KR20040107147A - Spindle motor - Google Patents

Abstract

PURPOSE: A spindle motor is provided to couple a rotor yoke with a turn table by using another coupling unit, and to simultaneously press the coupled rotor yoke and the turn table at a shaft, thereby preventing a pressed part of the turn table from being transformed during an assembling while preventing the turn table from being isolated from the shaft. CONSTITUTION: A stator is formed by mounting a core assembly(123) consisting of plural cores and coil winding portions(123a) on an outer wall of a bearing housing(120). A shaft(140) is inserted into a metal bearing(121) mounted on the bearing housing(120). A rotor yoke(131) and a turn table(150) are fixed to the shaft(140) extended outside the bearing housing(120). The rotor yoke(131) is formed with plural insertion holes(131a), and is attached by a magnet(133) opposite to the core assembly(123), to form a rotor. The turn table(150) is fixed to the shaft(140) extended upward the rotor yoke(131), and rotates with the rotor.

Description

Spindle Motors {SPINDLE MOTOR}

The present invention relates to a spindle motor, and more particularly, to a spindle motor in which the rotor yoke and the turntable are first coupled using separate coupling means and then axially coupled to the shaft, thereby preventing the turntable from deviating and shaking.

In general, the spindle motor functions to rotate the optical disk so that the optical pickup can read the data recorded on the optical disk while performing a linear motion.

1 is a cross-sectional view showing a conventional spindle motor structure, and as shown in the drawing, a conventional spindle motor has a metal bearing 21 in the center of a base plate 10 for fixing to a main body of various apparatuses in which a spindle motor is used. An embedded bearing housing 20 is installed.

In addition, a core assembly 23 including a plurality of cores and coil windings 23a is mounted on an outer wall of the bearing housing 20 to form a stator.

At this time, when a constant current flows through the coil winding part 23a, magnetic flux is generated accordingly. In order to apply a control current to the coil winding part 23a, the printed circuit board 11 is formed on the upper surface of the base plate 10. Is installed.

In addition, the shaft 40 is pivotally supported by the metal bearing 21 mounted inside the bearing housing 20 so as to be rotatable, and a rotor yoke is provided on the shaft 40 extending out of the bearing housing 20. 31 is fixed and rotated together. At this time, the rotor yoke 31 is assembled by pressing the shaft 40 as a non-magnetic metal material.

In addition, the rotor yoke 31 is formed in a cylindrical shape surrounding the upper and side surfaces of the bearing housing 20 and the core assembly 23, and attaches the magnet 33 to the inner side facing the core assembly 23. The rotor 30 is formed.

The magnet 33 is attached by repeating magnetization of the N pole and the S pole, thereby forming a facing electrode corresponding to the variable electrode generated in the core assembly 23.

Then, the turntable 50 is axially fixed on the shaft 40 extending above the rotor yoke 31 and rotated together with the rotor 30. At this time, the turntable 50 is assembled by pressing the shaft 40 as a synthetic resin material.

The turntable 50 has a buffer member 51 is attached to the upper surface to alleviate the shock when the optical disk is mounted, and to prevent slipping when rotating.

Referring to the operation of the conventional optical disk drive spindle motor having the configuration described above is as follows.

First, when a constant current is first applied to the spindle motor, this current is controlled by the printed circuit board 11 and supplied to the coil winding 23a of the core assembly 23.

The coil winding part 23a forms a magnetic field as a current flows, and generates magnetic flux in the core assembly 23.

Then, a reaction force is generated between the magnet 33 having the N pole and the S pole repeatedly magnetized on the inner surface of the rotor yoke 31 so as to face the core assembly 23 so that the rotor 30 rotates.

That is, the rotor 30 is rotated by the electromagnetic force caused by the linkage of the magnetic flux between the coil winding 23a and the magnet 33.

As the rotor 30 rotates, the shaft 40 coupled thereto rotates, and the turntable 50 fixed on the same shaft 40 rotates.

On the buffer member 51 attached to the upper surface of the turntable 50, the optical disk on which various data is recorded is rotated in a seated state.

In the conventional spindle motor as described above, the rotor yoke 31 and the turntable 50 are assembled on the shaft 40 by pressing, which requires a strong pressing force.

