KR100586977B1 - A connection structure of spindle motor for optical disk driver - Google Patents

Abstract

An optical disk drive provides a connection structure of a spindle motor for rotating an optical recording medium.

The spindle motor connection structure may include a circuit board on which the spindle motor is mounted; Connecting means formed on the circuit board; And an FPC soldered to the connecting means.

According to the present invention, the soldering of the circuit board and the FPC without using the connector when the spindle motor is connected can prevent the connection failure caused by the connector even when the recording density of the optical disc is increased.

Spindle Motor, Circuit Board, FPC, Conductive Pattern, Pin

Description

A connection structure of spindle motor for optical disk driver             

1 is a perspective view of a general optical disc drive.

Figure 2 is a connection state diagram of a spindle motor according to the prior art.

3 is a connection state diagram showing a state in which the spindle motor is connected by the connection structure of the spindle motor according to the present invention.

4 is a perspective view showing a preferred embodiment of the connection structure of the spindle motor according to the present invention.

5 is a perspective view showing another preferred embodiment of the connection structure of the spindle motor according to the present invention.

FIG. 6 illustrates a modified embodiment of FIG. 4.

(a) is a perspective view,

(b) is sectional drawing.

FIG. 7 illustrates a modified embodiment of FIG. 5.

(a) is a perspective view,

(b) is sectional drawing.

Explanation of symbols on the main parts of the drawings

12 ..... circuit board 12a ..... end

18 ..... FPC 18a .....

18b ..... Connections 30 ..... Connections

The present invention relates to a connection structure of a spindle motor for rotating an optical recording medium in an optical disk drive. More particularly, the present invention relates to a spindle motor improved by preventing a connection failure by a connector and improving its coupling force by not using a connector. It relates to a connection structure.

In general, an optical disk drive mounted in a computer or the like is a device used for recording information on an optical disk such as a compact disk (CD) or a digital video disk (DVD), which is an optical recording medium, or for reading the information stored in the optical disk.

The optical disc has a recording surface composed of a plurality of concentric tracks on one side thereof, wherein the optical disc drive rotates the optical disc to store information on or read information from the recording surface of the optical disc. It is composed.

1 shows a conventional optical disc drive 100. The optical disc drive 100 is configured such that the tray 104 on which the optical disc is seated slides and is inserted into the main body 102.

The tray 104 is provided with a spindle motor 106 for rotating the optical disc (not shown) and an optical pick-up 108 for reading information from the recording surface of the optical disc. At this time, the optical pickup 108 is configured to be transferred in the radial direction of the optical disk by a sled motor (not shown).

Accordingly, the optical pickup 108 is configured to record information or to read information stored in the optical disk by irradiating a laser beam to the recording surface of the optical disk which is transferred in the radial direction of the optical disk and rotated by the spindle motor 106.

Meanwhile, the spindle motor 106 and the optical pickup 108 constituting the optical disk drive 100 are electrically connected to the main controller substrate 130 of the computer and driven to transmit information.

As shown in FIG. 2, the spindle motor 106 is mounted on the circuit board 112 and installed in the tray (not shown). The circuit board 112 is a flexible printed circuit (FPC) that is a connection terminal. 114 is electrically connected to the main control board 130, the optical pickup 108, a sled motor (not shown), and the like.

That is, the circuit board 112 is configured to act as an intermediary for the interface between the main control board 130 and the optical pickup 108 or a sled motor (not shown), so that the circuit board 112 is The spindle motor 106 is electrically connected to the main controller 130 and the optical pickup 108 or a sled motor (not shown).

At this time, the FPC 114 has a connector 116 connected to the front end thereof. The connector 116 is coupled to the terminal portion 118 formed on the circuit board 112 and the main control board 130, so that the circuit board 112 is connected to the main control board 130 and the optical pickup by the FPC 114. 108) to be electrically connected to the lamp.

On the other hand, when the connector 116 is used as described above, the electrical connection between the circuit board 112 on which the spindle motor 106 is mounted and the main control board 130 or the optical pickup 108 is easily removable. Can be implemented.

However, the connection structure of the conventional spindle motor using the connector 116 as described above has the following problems.

As shown in FIG. 2, a terminal portion 118 is formed on the circuit board 112 and the main control substrate 130 on which the spindle motor 106 is mounted, and the terminal portion 118 is formed of the FPC 114. The connectors 116 respectively fixed to the front end are coupled.

