CN210743591U - Heat dissipation system for optical disk library - Google Patents

Abstract

The utility model relates to an optical storage device technical field, more specifically relates to a CD jukebox cooling system, include: the side wall of the heat dissipation box with longer length is provided with an air inlet and an air outlet, the air inlet is provided with the fan, and the heat dissipation box is internally provided with the rotating disc type optical disc boxes which are arranged in parallel; the rotating disc type disc boxes are annular, discs are stored on the annular rotating disc type disc boxes in a vertical annular mode, and disc reading/writing devices which are arranged in a stacked mode are arranged between the parallel rotating disc type disc boxes; the air inlet is over against one end of the rotary disc type disc box close to the disc read/write device, and the air outlet is over against one end of the rotary disc type disc box far away from the disc read/write device. The utility model discloses the heat dissipation is good, enables the light storage device and keeps good operating condition.

Description

Heat dissipation system for optical disk library

Technical Field

The utility model relates to an optical storage device technical field, more specifically relates to a CD-ROM storehouse cooling system.

Background

With the digitization of information resources and the rapid increase of information volume, the requirements for the storage density, the access rate and the storage life of the memory are continuously increased. Optical storage, which is capable of storing data safely, at low cost, for long periods of time, is becoming increasingly popular. Compared with the expensive price, complex maintenance and high environmental requirement of hard disk storage, the cost of using optical disk storage is lower, and the stored data is safer and more stable. Because the optical disk storage does not need to rotate continuously like a hard disk, the energy consumption is lower, and because the structure of the optical disk determines that the optical disk has longer service life than the hard disk, the optical disk can be used for 50 years or even longer, and does not need to be replaced frequently. With the development of error correction technology, the reliability of data stored in the optical disc is greatly improved. Because the data stored in the optical disc is recorded on the metal film of the disc by the purely physical metal ablation technology, the process is irreversible, so that the data cannot be tampered, and the stability of the data is ensured on the physical level. The hard disk and the magnetic tape become fragile if they are exposed to water or in a humid environment, and the optical disk is not affected by these influences, and data can be normally read even in an office environment at a temperature higher than 35 ℃.

Optical storage, which has such many advantages, is increasingly used in storage. The optical disc library is an optical, mechanical and electronic integrated mass data storage device which takes a standardized optical disc as a data storage medium and is used for storing data information for a long time or permanently, so the optical disc library is widely applied to long-term archiving and storing of data. However, the continuously and rapidly increasing amount of data to be filed puts increasing demands on the optical disc library device, and in order to achieve faster and more data reading and writing, the optical disc library generally adopts a method of stacking and assembling a plurality of optical disc drives into an optical disc drive group, and simultaneously operating the plurality of optical disc drives to read and write data of a plurality of optical discs. Therefore, the optical disk can be read and written more quickly, the optical disk library can be compact in structure and small in overall size due to the fact that the optical disk drives are arranged in a stacking mode. However, while the compact disc library satisfies the functional requirements of the customers, in the compact space of the compact disc library, the optical disc drive can emit a large amount of heat during data recording and data reading, if the heat on the optical disc drive and other devices is not timely removed, the temperature of the optical disc drive and other devices is reduced, the running performance of the equipment cannot be kept in a good state, and even the equipment or the optical disc is damaged due to overhigh temperature. Once the damage accident of the equipment or the optical disc occurs, the data disaster happens, and the immeasurable loss is necessarily caused. These design deficiencies are likely to result in serious, if not insignificant, fruit cachets. Therefore, there is a need for a heat dissipation system for an optical disc library that can dissipate heat well and keep the optical storage device in a good working state.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model provides a CD-ROM jukebox cooling system, this CD-ROM jukebox cooling system heat dissipation is good, enables the light storage equipment and keeps good operating condition.

