KR20020034608A - A stator assembly of spindle motor - Google Patents

Abstract

PURPOSE: A stator assembly of a spindle motor is provided to improve product reliability by avoiding leakage of oil contained in a metal bearing and reduce the numbers of assembling processes and components. CONSTITUTION: A stator assembly of a spindle motor comprises a base plate(30) including a through-hole(33) at the center and many coupling holes(35) spaced from the through-holes(33), and a printed circuit board(60) including a through-hole(63) and many coupling holes(65) corresponding to the through-hole(33) and the coupling holes(35). The printed circuit board(60) is attached on the base plate(30) and applies power to a coil(5b). A bearing housing(120) is coupled to the through-holes(33,63) and the coupling holes(35,65). A stator(5) including a core(5a) and the coil(5b) is pushed at the outer circumference of the center of the bearing housing(120). A metal bearing(23) is fixed to the inner circumference of the bearing housing(120). A rotating shaft(50) is supported at the inner circumference of the metal bearing(23). A turn-table assembly(9) is pushed at the outer circumference of the top of the rotating shaft(50). A rotor(7) including a housing(7a) and a magnet(7b) is coupled to the bottom of the turn-table assembly(9).

Description

Stator assembly of spindle motor {A STATOR ASSEMBLY OF SPINDLE MOTOR}

The present invention relates to a spindle motor, and more particularly, to a stator assembly of a spindle motor which improves the structure of the base plate and the bearing housing of the spindle motor to prevent the oil contained in the metal bearing from being lost.

In general, the coupling structure of the spindle motor 100 is a printed circuit board 6 for applying power to the coil 5b of the stator 5 to be described later on the upper surface of the base plate (3) Combined. Then, the bearing housing 20 is fixed through the central portion of the base plate 3 and the printed circuit board 6, the bearing housing 20 is coupled to the through hole (3a) of the base plate (3). Looking at the coupling structure of the base plate 3 and the printed circuit board 6 in detail, the first bonding hole 3b is formed in the base plate 3 and the second bonding hole 6a is formed in the printed circuit board 6. The rivet 8 is inserted into the first joining hole 3b and the second joining hole 6a and then riveted.

The stator 5 composed of the core 5a and the coil 5b is press-fitted to the outer peripheral surface of the center portion of the bearing housing 20, and the core 5a is seated on the locking jaw 21 formed on the outer peripheral surface of the bearing housing 20. do. The thrust plate 27 and the stopper 25 for fixing the thrust plate 27 are provided on the lower side of the inner circumferential surface of the bearing housing 20, and the metal bearing 23 is press-fitted and fixed to the upper side. Looking at the installation structure of the bearing housing 20, the lower end side of the bearing housing 60 is spinning caulking to the base plate 10 and the stopper 25, which causes the bearing housing 20 to the base plate ( It is fixed to the through hole 3a of 3), and the stopper 25 is fixed to the bearing housing 20. As shown in FIG.

The rotating shaft 50 is supported on the inner circumferential surface of the metal bearing 23. The turntable assembly 9 on which the disk (not shown) is mounted is press-fitted on the upper outer peripheral surface of the rotating shaft 50. The lower surface of the turntable assembly 9 is coupled to the rotor 7 composed of the housing 7a and the magnet 7b to rotate together with the rotation shaft 50 and the turntable assembly 9. Thus, when power is applied from the printed circuit board 6 to the coil 5b, the rotor 7 is rotated by the electromagnetic force between the core 5a and the magnet 7b, thereby rotating the rotation shaft 50. At this time, when the rotating shaft 50 rotates at a high speed, the oil contained in the metal bearing 23 is discharged to form an oil film, thereby rotating the rotating shaft 50 smoothly.

However, in the conventional spindle motor as described above, a gap may occur between the stopper 25 and the bearing housing 20 by the thrust load of the rotation shaft 50 while the rotation shaft 50 rotates at a high speed. In addition, a gap may occur between the bearing housing 20 and the stopper 25 due to a poor spinning caulking operation itself. Then, the oil of the metal bearing 23 leaks to the outside, and the metal bearing 23 may not function properly. Due to this, in the spindle motor 100 there is a problem that the noise is excessively generated and the vibration is increased to shorten the life of the product.

