KR20070005157A - Spindle motor - Google Patents

Abstract

A spindle motor is provided to satisfy run-out specification of a turn table and to prevent the generation of assembly error of a clamp case. A rotor part has a shaft(127), and an integrated turn table(114) performing rotation movement by being connected to the shaft. A stator part is constituted with a core and a coil in order to correspond to the rotor part. A base plate supports the stator part. The turn table is integrated with a clamp case(114a), and a rotor yoke(117) is connected along a circumference of an edge of the integrated turn table.

Description

Spindle Motors {SPINDLE MOTOR}

1 is a cross-sectional view showing the structure of a spindle motor according to the prior art.

Figure 2 is a cross-sectional view showing the structure of a spindle motor according to the present invention.

3 shows an integral rotor yoke according to the invention.

* Description of the symbols for the main parts of the drawings *

100: spindle motor 107: elastic means

109: clamp coupling portion 111: felt

112: magnet 114: integrated turntable

114a: clamp case 115: fastening groove

117: rotor yoke 117a: fastening portion

120: base plate 121: bearing housing

122: circuit board 128: coil

129: core

The present invention relates to a turntable of a spindle motor.

In general, spindle motors are widely used in electronic products that require precision rotating devices such as projection TVs, home theater equipment, and drives for computers.

In addition, the spindle motor is small in size, capable of high speed rotation, precise control, and low power consumption.

Here, the structure of the conventional spindle motor is as follows.

1 is a cross-sectional view showing the structure of a spindle motor according to the prior art.

As shown in FIG. 1, the conventional spindle motor 10 is divided into a rotor part and a fixed stator part, which are greatly rotated, and the rotor part is coupled to the shaft 27 and the shaft 27. Rotor yoke (14) for rotating motion, and the magnet 12 is attached along the inner circumferential surface of the rotor yoke (14).

The upper surface of the rotor yoke 14 serves as a turntable on which the optical disk is placed, and the clamp case 13 is assembled to the upper side of the rotor yoke 14.

A felt 11 to which an optical disk is mounted is attached along an edge region of the upper side of the rotor yoke 14.

A clamp composed of a clamp engaging portion 9 and an elastic means 7 is assembled to the clamp case 15 assembled above the turntable integrated rotor yoke 14.

The stator part corresponding to the rotor part is composed of a core 29 and a coil 28, and a base plate 20 having a printed circuit board 22 attached thereto for operation of the rotor part and the stator part. And a bearing and bearing housing 21, a trust stopper 31, a trust plate 26, and a washer 25.

The spindle motor 10 having the structure as described above, when a current is applied to the coil 28 from the circuit board 22 attached to the base plate 20, the coil 28 and the rotor yoke 14 A magnetic field is generated between the magnets 12 attached to the rotor yoke 14 to rotate.

When the rotor yoke 14 rotates, the shaft 27 coupled to the rotor yoke 14 rotates. The shaft 27 is supported by the bearing 30 so that the rotor yoke 14 rotates about the bearing housing 21 of the stator part. Will be

When the rotor yoke 14 and the shaft 27 are rotated as described above, the washer 25 is assembled to the edge area of the shaft 27 to prevent injury.

The optical disk is mounted on the felt 11 attached to the rotor yoke 14 and rotates in a fixed state by the clamp coupling portion 9.

However, the spindle motor 10 having the structure as described above is an integral structure using the upper side of the rotor yoke 14 as a turntable, and since the clamp case 15 is assembled to the upper side of the rotor yoke 14, the assembly deviation is high. There is a problem that occurs.

This is because the center of the clamp case 13 is press-fitted to the shaft 27 to be fastened. At this time, the specifications of the clamp case 13, the height of the turntable, and turntable run out are satisfied. Because it is difficult.

In addition, if the assembly tolerance occurs when assembling the clamp case 13 as described above, in order to eliminate this, it is necessary to proceed with a separate turntable run-out repair process, or the disposal cost of the product due to the failure of the rotor part, which increases the production cost. there is a problem.

An object of the present invention is to provide a spindle motor capable of preventing assembly tolerance of the clamp case and satisfying the runout specification of the turntable.

Spindle motor according to the present invention for achieving the above object,

 A rotor unit having a shaft, an integrated turntable coupled to the shaft and rotating, and the integrated turntable;

A stator portion composed of a core and a coil so as to correspond to the rotor portion;

In the spindle motor comprising a base plate for supporting the stator portion,

The turntable has a clamp case integrally formed, and the rotor yoke is fastened along an edge circumferential surface of the integrated turntable.

Here, the clamp case integrally formed on the turntable is integrally injection-molded when the turntable is formed, and a fastening groove for fastening with the rotor yoke is formed on an edge circumferential surface of the integrated turntable, and the rotor yoke has an edge A fastening portion is formed to correspond to the fastening groove formed in the turntable along the circumferential surface.

According to the present invention, by integrally manufacturing the turntable and the clamp case, occurrence of assembly tolerances of the clamp case can be prevented and the runout specification of the turntable can be satisfied.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view showing the structure of a spindle motor according to the present invention.

As shown in FIG. 2, the spindle motor 100 is divided into a rotor part and a fixed stator part, which are greatly rotated. The rotor part is coupled to the shaft 127 and the shaft 127 to be rotated. An integrated turntable 114, a rotor yoke 117 fastened along the edge circumferential surface of the integrated turntable 114, and a magnet attached along the inner circumferential surface of the rotor yoke 117. 112).