In this case, the connector 116 is provided with a plurality of pins 116a and the plurality of pins 116a are inserted into the terminal unit 118 so that the circuit board 112, the main control board 116, and the optical pickup ( 108) are electrically connected.

On the other hand, as the recording density of the optical disc increases, the connector 116 needs to have more pins 116a. In general, the above-described pins 116a are arranged in the connector 116 with a pitch of 0.5 mm or 1.0 mm, and the number thereof is provided as small as 4 to as many as 50.

The optical disc drive 100 is a unit that does not need to be attached to or detached from a computer, or the FPC 114 when the circuit board 112 and the main control board 130 or the optical pickup 108 are connected by the FPC 114. Both ends of the connector are detachably connected by the connector 116 as described above.

On the other hand, as the recording density of the optical disc is gradually increased, the connector 116 needs more and more pins 116a. At this time, since it is difficult to increase the size of the connector 116 due to the spatial constraints on the circuit board 112 described above, the pin 116a is installed in the connector 116 to achieve a smaller pitch.

As the pitch of the pin 116a becomes fine as described above, the positional accuracy of the pin 116a in the connector 116 must be gradually increased for electrical connection. However, since the connector 116 and the terminal portion 118 are currently formed of a synthetic resin material by injection, there are many difficulties in improving the position accuracy.

In addition, as the pitch of the pins 106a becomes finer, there is a problem in that defects due to disconnection or short circuit frequently occur during soldering for electrical connection between the pins 116a and the connector 116. .

In addition, there is a problem that the connector 116 is frequently separated from the terminal portion 118.

The present invention is to solve the above-mentioned conventional problems, and when the spindle motor is connected to the main control board by soldering the FPC directly on the circuit board to improve the improved poor connection rate by the connector to improve the coupling force The purpose is to provide a connection structure of the spindle motor.

In order to achieve the above object, the present invention, in the spindle motor connection structure of the optical disk drive, the circuit board on which the spindle motor is mounted; Connecting means formed on the circuit board; And a FPC soldered to the connecting means.

Preferably, the connection means may be a conductive pattern formed on the circuit board.

In addition, the connection means may be a conductive pin fixed to the circuit board, wherein the front end portion of the FPC may be formed with a connection port (pin) into which the pin is inserted.

Preferably, the connecting means may be formed at an end formed on the circuit board, and further comprising a cover attached to one side of the circuit board, the FPC is to be interposed between the circuit board and the cover. It may be.

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

3 is a connection state diagram showing a state in which the spindle motor is connected by the connection structure of the spindle motor according to the present invention, Figure 4 is a perspective view showing a preferred embodiment of the connection structure of the spindle motor according to the present invention, 5 is a perspective view showing another preferred embodiment of the connection structure of the spindle motor according to the present invention.

And, Figure 6 shows a modified embodiment of Figure 4, (a) is a perspective view, (b) is a sectional view, Figure 7 shows a modified embodiment of Figure 5, (a) is a perspective view, ( b) is a cross-sectional view.

As shown in FIG. 3, the optical disc drive includes a spindle motor 14, an optical pickup 16 and a sled motor (not shown). In this case, the spindle motor 14 is mounted on the circuit board 12, and is configured to be electrically connected to the main control board 22, the optical pickup 16, and a sled motor (not shown).

Accordingly, the spindle motor 14 is electrically connected to the main controller 22, the optical pickup 16, the sled motor (not shown), and the like through the circuit board 12.

On the other hand, the connection structure of the spindle motor for the optical disk driver according to the present invention is for the structure for connecting the circuit board 12 to the main control board 22, the optical pickup 16, etc., the circuit board 12, the connecting means 30 and FPC 18 are included.

That is, the spindle motor 14 is mounted on the circuit board 12. At this time, the connecting means 30 is formed at a predetermined position on the circuit board 12. An FPC 18 is connected to the connecting means 30, and a connecting portion 18a fixed to the connecting means 30 by soldering is formed at the front end of the FPC 18.

Therefore, the connection structure of the spindle motor for an optical disk driver according to the present invention forms the connection means 30 on the circuit board 12 on which the spindle motor 14 is mounted without using a connector having a plurality of pins. It is configured to solder directly to the connecting means.

In this case, as shown in FIG. 4, the connection means 30 may be a conductive pattern formed at a predetermined portion on the circuit board 12. That is, since the connecting portion 18a formed at the front end of the FPC 18 is fixed to the conductive pattern as the connecting means 30 by soldering, the silver spindle motor 14 is connected to the main controller substrate 22 and the optical pickup. 16).