In addition, a riveting operation for coupling the base plate 3 and the printed circuit board 6 and a spinning caulking operation for fixing the bearing housing 20 to the base plate 3 and the stopper 27 are performed. If necessary, a separate part such as a stopper 25 for fixing the thrust plate 27 should be provided. Therefore, there is a disadvantage in that the assembly process is complicated and the number of parts increases and the cost increases.

The present invention has been made to solve the conventional problems as described above, an object of the present invention is to provide a spindle motor that can improve the reliability of the product by preventing the oil contained in the metal bearings to leak to the outside.

Another object of the present invention to provide a spindle motor that can reduce the cost by reducing the assembly process and the number of parts.

1 is a cross-sectional view schematically showing a spindle motor according to an embodiment of the present invention.

2 is a perspective view of a coupling tube according to an embodiment of the present invention.

3 is a cross-sectional view schematically showing a typical spindle motor.

<Description of Symbols for Main Parts of Drawings>

30: base plate 50: rotation axis

60: printed circuit board 120: bearing housing

200: spindle motor

Spindle motor according to the present invention for achieving the above object, the through-hole is formed in the center portion having a coupling hole formed to be spaced apart from the through hole, the through hole and the coupling hole corresponding to the through hole and the coupling hole of the base plate The printed circuit board is formed and coupled to the upper surface of the base plate, the support plate for supporting the lower surface of the base plate and protrudes upward from the center portion of the support plate to penetrate the through-holes of the base plate and the printed circuit board A bearing housing having a cylindrical case having an open upper surface and a coupling tube spaced apart from the case and protruding from an upper surface of the support plate and inserted into a coupling hole of the base plate and the printed circuit board, and an inner circumferential surface of the case; Metal bearing fixed to the shaft to support the rotating shaft And, it is coupled to the outer surface of the case, and has a stator composed of a core and a coil.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the spindle motor according to the present invention. For convenience of description, the same components as in the prior art have the same reference numerals.

1 is a cross-sectional view showing the structure of a spindle motor according to an embodiment of the present invention, Figure 2 is a perspective view of a coupling tube according to an embodiment of the present invention.

As shown, the spindle motor 200 has a base plate 30 formed with a through hole 33 in the center and spaced apart from the through hole 33 to form a plurality of coupling holes 35. Through-holes 63 and coupling holes 65 corresponding to the through-hole 33 and the coupling hole 35 of the base plate 30 are formed on the upper surface of the base plate 30, respectively, to the coil 5b to be described later. The printed circuit board 60 for applying power is coupled. The bearing housing 120 is coupled to the through holes 33 and 63 and the coupling holes 35 and 65 of the base plate 30 and the printed circuit board 60.

The stator 5 which consists of the core 5a and the coil 5b is press-fitted in the outer peripheral surface of the center part side of the bearing housing 120. The metal bearing 23 is fixed to the inner circumferential surface of the bearing housing 120, and the rotation shaft 50 is supported on the inner circumferential surface of the metal bearing 23. The turntable assembly 9 on which the disk (not shown) is mounted is press-fitted on the upper outer peripheral surface of the rotating shaft 50. The lower surface of the turntable assembly 9 is coupled to the rotor 7 composed of the housing 7a and the magnet 7b to rotate together with the rotation shaft 50 and the turntable assembly 9. Reference numeral 27 is provided on the inner bottom surface of the bearing housing 120 as a thrust plate to support the lower end of the rotation shaft (50).

The spindle motor 200 according to the present embodiment is provided so that oil discharged from the metal bearing 23 is not lost to the outside when the rotating shaft 50 rotates, and firmly secures the base plate 30 and the printed circuit board 60. At the same time it is provided to be easily combined.

To this end, the bearing housing 120 is a support plate 123 for supporting the lower surface of the base plate 30, and a cylindrical case 125 having a cylindrical shape projecting upward from the central portion of the support plate 123 and the upper surface is open. Have The case 125 is coupled to penetrate through the through holes 33 and 63 of the base plate 30 and the printed circuit board 60.

