JP6709402B2 - Electronics - Google Patents

Description

The present invention, as a means for storing a large amount of information, has an electronic device including a storage box that stores a storage device such as an HDD, SDD, or a CF card, and particularly suppresses the transmission of vibrations from the storage box to the storage device. Related to electronic devices.

HDDs (hard disk drives), SDDs (solid state drives), CF cards and the like have been widely adopted as storage devices mounted on personal computers, VCRs, video cameras and the like. Here, a personal computer equipped with an HDD as a storage device generally has a housing (case) that constitutes a main body, and inside this housing, an HDD accommodation space called a drive bay or the like is provided. .. The HDD is housed in the HDD accommodating space of the housing, and is removed from the HDD accommodating space to the outside of the housing when maintenance work such as replacement and inspection of the HDD is performed.

By the way, since the HDD has a large storage capacity and a large information recording density, high accuracy is required for positioning the head for reading and writing information. Therefore, the HDD is vulnerable to external vibrations and shocks, and when the vibration is transmitted to the HDD accommodated in the HDD accommodating space of the housing, it becomes impossible to read and write information accurately, and the HDD is transferred. There is a problem that the speed decreases.

On the other hand, as a conventional technique, an electronic device is disclosed in which a HDD (HDD unit) and an HDD holder are provided with a vibration isolating member and the HDD and the HDD holder are housed in a housing. ing. According to this configuration, even if vibration is transmitted from the housing to the HDD holder, it is possible to prevent the vibration from being transmitted from the HDD holder to the HDD by the vibration isolator, and it is possible to prevent the transfer speed of the HDD from decreasing. It is possible (see Patent Document 1).

JP, 2003-314613, A

However, in the above-mentioned conventional technique, the HDD and the HDD holder are integrated via the vibration isolating member. Therefore, when performing maintenance work such as repair or replacement for the HDD, the HDD holder to which the HDD is attached is taken out of the housing, the vibration isolator and the HDD are removed from the HDD holder, and then the maintenance work for the HDD is performed. There is a need. Further, after the maintenance work of the HDD is completed, it is necessary to mount the HDD on the HDD holder via a vibration isolation member.

As described above, in the related art, since the vibration isolation member is provided between the HDD and the HDD holder, when the HDD is taken out of the housing for maintenance work, the vibration isolation member and the HDD are removed from the HDD holder. There is a problem that complicated work such as removal and mounting of the HDD on the HDD holder via the vibration isolating member is required, and the workability of the maintenance work on the HDD is deteriorated.

The present invention has been made in view of the above-mentioned problems of the related art, and it is possible to suppress vibrations transmitted to the storage device from the outside and to improve workability when performing maintenance work on the storage device. The purpose is to provide the electronic device.

In order to solve the above-mentioned problems, an electronic device according to the invention of claim 1 is a storage device that is formed as a rectangular box body and stores a large amount of information, and a plate-shaped body to which the storage device is fixedly attached. an electronic device comprising a structure by a storage device unit by the formed storage device fixture, an upper surface, a lower surface, left side surface, right side surface, has a front and a rear face, front, extends in the rear direction, front, A guide frame which is formed in a frame shape having an opening on the front side in the rear direction and into which the storage device unit is inserted and removed from the opening; and a connector which is electrically detachably connected to the storage device, A connector board mounted on the other side of the guide frame in the front and rear directions, and a box body having an upper surface, a lower surface, a left side surface, a right side surface, a front surface and a rear surface and extending in the front and rear directions, and having the guide frame inside thereof A storage box for storing the storage box and the guide frame in the storage box, and in a state where the storage device unit and the connector of the connector substrate are connected, the storage device from the front side in the front and rear direction of the storage box. A storage device unit fixing member that fixes the unit to the guide frame, and the guide frame that is provided between the upper surface of the guide frame and the upper surface of the storage box and that stores the storage device unit inside the storage box. Elastically supporting an upper anti-vibration member, and the guide frame, which is provided between the lower surface of the guide frame and the lower surface of the accommodation box and accommodates the storage device unit, is elastic with respect to the accommodation box. and a lower damping member for supporting the said storage device unit is made possible disconnect feed independently to resiliently supported the guide frame into the storage box through the opening, the storage device fixture and the side plate side of the storage device is mounted, and the upper flange plate overhangs the storage device side from the upper end of the side plate, Zhang in the storage device side from the lower end of the side plate and the lower flange plate out is constituted by a front plate facing the front face of the provided at a front end portion of the side plate the Symbol 憶device, the front plate of the storage device fixture is pre Symbol storage unit fixing member is rotatably supported in a state of being fit retaining axially the inside guide frame, flange plates and the lower flange plate on the storage device fixture when disconnecting the storage device unit in the guide frame guide guide rails are provided, in a state where the SL 憶device unit is accommodated in the guide frame, the front plate of the storage device fixture before Symbol It is characterized in that it is fixed to the front surface of the guide frame by a storage device unit fixing member .

According to a second aspect of the present invention, a guide rail is provided in the guide frame for guiding the storage device unit when the storage device unit is inserted into and removed from the guide frame.

According to a third aspect of the present invention, the upper anti-vibration member fixes the upper anti-vibration body to the guide frame, the upper anti-vibration body being disposed between an upper surface of the guide frame and an upper surface of the storage box. The lower vibration isolator comprises an upper vibration isolator fixing member, and the lower vibration isolator comprises a lower vibration isolator disposed between a lower surface of the guide frame and a lower surface of the storage box, and the lower vibration isolator being the guide. It is configured by a lower vibration isolator fixing tool that is fixed to the frame.

