KR101022881B1 - Spindle Motor - Google Patents

Abstract

The spindle motor according to the present invention includes a core on which a coil is wound, and an FPC having different centers of an inner diameter portion and an outer diameter portion of a portion electrically connected to the coil, and a base on which the connecting portion of the FPC is seated. .

Spindle motor, base, FPC, coil, adhesive

Description

Spindle Motor

The present invention relates to a spindle motor. More specifically, the solder portion of the FPC is formed at the same radius as close as possible to the inner diameter of the connecting portion, so that the width D2 of the winch portion is smaller than the width D1 of the proximal portion. By reducing this, the amount of adhesive is reduced by the area of the FPC, which reduces the cost of the FPC and the adhesive, as well as reducing the working time of the spindle motor.

FPC (Flexible Printer Circuit Board) is used for the interface of circuits and ports, circuits and peripherals, system boards and LCD screens, and is made of thin and flexible materials to make electronics such as spindle motors smaller, lighter and thinner. It is used a lot in the product.

In a hard disk drive (HDD), the current supply from the PCB board to the spindle motor is achieved by sandwiching an FPC attached to the base. Coupling of the coil motor of the spindle motor with the FPC inserts the coil wire into the hole of the base and is soldered to the FPC on the base side of the base. Moreover, in order to block the base hole, it is common to seal with an adhesive agent.

As shown in FIG. 4, the base 10 of the spindle motor according to the related art is an FPC 11, a coil wire 12, a hole 13, and an adhesive 14 used to connect the spindle motor to a PCB substrate. ), The soldering portion 15 and the groove portion 16.

The base 10 of the spindle motor is formed with a fan-shaped groove portion 16 to which the fan-shaped FPC 11 can be attached by an arc centered around the center of rotation of the spindle motor. The hole 13 of the base 10 is formed. Coil wire 12 drawn out from N) is soldered.

The fan-shaped groove portion 16 secures a space between the FPC cable 11 and the soldering portion 15 and seals the hole 13 of the base 10 while the adhesive portion 14 is filled in the groove portion 16. .

However, the spindle motor according to the related art has a problem that the width of the FPC is d1 equal to d1, and the cost of the FPC 11 and the adhesive 14 is considerably consumed. Therefore, as the low cost competition intensifies in recent years, the necessity of research for reducing the production cost by reducing the application amount of the adhesive 14 and the area of the FPC 11 has emerged.

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is that the solder portion of the FPC is formed at the same radius as close as possible to the inner diameter of the connection portion, so that the width D2 of the winch portion is the width of the proximal portion. By reducing the area of the FPC, which is smaller than (D1), the amount of adhesive is reduced by the reduced area of the FPC, providing a spindle motor that not only reduces the cost of FPC and adhesive, but also shortens working time.

In order to achieve the above object of the present invention, the spindle motor of the present invention is the core of the coil is wound, the center of the inner diameter portion and the outer diameter portion of the FPC and the center of the outer diameter of the portion electrically connected to the coil It is characterized in that it comprises a base on which the site to be connected is seated.

The FPC may include a connection part having at least one solder part electrically connected to the coil, a connection part connecting the connection part with the solder part to a power source, and a power supply part connected to the power source.

In addition, the at least one solder portion is characterized in that located in the same radius from the center of the inner diameter portion of the FPC.

The connecting portion may connect the inner diameter portion having a first curvature, the outer diameter portion having a second curvature, a distal portion connecting one side of the inner diameter portion and the outer diameter portion, and the other side connecting the inner diameter portion and the outer diameter portion. And a proximal portion facing the connecting portion.

The connection part may be formed such that the center of the second curvature of the outer diameter part is biased toward the connection part rather than the center of the first curvature of the inner diameter part.

Also, the width of the distal portion is smaller than the width of the proximal portion.

In addition, the base is characterized in that the groove portion of the shape corresponding to the outer shape of the connection portion is formed so that the FPC is coupled.

In addition, the groove portion is characterized in that the adhesive is applied to the upper portion of the connection portion.

The solder part may be formed to be close to the inner diameter part of the connection part.

The inner diameter portion and the outer diameter portion may be circular arcs or a plurality of straight lines.

According to the present invention, the solder portion of the FPC is formed at the same radius as close as possible to the inner diameter of the connection portion, so that the width D2 of the winch portion is smaller than the width D1 of the proximal portion, thereby reducing the area of the FPC, thereby reducing the area of the FPC. This reduces the amount of adhesive, which not only reduces the cost of FPC and adhesive, but also shortens working time.

In addition, the area of the groove portion of the FPC is reduced to improve the rigidity of the base, and even when vibrations or shocks are applied from the outside, the spindle motor or the disk amplitude can be suppressed small, and the information on the disk can be accurately read and written.

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

As shown in Figures 1 to 3, the spindle motor of the present invention is the core 120 of the coil 110 is wound, the center (C1) of the inner diameter portion 131 of the portion electrically connected to the coil 110 And the center (C2) of the outer diameter portion 132 includes a different FPC 130, and the base 140 is seated to the connection portion of the FPC 130.

