KR100716821B1 - Spindle motor for optical disk drive - Google Patents

Abstract

The present invention reduces the weight of the spindle motor for the optical disk driver by forming the shaft holder and the base plate integrally among the components of the spindle motor, and at the same time to form a relatively low specific gravity material for portable communication devices This is to reduce the overall weight of the.

Base plate, shaft holder, weight loss, rotor case, flatness

Description

Spindle motor for optical disk drive {SPINDLE MOTOR FOR OPTICAL DISK DRIVE}

1 is a cross-sectional view of a conventional spindle motor,

Figure 2 shows a cross-sectional view of the spindle motor according to the present invention,

Figure 3 shows a weight loss process of the base plate integral part of the spindle motor according to the present invention,

Fig. 4 shows a perspective view of the base plate integral part after losing weight of the base plate integral part according to Fig. 3;

* Description of the major symbols in the drawings *

10: spindle motor 20: core

21: shaft holder 22: bearing

23: thrust bearing 30: rotor case

31: magnet 32: disk chuck

33: turntable 50: base plate integral part

60: axis of rotation 70: groove or hole

The present invention relates to a spindle motor for an optical disc drive, and more particularly, to form a shaft holder and a base plate integrally, and to form a relatively low specific gravity material to bring about a light weight of the spindle motor for an optical disc drive. One technical feature is one.

In general, an optical disc player such as an LDP, CDP, CD-ROM, DVD, DVD-ROM, etc. clamps and inserts a mounting hole formed in the center of the disc as a clamping unit by chucking while loading the disc on the turntable by a loading mechanism. And an optical pickup unit which fixes and rotates the disk clamped to the chuck in one direction by a drive source of the spindle motor serving as the driving means, and reproduces the information recorded on the disk.

In recent years, as the size and weight of mobile mobile communication devices such as portable notebooks have been gradually accelerated, the size and weight of the mobile mobile communication devices have been reduced by reducing the weight thereof. In order to reduce the weight of the optical disc player during the construction of the mobile mobile communication device, the weight reduction of the entire mobile mobile communication device can be realized. Consideration was given to the plan. In particular, the present invention has a technical purpose of reducing the weight of the spindle motor, among the components of the optical disk player.

1 shows a cross-sectional view of a spindle motor employed in a general optical disc player. As shown, the spindle motor 10 includes a base plate BP including a circuit board forming a base and a coil wound thereon. A stator portion including a core 20, a shaft holder 21 on which the core 20 is fixed, and a bearing 22 installed on an inner circumferential surface of the shaft holder 21;

It can be seen that the rotor S includes a shaft S, a rotor case 30 fixed to the shaft S, and a magnet 31 provided on the rotor case 30.

The configuration of the spindle motor 10 having the configuration as described above will be described in detail with reference to the drawings. First, looking at each connection relationship of the components constituting the stator portion in detail, the base plate (BP) is composed of a silicon steel plate to maintain a constant strength and flatness to form the base of the spindle motor 10 The core 20, in which the coil is wound to generate electromagnetic force, is fixed by the shaft holder 21, and the shaft holder 21 serves to connect the base plate BP and the core 20 to each other. It can be seen that. In addition, a cylindrical metal bearing 22 is provided on the inner circumferential surface of the shaft holder 21.

And, looking at each of the components constituting the rotor in detail, the shaft (S) is installed vertically in the center of the stator portion is rotatably installed on the inner circumferential surface of the metal bearing 22, the shaft (S) Thrust bearing 23 of the washer type to prevent friction with the base plate (BP) is installed on the lower surface of the. Next, the rotor case 30 is formed in a cap shape and is fixed to the upper end of the shaft S to form a gap with the stator part, and the magnet 31 is provided inside the lower end of the rotor case 30. The rotor case 30 is rotated by interacting with the electromagnetic force generated in the core 20 of the stator part.

At this time, the upper surface of the rotor case 30 is provided with a turntable 33 having a disk chuck 32 that can be fixed by seating the disk (D) where the data is stored, the spindle motor 10 is When the disk D is seated on the turntable 33, the rotor case 30 rotates about the shaft S by the interaction between the magnet 31 and the core 20, so that the disk D rotates at high speed. Allow it to rotate.

