KR20120067659A - Spindle motor - Google Patents

Abstract

PURPOSE: A spindle motor including an improved core is provided to suppress the interference of a curved portion and a core. CONSTITUTION: A bearing assembly comprises a bearing housing(110) and a bearing(120). The bearing housing comprises a body(116) and a flange part(118). The bearing comprises an oil impregnation sintered bearing. The stator(200) comprises a core(210) and a coil(220). A rotary shaft(300) is inserted into the bearing. The rotary shaft is pivotally supported by the bearing. The rotor(400) is combined with the rotary shaft. The rotor comprises a yoke(410) and a magnet(420). The yoke includes an upper plate(412) and a yoke side plate(414).

Description

Spindle Motors {SPINDLE MOTOR}

The present invention relates to a spindle motor.

In recent years, technology development of an optical disk driver (ODD) for reading data recorded on an optical disk or recording data on an optical disk is in progress.

The optical disk driver includes a spindle motor and an optical pickup module to rotate the optical disk at high speed.

The spindle motor includes a bearing housing for receiving a bearing rotatably supporting the rotating shaft, and a core wound with a coil wound on an outer circumferential surface of the bearing housing.

The upper end of the bearing housing includes a flange portion that is bent outward to fix the core.

When the upper end of the bearing housing is bent outward to form a flange portion, a curved portion that does not bend exactly 90 ° is formed at the boundary of the bearing housing and the flange portion.

On the other hand, the core pressed into the outer circumferential surface of the bearing housing can no longer move toward the flange portion from the curved portion, a space is formed between the upper surface and the flange portion of the core by the curved portion.

Conventionally, the spindle motor has been used a method of contacting the flange portion to the upper surface of the core by bending the flange portion at least twice so that no gap is formed between the upper surface and the flange portion of the core by the curved portion, but the flange portion is bent at least twice. In this case, the press die is complicated and the material cost of the bearing housing is increased.

The present invention provides a spindle motor including a bearing housing and a core that is improved so as not to be affected by a curved portion formed at the boundary of a flange portion bent from the bearing housing.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

In one embodiment, the spindle motor includes a bearing assembly including a body formed in a cylindrical shape having an upper end opening, a bearing housing having a flange portion extending outward from an upper end of the body, and a bearing inserted into the bearing housing; A stator including a core formed with an escape portion that prevents interference with the curved portion at a portion that interferes with the curved portion formed at a boundary between the body and the flange portion, and a coil wound around the core; A rotating shaft rotatably coupled to the bearing; And a yoke coupled to the rotating shaft and a magnet disposed on an inner side of the yoke and facing the core.

In one embodiment, the spindle motor includes a body formed in a cylindrical shape with an open top, a flange portion extending outward from an upper end of the body and a curved portion formed at a boundary between the body and the flange portion and the bearing housing. A bearing assembly comprising a bearing inserted in the bearing assembly; A first core piece press-fitted to an outer circumferential surface of the body in which the curved portion is not formed, and a second core formed on a portion of the first core piece and having a cover portion formed at a portion corresponding to the curved portion to prevent interference with the curved portion; A stator including a core including a piece and a coil wound around the core; A rotating shaft rotatably coupled to the bearing; And a rotor including a yoke coupled to the rotation shaft and a magnet disposed on an inner side of the yoke and facing the core.

According to the spindle motor according to the present invention, when the core is coupled to the outer surface of the body of the bearing housing that houses the bearing, the curved portion and the curved portion so as not to interfere with the curved portion formed between the body and the flange portion bent from the top of the body By forming the escape portion in the core to suppress or prevent the interference between the core and the curved portion, thereby having the effect of forming the structure of the flange portion more simply.

1 is a cross-sectional view of a spindle motor according to an embodiment of the present invention.
FIG. 2 is an enlarged view of portion 'A' of FIG. 1.
3 is a plan view of the core shown in FIG.
4 is a cross-sectional view taken along the line II ′ of FIG. 3.
5 is an enlarged view of a portion 'B' of FIG. 4.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. The definitions of these terms should be interpreted based on the contents of the present specification and meanings and concepts in accordance with the technical idea of the present invention.

1 is a cross-sectional view of a spindle motor according to an embodiment of the present invention. FIG. 2 is an enlarged view of portion 'A' of FIG. 1. 3 is a plan view of the core shown in FIG. 4 is a cross-sectional view taken along the line II ′ of FIG. 3. 5 is an enlarged view of a portion 'B' of FIG. 4.

Referring to FIG. 1, a spindle motor 700 according to an embodiment of the present invention includes a bearing assembly 100, a stator 200, a rotation shaft 300, and a rotor 400. In addition, the spindle motor 700 may further include a base plate 500.

The bearing assembly 100 includes a bearing housing 110 and a bearing 120.

The bearing housing 110 includes a body 116 and a flange 118.

