KR20110004616A - Spindle motor - Google Patents

Abstract

PURPOSE: A spindle motor is provided to increase adhesive force between a cramp yoke and a cramp magnet by physically combining them. CONSTITUTION: A bearing supports a rotary shaft(111) to be rotatable. A turn-table(112) has a disk support part(114). A clamp yoke(117) is assembled on the top of the turn-table. The clamp magnet(118) is fixed to the top surface of the clamp yoke. A transform unit(119) change the slope in upper part of the turn table to prevent the separation of the clamp yoke from the clamp magnet. The cramp yoke and the cramp magnet are physically combined with each other.

Description

Spindle motor

The present invention relates to a spindle motor.

In general, a spindle motor is a device for rotating a disk mounted on a turntable by driving a turntable installed in a hard disk drive, an optical disk drive, and other recording media requiring high speed rotation.

Spindle motor is a disk holding system that uses clamp magnet and clamper of turntable.

In general, the turntable and clamp yoke are thermal welding, and the clamp magnet and clamp yoke are bond bonding.

Bond bonding method requires three or more steps, such as managing the amount of bond, determine the application position, and proceed the curing step.

In addition, when the clamper impacts the turntable and the disk is continuously mounted, the turntable is shocked and the coupling force and durability of the clamp magnet and the clamp yoke are degraded by the shock.

Therefore, there is an urgent need to study a spindle motor that prevents the clamper magnet from being detached from the turntable, which is weakened by the clamper, the clamp magnet and the clamp yoke are durable, and the coupling process can be simplified.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a spindle motor that prevents the clamper magnet from being separated from the turntable, durable coupling of the clamp magnet and the clamp yoke, and simplifying the coupling process.

Spindle motor according to a preferred embodiment of the present invention, a rotating shaft disposed on the same axis as a predetermined central axis, a cylindrical bearing for receiving and rotatably supporting the rotating shaft, the upper portion and the disk that the clamper is in downward contact with the disk A turntable having a disk support, a clamp magnet coupled to an upper surface of the clamp yoke and a clamp yoke of a magnetic body assembled on an upper portion of the turntable, and an inclination of an upper end of the turntable so that the clamp yoke and the clamp magnet are not separated. It characterized in that it comprises a plastic deformation portion plastically deformed by the physical (for example, heat fusion processing) method.

Here, the clamp yoke and the clamp magnet is characterized in that the coupling by a physical (for example, heat welding) method.

In addition, the radius of the plastic deformation portion is characterized in that smaller than the radius of the upper end of the clamp magnet.

In addition, the plastic deformation portion is characterized in that formed on the entire surface of the outer circumferential surface or at least one point.

On the other hand, the spindle motor of the second embodiment according to the present invention comprises a rotating shaft disposed on the same axis as a predetermined central axis, a cylindrical bearing for rotatably supporting the rotating shaft, and an upper portion and a disk in which the clamper is in downward contact. Plastic deformation in which the turntable having a disk support portion to support the plastic material is plastically deformed by a physical (for example, heat fusion processing) method so that the inclined portion of the upper portion of the turntable is not separated from the clamp yoke and the clamp yoke of the magnetic body assembled on the upper part of the turntable. Contains wealth.

In addition, the clamp yoke is characterized in that the magnetic force is formed between the clamp magnet mounted on the lower end of the clamper as the clamper is lowered.

In addition, the radius of the plastic deformation portion is smaller than the radius of the upper end of the clamp yoke.

In addition, the plastic deformation portion is characterized in that formed on the entire surface of the outer circumferential surface or at least one point.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, the terms or words used in this specification and claims should not be interpreted in a conventional and dictionary sense, and the inventors may properly define the concepts of terms in order to best explain their invention in the best way possible. On the basis of the principle that it can be interpreted as meaning and concept corresponding to the technical idea of the present invention.

According to the present invention, the spindle motor according to the present invention forms a plastic deformation portion on the inclined portion of the upper side of the turntable, thereby preventing the clamp yoke and the clamp magnet from being separated upward by the centrifugal force during rotation, and the clamp yoke and the clamp magnet By joining in a physical (eg heat-sealing) method, the coupling force can be increased and the durability of the spindle motor can be improved.