However, in the case of the turntable 50, unlike the rotor yoke 31, the material is made of synthetic resin, and when such a strong pressing force is applied as above, the inside diameter of the pressing portion is deformed in the pressing process, and the coupling state is loosened. Is generated.

In other words, it means that the turntable 50 is separated from the shaft 40 or shakes to cause a defect of the product.

In order to prevent this, in the past, a method of managing the inner table and the outer diameter assembly tolerances of the turntable 50 and the shaft 40 at the press-fitting part to be excessively tight fit or fixing using an adhesive has been used.

However, the interference fit fixing method through the internal and external diameter tolerance management of the indentation part is difficult to manage the tolerance because the change of the size before and after the molding, since the turntable 150 is manufactured by injection molding.

In addition, when the adhesive is used, the adhesive coating process must be added, and the work is delayed while the applied adhesive is cured, and the whitening phenomenon occurs as the adhesive is cured.

The present invention has been proposed to solve the above problems, and an object of the present invention is to combine the turntable and the rotor yoke through a separate coupling means at the same time to prevent the turntable from deviating or shaking on the shaft To make it axially coupled.

Another object of the present invention is to form a plurality of fusion projections on the bottom of the turntable, and to form a plurality of coupling holes corresponding to the upper surface of the rotor yoke to combine the fusion projections in the coupling hole, and then performing ultrasonic or thermal fusion The turntable and the rotor yoke are integrally coupled to the shaft to be coupled to the shaft.

1 is a cross-sectional view showing a conventional spindle motor structure.

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

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

110: base plate 111: printed circuit board

120: bearing housing 121: metal bearing

123: core assembly 123a: coil winding

131: rotor yoke 131a: insertion hole

133: magnet 140: shaft

150: turntable 151: buffer member

153: fusion protrusion

Spindle motor according to the present invention for achieving the above object forms a bearing housing in the center of the base plate, install a core assembly consisting of a plurality of cores and coil windings on the outer wall of the bearing housing, the coil winding on the base plate A stator configured to form a printed circuit board for applying a control current to the unit; A shaft which is shaft-fitted with the metal bearing mounted to the bearing housing and supported in a rotatable state; A rotor yoke fixed to the shaft and formed in a cylindrical shape surrounding the upper and side surfaces of the bearing housing and the core assembly, the rotor yoke having a plurality of insertion holes formed around the upper surface, and the inner surface of the rotor yoke to face the core assembly. A rotor made of a magnet attached and having the N pole and the S pole repeatedly magnetized; A turntable axially fixed to the shaft extending above the rotor, the upper surface of which is provided with a cushioning member to mitigate an impact when the optical disk is mounted and to prevent slipping, and a plurality of fusion protrusions formed around the bottom surface thereof; Characterized in that consisting of a configuration including a.

Here, after coupling the rotor yoke and the turntable, it is characterized in that to be pressed simultaneously on the shaft.

In addition, the fusion projection formed on the bottom of the turntable is characterized in that the ultrasonic fusion or thermal fusion is inserted into the insertion hole of the upper surface of the rotor yoke.

A hook is formed on the bottom surface of the turntable, and the hook is coupled to the insertion hole of the rotor yoke by the hook.

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

Figure 2 is a cross-sectional view showing the structure of the spindle motor according to the present invention, as shown in the figure, the spindle motor according to the present invention in the center of the base plate 110 for fixing to the main body of the various apparatus in which the spindle motor is used A bearing housing 120 having a metal bearing 121 therein is installed.

In addition, a core assembly 123 including a plurality of cores and coil windings 123a is mounted on an outer wall of the bearing housing 120 to form a stator.

At this time, when a constant current flows through the coil winding 123a, magnetic flux is generated accordingly. In order to apply a control current to the coil winding 123a, the printed circuit board 111 is formed on the upper surface of the base plate 110. Is installed.

In addition, the shaft 140 is axially fitted to the metal bearing 121 mounted inside the bearing housing 120 to be rotatably supported, and the rotor yoke is provided to the shaft 140 extending out of the bearing housing 120. 131 and turntable 150 are axially fixed and rotated together.

Here, the rotor yoke 131 is made of a cylindrical shape surrounding the upper and side surfaces of the bearing housing 120 and the core assembly 123, a plurality of insertion holes (131a) is formed around the upper surface, the core assembly 123 The rotor 130 is formed by attaching the magnet 133 to the inner vertical surface opposite to the?

