JP2008130127A - Disk device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a disk device that has a simple configuration, can be manufactured easily, and can process information appropriately. <P>SOLUTION: A positioning hole 147 for positioning with a locking rib of a tray section 120, and a mount insertion hole 148 of arc long hole shape where a mount screw for screwing to the tray section 120 with the positioning section as a center are provided on a circuit board 140 where a flexible board 150 integrally connected to a movable information processing section 240 is connected. The insertion connection work between the terminal section of the flexible board 150 and a connector 146 is performed easily without twisting the flexible board 150 by rotating the circuit board 140 around the positioning hole 147 as a center. With a simple configuration for forming the mount insertion hole 148 of an arc long hole shape for inserting a mount screw, the flexible board 150 can be connected easily and appropriately without twisting, manufacturing properties are improved, and the information processing section 240 can be moved stably. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a disk device that processes information in an information processing unit that holds and moves a disk-shaped recording medium.

2. Description of the Related Art Conventionally, a disk device that performs information processing for recording various data on a disk-shaped recording medium, for example, an optical disk such as a CD (Compact Disc) and a DVD (Digital Versatile Disc), and reading the recorded various data. Generally known.
In this conventional general disk device, information processing is performed by an information processing unit in which an optical pickup that moves in a substantially radial direction of an optical disk is mounted on a recording surface of an optical disk that is rotatably supported by a turntable. The optical pickup is connected by a circuit board that controls the entire disk device and a flexible belt-like flexible board, and is controlled by a control circuit mounted on the circuit board to perform information processing.

However, if an appropriate connection state between the circuit board and the moving information processing unit and the flexible substrate cannot be obtained, the strip-shaped flexible substrate becomes twisted, and the information processing unit is stably moved by the restoring force of the flexible substrate against the twist. As an example, there may be a problem that there is a risk that the substrate cannot be obtained or the flexible substrate is damaged.
Also, when using a connector to connect a flexible board, the connection work is complicated due to dimensional tolerances such as the mounting orientation of the connector being shifted or the direction of the portion connected to the connector of the flexible board being shifted. An example of a problem that may be

  In view of such circumstances, it is an object of the present invention to provide a disk device that can be easily manufactured with a simple configuration and can obtain appropriate information processing.

  According to the first aspect of the present invention, there is provided a housing, a holding means for detachably holding a disk-shaped recording medium disposed in the housing and having a hole in the center thereof, and a contact and separation direction for the holding means. An information processing unit that performs at least one of information processing among a recording process that is movably disposed in the casing and records information on the recording medium and a reading process that reads information recorded on the recording medium; A circuit board mounted in the casing and mounted with a control circuit for performing the information processing, and electrically and mechanically connected between the circuit board and the information processing unit, and having flexibility. And a strip-shaped flexible substrate formed by printing a conductive pattern on the resin film, wherein the flexible substrate extends along the moving direction of the information processing unit. Connected to the circuit board in a direction intersecting the moving direction of the information processing unit, and the circuit board is provided in the housing. A plurality of attachment insertions that are inserted and fixed by an engagement part that is positioned and engaged with the engagement part, and an attachment member that is formed in an arc shape with the engagement part as a center and is attached to the housing. And a hole.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a plan view schematically showing the inside of a disk device according to an embodiment of the present invention. FIG. 2 is a plan view showing the inside of the disk device in a state where the tray portion of the disk device is pulled out. FIG. 3 is a plan view showing the back side of the tray portion. FIG. 4 is a plan view showing the information processing unit.

