KR20080078343A - Spindle motor - Google Patents

Abstract

A spindle motor is provided to separate a rotor from a bearing housing by separating the shortest leg unit of a stopper from a stopping frame and then rotating the stopper to separate the other leg units sequentially. A bearing housing(110) is vertically installed on a base(200) and has a stopping frame(113) on an outer peripheral surface. A bearing(120) is fixed to an inner peripheral surface of the bearing housing. A rotation axis(130) is rotatably supported to the bearing. A stator(140) is installed around the bearing housing. A rotor(150) has a rotor yoke(151) fixed to an outer peripheral surface of the rotation axis and rotates through interaction with the stator. A stopper(170) is fixed to the rotor yoke and has a plurality of leg units(175) stopped at a lower surface of the stopping frame of the bearing housing. Entrance grooves are formed on an outer peripheral surface of the stopping frame to allow entrance of the leg units of the stopper.

Description

Spindle Motors {SPINDLE MOTOR}

1 is a perspective view of a stopper and a bearing housing of a conventional spindle motor.

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

3 is a perspective view of the stopper and bearing housing shown in FIG.

4A and 4B are perspective views illustrating a method of coupling the stopper to the bearing housing.

Explanation of symbols on the main parts of the drawings

110: bearing housing 120: bearing

130: shaft 140: stator

150: rotor 160: clamp

170: stopper 171: body

175: leg 180: suction magnet

The present invention relates to a spindle motor.

The spindle motor functions to rotate the disk so that a linearly moving optical pickup can read the data recorded on the disk. In the notebook and the like, a slim type in which a disk is mounted on the rotor yoke is used.

A stopper is coupled to the rotor yoke, which stops the rotor, including the rotor yoke, from falling upward when the disk is mounted on the rotor yoke by the bearing housing.

The structure of a conventional stopper and bearing housing will be described with reference to FIG. 1 is a perspective view of a stopper and a bearing housing of a conventional spindle motor.

As shown, the upper plate is coupled to the rotating shaft (not shown) and the lower plate is provided with an open cylindrical rotor yoke 10. A disk (not shown) is mounted on an upper surface of the rotor yoke 10, and a stopper 20 is coupled to the upper surface of the rotor yoke 10 by welding or the like.

The stopper 20 has a plurality of legs 23 formed in a ring shape and integrally formed at equal intervals on the inner circumferential surface of the body 21 and the body 21 coupled to the rotor yoke 10. The end side of the leg part 23 is bent, and the end surface of the leg part 23 is caught by the lower surface of the engaging frame 32 formed in the outer peripheral surface of the bearing housing 30.

In detail, the stopper 20 is coupled to the rotor yoke 10, and the rotor yoke 10 is inserted into the bearing housing 30 in the lower side of the rotary shaft while the rotor yoke 10 is coupled to the outer peripheral surface of the upper side of the rotary shaft. While fixing, the leg 23 is caught by the catching frame 32.

At this time, since the distance (L1) between the cross section of each leg 23 in the center of the body 21 is formed shorter than the distance (L2) from the center of the bearing housing 30 to the outer surface of the engaging frame 32, When the rotating shaft is inserted into the bearing housing 30, the cross section of the leg portion 23 first contacts the upper surface of the catching frame 32. Thereafter, when the rotor yoke 10 is further pushed downward, the leg part 23 is elastically deformed outward, and then returned to the original state, so that the end surface of the leg part 23 is caught by the lower surface of the catching frame 32.

In the conventional spindle motor as described above, when the stopper 20 is caught by the catching frame 32, the leg portion 23 is elastically deformed, and at the same time, some plastic deformation is also performed. At this time, when the plastic deformation of the leg 23 is greater than or equal to a predetermined amount, the leg 23 may be damaged and the stopper 20 may not perform a proper function.

In addition, when the rotor yoke 10 and the stopper 20 are not concentric with each other, the leg 23 positioned close to the center of the rotor yoke 10 may be plastically deformed to a predetermined level or more.

In addition, after locking the stopper 20 to the locking frame 32, the stopper 20 cannot be separated above the locking frame 32. Due to this, since the product cannot be repaired and must be disposed of, the cost increases.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention to provide a spindle motor that can prevent the deformation of the stopper to prevent the departure of the rotor and at the same time reduce the cost Is in.

Spindle motor according to the present invention for achieving the above object, the bearing housing is formed standing on the base fixed to the outer peripheral surface; A bearing fixed to an inner circumferential surface of the bearing housing; A rotating shaft rotatably supported by the bearing; A stator disposed around the bearing housing; A rotor including a rotor yoke fixed to an outer circumferential surface of the rotating shaft and rotating by action with the stator; A stopper fixed to the rotor yoke, the stopper having a plurality of legs caught on a lower surface of the hanging frame,

On the outer circumferential surface of the hanging frame is formed an access groove allowing the plurality of the leg portion to enter the upper and lower sides of the hanging frame.