According to the invention of claim 1, the storage device unit formed by attaching the storage device to the storage device attachment is housed in the guide frame, and the guide frame is provided with the upper anti-vibration member and the lower anti-vibration member. It can be elastically supported in the storage box via. As a result, even if external vibration is transmitted to the storage box, the vibration can be suppressed from being transmitted to the storage device unit by the upper anti-vibration member and the lower anti-vibration member, and the storage device is protected from vibration. can do.

Moreover, since the storage device unit is housed in the guide frame supported by the storage box via the upper anti-vibration member and the lower anti-vibration member, the storage device and the storage device mounting tool constituting the storage device unit are It is not necessary to provide a vibration damping member between them. Therefore, when performing maintenance work on the storage device, it is possible to eliminate the complicated work of attaching or detaching the antivibration member to the storage device unit, and improve the workability of the maintenance work on the storage device. You can

On the other hand, since a connector board having a connector to be connected to a storage device is attached to the other side of the guide frame in the front and rear directions, the storage device unit is attached to the guide frame from one side in the front and rear directions. The connector of the connector substrate and the storage device can be electrically connected by inserting the storage device unit into the inside of the guide frame, and the storage device unit can be removed from one side of the guide frame in the front or rear direction to connect with the connector of the connector substrate. It can be separated from the storage device. Therefore, the storage device and the connector of the connector board can be easily separated or connected by simply inserting and removing the storage device unit from one side in the front and rear directions with respect to the guide frame stored in the storage box. Therefore, it is possible to improve workability when performing maintenance work on the storage device.

According to the invention of claim 2, the guide rail provided in the guide frame guides the storage device unit, whereby the connector of the connector substrate and the storage device can be easily connected and disconnected, and the guide frame is provided. It is possible to smoothly insert and remove the storage device unit.

According to the invention of claim 3, the upper vibration isolator is fixed to an arbitrary position of the guide frame using the upper vibration isolator fixing tool, and the lower vibration isolator is guided using the lower vibration isolator fixing tool. Since it can be fixed at any position of the frame, the upper anti-vibration member and the lower anti-vibration member can be arranged at positions suitable for suppressing the transmission of vibration to the guide frame.

It is the perspective view which looked at the electronic equipment by the embodiment of the present invention from the front side. It is sectional drawing which looked at the electronic device from the arrow II-II direction in FIG. FIG. 3 is a cross-sectional view of the electronic device as viewed in the direction of arrows III-III in FIG. 1. FIG. 3 is an exploded perspective view showing a state in which an HDD unit, a guide frame, a connector board, a housing box, an upper elastic member, a lower elastic member, and a connector cable are disassembled. FIG. 3 is an exploded perspective view showing an HDD and an HDD mounting tool that form an HDD unit. It is an exploded perspective view showing a guide frame and a connector board. It is the perspective view which looked at the state where the connector board was removed from the guide frame from the back side. It is an exploded perspective view showing a storage box, an upper vibration isolating member, and a lower vibration isolating member. It is an exploded perspective view showing the state where a guide frame is stored in a storage box. It is an exploded perspective view showing a state where an HDD unit is inserted in a guide frame stored in a storage box. It is the exploded perspective view which looked at the state where the connector cable was removed from the connector board of electronic equipment from the back side.

Hereinafter, electronic devices according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the present embodiment, an electronic device equipped with a hard disk drive (HDD) as a storage device will be described as an example.

As shown in FIGS. 1 to 4, the electronic device 1 according to the present embodiment includes an HDD 2, an HDD mounting fixture 3, a guide frame 6, a connector board 7, a housing box 9, and an HDD unit fixing bolt 10 described later. Has been done. As shown in FIG. 1, the electronic device 1 is formed into a rectangular parallelepiped as a whole, and is mounted in, for example, a housing (none of which is shown) that forms the main body of a personal computer to form a storage device. The electronic device 1 according to this embodiment is provided with two HDDs 2, two HDD attachments 3, and two connector boards 7. The two HDDs 2, the HDD mounting tool 3, and the connector board 7 have the same configuration.

An HDD (hard disk drive) 2 as a storage device stores large-capacity information. Here, the HDD 2 is composed of a rectangular box body as a whole, and incorporates a hard disk, which is a large-capacity storage medium coated with a magnetic material, a drive mechanism for rotating the hard disk, a magnetic head, and the like. The HDD 2 reads the information recorded on the hard disk by the magnetic head or records the information on the hard disk.

Here, as shown in FIG. 5, the HDD 2 has an upper surface 2A, a lower surface 2B, a front surface 2C, a rear surface 2D, a left side surface 2E and a right side surface 2F. A female connector 2G is provided below the rear surface 2D of the HDD 2, and the female connector 2G is electrically connected to a male connector 7A of a connector board 7 described later. Further, two (four in total) female screw holes 2H are formed on each of the upper and lower sides of the left side surface 2E of the HDD 2.

The HDD attachment 3 as a storage device attachment is formed of a rectangular plate that extends in the front and rear directions as a whole, and the HDD 2 is fixedly attached thereto. As shown in FIG. 5, the HDD fixture 3 is provided with a side surface plate 3A to which the left side surface 2E of the HDD 2 is attached, and a side surface plate 3A that extends from the upper end of the side surface plate 3A toward the HDD 2 and faces the upper surface 2A of the HDD 2 with a slight gap. A flange plate 3B, a lower flange plate 3C which projects from the lower end of the side plate 3A to the HDD 2 side and faces the lower surface 2B of the HDD 2 with a slight gap, and is integrally molded at the front end of the side plate 3A in the upward and downward directions. The front plate 3D extends and faces the front face 2C of the HDD 2 with a slight gap.