[Disk device configuration]
1 to 3, reference numeral 100 denotes a disk device according to an embodiment of the present invention. The disk device 100 is a slim disk device (or slim disk drive) having a so-called self-chuck mechanism that is mounted on a portable electric device such as a notebook personal computer or an electric device mounted on a vehicle. It is called.
The disk device 100 performs at least one of reading processing for reading information recorded on a recording surface provided on at least one surface of a disk-shaped recording medium (not shown) and recording processing for recording various information on the recording surface. To do. Here, as the disc-shaped recording medium, for example, an optical disc such as CD (Compact Disc), DVD (Digital Versatile Disc), BD (Blu-ray Disc) or HD-DVD (High Definition DVD), Various configurations such as a magneto-optical disk, a magnetic disk, or a composite disk in which these are bonded can be exemplified.
The disk device 100 includes a substantially rectangular box-shaped case body 110 that constitutes a housing made of, for example, metal and having an internal space and an insertion / extraction opening (not shown) provided on one side surface. Further, in the case body 110, a tray unit 120 constituting a housing, a transport unit 130 that moves the tray unit 120 forward and backward through the opening of the case body 110, and a control circuit that controls the operation of the entire disk device 100. And a circuit board 140 on which is mounted.

The tray unit 120 includes a tray 121 and a decorative plate 122.
The tray 121 is formed in a substantially plate shape using, for example, a synthetic resin. The tray 121 has a mounting opening 121 </ b> A formed substantially at the center.
The decorative plate 122 is provided on one edge of the tray 121 and is formed in an elongated plate shape with a synthetic resin or the like that closes the opening of the case body 110 while being retracted into the case body 110 by the conveying means 130. .
The tray unit 120 is provided with a traverse mechanism 200 as a disk processing unit with a part thereof facing the mounting opening 121A of the tray 121.

The conveying means 130 includes a guide rail 131 disposed in the case body 110, an urging means (not shown), an urging release means (not shown), and the like.
The guide rail 131 is disposed along the advancing / retreating direction through the opening of the tray unit 120 and guides the advancing / retreating movement of the tray unit 120.
The urging means is, for example, a spring member and is elastically deformed in a state where the tray portion 120 is retracted into the case body 110, and a restoring force due to the elastic deformation is applied to the state where the tray portion 120 advances through the opening.
The urging release means engages with an engagement / disengagement means (not shown) provided in the tray portion 120 in a state where the tray portion 120 is retracted into the case body 110 and the decorative plate 122 closes the opening. Then, the bias release means releases the engagement state of the engagement / disengagement means in response to a request for advancement of the tray unit 120, such as an operation of an eject button disposed on the decorative plate 122, for example.

The traverse mechanism 200 disposed in the tray portion 120 includes a pedestal portion 210 that is formed in a longitudinal and substantially hexagonal frame shape.
The pedestal portion 210 is provided with a disk rotation driving means 220 located in the vicinity of the peripheral edge on one end side in the longitudinal direction.
The pedestal portion 210 has a disk rotation driving means 220, which is one end in the longitudinal direction, positioned substantially in the center of the case body 110, and the other end is located at one corner of the case body 110, for example, one end side of the decorative plate 122. It is arranged in a position.

The disk rotation driving means 220 includes a rotation electric motor (not shown) which is a spindle motor, and a turntable 221 as a substantially disk-shaped holding means provided integrally with the output shaft of the rotation electric motor. Yes.
The turntable 221 includes a substantially cylindrical shaft support portion 221A, and a flange portion 221B that protrudes integrally from the one end portion in the axial direction of the shaft support portion 221A toward the outside. The shaft support 221 </ b> A is formed to have an outer diameter that is substantially the same as or slightly smaller than the inner diameter of the mounting hole formed at a substantially central position of the optical disc. Further, a non-slip portion 221C, which is a member having a relatively large friction coefficient, such as rubber, is provided in a substantially annular shape on the surface of the flange portion 221B from which the shaft support portion 221A protrudes. The non-slip portion 221C is not limited to an annular shape, and various forms and materials that prevent slipping by contacting an optical disk, such as arranging a plurality of rubbers in an annular shape, can be used.
Further, the shaft support portion 221A of the turntable 221 is provided with a disk engagement / disengagement claw portion (not shown) capable of moving forward and backward from the outer peripheral surface of the shaft support portion 221A and engaging / disengaging the mounting hole of the optical disk. For example, three of these disk engagement / disengagement claw portions are arranged at positions that are roughly divided into three parts in the circumferential direction of the shaft support portion 221A. The number is not limited to three, and a plurality of them may be provided.
The turntable 221 holds the optical disk rotatably by engaging the optical disk mounting hole with the disk engaging / disengaging claw portion.
Further, the disk rotation driving means 220 is electrically connected to the control circuit unit of the circuit board 140 and driven based on a predetermined signal input from the control circuit unit. That is, when a predetermined signal is input from the control circuit unit, the rotating electric motor is driven to rotate the turntable 221, and the optical disc mounted on the rotating turntable 221 is also rotated.