The body 116 is formed in a cylindrical shape with an open top. In one embodiment of the invention, the body 116 is formed, for example, in a cylindrical shape with an open top.

The body 116 includes a side plate 112 formed in a cylindrical shape and a bottom plate 114 that blocks the lower portion of the side plate 112 to support the rotating shaft 300 to be described later.

The flange part 118 extends or bends in the direction toward the outer side of the body 116 from the upper end of the side plate 112 of the body 116. The flange portion 118 is formed perpendicular to the side plate 112 of the body 116, for example.

At the end of the flange portion 118 is formed a cylindrical fence portion 119 extending or bent in a direction parallel to the side plate 112 of the body 116 from the flange portion 118.

An accommodating space is formed on the upper surface of the flange portion 118 by the fence portion 119, and a donut-shaped suction magnet 150 is disposed on the upper surface of the flange portion 118. The suction magnet 150 is fixed to the flange portion 118 by an adhesive or the like, and the suction magnet 150 is disposed to face the yoke top plate 412 of the yoke 410 to be described later to extract or lift the yoke 410. prevent.

When the flange portion 118 extends or bends in a direction from the top of the side plate 112 of the body 116 to the outside of the body 116, the boundary between the body 116 and the flange portion 118 is shown in FIG. As shown in the figure, the curved portion 117 having a curvature is formed.

The bearing 120 is accommodated in the bearing housing 110, and the bearing 120 is formed in a cylindrical shape in which a hollow is formed. The bearing 120 rotatably supports the rotating shaft 300 to be described later.

In one embodiment of the invention, the bearing 120 may comprise an oil-impregnated sintered bearing.

3 to 5, the stator 200 includes a core 210 and a coil 220.

As shown in FIG. 4, the core 210 is formed by stacking a plurality of core pieces 212 having a thin thickness.

The core 210 including the stacked core pieces 212 includes a core body 215 and a plurality of core protrusions 216 radially protruding from the core body 215 as shown in FIG. 3.

In the central portion of the core body 215 is formed a through hole 211 which is coupled or press-fitted to the outer peripheral surface of the bearing housing 110, the core protrusion 216 protruding radially from the core body 215 is shown in FIG. As described above, the coil 220 is wound.

The core 210 is formed with an escape portion 230 to prevent interference with the curved portion 117 formed at the boundary between the body 116 and the flange portion 118 of the bearing housing 110. The escape portion 230 may be formed by escaping a portion of the core 210 that interferes with the curved portion 117 from the core 210.

The core 210 inserted into the outer circumferential surface of the bearing housing 110 reaches the curved portion 117 formed at the boundary between the side plate 112 and the flange portion 118 of the body 116 of the bearing housing 110. Done.

When the escape portion 230 that prevents interference with the curved portion 117 is not formed in the core 210, the core 210 interferes with the curved portion 117 and thus the upper surface of the core 210 and the bearing housing ( A gap corresponding to the height of the curved portion 117 may be formed between the lower surfaces of the flange portion 118 of the 110. If a gap corresponding to the height of the curved portion 117 is formed between the upper surface of the core 210 and the lower surface of the flange portion 118 of the bearing housing 110, the flange portion 118 is the upper surface of the core 210. It is impossible to press the core 210 is not fixed by the flange portion 118.

On the other hand, when the escape portion 230 to prevent the interference with the curved portion 117 is formed in the core 210 as in an embodiment of the present invention, the core 210 is a curved portion ( The top surface of the core 210 is in surface contact with the bottom surface of the flange portion 118 of the bearing housing 110 without interfering with 117.

Since the upper surface of the core 210 is in surface contact with the lower surface of the flange portion 118 of the bearing housing 110, the core 210 is stably fixed by the flange portion 118.

Specifically, as shown in FIG. 2, the height H of the curved portion 117 formed at the boundary between the side plate 112 and the flange portion 118 of the bearing housing 110 is one core piece 212. When the thickness D is less than or equal to D, the escape portion 230 formed in the core 210 may have a topmost core corresponding to the curved portion 117 of the plurality of core pieces 212 as shown in FIGS. 2 and 4. It is formed on the side. The width of the elongated portion 230 formed on the uppermost core piece is preferably formed to have a width that does not interfere with the curved portion 117.

On the other hand, when the height H of the curved surface portion 117 formed at the boundary between the side plate 112 and the flange portion 118 of the bearing housing 110 is equal to or greater than the thickness D of the single core piece 212, An escaping portion 230 may be formed on at least two core pieces 212 corresponding to the height H of the curved portion 117.

Hereinafter, the core pieces 212 of the core 210 that do not interfere with the curved portion 117 formed at the boundary between the side plate 112 and the flange portion 118 of the bearing housing 110 are first core pieces 212a. The core piece 212 of the core 210 that interferes with the curved portion 117 will be defined as the second core piece 212b.