The side surface plate 3A of the HDD attachment 3 is formed with four screw insertion holes 3E corresponding to the female screw holes 2H provided on the left side surface 2E of the HDD 2, and the periphery of each screw insertion hole 3E is on the HDD 2 side. It is a recessed concave portion 3F. Then, the HDD mounting screw 4 inserted into each screw insertion hole 3E is screwed into the female screw hole 2H of the HDD 2 to form the HDD unit 5 as a storage device unit in which the HDD 2 is mounted on the HDD mounting fixture 3.

Here, with the HDD 2 attached to the HDD attachment 3, the head 4A of the HDD attachment screw 4 is housed in the recess 3F formed in the side plate 3A, and the depth of the recess 3F is the HDD attachment screw. The head 4A of No. 4 is set to have a size that does not protrude from the surface of the side plate 3A. On the other hand, an HDD unit fixing bolt 10 described later is rotatably supported on the upper side of the front plate 3D of the HDD attachment 3. Further, the side plate 3A of the HDD attachment 3 is provided with a square hole 3A1 for promoting weight reduction and heat dissipation.

The guide frame 6 is composed of a frame-shaped body extending in the front and rear directions as a whole, and accommodates the two HDD units 5 therein. As shown in FIGS. 6 and 7, the guide frame 6 is formed in a rectangular tube shape surrounded by the upper surface 6A, the lower surface 6B, the left side surface 6C, and the right side surface 6D, and extends in the front and rear directions. Further, the left and right side surfaces 6C and 6D are provided with square holes 6C1 and 6D1 for promoting weight reduction and heat dissipation.

Here, on one side (front side) in the front and rear directions of the guide frame 6, an upper front flange plate 6E protruding upward from the upper surface 6A and two lower front flange plates 6F protruding upward from the lower surface 6B, 6G are provided, and each of these front flange plates 6E, 6F, 6G constitutes the front surface of the guide frame 6. On the other hand, on the other side (rear side) of the guide frame 6 in the front and rear directions, an upper rear flange plate 6H protruding downward from the upper surface 6A and a lower rear flange plate 6J protruding upward from the lower surface 6B are provided. Each of these rear flange plates 6H and 6J constitutes the rear surface of the guide frame 6.

The inside of the guide frame 6 serves as a housing space 6K for housing the HDD unit 5, and the HDD unit 5 is accommodated in the housing space 6K between the upper front flange plate 6E and the lower front flange plates 6F and 6G of the guide frame 6. The opening 6L is for insertion and removal.

Two upper female screw holes 6M penetrating upward and downward are provided on the upper surface 6A of the guide frame 6 so as to be spaced apart in the front and rear directions, and a lower surface 6B of the guide frame 6 penetrates upward and downward. Two lower female screw holes 6N are provided to be spaced apart in the front and rear directions. The two upper female screw holes 6M and the lower female screw holes 6N are provided at positions facing each other in the upward and downward directions.

The front front flange plate 6E of the guide frame 6 is provided with two front female screw holes 6P penetrating in the front and rear directions and spaced apart in the left and right directions. These front female screw holes 6P are for screwing the HDD unit fixing bolts 10 described later. On the other hand, in the upper rear flange plate 6H of the guide frame 6, four rear female screw holes 6Q penetrating in the front and rear directions are provided separately in the left and right directions, and in the lower rear flange plate 6J, front and rear. Four rear female screw holes 6R penetrating in the right and left directions are provided separately in the left and right directions. Substrate mounting screws 8 to be described later are screwed into these rear female screw holes 6Q and 6R.

The upper surface 6A of the guide frame 6 is provided with three upper guide rails 6A1, 6A2, 6A3 projecting downward from the upper surface 6A and extending linearly forward and backward in the accommodation space 6K. Further, the lower surface 6B of the guide frame 6 is provided with three lower guide rails 6B1, 6B2, 6B3 protruding upward from the lower surface 6B and extending linearly in the front and rear directions in the accommodation space 6K. The three upper guide rails 6A1, 6A2, 6A3 provided on the upper surface 6A and the three lower guide rails 6B1, 6B2, 6B3 provided on the lower surface 6B face each other in the upper and lower directions (Fig. 2).

Here, as shown in FIG. 2, the left and right width dimensions of the upper flange plate 3B of the HDD fixture 3 and the left and right width dimensions of the lower flange plate 3C have the same width dimension X. ing. Further, the left and right clearances between the left side surface 6C of the guide frame 6 and the upper guide rail 6A1 and the left and right clearances between the left side surface 6C and the lower guide rail 6B1 have the same clearance Y. doing. The interval dimension Y is set to be slightly larger than the width dimension X. As a result, when the HDD unit 5 on the left side in FIG. 4 is inserted into and removed from the accommodation space 6K through the opening 6L of the guide frame 6, the upper flange plate 3B of the HDD attachment 3 is provided on the left side surface of the guide frame 6. 6C and the upper guide rail 6A1 are sandwiched between the guide rail 6A1 and the upper guide rail 6A1, and the lower flange plate 3C moves between the left side surface 6C of the guide frame 6 and the lower guide rail 6B1 while being guided by the both. It is possible to move forward and backward while being sandwiched between the two while being guided by both.