The pedestal part 210 is provided with a processing moving means 230.
As shown in FIG. 3, the processing moving unit 230 includes a pair of guide shafts 231 that are substantially parallel in the longitudinal direction to the pedestal part 210 with the axial direction being substantially parallel, and a moving electric motor 232 that is a stepping motor, for example. And.
A lead screw having a helical engagement groove (not shown) on the outer peripheral surface is integrally and coaxially connected to an output shaft (not shown) of the electric motor 232 for movement.

Further, as shown in FIGS. 1 to 3, the pedestal unit 210 is provided with an information processing unit 240 supported by the processing moving means 230.
The information processing unit 240 includes a movement holding unit 241 that is held in a state of being bridged between a pair of guide shafts. The movement holding portion 241 includes a holding portion (not shown) in which the guide shaft is movably inserted, and a movement restriction claw portion (not shown) that engages with the engagement groove of the lead screw connected to the output shaft of the electric motor for movement. And. The information processing unit 240 is electrically connected to the control circuit unit by a flexible circuit (not shown), for example.
The information processing unit 240 includes an optical pickup 250 having a light source (not shown), a lens 251 for converging light from the light source, and an optical sensor (not shown) for detecting outgoing light reflected by the optical disk. . The optical pickup 250 is electrically connected to a flexible board 150 (see FIG. 3) that is electrically and mechanically connected to the information processing unit 240, and is connected to a control circuit of the circuit board 140 via the flexible board 150. Has been. Then, the optical pickup 250 reads various information recorded on the recording surface of the optical disc under the control of the control circuit and outputs the information to the output circuit unit, and various information from the control circuit unit on the recording surface. The recording process which is the information processing to be recorded in is performed.

The flexible substrate 150 is formed in a substantially longitudinal belt shape by printing a conductive pattern on a flexible resin film.
The flexible substrate 150 is integrally provided with the information processing unit 240 at one end in the longitudinal direction. Specifically, as shown in FIG. 4, the flexible substrate 150 is provided in a state of extending in the moving direction of the information processing unit 240 disposed in the pedestal unit 210.
Further, a terminal portion 151 connected to the circuit board 140 is provided at the other end portion in the longitudinal direction of the flexible substrate 150, as will be described in detail later. The terminal unit 151 includes a plurality of terminals (not shown) arranged substantially along the extending direction of the flexible substrate 150 from the information processing unit 240.
The intermediate portion of the flexible substrate 150 is bent so that the other end is folded, and the terminal portion 151 is connected to the circuit substrate 140.

Further, as shown in FIGS. 1 to 3, a TM cover member 300 as a cover member is provided on the upper surface side of the pedestal portion 210.
The TM cover member 300 is formed of a light metal such as aluminum, for example, and covers the electric motor for rotation of the disk rotation driving unit 220 of the traverse mechanism 200, the processing moving unit 230, a part of the information processing unit 240, and the flexible substrate 150. The pedestal 210 is fixed to the state. The TM cover member 300 prevents the flexible substrate 150 from protruding toward the optical disk, the optical disk from contacting the information processing unit 240, and the like.
The TM cover member 300 is provided with a processing opening 301 along the movement path of the optical pickup 250 of the information processing unit 240, that is, along the radial direction of the turntable 221. Through this processing opening 301, the lens 251 of the optical pickup 250 faces the recording surface of the optical disc, and light of a predetermined wavelength can be emitted to the recording surface.