The coil 110 is a copper material wound around the core 120, and may not only prevent the current from suddenly increasing or decreasing, but also may have a low cost and low resistance, thereby minimizing electrical loss.

The FPC 130 serves as an interface in a spindle motor that is miniaturized, lightweight, and thin, and contributes to miniaturization of a magnetic disk device. The FPC 130 is electrically connected to the spindle motor through the coil 110.

The FPC 130 includes a plurality of wires (not shown) required for electrical connection between the electrical unit and the PCB substrate, and has a multilayer structure and a bent portion that can be flexibly deformed.

The FPC 130 may include a connection part 135 on which one or more solder parts 150 are electrically connected to the coil 110, a connection part 136 connecting the connection part 135 to a power supply, and a power supply part 137 connected to the power supply. It includes.

The solder part 150 is a part for electrically connecting the coil 110 and the FPC 130 by soldering, and at least one at the same radius from the center C1 of the inner diameter part 131 of the FPC 130. It is provided.

The connection part 135 of the FPC 130 connects the inner diameter part 131 having the first curvature and the outer diameter part 132 having the second curvature, and connects one side of the inner diameter part 131 and the outer diameter part 132. 136 and a distal portion 133 located far away from the inner diameter portion 131 and the outer diameter portion 132 and the proximal portion 134 facing the connecting portion 136 is included.

The connection part 135 is formed such that the center C2 of the second curvature of the outer diameter part 132 is biased toward the connecting part 136 rather than the center C2 of the first curvature of the inner diameter part 131, and The length of the width D2 is smaller than the length of the width D1 of the proximal portion 134.

The base 140 has a groove portion 160 having a shape corresponding to the outer shape of the connection portion 135 of the FPC 130 so that the FPC 130 is coupled, and the groove portion 160 has an adhesive after the connection portion 135 is mounted. It is applied to closely bond between the groove 160 and the FPC 130 and seals the corresponding portion.

The solder part 150 is formed to be as close as possible to the inner diameter part 131 of the connection part 135 of the FPC 130.

The base 140 of the spindle motor having the above configuration has the same radius as the solder portion 150 of the FPC 130 is as close as possible to the inner diameter portion 131 of the connecting portion 135 so that The width D2 is smaller than the width D1 of the proximal portion 134 so that the area of the FPC 130 is reduced. Accordingly, the area of the groove 160 corresponding to the area of the FPC 130 is also reduced.

 Therefore, the amount of the adhesive that closely adheres between the groove 160 and the FPC 130 is reduced by the area of the groove 160 which is reduced, thereby reducing the cost of the adhesive and shortening the working time.

In addition, as the area of the groove portion 160 of the FPC 130 is reduced, the rigidity of the base 140 is improved, and even when vibrations or shocks are applied from the outside, the spindle motor or the disk amplitude may be reduced. Accurate reading and writing of information on the disk is possible.

The inner diameter portion 131 and the outer diameter portion 132 may be circular arcs, or may be formed of a plurality of straight lines.

While the spindle motor of the present invention has been described above with reference to a preferred embodiment of the present invention, it will be apparent to those skilled in the art that modifications, changes, and various modifications can be made without departing from the spirit of the present invention.

1 is a detailed view of the base of the spindle motor according to the present invention;

2 is an overall view of the base of the spindle motor according to the present invention;

3 is a rear view of the base of the spindle motor according to FIG. 2;

4 is a detailed view of a spindle motor according to the prior art.

<Explanation of symbols for main parts of drawing>

110: coil 120: core

130: FPC 140: Base

150: solder portion 160: groove portion

Claims (11)

A core to which the coil is wound; An FPC having different centers of an inner diameter portion and an outer diameter portion of a portion electrically connected to the coil; And A base on which the connecting portion of the FPC is seated, The FPC includes a connection part having one or more solder parts electrically connected to the coil, a connection part connecting the solder part mounting part to a power source, and a power supply part connected to the power source. delete The method according to claim 1, And the solder portion is located at the same radius from the center of the inner diameter portion of the FPC. The method according to claim 1, The connecting portion, The inner diameter portion having a first curvature; The outer diameter portion having a second curvature; A distal portion connecting one side of the inner diameter portion and the outer diameter portion; And And a proximal portion connecting the inner diameter portion with the other side of the outer diameter portion and facing the connection portion. The method according to claim 4, And the connection part is formed such that the center of the second curvature of the outer diameter part is biased toward the connecting part more than the center of the first curvature of the inner diameter part. The method according to claim 5, And the width of the distal portion is smaller than the width of the proximal portion. The method according to claim 1, The base motor is characterized in that the groove is formed in a shape corresponding to the outer shape of the connection portion to be coupled to the FPC. The method of claim 7, The groove of the spindle motor, characterized in that the adhesive is applied to the upper portion of the connecting portion. The method according to claim 1, And the solder part is formed to be close to the inner diameter part of the connection part. The method according to claim 1, And said inner diameter part and said outer diameter part are circular arcs. The method according to claim 1, The inner diameter portion and the outer diameter portion of the spindle motor, characterized in that made of a plurality of straight lines.

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