On the other hand, the left and right distances between the upper guide rails 6A2 and 6A3 of the guide frame 6 and the left and right distances between the lower guide rails 6B2 and 6B3 have the same distance Y, and The space dimension Y is set to be slightly larger than the width dimension X. As a result, when the HDD unit 5 on the right side in FIG. 4 is inserted into and removed from the accommodation space 6K through the opening 6L of the guide frame 6, the upper flange plate 3B of the HDD attachment 3 is guided by the upper guide of the guide frame 6. While being sandwiched between the rails 6A2 and 6A3, they are moved forward and backward while being guided by both, and the lower flange plate 3C is sandwiched between the lower guide rails 6B2 and 6B3 of the guide frame 6 and both It is possible to move forward and backward while being guided by.

The distance between the left side surface 6C of the guide frame 6 and the left end of the lower front flange plate 6F and the distance between the right end of the lower front flange plate 6F and the left end of the lower front flange plate 6G are the distance dimension Y and Equal to or slightly larger. As a result, the lower flange plate 3C of the HDD fixture 3 that constitutes the left HDD unit 5 in FIG. 4 is guided by the left side surface 6C of the guide frame 6 and the lower front flange plate 6F, and the left side surface of the guide frame 6 is guided. It is smoothly guided between 6C and the lower guide rail 6B1. Similarly, the lower flange plate 3C of the HDD fixture 3 that constitutes the HDD unit 5 on the right side in FIG. 4 is guided by the lower front flange plates 6F and 6G, and is smoothly guided between the lower guide rails 6B2 and 6B3.

The connector substrate 7 is attached to the other side (rear side) in the front and rear directions of the guide frame 6. The connector board 7 is composed of a rectangular plate extending upward and downward, and a male connector 7A electrically connected to a female connector 2G of the HDD 2 is provided on the front side (guide frame 6 side) of the rectangular board. There is. Further, female connectors 7B and 7C to which a connector cable 13 described later is connected are provided on the rear surface side of the connector substrate 7. On the other hand, on the upper end side of the connector board 7, two screw insertion holes 7D penetrating in the front and rear directions are provided separately in the left and right directions, and on the lower end side of the connector board 7, there are front and rear directions. Two screw insertion holes 7E penetrating through are provided in the left and right directions at a distance from each other. These screw insertion holes 7D and 7E correspond to the rear female screw holes 6Q and 6R provided on the rear flange plates 6H and 6J above and below the guide frame 6, respectively.

Therefore, the board mounting screw 8 inserted into the screw insertion hole 7D of the connector board 7 is screwed into the rear female screw hole 6Q of the guide frame 6 and the board mounting screw 8 inserted into the screw insertion hole 7E of the connector board 7. The connector board 7 can be attached to the rear end portions (the upper rear flange plate 6H and the lower rear flange plate 6J) of the guide frame 6 by screwing them into the rear female screw holes 6R of the guide frame 6.

The HDD unit 5 is provided in the HDD 2 of the HDD unit 5 by inserting the HDD unit 5 into the accommodation space 6K through the opening 6L of the guide frame 6 with the connector board 7 attached to the rear end of the guide frame 6. The female connector 2G and the male connector 7A provided on the connector board 7 can be electrically connected.

The housing box 9 is attached inside a housing (none of which is shown) that constitutes the main body of the personal computer, and the guide frame 6 is housed inside the housing box 9. As shown in FIG. 8, the storage box 9 is formed in a rectangular tubular shape which is surrounded by the upper surface 9A, the lower surface 9B, the left side surface 9C, and the right side surface 9D and is larger than the guide frame 6 in the front and rear directions. It is extended. Further, the left and right side surfaces 9C and 9D are provided with square holes 9C1 and 9D1 for promoting weight reduction and heat dissipation.

Here, on one side (front side) in the front and rear directions of the storage box 9, an upper front flange plate 9E for reinforcement that extends upward from the upper surface 9A and a lower front flange for reinforcement that extends downward from the lower surface 9B. A plate 9F is provided, and these front flange plates 9E and 9F form the front surface of the storage box 9. On the other hand, on the other side (rear side) in the front and rear directions of the storage box 9, an upper rear flange plate 9G (see FIG. 3) protruding downward from the upper surface 9A and a lower rear flange plate protruding upward from the lower surface 9B. 9H are provided, and each of these rear flange plates 9G and 9H constitutes the rear surface of the accommodation box 9. Further, the inside of the storage box 9 is a storage space 9J for storing the guide frame 6.

The upper surface 9A of the storage box 9 is formed with a rectangular slit 9K extending in the front and rear directions at the center in the left and right directions. A circular vibration isolator mounting hole 9L to which the body 11A is mounted is provided. Here, the slit 9K and the vibration isolator mounting hole 9L communicate with each other via a notch groove 9M having a groove width smaller than the diameter of the vibration isolator mounting hole 9L. As a result, the upper vibration isolator 11A can be inserted into the vibration isolator mounting hole 9L from the slit 9K through the notch groove 9M. On the other hand, on the lower surface 9B of the housing box 9, like the upper surface 9A, a slit 9N extending in the front and rear directions, a vibration isolator mounting hole 9P arranged on both front and rear sides of the slit 9N, and a slit A cutout groove 9Q is provided for communicating between 9N and the vibration isolator mounting hole 9P.