The circuit board 140 is a printed circuit board on which electrical components constituting various circuits are mounted. As shown in FIG. 3, the circuit board 140 is located on the rear side of the tray unit 120 on the base end side with respect to the case body 110 where the traverse mechanism 200 is not located. Arranged.
Specifically, the circuit board 140 has a rectangular portion 141 and an inclined portion 142 that protrudes in series from one edge of the rectangular portion 141 and narrows according to the tip. The inclined portion corresponds to the remaining region due to the traverse mechanism 200 being disposed on the tray 121 in a state that intersects the advancing and retreating direction of the tray portion 120 with respect to the case body 110 and is substantially parallel to the moving direction of the information processing portion 240. That is, the traverse mechanism 200 is formed in a shape having an inclined edge 142A that is substantially parallel to one edge in the longitudinal direction.

In the rectangular portion 141 of the circuit board 140, a cable such as a flexible cable (not shown) is provided by the disk rotation driving means 220 at a position close to the disk rotation driving means 220 of the traverse mechanism 200 disposed in the tray section 120. A motor connector 145 that is connected via the cable is disposed.
A connector 146 to which the terminal portion 151 of the flexible substrate 150 is connected is mounted on the inclined portion 142 of the circuit board 140. The connector 146 includes a plurality of electrodes 146A that are terminals corresponding to the plurality of terminals of the terminal portion 151, and is arranged in a state where the arrangement direction of the electrodes 146A is substantially parallel to the inclined edge 142A of the inclined portion 142. . The connector 146 is open toward the traverse mechanism 200 side, and the terminal portion 151 of the flexible board 150 is disposed so as to be inserted and connected substantially along the plane direction of the circuit board 140.

Further, the circuit board 140 is provided with a positioning hole 147 as an engaging portion that is inserted and positioned by a locking rib (not shown) provided in the tray portion 120 as a locking portion (not shown). The circuit board 140 is rotatable in a state where the locking rib and the positioning hole 147 are engaged. Here, the positioning hole 147 is provided on a substantially extended line in the arrangement direction of the electrodes 146A of the connector 146. That is, it is a position where the opening direction of the connector 146 can be efficiently changed by the rotation of the circuit board 140.
The positioning hole 147 may be a position closest to the extension line in the arrangement direction of the electrode 146A depending on the mounted electrical component, control circuit configuration, and the like. Moreover, the structure formed in substantially cylindrical shape as a latching rib is preferable. Further, in the present invention, the description has been given of the rib shape as the locking portion and the hole shape as the engaging portion. However, for example, the locking portion may be the hole shape and the engaging portion may be the rib shape.
Further, the circuit board 140 is provided with a mounting insertion hole 148 through which a mounting screw (not shown) for mounting and fixing the circuit board 140 to the tray portion 120 is inserted. The mounting insertion hole 148 is formed as an arc-shaped long hole with the positioning hole 147 as the center, and the circuit board 140 is positioned and fixed by screwing the mounting screw to the tray portion 120.

[Disk unit operation]
Next, the operation of the disk device will be described. As an operation, an assembly operation will be described.