In addition, it is possible to reduce the process step by replacing the bond process that is carried out in three or more steps with plastic deformation, which is a simple machining process.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings. In the present specification, in adding reference numerals to the components of each drawing, it should be noted that the same components as possible, even if displayed on different drawings have the same number as possible. In addition, in describing the present invention, when it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

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

1 is a cross-sectional view of a spindle motor according to a first embodiment of the present invention, Figure 2 is a partially enlarged view of the spindle motor shown in FIG. Hereinafter, the spindle motor 100 according to the present embodiment will be described with reference to this.

1 and 2, the spindle motor 100 according to the present embodiment is composed of a chucking device 110 and the rotating part 120.

First, the chucking device 110 includes a turntable having a rotating shaft 111 disposed on the same axis as a predetermined central axis, an upper portion of which the clamper 300 is in downward contact with the disk support portion 114 for supporting a disk (not shown). 112, the clamp yoke 117 of the magnetic material assembled on the top of the turntable 112, the clamp magnet 118, the clamp yoke 117 and the clamp magnet 118 fixed to the upper surface of the clamp yoke 117 is The inclined portion of the upper end of the turntable 113 is plastically deformed portion 119 plastically deformed by a physical (for example, heat fusion processing) method so as not to be separated.

The rotary shaft 111 supports the spindle motor 100 in the axial direction in a substantially cylindrical shape disposed on the same axis as the central axis. The rotating shaft 111 is inserted into an inner diameter portion (not shown) of the bearing 150 and is rotatably supported by the bearing 150.

The turntable 112 is an injection molded resin material disposed on the rotor case 121a and fixed to the rotation shaft 111. The turntable 112 is composed of a disk support portion 114 in contact with the upper portion where the clamper 300 is in downward contact with the center opening of a disk-shaped disk (not shown).

The clamper 300 moves up and down at the top of the turntable 112 and forms a magnetic force on the spindle motor.

An elastic member 115 is mounted on the disk support part 114 to contact the disk support part 114.

The elastic member 115 has a first inverted portion (not shown) that is substantially inverted U-shaped and extends downward in the axial direction, a second deformed portion (not shown) connected to the disc support portion 114, and a first deformation. It consists of a 3rd deformation | transformation part (not shown) which connects a part and a 2nd deformation | transformation part (not shown).

A clamp yoke 117 formed of a magnetic body and a clamp magnet 118 are coupled to and fixed to an upper surface of the clamp yoke 117 on the turntable 112.

The clamp magnet 118 is fixed to the upper surface of the clamp yoke 117 by physical (for example, heat fusion processing) method, the bonding strength is improved compared to the conventional assembly method by the bond, the durability is increased, in three or more steps The process is simpler than the advanced bonding process.

The clamp yoke 117 and the clamp magnet 118 is a magnetic force is formed as the clamper 300 is lowered.

The upper end of the outer end of the turntable 112 is provided with a turntable rubber 113, the lower outer peripheral surface of the turntable 112 has a hole space is formed therein balancing ball 116 for adjusting the rotational balance of the spindle motor 100 ) Is provided.

The lower portion of the balancing ball 116 is provided with a ball support elastic member 116a for elastically supporting the balancing ball 116, the lower portion of the ball support elastic member 116a is provided with a ball cover 116b Prevent departure of 116.

As shown in FIGS. 2 and 3, the upper part of the turntable 112 is plastically deformed by physical (for example, heat fusion processing) to prevent separation of the clamp yoke 117 and the clamp magnet 118. Plastic deformation portion 119 is formed.

The plastic deformation part 119 prevents the clamp magnet 118 from escaping to the outside by the centrifugal force during the rotation of the spindle motor 100.

The plastic deformation part 119 is formed by plastically deforming the entire surface of the circumferential surface or plastically deforming at one or more equal intervals.

The radius R1 of the upper end of the plastic deformation part 119 is processed smaller than the radius R2 of the upper end of the clamp magnet 118 to more effectively prevent the separation of the clamp magnet 118.

As described above, the plastic deformation part 119 is formed on the upper side of the turntable 112 by a physical method (for example, heat fusion processing) that is simpler than the bonding process, and thus the clamp magnet 118 is not detached and is durable. It is easy to provide a spindle motor.