The HDD unit fixing bolt 10 as a storage device unit fixing member is provided on the upper side of the front plate 3D that constitutes the HDD attachment 3. As shown in FIGS. 3 and 4, the HDD unit fixing bolt 10 includes a male screw portion 10A screwed into a front female screw hole 6P provided in the upper front flange plate 6E of the guide frame 6 and a front portion of the HDD mount 3. The face plate 3D is configured by a columnar picking portion 10B protruding to the outside. The HDD unit fixing bolt 10 is rotatably supported with respect to the front plate 3D of the HDD attachment 3 in a state where it is retained in the axial direction.

Then, as shown in FIG. 10, the knob portion 10B of the HDD unit fixing bolt 10 is rotated in a state where the guide frame 6 is accommodated in the accommodation box 9 via the later-described upper anti-vibration member 11 and lower anti-vibration member 12. By doing so, the male screw portion 10A is screwed into the front female screw hole 6P of the guide frame 6 (upper front flange plate 6E), and the HDD unit 5 can be fixed to the guide frame 6.

Two upper anti-vibration members 11 are provided between the upper surface 6A of the guide frame 6 and the upper surface 9A of the storage box 9, and elastically fix the upper surface 6A of the guide frame 6 to the upper surface 9A of the storage box 9. It is a thing. Here, as shown in FIGS. 3 and 8, each upper vibration isolator member 11 is composed of an upper vibration isolator 11A and an upper vibration isolator fixing tool 11B.

The upper vibration isolator 11A is arranged between the upper surface 6A of the guide frame 6 and the upper surface 9A of the housing box 9, and is formed in a cylindrical shape using an elastic material such as rubber. An inner peripheral side of the upper vibration isolator 11A is a fixture insertion hole 11A1 into which the upper vibration isolator fixture 11B is inserted. An intermediate portion in the axial direction of the upper vibration isolator 11A becomes a small diameter cylindrical portion 11A2 having a diameter smaller than both sides in the axial direction, and the outer periphery of the small diameter cylindrical portion 11A2 is attached to the vibration isolator provided on the upper surface 9A of the housing box 9. By inserting into the hole 9L, the upper vibration isolator 11A can be positioned with respect to the upper surface 9A of the storage box 9.

The upper vibration isolator fixing tool 11B fixes the upper vibration isolator 11A to the upper surface 6A of the guide frame 6, and includes a male screw portion 11B1 screwed into the upper female screw hole 6M of the guide frame 6 (upper surface 6A) and a male screw. A columnar portion 11B2 which has a cylindrical shape having a diameter larger than that of the portion 11B1 and is inserted into the fixture insertion hole 11A1 of the upper vibration isolator 11A, and an outer diameter dimension substantially equal to that of the upper vibration isolator 11A, and a tool such as a driver. And a head 11B3 with a collar that is rotated by.

Then, in a state where the upper vibration isolator 11A is arranged between the upper surface 6A of the guide frame 6 and the upper surface 9A of the housing box 9, the upper vibration isolator fixing tool 11B is inserted into the fixing tool insertion hole 11A1 of the upper vibration isolator 11A. The cylindrical portion 11B2 is inserted, and the male screw portion 11B1 of the upper vibration isolator fixing tool 11B is screwed into the upper female screw hole 6M of the guide frame 6. As a result, the upper vibration isolator 11A can be fixed to the upper surface 6A of the guide frame 6 in a state where the end of the cylindrical portion 11B2 is in contact with the upper surface 6A of the guide frame 6.

The lower vibration isolation member 12 is provided between the lower surface 6B of the guide frame 6 and the lower surface 9B of the storage box 9, and elastically fixes the lower surface 6B of the guide frame 6 to the lower surface 9B of the storage box 9. is there. Here, the lower vibration isolation member 12 is similar to the upper vibration isolation member 11 in that the lower vibration isolation member 12A is disposed between the lower surface 6B of the guide frame 6 and the lower surface 9B of the housing box 9 and the lower vibration isolation member. The lower vibration isolator fixing tool 12B for fixing 12A to the lower surface 6B of the guide frame 6 is provided. The inner peripheral side of the lower vibration isolator 12A is a fixture insertion hole 12A1, and the intermediate portion in the axial direction of the lower vibration isolator 12A is a small diameter cylindrical portion 12A2. The lower vibration isolator fixing member 12B includes a male screw portion 12B1, a column portion 12B2, and a flanged head portion 12B3.

Then, in a state where the lower vibration isolator 12A is arranged between the lower surface 6B of the guide frame 6 and the lower surface 9B of the housing box 9, the lower vibration isolator fixing tool 12B is placed in the fixing tool insertion hole 12A1 of the lower vibration isolator 12A. The lower vibration isolator 12A with respect to the lower surface 6B of the guide frame 6 by screwing the male screw portion 12B1 of the lower vibration isolator fixture 12B into the lower female screw hole 6N of the guide frame 6 Can be fixed.

Therefore, as shown in FIG. 2 and FIG. 3, the guide frame 6 in which the connector substrate 7 is attached and the HDD unit 5 is housed inside is housed in the housing box 9 via the upper vibration isolating member 11 and the lower vibration isolating member 12. The upper vibration isolating member 11 and the lower vibration isolating member 12 elastically support the housing box 9. As a result, even if vibration is transmitted to the storage box 9 from the outside (for example, a housing to which the storage box 9 is attached), the vibration is transmitted to the HDD unit 5 by the upper vibration isolation member 11 and the lower vibration isolation member 12. Can be suppressed.

The connector cable 13 electrically connects the power supply unit and the control unit of the personal computer (not shown) and the HDD 2 via the connector board 7. Here, the connector cable 13 is composed of a control cable 13A and a power supply cable 13B. One end of the control cable 13A is connected to the controller, and the other end is connected to one female connector 7B of the connector board 7. One end of the power supply cable 13B is connected to the power supply unit, and the other end is connected to the other female connector 7C of the connector board 7.