The integrated turntable 114 is manufactured by integrally injecting a clamp case 114a at an upper side thereof, and a fastening groove 115 for fastening with the rotor yoke 117 is formed at an edge circumferential surface of the turntable 114. It is.

The rotor yoke 117 that is fastened to the integrated turntable 114 has a circumferential shape, and is coupled to the fastening groove 115 of the integrated turntable 114 on an edge circumferential surface of the rotor yoke 117. The fastening part 117a is formed at predetermined intervals. (Refer FIG. 3).

This is when the integrated turntable 114 rotates, the rotor yoke 117 rotates together, it serves as an anti-rotational power reinforcement function to prevent the rotational imbalance caused by the fastening.

The assembly method of the rotor yoke 117 and the integrated turntable 114 having the structure as described above is to put the rotor yoke 117 into the integral turntable 114 injection machine, and then the integral turntable 114 above the rotor yoke 117. ) To assemble.

In the present invention, since the clamp case 114a and the turntable 114 are manufactured integrally, there is no need to separately assemble the clamp case 114a as in the prior art.

Therefore, since the clamp case 114a is formed in the integrated turntable 114, the clamp assembly may be completed by assembling the clamp coupling portion 109 and the elastic means 107.

Therefore, the assembly tolerance of the clamp case 114a and the integrated turntable 114 does not occur.

In addition, a shaft 127 is assembled at the center of the integrated turntable 114, and the assembled shaft 127 penetrates through the center of the integrated turntable 114 to the integrated turntable 114 and the clamp case 114a. At the same time, they are assembled by touching.

Therefore, due to the rotation of the shaft 127, the integrated turntable 114, the clamp case 114a and the rotor yoke 117 simultaneously rotate.

Although shown in the figure, 111 which is not described is felt.

The stator part corresponding to the rotor part is composed of a core 129 and a coil 128, and a base plate (120) having a printed circuit board 122 attached thereto to operate the rotor part and the stator part. ), A bearing 130 and a bearing housing 121, a trust stopper 131, a trust plate 126, and a washer 125.

Spindle motor 100 having the above structure is applied to the coil 128 from the circuit board 122 attached to the base plate 120, the coil 128 and the rotor yoke 114 A magnetic field is generated between the magnets 112 of the rotor 112 so that the rotor yoke 117 and the integrated turntable 114 rotate.

When the rotor yoke 117 rotates, the shaft 127 coupled to the rotor yoke rotates. The shaft 127 is supported by the bearing 130 so that the rotor yoke 117 rotates about the bearing housing 121. do.

As such, using the integrated turntable 114 according to the present invention not only eliminates the assembly tolerance with the clamp case 114a, but also simplifies the assembly process.

3 is a view showing an integrated rotor yoke according to the present invention.

As shown in FIG. 3, the rotor yoke 117 fastened to the integrated turntable of the present invention is formed in a circumferential shape, and a plurality of fastening portions 117a are formed on the upper side at predetermined intervals along the circumferential surface. .

The dotted line shown in the drawing is the inner diameter of the rotor yoke 117, and the magnet is attached as shown in FIG. 2 along the inner diameter surface.

The fastening part 117a formed on the rotor yoke 117 is inserted into the coupling groove 115 of the integrated turntable so that the rotor yoke and the integrated turntable are assembled.

And the method of assembling the rotor yoke 117 and the integrated turntable is to place the rotor yoke 117, the fastening portion 117a is formed in the injection molding machine for ejecting the integral turntable, the integral turntable on the upper side of the rotor yoke 117 Inject and assemble.

Therefore, even when using the integrated turntable, since the fastening portion 117a of the rotor yoke 117 and the fastening groove of the integrated turntable are fastened, there is an advantage that the integrated turntable and the rotor yoke 117 are not alternately rotated during rotation.

As described in detail above, the present invention has an effect of preventing the occurrence of assembly tolerances of the clamp case and satisfying the run out spec of the turntable by integrally manufacturing the turntable and the clamp case.

In addition, there is an advantage that the height and runout specifications can be satisfied by precisely processing the felt surface of the tentable.

The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

Claims (6)

 A rotor unit having a shaft, an integrated turntable coupled to the shaft and rotating, and the integrated turntable; A stator portion composed of a core and a coil so as to correspond to the rotor portion; In the spindle motor comprising a base plate for supporting the stator portion, The turntable has a clamp case integrally formed, and the rotor yoke is fastened along an edge circumferential surface of the integrated turntable. The method of claim 1, The clamp case integrally formed on the turntable is injection-molded integrally when the turntable is formed. The method of claim 1, Spindle motor, characterized in that the coupling groove for fastening with the rotor yoke is formed on the peripheral peripheral surface of the integrated turntable. The method of claim 3, wherein The rotor yoke is a spindle motor, characterized in that the fastening portion is formed to correspond to the fastening groove formed in the turntable along the edge circumferential surface. The method of claim 1, The clamp case formed integrally with the turntable is a spindle motor, characterized in that the clamp coupling portion and the elastic means is assembled to secure the optical disk. The method of claim 1, And said integral turntable and rotor yoke are engaged by injecting an integrated turntable onto said rotor yoke.

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