The support plate 123 and the case 125 are formed with a support frame 123a and a support jaw 125b for supporting the base plate 30, respectively. The support frame 123a is formed to protrude upward from the edge of the support plate 123, and the support jaw 125b is provided on the lower outer peripheral surface of the case 125 to support the bottom surface of the base plate 30, respectively.

In addition, in order to couple the base plate 30 and the printed circuit board 60, the support plate 123 is formed with the case 125 and the coupling pipe 127 spaced apart from the predetermined interval protruding upward. The coupling pipe 127 is inserted into and coupled to the coupling holes 35 and 65 of the base plate 30 and the printed circuit board 60. The boss 80 is press-fitted into the inner circumferential surface of the coupling pipe 127, and the slot groove 127a is formed in the longitudinal direction of the coupling pipe 127. The slot groove 127a causes the coupling pipe 127 to open in the radial direction when the boss 80 is pushed upward from the lower side of the coupling pipe 127. Then, the base plate 30 and the printed circuit board 60 is firmly coupled to the coupling pipe 127, thereby the base plate 30 and the printed circuit board 60 is also firmly coupled to each other.

In addition, the coupling pipe 127 includes a first inclined surface 127b having an outer diameter that increases from the upper surface to the lower side so that the coupling holes 35 and 65 of the base plate 30 and the printed circuit board 60 are easily inserted, The second inclined surface 127c is formed at the lower end of the first inclined surface 127b so that the inserted base plate 30 and the printed circuit board 60 are not separated, and the outer diameter thereof becomes smaller toward the lower side. Preferably, the support plate 123 constituting the bearing housing 120, the case 125 and the coupling pipe 127 is integrally formed.

The operation of the spindle motor 200 according to the present embodiment configured as described above will be described. When power is applied to the coil 5b of the spindle motor 200 from the printed circuit board 60, the rotor 7 is rotated by the electromagnetic force between the core 5a and the magnet 7b to rotate the rotating shaft 50. . When the rotating shaft 50 is rotated at a high speed, the oil contained in the metal bearing 23 is discharged to form an oil film. At this time, the oil discharged from the metal bearing 23 is stored inside without being leaked to the outside of the case 125 of the bearing housing 120 and is resupplied to the metal bearing 23.

As described above, since the bottom of the case of the bearing housing according to the present invention is sealed, the oil contained in the metal bearing is stored in the case. In this way, the metal bearings support the rotation of the rotating shaft in a state that always contains the appropriate oil to suppress the occurrence of excessive noise and vibration. Therefore, the reliability of the product is improved.

In addition, the base plate and the printed circuit board are coupled to each other by a coupling tube of the bearing housing. Therefore, there is no need for a riveting operation combining the base plate and the printed circuit board and the spinning caulking operation combining the base plate and the bearing housing, and no stopper for supporting the thrust plate. Therefore, the assembly process and the parts are reduced and the cost is saved.

Claims (4)

A base plate having a through hole formed at a central portion thereof and having a coupling hole formed to be spaced apart from the through hole; A printed circuit board having a through hole and a coupling hole corresponding to the through hole and the coupling hole of the base plate and coupled to an upper surface of the base plate; A support plate for supporting the lower surface of the base plate and a cylindrical case which protrudes upward from the center of the support plate and passes through the through holes of the base plate and the printed circuit board and an open cylindrical case and spaced apart from the case. A bearing housing having a coupling tube protruding from an upper surface of the coupling plate and inserted into the coupling hole of the base plate and the printed circuit board; A metal bearing fixed to an inner circumferential surface of the case to support a rotating shaft; Stator assembly of the spindle motor coupled to the outer surface of the case, having a stator consisting of a core and a coil. The method of claim 1, The stator assembly of the spindle motor on the outer circumferential surface of the case and the edge portion of the support plate are formed with a support jaw and a support frame for supporting the base plate. The method of claim 1, A boss (BOSS) is pressed into the inner circumferential surface of the coupling pipe, and the stator assembly of the spindle motor having a slot groove formed in the coupling pipe to open the coupling pipe in a radial direction when the boss is pressed. The method of claim 1, The case and the support plate and the coupling tube is a stator assembly of the spindle motor integrally molded.