The electronic device 1 according to the present embodiment has the above-described configuration, and an example of an assembly procedure of the electronic device 1 will be described below.

First, as shown in FIG. 5, the HDD 2 is attached to the HDD attachment 3 to form the HDD unit 5. That is, the HDD mounting screw 4 is inserted into each screw insertion hole 3E provided on the side plate 3A of the HDD mounting tool 3, and the HDD mounting screw 4 is screwed into the female screw hole 2H provided on the left side surface 2E of the HDD 2. To do. As a result, the HDD unit 5 in which the HDD 2 is attached to the HDD attachment 3 is formed.

Next, as shown in FIGS. 6 and 7, the connector board 7 is attached to the rear end of the guide frame 6. That is, the board mounting screw 8 is inserted into the screw insertion hole 7D provided on the upper end side of the connector board 7, and the board mounting screw 8 is inserted into the rear female screw hole 6Q formed in the upper rear flange plate 6H of the guide frame 6. Screw on. Further, the board mounting screw 8 is inserted into the screw insertion hole 7E provided at the lower end side of the connector board 7, and the board mounting screw 8 is fitted into the rear female screw hole 6R formed in the lower rear flange plate 6J of the guide frame 6. Screw on. Accordingly, the connector board 7 can be attached to the rear end portion of the guide frame 6, and the male connector 7A provided on the connector board 7 projects into the accommodation space 6K of the guide frame 6.

Next, as shown in FIG. 9, the guide frame 6 to which the connector board 7 is attached is housed in the housing space 9J of the housing box 9 via the upper vibration isolating member 11 and the lower vibration isolating member 12. That is, the upper vibration isolator 11A is inserted into the vibration isolator mounting hole 9L formed in the upper surface 9A of the housing box 9, and the lower vibration isolator mounting hole 9P is formed in the lower surface 9B of the housing box 9. Insert the vibrating body 12A. As a result, it is possible to position the two upper vibration isolator 11A with respect to the upper surface 9A of the storage box 9 and the two lower vibration isolator 12A with respect to the lower surface 9B of the storage box 9.

In this state, the guide frame 6 is inserted into the accommodation space 9J of the accommodation box 9, the upper vibration isolator fixing tool 11B is inserted into the fixture insertion hole 11A1 of the upper vibration isolator 11A, and the lower vibration isolator 12A is fixed. The lower vibration isolator fixing tool 12B is inserted through the tool insertion hole 12A1. Then, the male screw portion 11B1 of the upper vibration isolator fixing tool 11B is screwed into the upper female screw hole 6M provided in the upper surface 6A of the guide frame 6, and the male screw portion 12B1 of the lower vibration isolator fixing tool 12B is attached to the guide frame. 6 is screwed into the lower female screw hole 6N provided in the lower surface 6B. Thereby, as shown in FIG. 3, the guide frame 6 is elastically fixed in the accommodation space 9J of the accommodation box 9 via the two upper vibration isolator 11A and the two lower vibration isolator 12A ( Support).

Next, as shown in FIG. 10, the two HDD units 5 are housed in the guide frame 6 elastically supported in the housing box 9. That is, the two HDD units 5 are inserted into the accommodation space 6K through the openings 6L of the guide frame 6, respectively. Here, when the HDD unit 5 on the left side in FIG. 10 is inserted into the guide frame 6, the upper flange plate 3B of the HDD attachment 3 that constitutes the HDD unit 5 includes the left side surface 6C of the guide frame 6 and the upper guide rail. The lower flange plate 3C moves rearward while being guided by 6A1 and is guided by the left side surface 6C of the guide frame 6 and the lower guide rail 6B1 (see FIG. 2). On the other hand, when the HDD unit 5 on the right side in FIG. 10 is inserted into the guide frame 6, the upper flange plate 3B of the HDD fixture 3 constituting the HDD unit 5 is guided by the upper guide rails 6A2 and 6A3 of the guide frame 6. The lower flange plate 3C moves rearward while being guided by the lower guide rails 6B2 and 6B3 of the guide frame 6 (see FIG. 2).

Then, with the front plate 3D of the HDD attachment 3 constituting the HDD unit 5 in contact with the upper front flange plate 6E of the guide frame 6, the female connector 2G of the HDD 2 constituting the HDD unit 5 and the guide frame 6 are formed. Is electrically connected to the male connector 7A of the connector substrate 7 attached to the.

In this way, by providing the three upper guide rails 6A1, 6A2, 6A3 and the three lower guide rails 6B1, 6B2, 6B3 in the guide frame 6, the HDD unit 5 is always moved along a fixed track. It can be inserted into the guide frame 6. As a result, by simply inserting the HDD unit 5 into the accommodation space 6K through the opening 6L of the guide frame 6, the female connector 2G provided in the HDD 2 and the male connector 7A of the connector board 7 attached to the guide frame 6 are connected. Can be securely connected.

Then, while the HDD unit 5 is housed in the guide frame 6, the knob portion 10B of the HDD unit fixing bolt 10 is rotated so that the male screw portion 10A becomes the front female screw hole 6P of the guide frame 6 (upper front flange plate 6E). The HDD unit 5 can be fixed to the guide frame 6 by screwing.