The diameters of the through holes of the first core pieces 212a coupled to the side plates 112 of the bearing housing 110 by using the through holes are first adapted to be press-fit into the side plates 112 of the bearing housing 110. It is formed in diameter.

On the other hand, the second core piece 212b that interferes with the curved portion 117 is disposed on the first core piece 212a and is coupled to the side plate 112 of the bearing housing 110 using a through hole. The diameter of the through hole of the two-core piece 212b is formed to have a second diameter extended from the first diameter so as not to interfere with the curved portion 117.

In one embodiment of the present invention, the second core piece 212b may be one or plural depending on the height of the curved portion 117. For example, when the height of the curved portion 117 is equal to or less than the thickness of one second core piece 212b, the second core piece 212b is made of one piece. On the other hand, when the height of the curved portion 117 is greater than or equal to the thickness of the second core piece 212b, the second core piece 212b may be formed in at least two pieces corresponding to the height of the curved portion 117.

Referring back to FIG. 1, the rotating shaft 300 is inserted into the bearing 120, and the rotating shaft 300 is rotatably supported by the bearing 120.

The rotor 400 is coupled to the rotating shaft 300. The rotor 400 includes, for example, a yoke 410 and a magnet 420.

The yoke 410 serves to fix the magnet 420, and the yoke 410 includes a yoke top plate 412 and a yoke side plate 414.

The yoke top plate 412 is formed in a disk shape, the yoke top plate 412 is coupled to the outer circumferential surface of the rotation shaft 300 by the yoke burring portion 413.

The yoke side plate 414 bends or extends from the edge of the yoke top plate 412 to face the end of the core 210.

The magnet 420 is disposed on the inner side of the yoke side plate 414, and the magnet 420 faces the end of the core 210.

The base plate 500 is formed in a plate shape, the burring portion 510 protrudes from the base plate 500, and the outer circumferential surface of the bearing housing 110 is fixed by the burring portion 510. In addition, the burring part 510 supports the lower surface of the core 210 to limit the movement of the core 210.

A circuit board 520 electrically connected to the coil 220 of the stator 200 is disposed on an upper surface of the base plate 500.

As described in detail above, when the core is coupled to the outer surface of the body of the bearing housing that accommodates the bearing, the curved portion corresponds to the curved portion so as not to interfere with the curved portion formed between the body and the flange portion bent from the top of the body. By forming the escape portion in the core to suppress or prevent the interference between the core and the curved portion, and thereby has the effect of forming a simpler structure of the flange portion.

Although embodiments according to the present invention have been described above, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments of the present invention are possible therefrom. Accordingly, the true scope of the present invention should be determined by the following claims.

700 ... spindle motor 100 ... bearing assembly
200 ... stator 300 ... rotation shaft
400 ... rotor 500 ... base plate

Claims (9)

A bearing assembly including a body formed in a cylindrical shape having an upper end opening, a bearing housing having a flange portion extending outward from an upper end of the body, and a bearing inserted into the bearing housing;
A stator including a core formed with an escape portion that prevents interference with the curved portion at a portion that interferes with the curved portion formed at a boundary between the body and the flange portion, and a coil wound around the core;
A rotating shaft rotatably coupled to the bearing; And
And a rotor including a yoke coupled to the rotation shaft and a magnet disposed on an inner side of the yoke and facing the core. The method of claim 1,
The core includes a plurality of stacked core pieces, the escape portion is a spindle motor formed on the uppermost core piece. The method of claim 2,
And the flange portion is in surface contact with an upper surface of the uppermost core piece. The method of claim 1,
The core includes a plurality of core pieces are stacked, the spindle motor is formed in each of the at least two core pieces corresponding to the height of the curved portion of the core pieces. The method of claim 1,
The flange portion includes a fence portion protruding from the edge of the flange portion in the same direction as the rotation axis direction,
And a suction magnet disposed in a space formed by the flange portion and the fence portion. A bearing including a body formed in a cylindrical shape having an upper end opening, a flange portion extending outward from an upper end of the body, and a curved portion formed at a boundary between the body and the flange portion, and a bearing inserted into the bearing housing. assembly;
A first core piece press-fitted to an outer circumferential surface of the body in which the curved portion is not formed, and a second core formed on a portion of the first core piece and having a cover portion formed at a portion corresponding to the curved portion to prevent interference with the curved portion; A stator including a core including a piece and a coil wound around the core;
A rotating shaft rotatably coupled to the bearing; And
And a rotor including a yoke coupled to the rotation shaft and a magnet disposed on an inner side of the yoke and facing the core. The method of claim 6,
And said second core piece having said escaping portion is a plurality of spindle motors. The method of claim 6,
The first core piece is formed with a first diameter pressed into the body, and the second core piece is formed with a second diameter larger than the first diameter. The method of claim 6,
The flange portion includes a fence portion protruding from the edge of the flange portion in the same direction as the rotation axis direction,
And a suction magnet disposed in a space formed by the flange portion and the fence portion.

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