A traverse mechanism 200 having a disk rotation driving unit 220 and an information processing unit 240 assembled in advance is attached to the tray unit 120.
Further, the positioning rib 147 of the circuit board 140 is inserted into the positioning hole 147 so as to be positioned. In this state, the flexible substrate 150 extending from the information processing unit 240 of the traverse mechanism 200 is bent so as to be folded, and the terminal portion 151 is connected to the connector 146 of the circuit substrate 140.
At the time of this connection, the circuit board 140 is rotated around the locking rib so that the terminal portion 151 is smoothly connected to the connector 146 so that the flexible board 150 is not twisted. Then, at a position where the flexible substrate 150 can be connected to the connector 146 without being twisted, an attachment screw is screwed to the tray portion 120 and the circuit board 140 is positioned and fixed to the tray portion 120 and attached. Thereafter, the flexible substrate 150 is connected to the connector 146.
Then, the disk unit 100 is assembled by assembling the tray unit 120 to the case body 110.

[Effects of disk unit]
As described above, in the above-described embodiment, the positioning hole 147 that is positioned on the locking rib of the tray unit 120 is provided in the circuit board 140 to which the flexible substrate 150 that is integrally connected to the moving information processing unit 240 is connected. An attachment insertion hole 148 through which an attachment screw screwed to the tray portion 120 is inserted in the shape of an arc long hole centered on the positioning portion.
For this reason, for example, a dimensional tolerance in a direction extending from the information processing unit 240 of the flexible board 150, a dimensional tolerance in an opening direction of the connector 146 of the circuit board 140 to which the terminal part 151 of the flexible board 150 is connected, and a screw hole Even if there is a dimensional tolerance of the position of the circuit board 140, the circuit board 140 is rotated about the positioning hole 147 by inserting and connecting the terminal portion 151 of the flexible board 150 and the connector 146 without twisting the flexible board 150. This can be done easily. Therefore, with a simple configuration in which the mounting insertion hole 148 for inserting the mounting screw is formed in a circular arc long hole shape, the flexible substrate 150 can be appropriately connected without being twisted, and the assembly workability can be improved and the productivity can be improved. In addition, stable movement of the information processing unit 240 is obtained, and good information processing is obtained.

The turntable 221 is disposed at one end in the longitudinal direction of the longitudinal frame-shaped pedestal 210, and the information processing unit 240 is disposed so as to be movable along the longitudinal direction of the pedestal 210 so that the traverse mechanism 200 is provided. The traverse mechanism 200 is arranged obliquely so that the turntable 221 is positioned substantially at the center of the case body 110 and the other end side of the pedestal portion 210 is positioned at one corner of the tray portion 120. And the circuit board 140 is arrange | positioned located in the base end side used as the other area | region of the tray part 120 with respect to the case body 110 in which the traverse mechanism 200 is not located. That is, the circuit board 140 has a rectangular portion 141 corresponding to the arrangement position of the traverse mechanism 200, and specifically, an inclined portion 142 that protrudes continuously from one edge of the rectangular portion 141 and becomes narrower according to the tip. It is formed in a shape corresponding to an area other than the position where the traverse mechanism 200 is disposed.
Therefore, the motor connector 145 for connection to the disk rotation driving means 220 is mounted on the rectangular portion 141 of the circuit board 140 close to the disk rotation driving means 220, and the flexible board 150 extending from the information processing section 240 The connector 146 for connection of the circuit board 140 can be mounted on the inclined portion 142 of the circuit board 140 at an adjacent position having an inclined edge along the moving direction of the information processing section. Therefore, the flexible cable for connection and the flexible substrate 150 can be made to the minimum length, and the assembly workability can also be improved. Further, since the connector 146 is arranged in a state intersecting, that is, orthogonal to, the moving direction of the information processing unit 240, if the connector 146 is arranged in a state in which the electrodes 146A are arranged along the inclined edge 142A. In addition, the manufacturability of the circuit board 140 can be improved. In addition, the effective area of the case body 110 can be efficiently formed on the circuit board 140, and the disk device 100 can be downsized.