Hereinafter, a spindle motor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

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

As shown, the bearing housing 110 is provided standing on the base 200 is provided. The bearing housing 110 is formed in a cylindrical shape having an upper surface open, and a ring-shaped engaging frame 113 protruding outward is formed on an outer circumferential surface of the upper end side.

The bearing 120 is fixed to the inside of the bearing housing 110, and the lower side of the rotating shaft 130 is supported on the bearing 120 to be rotatably installed.

The stator 140 and the rotor 150 are fixed to the bearing housing 110 and the rotation shaft 130, respectively. The stator 140 has a core 141 fixed to the outer circumferential surface of the bearing housing 110 and a coil 145 wound on the core 141, and the rotor 140 has a cylindrical shape with an open lower plate and a bearing housing. The rotor yoke 151 fixed to the outer peripheral surface of the rotating shaft 130 exposed to the upper side of the 110 is coupled to the inner peripheral surface of the side plate of the rotor yoke 151 and the magnet 155 facing the stator 140. Have The stator 140 may be fixedly disposed around the bearing housing 110.

Thus, when a current is applied to the coil 145, the rotor 150 and the rotating shaft 130 is rotated by the electromagnetic force formed between the coil 145 and the magnet 155.

The disc is mounted on the upper surface of the rotor yoke 151, and the center of the disc 50 mounted on the rotor yoke 151 is the center of the rotation shaft 130 at the portion of the rotor yoke 151 coupled to the rotation shaft 130. Clamp 160 for elastically supporting the disk 50 is installed to coincide with.

The stopper 170 is coupled to the lower surface of the upper surface of the rotor yoke 151 to be caught by the engaging frame 113 of the bearing housing 110. The stopper 170 prevents the rotor 150 and the rotation shaft 130 from escaping upward when the disk 50 mounted on the upper surface of the upper surface of the rotor yoke 151 is separated.

The stopper 170 is formed in a ring shape and formed downward from the inner circumferential surface of the body 171 and the body 171 which are coupled to the lower surface of the upper surface of the rotor yoke 151 to form a concentric circle with the rotor yoke 151 by welding or the like. It has a plurality of legs 175 is formed on the lower surface of the engaging frame 113 to form a.

In order for the leg part 175 to be in contact with the bottom surface of the fastening frame 113, the fastening frame at the center of the body 171 rather than the length L3 from the center of the bearing housing 110 to the outer surface of the fastening frame 113. The length L4 to the end of the leg portion 175 hanging on 113 should be short. Then, when the stopper 170 is pressed from the upper side to the lower side of the bearing housing 110 so that the leg portion 175 is caught on the lower surface of the engaging frame 113, the leg portion 175 is opened outward and is elastic. Return to the original state.

At this time, the leg 175 may be deformed. The spindle motor according to the present exemplary embodiment is provided to allow the leg 175 to enter and exit the upper and lower sides of the catching frame 113 without deformation of the leg 175. This will be described with reference to FIGS. 2 and 3. 3 is a perspective view of the stopper and the bearing housing shown in FIG.

As illustrated, the plurality of leg portions 175 may include at least two kinds of leg portions 175a and 175b having different lengths from the lower surface of the body 171 to the end side in contact with the lower surface of the engaging frame 113. Have

That is, the plurality of leg portions 175 have a first distance from the lower surface of the body 171 to the end side in contact with the lower surface of the engaging frame 113, and the plurality of first leg portions 175a having a “∪” shape. ) And a plurality of second legs 175b having a second distance shorter than the first distance from the lower surface of the lower surface of the body 171 to an end side contacting the lower surface of the engaging frame 113 and having a "b" shape. Has

In this case, the plurality of first leg portions 175a and the plurality of second leg portions 175b are provided in the same number, and the interval between the plurality of first leg portions 175a and the plurality of second leg portions 175b are provided. The spacing is equal. In addition, the plurality of first leg portions 175a and the plurality of second leg portions 175b are preferably formed at equal intervals, which will be described later.

In addition, a plurality of first leg portions 175a have recessed access grooves 113a that allow the plurality of first leg portions 175a to enter and exit the upper and lower sides of the rim 113 on the outer circumferential surface of the rim 113. It is formed at equal intervals corresponding to). Since the plurality of second leg portions 175b are also disposed in the same manner as the plurality of first leg portions 175a, the plurality of second leg portions 175b may enter and exit the access grooves 113a.

A method of coupling the stopper 170 to the lower side of the latch frame 113 will be described with reference to FIGS. 2, 4A, and 4B. 4A and 4B are perspective views illustrating a method of coupling the stopper to the bearing housing.

As shown in FIG. 4A, the plurality of first legs 175a having a long length from the lower surface of the body 171 to the end side in contact with the lower surface of the locking frame 113 are locked through the access groove 113a. When inserted into the lower side of the frame 113, the plurality of first leg portions 175a are positioned above the hook frame 113.