On the other hand, when removing the HDD unit 5 from the guide frame 6, the knob portion 10B of the HDD unit fixing bolt 10 is rotated in the opposite direction, and the male screw portion 10A is removed from the front female screw hole 6P of the upper front flange plate 6E. In this state, the HDD unit 5 is pulled forward from the guide frame 6. As a result, the female connector 2G of the HDD 2 can be easily detached from the male connector 7A of the connector board 7 attached to the guide frame 6. As a result, the HDD unit 5 moves on a fixed track along the three upper guide rails 6A1, 6A2, 6A3 provided in the guide frame 6 and the three lower guide rails 6B1, 6B2, 6B3. Therefore, the HDD unit 5 can be easily pulled out to the outside (front side) of the guide frame 6 through the opening 6L of the guide frame 6.

Thus, the electronic device 1 according to the present embodiment can elastically support the guide frame 6 accommodating the HDD unit 5 in the accommodating box 9 via the upper vibration isolating member 11 and the lower vibration isolating member 12. Therefore, even if vibration is transmitted to the storage box 9 from the outside (for example, a housing to which the storage box 9 is attached), the vibration is transmitted to the HDD unit 5 by the upper vibration isolation member 11 and the lower vibration isolation member 12. It can be suppressed and the HDD 2 can be protected from vibration.

As a result, it is possible to prevent the transfer rate of the HDD 2 from decreasing due to vibration, and the HDD 2 can be operated stably. Further, it is possible to prevent the hard disk and the magnetic head constituting the HDD 2 from colliding with each other due to vibration, and the life of the HDD 2 can be extended. Furthermore, vibration can be suppressed from being transmitted to the connection portion between the female connector 2G of the HDD 2 and the male connector 7A of the connector board 7, so that poor contact between the female connector 2G and the male connector 7A can be prevented. , HDD2 can be operated stably. Even if a storage device other than the HDD 2 is housed in the guide frame 6 and is elastically supported by the housing box 9 via the upper vibration isolating member 11 and the lower vibration isolating member 12, this storage device will not vibrate. It is possible to prevent transmission and to operate the storage device stably.

In this case, the upper surface 6A of the guide frame 6 is attached to the upper surface 9A of the accommodation box 9 via the upper vibration isolating member 11, and the lower surface 6B is attached to the lower surface 9B of the accommodation box 9 via the lower vibration isolating member 12. Has been. As a result, the upper and lower ends of the guide frame 6 are supported by the housing box 9, so that, for example, only one of the upper and lower ends is supported via the vibration isolator, and the other end is a free end. Compared to the case, it is possible to firmly support the guide frame 6 with respect to the storage box 9, and it is possible to suppress vibration transmitted to the guide frame 6.

Moreover, since the HDD unit 5 is housed in the housing space 6K of the guide frame 6 supported by the housing box 9 via the upper vibration isolating member 11 and the lower vibration isolating member 12, the HDDs that compose the HDD unit 5 are It is not necessary to provide a vibration damping member between the HDD and the HDD attachment. Therefore, when performing maintenance work such as repair or replacement on the HDD 2, it is possible to easily perform maintenance on the HDD 2 simply by removing the HDD unit 5 through the opening 6L of the guide frame 6 (without the work of removing the vibration isolator). You can do the work. Further, after the maintenance work is completed, the HDD unit 5 can be housed in the housing space 6K of the guide frame 6 simply by inserting the HDD unit 5 into the guide frame 6 (without the work of mounting the vibration isolating member). can do. As a result, the workability of the maintenance work on the HDD 2 can be improved.

Furthermore, an opening 6L for inserting and removing the HDD unit 5 is provided on one side (front side) of the guide frame 6 in the front and rear directions, and on the other side (rear side) of the guide frame 6 in the front and rear directions, A connector board 7 having a male connector 7A connected to a female connector 2G of the HDD 2 is attached. Therefore, by inserting the HDD unit 5 into the accommodation space 6K through the opening 6L of the guide frame 6, the female connector 2G of the HDD 2 and the male connector 7A of the connector board 7 can be easily connected. Further, by pulling out the HDD unit 5 to the outside through the opening 6L of the guide frame 6, the female connector 2G of the HDD 2 and the male connector 7A of the connector board 7 can be easily separated. As a result, the female connector 2G of the HDD 2 and the male connector 7A of the connector board 7 can be easily separated by simply inserting and removing the HDD unit 5 from the front side of the guide frame 6 housed in the housing box 9. Alternatively, the HDD 2 can be connected and the maintenance work for the HDD 2 can be performed as a front face work (front face maintenance work).

On the other hand, the electronic device 1 according to the present embodiment has a configuration in which three upper guide rails 6A1, 6A2, 6A3 and three lower guide rails 6B1, 6B2, 6B3 are provided in the accommodation space 6K of the guide frame 6. There is. Therefore, the HDD unit 5 is always inserted into the accommodation space 6K of the guide frame 6 along a fixed track by being guided by the upper guide rails 6A1 to 6A3 and the lower guide rails 6B1 to 6B3. As a result, by simply inserting the HDD unit 5 into the accommodation space 6K through the opening 6L of the guide frame 6, the female connector 2G provided in the HDD 2 and the male connector 7A of the connector board 7 attached to the guide frame 6 are connected. Can be securely connected.