Further, by mounting the connector 146, the connection workability between the flexible board 150 and the circuit board 140 can be improved.
Furthermore, the connector 146 is disposed in a state where the connector 146 opens toward the traverse mechanism 200 and the terminal portion 151 of the flexible substrate 150 is inserted and connected.
For this reason, for example, the disk device 100 can be made thinner than a configuration in which the circuit board 140 is opened substantially along the thickness direction, and is particularly effective for portable electric devices such as notebook computers. It is.

A positioning hole 147 is provided in a state substantially positioned on the extension line in the arrangement direction of the electrodes 146A of the connector 146, that is, a position close to the extension line in the arrangement direction.
For this reason, the opening direction of the connector 146 by the rotation of the circuit board 140 can be efficiently changed, and an appropriate connection state of the flexible board 150 can be easily obtained by fine adjustment of the arrangement position of the circuit board 140.

[Modification of Embodiment]
Note that the present invention is not limited to the above-described embodiment, and includes the following modifications as long as the object of the present invention can be achieved.

  That is, the disk device of the present invention has been described by taking a so-called slim drive type as an example, but can be applied to various types of disk devices 100 such as a tray type in which the traverse mechanism 200 is not disposed on the tray. Further, the present invention can be applied to various electric devices such as an installation type recording / reproducing apparatus, a recording apparatus, a reproducing apparatus, an installation type or a portable personal computer, a navigation apparatus, and a disk camera recorder.

Further, although the connector 146 is disposed in a state in which the flexible substrate 150 is opened so that it can be inserted in a direction orthogonal to the moving direction of the information processing unit 240, the connector 146 is not limited to the orthogonal direction. You may arrange | position in the state which opens substantially along the direction which cross | intersects a moving direction, or a moving direction. In this case, in a state where the flexible substrate 150 is bent so as to be folded back, the terminal portion 151 faces in the insertion direction as the opening direction, that is, the same angle as the angle formed by the moving direction of the information processing unit 240 and the opening direction. The flexible substrate 150 may be formed so that the terminal portion 151 protrudes.
The connector 146 may be omitted, and the terminal portion 151 may be directly connected to the circuit board 140, for example, by soldering.
Furthermore, although the flexible substrate 150 is provided integrally with the information processing unit 240, for example, a configuration may be employed in which the information processing unit 240 is provided with a connector or the like.

The circuit board 140 has been described as having a different shape having the rectangular portion 141 and the inclined portion 142. For example, the circuit board 140 does not have the inclined portion 142 and is formed in a simple shape having only the rectangular portion 141. A connector 146 may be provided. That is, as described above, the information processing unit 240 may be disposed in a positional relationship that intersects the moving direction.
Further, although the traverse mechanism 200 is disposed in a state where the longitudinal direction intersects the advancing / retreating direction of the tray unit 120 with respect to the case body 110, for example, the longitudinal direction, that is, the moving direction of the information processing unit 240 is disposed in any direction. May be. In other words, the present invention can be applied to any form in which the traverse mechanism 200 is appropriately arranged in accordance with the design, such as the transport path of the optical disc, the transport structure, and the relationship between information processing positions. In addition, although the traverse mechanism 200 is provided in the tray unit 120, in a configuration that does not include the tray unit 120, for example, a configuration that includes a roller or an arm that conveys an optical disk, the traverse mechanism 200 is provided in the case body 110 together with the circuit board 140. Applicable to configuration.
Furthermore, the present invention is not limited to the configuration in which the traverse mechanism 200 is provided with an integral configuration, and can be applied to, for example, a configuration in which the disk rotation driving unit 220 and the information processing unit 240 are separately provided in the case body 110. .

As shown in FIG. 3, the positioning hole 147 and the mounting insertion hole 148 have been described by being provided at the corners of the circuit board 140. Can be provided.
Furthermore, although three mounting insertion holes 148 have been described, the mounting insertion holes 148 are not limited to three, and may be provided at one or a plurality of locations.

  In addition, the specific structure and procedure for carrying out the present invention can be appropriately changed to other structures and the like within a range in which the object of the present invention can be achieved.