On the other hand, the rotating part 120 is mounted to the lower portion of the cylindrical bearing 150, the chucking device 110 for receiving and rotatably supporting the rotating shaft 111, the central portion is inserted into the rotating shaft 111, and the rotating shaft 111 and Rotor case 121a, which is integrally rotated and has a rotor magnet 121b attached thereto, is installed on the outer circumferential surface of the bearing holder 151 so as to face the rotor magnet 121b, and when the external power is applied, The stator 122 for rotating the rotor case 121a by the interaction, the bearing holder 151 fixedly coupled to the outer circumferential surface of the bearing 150, and the circuit board 130 disposed on the upper side of the spindle motor 100. ) Is composed of a base plate 140 supporting the entirety.

Bearing 150 is for rotatably supporting the rotating shaft 111, the bearing surface facing the inner diameter portion (not shown) and the thrust plate (not shown) having a hollow cylindrical shape as a whole and facing the rotating shaft 111 A hydrodynamic bearing is formed in (not shown).

The bearing holder 151 is mounted on the outer circumferential surface of the bearing 150 to support the bearing 150. On the outer circumferential surface of the bearing holder 151, a stator 122 composed of a core 122a and a coil 122b is mounted.

The stator 122 is for forming an electric field by receiving an external power source to rotate the rotor case 121a on which the optical disc is mounted. The stator 122 is formed on the core 122a in which a plurality of thin metal plates are stacked and on the core 122a. It consists of a coil 122b wound several times.

The core 122a is fixedly installed on the outer circumferential surface of the bearing holder 151, and the coil 122b is wound around the core 122a. Here, the coil 122b rotates the rotor case 121a by an electromagnetic force formed between the rotor magnet 121b of the rotor case 121a by forming an electric field with a current applied from the outside.

The rotor case 121a is for mounting and rotating an optical disk, not shown, such as a hard disk. The rotor case 121a has an annular shape extending from an end of a disc portion (not shown) and a disc portion (not shown) on which the rotating shaft 111 is fixed. Has a border (not shown).

The disc portion (not shown) is inserted and coupled to the rotation shaft 111 is fixed to the central portion, the edge portion (not shown) extends in the axial direction of the rotation shaft 111 so that the inner peripheral surface thereof faces the stator 122, the coil A rotor magnet 121b for forming a magnetic field to generate an electromagnetic force between the electric field formed at 122b is fixedly installed on an inner circumferential surface of an edge portion (not shown).

The base plate 140 is for supporting the spindle motor 100 to be fixed as a whole. The base plate 140 is fixedly installed to a device such as a hard disk drive in which the spindle motor 100 is installed. Here, the base plate 140 is made of a lightweight material such as an aluminum plate or an aluminum alloy plate, but may be made of a steel plate.

In addition, the base plate 140 has a coupling portion (not shown) to which the bearing holder 151 is coupled protrudes, and the coupling portion (not shown) has an outer diameter of the bearing 150 so that the bearing 150 is inserted into a central portion thereof. Coupling holes (not shown) having the same diameter are formed. That is, the bearing 150 is inserted into this coupling hole (not shown) and fixedly coupled. In this case, an adhesive bonding process using a separate adhesive may be performed to fix the bearing 150 to the coupling part (not shown). Alternatively, a predetermined pressure may be applied to the bearing 150 to couple the coupling hole (not shown). It can be fixedly bonded by pressing in.

The upper portion of the base plate 140 is provided with a circuit board 130 is mounted to the passive element and integrated device to form an electric circuit.

The stopper 152 is formed at the lower end of the bearing 150, the stopper 152 is to prevent the separation of the bearing 150, the laser welding, press-fitting, It is fixedly coupled by hot pressing and hot pressing sliding coupling. Here, the stopper 152 has a disk shape having a ring shape as a whole, and a support part 153 for supporting the stopper 152 at the lower end of the stopper 152 is provided.

4 is a cross-sectional view of the spindle motor 200 according to the second embodiment of the present invention. In the present exemplary embodiment, the second clamp magnet 216 is provided below the second clamper 310, so that the second clamp yoke 217 is formed on the second turntable 212 when the second clamper 310 is lowered. The configuration is the same as that of the first embodiment except that a magnetic force is formed therebetween.

Therefore, a redundant description will be omitted, and the spindle motor 200 according to the second embodiment will be described with reference to this.