On the other hand, as shown in Figure 5, the connecting means 30 may be a conductive pin fixed to a predetermined portion on the circuit board 12. In this case, a plurality of connection holes 18b may be formed in the connection portion 18a formed at the front end of the FPC 18 so that the pins are inserted and electrically connected to each other.

Therefore, the connection port 18b formed in the connection portion 18a is soldered after the conductive pin, which is the connection means 30 fixed on the circuit board 12, is inserted into the main board ( 22) and optical pickup 16.

On the other hand, as shown in Figure 6a, the circuit board 12 may have an end portion 12a formed on the surface. In this case, a conductive pattern which is a connection means 30 may be formed at the end portion 12a.

Therefore, the connection portion 18a of the FPC 18 may be fixed by soldering to the conductive pattern formed at the end portion 12a.

In addition, as shown in FIG. 6B, a cover 19 is attached to an upper surface of the FPC 18 that is electrically connected to the conductive pattern formed at the end 12a of the circuit board 12. The FPC 18 may be interposed between the covers 19.

In this case, the cover 19 increases the bonding force between the circuit board 12 and the FPC 18 and serves to protect the soldered portion of the FPC 18.

Meanwhile, as shown in FIG. 7A, a conductive pin may be applied to the end portion 12a formed on the circuit board 12 as the connection means 30. That is, as described above, a plurality of connection holes 18b may be formed in the connection portion 18a formed at the front end of the FPC 18 so that the pins are inserted and electrically connected to each other.

In this case, as shown in FIG. 7B, when the pin is inserted into the connector 18b, the pin may have a length that does not protrude from a portion where the end portion 12a of the circuit board 12 is not formed. It may be electrically connected by solder flowing into 18b.

In addition, a cover 19 is attached to the upper surface of the FPC 18 electrically connected to the conductive pin formed at the end 12a of the circuit board 12, so that the circuit board 12 and the cover 19 are attached. The FPC 18 may be interposed therebetween.

In this case, the cover 19 increases the bonding force between the circuit board 12 and the FPC 18 and serves to protect the soldered portion of the FPC 18.

The cover described above may preferably be an adhesive tape.

The connection structure of the pins motor according to the present invention configured as described above does not use the connector as shown in FIG. 3 for the electrical connection of the part that does not need to be detached from the optical disc drive, such as disconnection or short circuit generated by the connector. The problem can be prevented.

In addition, even when the recording density of the optical disc increases, the spindle motor, the main control board or the optical pickup can be electrically connected easily by using the surface mount technology by FPC so as not to cause a short circuit or short circuit. This is because the terminal portion formed on the circuit board 12 or the connecting portion formed at the tip of the FPC is formed in such a manner that the pattern of the circuit board or FPC is formed, so that there is no fear that a defect due to the positional accuracy will occur.

In addition, since the circuit board and the FPC are electrically connected by soldering, the bonding force can be improved, and by attaching a cover such as a tape, the bonding force between the circuit board and the FPC can be further increased.

According to the present invention as described above, by connecting the circuit board and the FPC by soldering without using a connector when connecting the spindle motor, even if the recording density of the optical disk increases, it is possible to obtain the effect of preventing the connection failure by the connector have.

In addition, since the circuit board and the FPC are electrically connected by soldering, the bonding force can be improved, and by attaching a cover, the bonding force between the circuit board and the FPC can be further increased.

While the invention has been shown and described in connection with specific embodiments, it is to be understood that various changes and modifications can be made in the art without departing from the spirit or the scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (6)

In the spindle motor connection structure of the optical disk drive, A circuit board on which the spindle motor is mounted and whose end is formed on a surface; Connecting means formed at an end of the circuit board; And And a FPC soldered to the connecting means. The connection structure of a spindle motor for an optical disc driver according to claim 1, wherein the connection means is a conductive pattern formed on the circuit board. The connection structure of a spindle motor for an optical disc driver according to claim 1, wherein the connecting means is a conductive pin fixed to the circuit board. delete 4. The connection structure of a spindle motor for an optical disc driver according to claim 3, wherein a connection port into which the pin is inserted is formed at a tip end of the FPC. 2. The connection structure of a spindle motor for an optical disc driver according to claim 1, further comprising a cover attached to one side of the circuit board such that the FPC is interposed between the circuit board and the cover.

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