fixing part 120, the suction magnet 150 Sucks the bearing housing 310 to prevent the turn table-yoke integrated rotor 110 from rising from the bearing 320.

In one embodiment of the present invention, the suction magnet 150 is attached to the inner surface of the yoke top plate 132 of the yoke 130 and the outer circumferential surface of the yoke fixing part 120 to accurately position the suction magnet 150 in a designated position. Can generate a uniform suction force.

3 is a cross-sectional view showing a disk rotating apparatus according to another embodiment of the present invention. The disk rotating apparatus shown in FIG. 3 is substantially the same as the disk rotating apparatus described above with reference to FIGS. 1 and 2 except for the yoke. Therefore, duplicate description of the same parts will be omitted, and the same components and the same reference numerals will be given to the same components.

Referring to FIG. 3, the disk rotating apparatus 600 includes a turn table-yoke integrated rotor 100, a rotating shaft 200, and a stator 300. In addition, the disk rotating apparatus 600 may further include a base plate 400 coupled to the stator 300.

The turn table yoke integrated rotor 100 includes a turn table body 110, a yoke fixture 120, a yoke 130, and a magnet 140. The turn table yoke integrated rotor 100 may further include a suction magnet 150.

The yoke 130 includes a yoke top plate 132 including a bent portion 136 and a yoke side plate 134 bent from an edge of the yoke top plate 132.

An opening is formed in a central portion of the yoke upper plate 132, and an inner side surface formed by the opening of the yoke upper plate 132 is bent in a direction parallel to the rotation shaft 200 to form a bent portion 136. The bent part 136 may be disposed inside the yoke fixing part 120 and may further improve the bonding strength of the yoke upper plate 132 and the yoke fixing part 120 by the bent part 136.

As described in detail above, the number of assembly steps can be greatly reduced by integrally forming the turntable and the yoke by an injection process or the like, and the rotary shaft is pressed into the yoke extension portion extended from the turntable, thereby rotating the turntable without adhesive. Has the effect of binding to

Although embodiments according to the present invention have been described above, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments of the present invention are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the following claims.

600 ... disc rotor 100 ... rotator
200 ... spindle 300 ... stator
400 ... base plate

Claims (7)

A turn table body having a through hole formed therein, a yoke fixing part extending from a lower surface of the turn table body, a yoke fixing part having a rotating shaft hole formed therein, and inserted into a predetermined depth from an outer surface of the yoke fixing part and integrally formed with the yoke fixing part, A turntable yoke integrated rotor comprising a spaced yoke and a magnet disposed inside the yoke;
A rotating shaft coupled to the rotating shaft hole and the through hole of the yoke fixing part; And
A bearing assembly including a bearing into which the rotating shaft is inserted and a bearing housing accommodating the bearing, and a stator including a core fixed to an outer circumferential surface of the bearing housing and facing the magnet and a coil wound around the core . The method of claim 1,
And at least one oblique groove formed at an inclined portion with respect to the axial direction of the rotating shaft in a portion of the rotating shaft coupled to the turn table body and the yoke fixing part. The method of claim 1,
The height of the bearing is formed to be lower than the height of the bearing housing, the end of the yoke fixing portion extends into the bearing housing. The method of claim 3,
And the yoke fixing portion includes an oil recovery portion formed by an annular groove formed at a portion of the end of the yoke fixing portion that comes into contact with the rotation shaft to recover oil leaked from the bearing and provide the oil back to the bearing. The method of claim 1,
And the turn table body, the yoke fixing portion, and the yoke are integrally formed by injection molding. The method of claim 1,
And a suction magnet disposed at a portion where the inner side of the yoke top plate and the yoke fixing part meet and face an upper end of the bearing housing. The method of claim 1,
And an end portion of the yoke top plate of the yoke inserted into the yoke fixing portion includes a bent portion that is bent at least once inside the yoke fixing portion.

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