[Effect of the embodiment]
As described above, the circuit board 140 to which the flexible board 150 that is integrally connected to the moving information processing section 240 is connected, the positioning hole 147 that is positioned on the locking rib of the tray section 120, and the positioning section as a center. And a mounting insertion hole 148 through which a mounting screw screwed to the tray portion 120 is inserted.
For this reason, for example, a dimensional tolerance in a direction extending from the information processing unit 240 of the flexible board 150, a dimensional tolerance in an opening direction of the connector 146 of the circuit board 140 to which the terminal part 151 of the flexible board 150 is connected, and a screw hole Even if there is a dimensional tolerance of the position of the circuit board 140, the circuit board 140 is rotated about the positioning hole 147 by inserting and connecting the terminal portion 151 of the flexible board 150 and the connector 146 without twisting the flexible board 150. This can be done easily. Therefore, with a simple configuration in which the mounting insertion hole 148 for inserting the mounting screw is formed in a circular arc long hole shape, the flexible substrate 150 can be appropriately connected without being twisted, and the assembly workability can be improved and the productivity can be improved. In addition, stable movement of the information processing unit 240 is obtained, and good information processing is obtained.

It is a top view which shows the outline inside the disc apparatus which concerns on one Embodiment of this invention. FIG. 3 is a plan view showing the inside of the disk device in a state where the tray portion of the disk device in the embodiment is pulled out. It is a top view which shows the back side of the tray part in the said one Embodiment. It is a top view which shows the information processing part in the said embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 ... Disk apparatus 110 ... Case body which comprises a housing | casing 120 ... Tray part which comprises a housing | casing 140 ... Circuit board 146 ... Connector 146A ... Electrode which is a terminal 147 ... Positioning hole as an engaging part 148 …… Mounting insertion hole 150 …… Flexible substrate 151 …… Terminal part 221 …… Turntable as holding means 240 …… Information processing part

Claims (4)

A casing, a holding means that is detachably held in the casing and has a hole in the center thereof, and a holding means that can be attached and detached. An information processing unit that performs at least one of a recording process for recording information on the recording medium and a reading process for reading information recorded on the recording medium; A conductive circuit pattern is printed on a flexible resin film that is electrically and mechanically connected between a circuit board on which a control circuit for controlling information processing is mounted, and the circuit board and the information processing unit. A disk-shaped flexible board formed by
The flexible substrate is connected to a state extending from the information processing unit along the moving direction of the information processing unit, and the intermediate portion is folded back and intersects the moving direction of the information processing unit. Connected to the circuit board,
The circuit board includes an engaging portion that is positioned and engaged with a locking portion provided in the housing, and an attachment member that is formed in an arc shape with the engaging portion as a center and is attached to the housing. A disk device comprising: a plurality of mounting insertion holes through which are inserted and fixed. The disk device according to claim 1,
The holding means is disposed at one end in the longitudinal direction of a pedestal having a longitudinal frame shape disposed in the casing,
The information processing unit is arranged to be movable along the longitudinal direction on the pedestal unit,
The pedestal portion is disposed in a state where the holding means is positioned at a substantially center of the casing and the other end side in the longitudinal direction is positioned at a peripheral edge of the casing.
The disk device according to claim 1, wherein the circuit board is disposed in an area where the pedestal portion is not located in the housing. The disk device according to claim 1 or 2, wherein
The flexible substrate has one end in the longitudinal direction connected to the information processing unit, and a plurality of terminals arranged in a direction intersecting the longitudinal direction at the other end in the longitudinal direction and connected to the circuit board Have
The disk device, wherein the circuit board includes a connector having a terminal arranged substantially along a moving direction of the information processing unit and connected to a terminal portion of the flexible substrate. The disk device according to claim 3,
The disk device according to claim 1, wherein the engagement portion is provided on a substantially extended line in an arrangement direction in which terminals of the connector are arranged.

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