As shown in FIG. 4, the spindle motor 200 according to the present embodiment includes a second clamp yoke 217 at the top of the turntable 212, and a second plastic deformation part at an upper end of the turntable 212. 219 is formed to prevent separation of the second clamp yoke 217.

The radius of the plastic deformation part 219 is smaller than the radius of the upper end of the second clamp yoke 217.

The second clamp magnet 216 may be provided at a lower position of the second clamper 310 corresponding to the second clamp yoke 217, which is a first in which the clamp yoke 117 and the clamp magnet 118 are coupled to each other. Different from the examples.

As the second clamper 310 descends, the second clamp magnet 216 provided below the second clamper 310 forms a magnetic force with the second clamp yoke 217.

Since the second clamp magnet 216 is provided below the second clamper 310, the spindle motor 100 does not need to include the second clamp magnet 216, thereby reducing components and thus reducing manufacturing costs.

As described above, the spindle motors 100 and 200 according to the present invention form plastic deformation parts 119 and 219 at the upper ends of the turntables 112 and 212, thereby preventing the clamp magnets 118 and 218 from moving upward by the centrifugal force during rotation. By combining the yoke 117 and the clamp magnet 118 in a physical (for example, heat-sealing) method it is possible to increase the coupling force and improve the durability of the spindle motor.

In addition, it is possible to reduce the process step by replacing the bond process that is carried out in three or more steps with plastic deformation, which is a simple machining process.

The plastic deformation parts 119 and 219 are formed at the front surface of the circumferential surface or at one or more equal intervals, so that the turntables 112 and 212 can be stably rotated without deformation.

Although the present invention has been described in detail through specific embodiments, this is for explaining the present invention in detail, and the spindle motor according to the present invention is not limited thereto, and the general knowledge of the art within the technical spirit of the present invention is provided. It is obvious that modifications and improvements are possible by those who have them.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be apparent from the appended claims.

1 is a cross-sectional view of a first embodiment of a spindle motor according to the present invention;

2 is a partially enlarged view of a spindle motor according to the present invention;

3 is a top view of the spindle motor according to the present invention;

4 is a cross-sectional view of a second embodiment of a spindle motor according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: spindle motor 110: chucking device

111: rotation axis 112: turntable

114 disc support 115 elastic member

116: basing ball 117: clamp yoke

118: clamp magnet 119: plastic deformation

120: rotating part 121a: rotor case

120b: rotor magnet 130: circuit board

140: base plate

Claims (8)

A rotating shaft disposed on the same axis as a predetermined central axis; A cylindrical bearing for rotatably supporting the rotating shaft; A turntable having an upper portion of which the clamper is in downward contact with the disk and a disk support for supporting the disk; A clamp magnet coupled to an upper surface of the clamp yoke and a clamp yoke of a magnetic body assembled on an upper portion of the turntable; And And a plastic deformation part which plastically deforms the inclined part of the upper end of the turntable in a physical manner so that the clamp yoke and the clamp magnet are not separated from each other. The method according to claim 1, And the clamp yoke and the clamp magnet are coupled in a physical manner. The method according to claim 1, The radius of the plastic deformation portion is smaller than the radius of the upper end of the clamp magnet spindle motor. The method according to claim 1, The plastic deformation part is a spindle motor, characterized in that formed on the front surface of the outer circumferential surface or at least one point. A rotating shaft disposed on the same axis as a predetermined central axis; A cylindrical bearing for rotatably supporting the rotating shaft; A turntable having a disk support portion for supporting the disk and an upper portion of which the clamper is in downward contact; A clamp yoke of a magnetic body assembled on the turntable; And And a plastic deformation portion which plastically deforms the inclined portion of the upper portion of the turntable by a physical method so that the clamp yoke is not separated from the spindle yoke. The method according to claim 5, The clamp yoke is a spindle motor, characterized in that the magnetic force is formed between the clamp magnet mounted on the lower end of the clamper as the clamper is lowered. The method according to claim 5, The radius of the plastic deformation portion is smaller than the radius of the upper end of the clamp yoke spindle motor. The method according to claim 5, The plastic deformation part is a spindle motor, characterized in that formed on the front surface of the outer circumferential surface or at least one point.

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