The magnet 33 is attached to the N pole and the S pole repeatedly magnetized, thereby forming a facing electrode corresponding to the variable electrode generated in the core assembly 123.

In addition, the turntable 150 is axially fixed on the shaft 140 extending above the rotor yoke 131 to rotate together with the rotor 130.

Here, the turntable 150 has a buffer member 151 to mitigate the shock when mounting the optical disk on the top surface, and prevent slipping when rotating, and a plurality of fusion projections 153 is formed around the bottom surface of the turntable 150 do.

At this time, the rotor yoke 131 and the turntable 150 are matched with each other using the insertion hole 131a and the fusion protrusion 153 respectively formed before being axially coupled on the shaft 140, and the fusion protrusion 153 It is fixed by ultrasonic fusion or thermal fusion.

First, the rotor yoke 131 and the turntable 150 coupled as described above are axially coupled on the shaft 140 by pressing.

As the coupling means for coupling the rotor yoke 131 and the turntable 150 of the spindle motor according to the present invention as described above, although the insertion hole 131a and the fusion protrusion 153 are used, the screw fastening method and the adhesive It is also possible to combine using.

In addition, the fusion protrusion 153 may be formed as a hook to be attached to or detached from the insertion hole 131a.

Referring to the operation of the disk drive motor according to the present invention having the configuration as described above is as follows.

First, when a constant current is applied to the spindle motor, this current is controlled by the printed circuit board 111 and is supplied to the coil winding 123a of the core assembly 123.

The coil winding 123a has a magnetic field formed by current, and generates magnetic flux in the core assembly 123.

Then, a reaction force is generated between the magnet 133 in which the N pole and the S pole are repeatedly magnetized on the inner surface of the rotor yoke 131 so as to face the core assembly 123 so that the rotor 130 rotates.

That is, the rotor 130 is rotated by the electromagnetic force caused by the linkage of the magnetic flux between the coil winding 123a and the magnet 133.

As the rotor 130 rotates, the shaft 140 coupled thereto rotates, and the turntable 150 fixed on the same shaft 140 rotates.

On the buffer member 151 attached to the upper surface of the turntable 150, the optical disk on which various data is recorded is rotated in a seated state.

In the present invention as described above, the rotor yoke 131 and the turntable 150 are combined by using a separate coupling means, and then press-fitted on the shaft 140 at the same time, thereby preventing deformation of the indentation part of the turntable 150 during assembly. The turntable 150 may be prevented from being separated or shaken.

According to the present invention, the rotor yoke and the turntable are combined using separate coupling means, and then press-fitted on the shaft at the same time, thereby preventing deformation of the indentation portion of the turntable during assembly. It has an effect of preventing shaking.

Claims (4)

A bearing housing is formed in the center of the base plate, and a core assembly including a plurality of cores and coil windings is installed on the outer wall of the bearing housing, and a printed circuit board for applying a control current to the coil winding is formed on an upper surface of the base plate. One stator; A shaft which is shaft-fitted with the metal bearing mounted to the bearing housing and supported in a rotatable state; A rotor yoke fixed to the shaft and formed in a cylindrical shape surrounding the upper and side surfaces of the bearing housing and the core assembly, the rotor yoke having a plurality of insertion holes formed around the upper surface, and the inner surface of the rotor yoke to face the core assembly. A rotor made of a magnet attached and having the N pole and the S pole repeatedly magnetized; A turntable axially fixed to the shaft extending above the rotor, the upper surface of which is provided with a cushioning member to mitigate an impact when the optical disk is mounted and to prevent slipping, and a plurality of fusion protrusions formed around the bottom surface thereof; Spindle motor, characterized in that consisting of a configuration comprising a. The method of claim 1, And coupling the rotor yoke and the turntable so that they are simultaneously pressed onto the shaft. The method of claim 1, And a fusion protrusion formed on the bottom surface of the turntable is inserted into the insertion hole of the upper surface of the rotor yoke so as to be ultrasonically fused or thermally fused. The method of claim 1, The hook motor is formed on the bottom surface of the turntable, and the spindle motor is coupled to the insertion hole of the rotor yoke by the hook.