Conventional optical disk driver spindle motor 10 configured as described above generally has a weight of about 26g, the weight configuration of the optical disk driver spindle motor having such a weight with reference to the following table Looking at it,

Part Name weight Remarks Rotor case 23% Shaft holder 13% Core-winding 17% Base plate 27% Magnet 5.7% Other parts 14.3% Motor total 100%

As shown in Table 1, the conventional spindle motor for the optical disk driver can be seen that the base plate occupies the most weight, and then the weight of the rotor case, core-winding, shaft holder in order It can be seen that.

Therefore, conventionally, a base plate (BP) manufactured using a silicon steel sheet having a specific gravity of 7.87 gr / cc and a thickness of about 0.8 to 1.0 mm as the most common method of reducing the weight of the spindle motor for an optical disk driver. In order to reduce the weight of the base plate BP, a method of reducing the weight to some extent was first considered, but by reducing the thickness of the base plate, the base plate was reduced to about 0.6 mm. (BP) has a problem of lowering the flatness performance with a decrease in mechanical strength due to the decrease in the thickness thereof, it can be seen that practically this method is not practically desirable, and also by the above-described method Even if the weight is reduced, the reduced weight is not so large that it has no substantial effect. Able to know.

In particular, in order to reduce the weight of the spindle motor, it is necessary to structurally consider all the problems of the motor stiffness, vibration, and anti-shock performance. At the same time, there is a need to devise a new way to reduce the weight of the optical disc player by reducing the weight of the spindle motor as described above.

The present invention has been made to solve such a problem, and an object of the present invention is to weigh the spindle motor for an optical disk driver and to form the shaft holder and the base plate integrally among the components of the spindle motor, and at the same time, relatively The purpose is to reduce the overall weight of the mobile communication device by forming a low specific gravity material.

Another object of the present invention is to provide a method capable of reducing the overall weight while maintaining its mechanical characteristics by causing the weight of the base plate, etc., which occupies the largest weight among the components of the spindle motor for the optical disk driver. There is another purpose.

Spindle motor of the present invention for achieving the above object includes a base plate is provided with a circuit board, a core around which the coil is wound, the shaft holder is fixed to the core and the bearing is installed on the inner peripheral surface of the shaft holder A stator portion configured; And a rotor part comprising a shaft, a rotor case fixed to the shaft, and a magnet provided on the rotor case.

Among the components of the stator part, the base plate and the shaft holder are integrally formed, and the material is configured to reduce the total weight of the spindle motor by using a material having a specific gravity lower than that of the silicon steel sheet. ,

In particular, the base plate integral portion formed integrally with the base plate and the shaft holder is characterized in that the material formed of aluminum alloy or zinc alloy.

In addition, the base plate of the spindle motor to further reduce the total weight of the spindle motor through a weight loss operation to remove unnecessary parts,

In order to secure the impact resistance of the spindle motor, the weight loss operation is performed in a direction to match the center of rotation of the base plate and the center of gravity of the three points of the base plate coupled to the deck of the optical disk drive, do.

In addition, a cover structure such as a transparent vinyl sheet or a paper tape may be further provided on the surface or the rear surface of the base plate provided through the fat loss operation to prevent the inflow of foreign substances from the outside.

In addition, the fat process of the base plate of the spindle motor,

The base in the direction in which the center of gravity coincides with the rotation axis center of the base plate using three strings connecting the three points to the total center of gravity measured at three points of the base plate fastened to the deck of the optical disc driver. Performing weight loss of the plate is also a technical feature.

The above object of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings, by those skilled in the art.

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

Figure 2 is a view showing a cross-sectional view of the spindle motor according to the present invention, Figures 3a, 3b is a view showing a weight loss process of the base plate of the spindle motor according to the present invention, Figures 4a, 4b is the present invention Is a plan view showing the base plate integral part of the spindle motor after the fat loss process. Hereinafter, parts that perform the same functions and roles as those of the spindle motor described in the prior art of the present invention will be denoted by the same reference numerals.