In this state, as illustrated in FIG. 4B, the plurality of second leg portions 175b having short lengths from the lower surface of the body 171 to the end side in contact with the lower surface of the engaging frame 113 may include the entrance groove 113a. After the stopper 170 is rotated so as to be positioned directly above the bottom, the stopper 170 is pushed downward to move the plurality of second leg portions 175b to the lower side of the hook through the access groove 113a. Then, the end portions of the plurality of second leg portions 175b are caught by the lower surface of the engaging frame 113, so that the stopper 170 and the rotor 150 do not fall upward.

That is, since the plurality of first and second leg portions 175a and 175b move downward of the engaging frame 113 through the access groove 113a, the first and second leg parts 175a and 175b are caught by the lower surface of the engaging frame 113 and thus there is no deformation. . Since the plurality of first and second leg portions 175a and 175b are formed at equal intervals, the plurality of first and second leg portions 175a and 175b are uniformly caught on the lower surface of the hook frame 113. As a result, the inclination of the rotor yoke 151 is prevented.

Since the distance from the lower surface of the body 171 to the end side of the plurality of first leg portions 175a and the distance to the end side of the plurality of second leg portions 175b are different from each other, Only the two leg portions 175b are caught by the lower surface of the hanging frame 113. In this state, when the rotation shaft 130 and the rotor 140 rotate, the plurality of second leg portions 175b may be pulled upward through the access groove 113a. However, since the plurality of first leg portions 175a are caught by the lower surface of the hanger 113 even when the plurality of second leg portions 175b are pulled out of the upper side of the hanger 113, the stopper 170 is connected to the hanger frame ( 113) does not fall to the upper side.

In other words, the distance from the lower surface of the body 171 to the end side of the plurality of first leg portions 175a and the distance to the end side of the plurality of second leg portions 175b are different from each other because of a stopper ( This is to prevent the 170 from falling to the upper side of the hook frame (113).

The spindle motor according to the present embodiment may form different distances from the lower surface of the body 171 of the stopper 170 to the end side of the leg portion 175, and form only one access groove 113a. . At this time, the longest one of the plurality of leg portions 175 is inserted into the access groove 113a, the stopper 170 is rotated a little, and then the long length leg portion 175 is next inserted. What is necessary is just to combine and to insert in the 113a.

Reference numeral 180 in FIG. 2 is a suction magnet that prevents the rotation shaft 130 and the rotor 150 from rising upward when the rotation shaft 130 and the rotor 150 rotate.

As described above, the spindle motor according to the present invention, while entering the access groove formed in the engaging frame of the bearing housing, the leg of the stopper is caught on the lower surface of the engaging frame, there is no fear that the leg of the stopper is deformed.

When the stopper is to be separated from the bearing housing, the legs contacting the lower surface of the engaging frame are positioned from the shortest leg part to the access path and pulled out to the upper side of the engaging frame, and then the other stops are rotated while the stopper is rotated. The rotor can be easily removed from the bearing housing since it can be pulled out. This reduces the cost of repairs without disposing of parts.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those skilled in the art to which the present invention pertains have been changed and modified without departing from the spirit of the present invention. Of course.

Claims (9)

A bearing housing that stands on the base and is fixed to the outer circumferential surface thereof; A bearing fixed to an inner circumferential surface of the bearing housing; A rotating shaft rotatably supported by the bearing; A stator disposed around the bearing housing; A rotor including a rotor yoke fixed to an outer circumferential surface of the rotating shaft and rotating by action with the stator; A stopper fixed to the rotor yoke, the stopper having a plurality of legs caught on a lower surface of the hanging frame, Spindle motor formed on the outer circumferential surface of the hook frame is formed with an access groove to allow a plurality of the leg portion to enter the upper and lower sides of the hook frame. The method of claim 1, And a plurality of said leg parts have at least two types of legs different from each other in length to the part which contacts the lower surface of the said latch frame. The method of claim 2, The plurality of leg portions have a plurality of first leg portions having a first distance and a plurality of second leg portions shorter than the first distance to a portion contacting the bottom surface of the hanging frame, The plurality of first leg portions and the plurality of second leg portions are provided in the same number, and the spacing between the plurality of first leg portions and the spacing between the plurality of second leg portions are the same. The access groove is a spindle motor, characterized in that formed to correspond to the plurality of first legs. The method of claim 3, wherein And the plurality of first legs, the plurality of second legs and the access grooves are formed at equal intervals, respectively. The method of claim 3, wherein A plurality of said first leg portion is a spindle motor characterized in that the "∪" shape. The method of claim 3, wherein And said plurality of said second legs are "b" shaped. The method of claim 1, The distances to the portions of the leg portion in contact with the lower surface of the latch frame are formed differently, Spindle motor, characterized in that one entry groove is formed. The method of claim 1, The stopper has a ring-shaped body coupled to the rotor yoke, a plurality of the leg portion is characterized in that the spindle motor. The method of claim 8, The plurality of leg portions of the spindle motor, characterized in that formed on the inner peripheral surface of the body at equal intervals.

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