Further, the upper anti-vibration member 11 is fixed between the upper surface 6A of the guide frame 6 and the upper surface 9A of the housing box 9, and the upper anti-vibration body 11A is fixed to the upper surface 6A of the guide frame 6. Upper vibration isolator fixing tool 11B, the lower vibration isolator 12 is arranged between the lower surface 6B of the guide frame 6 and the lower surface 9B of the housing box 9, and the lower vibration isolator 12A. It is constituted by a lower vibration isolator fixing tool 12B for fixing the body 12A to the lower surface 6B of the guide frame 6. Thereby, the upper vibration isolator 11A is fixed to an arbitrary position of the guide frame 6 by using the upper vibration isolator fixing tool 11B, and the lower vibration isolator 12A is guided by the lower vibration isolator fixing tool 12B. Since it can be fixed to any position of 6, the upper vibration isolation member 11 and the lower vibration isolation member 12 can be arranged at positions suitable for suppressing the transmission of vibration to the guide frame 6.

In addition, in the above-mentioned embodiment, the case where two upper anti-vibration members 11 and two lower anti-vibration members 12 are provided between the guide frame 6 and the housing box 9 is illustrated. However, the present invention is not limited to this, and for example, one or three or more upper vibration isolating members 11 may be provided and one or three or more lower vibration isolating members 12 may be provided.

Further, in the above-described embodiment, the electronic device 1 equipped with two HDD units 5 is illustrated, but the present invention is not limited to this, and is also applied to an electronic device equipped with, for example, three or more HDD units. be able to. In this case, depending on the number of HDD units, the number of upper guide rails 6A1 and lower guide rails 6B1 provided on the guide frame 6, the number of connector boards 7, the number of upper anti-vibration members 11 and the lower anti-vibration members 12 are provided. Should be increased appropriately.

Further, in the above-described embodiment, the case where the HDD is used as the storage device mounted in the electronic device 1 is illustrated. However, the present invention is not limited to this, and can be widely applied to electronic devices equipped with other storage devices such as SSDs (solid state drives) and CF cards.

Furthermore, in the above-described embodiment, the case where the electronic device 1 is used as a storage device of a personal computer is illustrated, but the present invention is not limited to this, and may be used as a storage device such as a VCR or a video camera. Good.

2 HDD (storage device)
3 HDD attachment (storage device attachment)
5 HDD unit (storage device unit)
6 Guide frame 6A, 9A Upper surface 6A1, 6A2, 6A3 Upper guide rail 6B, 9B Lower surface 6B1, 6B2, 6B3 Lower guide rail 6C, 9C Left side surface 6D, 9D Right side surface 6E, 9E Upper front flange plate (front surface)
6F, 6G, 9F Lower front flange plate (front)
6H, 9G Upper rear flange plate (rear surface)
6J, 9H Lower rear flange plate (rear surface)
7 Connector board 9 Storage box 10 HDD unit fixing bolt (memory device unit fixing member)
11 Upper Anti-Vibration Member 11A Upper Anti-Vibration Body 11B Upper Anti-Vibration Body Fixture 12 Lower Anti-Vibration Member 12A Lower Anti-Vibration Body 12B Lower Anti-Vibration Body Fixture

Claims (2)

A storage device formed as a rectangular box body for storing a large amount of information,
An electronic device comprising a storage device unit configured by a storage device mounting tool formed as a plate-shaped body to which the storage device is fixedly mounted,
A top surface, a bottom surface, left side surface, right side surface, having a front and a rear face, front, extends in the rear direction, front, is formed in a frame shape having an opening on the front side of the rear direction, the storage device unit said opening A guide frame that can be inserted and removed from the
A connector board that has a connector electrically and detachably connected to the storage device, and is attached to the other side of the guide frame in the front and rear directions;
A storage box that has an upper surface, a lower surface, a left side surface, a right side surface, a front surface, and a rear surface, and is formed as a box body that extends in the front and rear directions, and stores the guide frame therein.
The guide frame is housed in the storage box, and the storage device unit is fixed to the guide frame from the front side in the front and rear directions of the storage box in a state where the storage device unit and the connector of the connector board are connected. A storage device unit fixing member,
An upper anti-vibration member that is provided between the upper surface of the guide frame and the upper surface of the accommodation box and elastically supports the guide frame that accommodates the storage device unit therein with respect to the accommodation box.
A lower vibration isolating member that is provided between the lower surface of the guide frame and the lower surface of the accommodation box and elastically supports the guide frame that accommodates the storage device unit in the accommodation box ,
The storage device unit is made possible reseat against the resiliently supported the guide frame into the storage box independently through the opening,
The storage device fixture, said the side surface side is attached plate of the storage device, and the upper flange plate overhangs the storage device side from the upper end of the side plate, the storage device side from the lower end of the side plate in a lower flange plate which overhangs, is constituted by a front plate you face the front of the storage device provided at the front portion of the side plate,
On the front plate of the storage device attachment, the storage device unit fixing member is rotatably supported in a state where it is retained in the axial direction ,
In the guide frame, a guide rail for guiding the upper flange plate and the lower flange plate of the storage device fixture is provided when the storage device unit is inserted into and removed from the guide frame ,
An electronic device , wherein the front plate of the storage device attachment is fixed to the front surface of the guide frame by the storage device unit fixing member in a state where the storage device unit is housed in the guide frame . The upper anti-vibration member includes an upper anti-vibration body arranged between an upper surface of the guide frame and an upper surface of the storage box, and an upper anti-vibration body fixing tool for fixing the upper vibration isolator to the guide frame. Composed by
The lower vibration isolating member is a lower vibration isolator disposed between the lower surface of the guide frame and the lower surface of the housing box, and a lower vibration isolator fixing tool for fixing the lower vibration isolator to the guide frame. The electronic device according to claim 1, which is configured by:

Images