2 is a cross-sectional view of the spindle motor 10 'according to the present invention. Referring to the drawings, the spindle motor 10' according to the present invention will be described with reference to the drawings. The spindle motor 10 'according to the present invention. The base plate includes a base plate having a circuit board forming a base, a core 20 around which a coil is wound, a shaft holder to which the core 20 is fixed, and a bearing 22 installed on an inner circumferential surface of the shaft holder. And a rotor part including a stator part, a shaft S, a rotor case 30 fixed to the shaft S, and a magnet 31 provided on an inner side of the rotor case 30. Consisting of

The present invention is to form the base plate and the shaft holder of the components integrally (hereinafter referred to as 'base plate integral portion 50'), the material is to use a material having a lower specific gravity than the silicon steel sheet Reduce the weight of the entire spindle motor.

As described above, in the spindle motor for the conventional optical disk driver, it can be seen that the base plate occupies the largest proportion in the weight thereof, and the shaft holder also accounts for the considerable proportion in the table 1. In the present invention, the base plate and the shaft holder are integrally formed to form the base plate integral portion 50, and at the same time, the shaft holder and the silicon, which are conventionally constructed using a relatively large brass material, are formed. It is possible to reduce the weight of the entire spindle motor to a considerable extent by forming a base plate composed of steel sheets using a material having a relatively low specific gravity rather than the above material.

In particular, in the present invention, by using an aluminum alloy having a specific gravity of about 2.7 gr / cc or a zinc alloy having a specific gravity of about 4.37 gr / cc as the material of the base plate integral portion 50, the base plate integral portion ( 50) to produce a significant weight reduction.

For example, the conventional spindle motor had a weight of about 26 gr, but when the base plate integral part was formed using the aluminum alloy, the weight of about 16 gr was maintained. In the case of forming the base plate integral portion by using it can be seen that maintaining the weight of about 19gr, it can be seen that brings about a significant weight reduction effect compared to the conventional spindle motor.

In addition, in the exemplary embodiment of the present invention, only the aluminum alloy or the zinc alloy is disclosed as the material of the base plate integral part, but the material of the base plate integral part of the present invention is not limited to the above two materials. If the material having a mechanical characteristic of the degree that can be used in the motor as a material lower than the specific gravity of the silicon steel sheet used in the present invention, the application of the base plate integral part of the present invention is not a problem.

In addition, the base plate integral part constituting the base plate and the shaft holder integrally can be manufactured integrally by die casting or metal-in mold injection.

The spindle motor for an optical disk driver according to the present invention configured as described above allows the base plate and the shaft holder to be integrally manufactured, and at the same time manufactured using a material having a relatively low specific gravity, thereby increasing the weight of the spindle motor. In order to reduce the weight of the conventional spindle motor, at the same time, it is possible to eliminate the problem of deterioration of mechanical strength and flatness performance which occurred when the thickness of the base plate itself is reduced. There will be technical advantages of the present invention.

In addition, in addition to the reduction of the weight due to the change of the material as described above, in the present invention it is to bring additional weight reduction through weight loss of the unnecessary portion of the base plate integral part (50).

As described above, the weight loss process of the base plate integral part 30 and the product formed by the process are shown in FIG. 3 and FIG. 4, respectively, and the method will be described in detail with reference to the drawings. Figure 4a shows an embodiment of the base plate integral portion 50 'formed by the weight loss operation of the present invention, the base plate integral portion 50' shown in the figure is a deck of the spindle motor and the base plate The part to which the integral part 50 'is coupled is shown by three points 51a, 51b, and 51c. In order to perform the fat loss method according to the present invention, the three points are connected to each other using a predetermined line. In such a manner, the center of gravity of the base plate integral portion 50 'is aligned with the center 60 of the rotation axis of the base plate integral portion 50' using the string. Do a subtraction.

This specific method is shown in FIG. When the center of gravity of the base plate integral portion 50 on the rotation axis by using a predetermined line as shown in Figure 3a, the base plate integral portion 50 is not equilibrated and inclined to any part. As shown in the drawing, the slanted portion may be formed in a groove or a hole in the base plate integral portion 50 by using a predetermined tool, or the portion may be removed to a predetermined shape by using a cutting method. As a result, as shown in FIG. 3B, the base plate integral portion 50 is made to lose weight in a direction to match the center of gravity of the base plate integral portion 50 to the center of the rotation axis. As described above, performing the weight loss operation of the base plate integral part 50 in a direction in which the center of gravity of the base plate integral part 50 coincides with the center of the rotation axis is to enhance the impact resistance of the base plate integral part 50. will be.

One embodiment of the base plate integral portion formed through the weighting operation as described above is shown in FIGS. 4A and 4B. The base plate integral parts 50 'and 50 "formed in this way can improve the impact resistance of the spindle motor due to external shock and vibration to the spindle motor as its center of gravity becomes the center of the rotation shaft 60. In addition, it is possible to remarkably reduce the weight of the base plate integral parts 50 'and 50 "through the additional weighting operation.

As described above, the method of losing weight of the base plate integral part of the spindle motor as described above is applied to the base plate integral part of the spindle motor in one embodiment by way of example. However, the method as described above is limited thereto. In addition, the above-described method may be applied in any case as long as the weight reduction is achieved and the purpose of moving the center of gravity to the desired portion for improving the impact resistance is achieved.

In addition, in the case of the base plate integral parts 50 'and 50 "shown in Figs. 4A and 4B formed through the above-mentioned fat loss operation, the outside is formed through the grooves or holes 70 and 70' caused by the fat loss operation. Foreign matter may flow into the core of the spindle motor. In the present invention, in order to prevent such a problem, the groove or the hole 70 and 70 'is used by using a cover means such as a transparent vinyl sheet or paper tape. By preventing the foreign matter from being introduced into the inside of the spindle motor by preventing the.

As described above, the present invention allows the base plate and the shaft holder of the spindle motor to be integrally formed, and at the same time, the material is changed to bring about a considerable weight reduction compared to the conventional spindle motor. Its technical features make it possible to add weight loss and improve mechanical properties through weight loss.

Spindle motor according to the present invention has the advantage that it is possible to bring the base plate and the shaft holder integrally and at the same time to reduce the overall weight by using a relatively low specific gravity material.

In addition, it is possible to obtain a more lightweight spindle motor through the additional weight loss operation of the base plate integral part, there is an advantage to improve the impact resistance of the portion through the weight loss operation. In addition to this, it is possible to shorten the conventional work process by integrally molding the base plate and the shaft holder.

The foregoing description relates to specific embodiments and can be easily understood by those of ordinary skill in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Could be.

Claims (6)

A stator portion including a base plate on which a circuit board is provided, a core around which a coil is wound, a shaft holder to which the core is fixed, and a bearing installed on an inner circumferential surface of the shaft holder; And In the spindle motor is formed, comprising: a shaft, a rotor portion fixed to the shaft and a rotor portion comprising a magnet provided in the rotor case, Among the components of the stator part, the base plate and the shaft holder are integrally formed, and the material is made of a material having a specific gravity lower than that of the silicon steel sheet, thereby reducing the total weight of the spindle motor. Spindle motor. The method of claim 1, And a base plate integral part integrally formed with the base plate and the shaft holder, using an aluminum alloy or a zinc alloy as its material. The method of claim 1, The base plate is a spindle motor for an optical disk driver, characterized in that to further reduce the total weight of the spindle motor through a weight loss process to remove unnecessary parts. The method of claim 3, The weight loss process of the base plate of the spindle motor is to secure the impact resistance of the spindle motor, Spindle motor for an optical disk driver, characterized in that the direction of the center of the rotation axis of the base plate and the center of gravity of the three points of the base plate to be coupled to the deck of the optical disk drive. The method according to claim 3 or 4, The optical disk, characterized in that to further provide a cover structure, such as a transparent vinyl sheet or a paper tape to prevent the inflow of foreign matter from the outside on the surface or the back surface of the base plate provided through the weight process of the base plate Spindle motor for driver. delete

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