The utility model adopts the technical proposal that:

a heat dissipation system for an optical disc library, comprising: the side wall of the heat dissipation box with longer length is provided with an air inlet and an air outlet, the air inlet is provided with the fan, and the heat dissipation box is internally provided with the rotating disc type optical disc boxes which are arranged in parallel; the rotating disc type disc boxes are annular, discs are stored on the annular rotating disc type disc boxes in a vertical annular mode, and disc reading/writing devices which are arranged in a stacked mode are arranged between the parallel rotating disc type disc boxes; the air inlet is over against one end of the rotary disc type disc box close to the disc read/write device, and the air outlet is over against one end of the rotary disc type disc box far away from the disc read/write device.

Specifically, the overall capacity of the disk-shaped magazine for storing the optical disks in a vertical manner is large, and more optical disks can be stored. Because of the consideration of applicable places, the devices in the optical disk library are set as compact as possible, so that the space in the optical disk library is reduced, and the optical disk library is made small, thereby causing the problem that the heat dissipation of the optical disk library is insufficient. The existing solution of the optical disc library is to install a heat dissipation fan on the cover plate or the front and rear ends of the housing to take away heat. However, if the fan is mounted on the cover plate, the compact structure of the optical disc library cannot be maintained, and the fan is mounted at the front end and the rear end of the box body, the heat of the read/write device cannot be effectively taken away, and the heat dissipation effect is poor. In the scheme, the design that the fan is arranged on the side wall is adopted, and in order to avoid the problem that the fan blows directly towards the optical disk read/write device and the process that the air flow generates to influence the optical disk to and from between the optical disk read/write device and the optical disk library, the air inlet is designed to be over against one end, close to the optical disk read/write device, of the rotating disk type optical disk box, and the air outlet is designed to be over against one end, far away from the optical disk read/write device, of the rotating disk type optical disk box. Thus, the fan at the air inlet blows air into the heat dissipation box, and the heat of the disk reading/writing device can be effectively taken away in time while the heat of the rotating disk type disk box is taken away.

Furthermore, the heat dissipation box is rectangular, comprises two rotating disc type disc boxes which are arranged at two ends of the heat dissipation box in parallel, comprises an optical disc reading/writing device arranged between the two rotating disc type disc boxes and respectively faces to the corresponding rotating disc type disc boxes, at least comprises two fans arranged at the positions, close to the rotating disc type disc boxes, of the side wall of the heat dissipation box, the air inlet direction faces to the back side of the corresponding optical disc reading/writing device, and at least four air outlets are arranged at four corners of the heat dissipation box.

Specifically, the fan is arranged on the side wall of the heat dissipation box near the turntable type disk box, the air inlet direction faces the back side of the corresponding disk read/write device, the fan in the air inlet blows cold air into the heat dissipation box, the cold air enters the heat dissipation box and meets the turntable type disk box, when the turntable type disk box rotates, the disk stored in the turntable type disk box has the same effect as a fan blade, air is driven to flow, and when the cold air flows through the turntable type disk box and the disk read/write device and is changed into hot air through heat exchange, the hot air is discharged from the air outlet. The air outlets are arranged at four corners of the heat dissipation box, so that air cannot flow out of the heat dissipation box too early, the flow path of the air in the heat dissipation box is lengthened, the air flows according to a set air channel, the heat of the rotating disc type optical disc box and the optical disc read/write device is taken away as far as possible, and the air is discharged out of the heat dissipation box.

Furthermore, the size of the heat dissipation box and the size of a device arranged in the box are matched with each other in an approximately equal size, the side wall of the heat dissipation box is made to be close to the device in the box as much as possible under the condition that the operation of the device in the box is not influenced, and the at least four air outlets are arranged on the side walls of four corner spaces enclosed by the heat dissipation box and the rotating disc type optical disc box.

Specifically, in order to make the structure of the optical disc library more compact and make the air channel in the heat dissipation box smaller, the rotating air pressure of the rotating disc type optical disc cartridge is larger, so that the air flow is accelerated, and a better heat dissipation effect is obtained. Therefore, the side wall of the heat dissipation box is made to be close to the turntable type optical disc box as much as possible under the condition that the device in the heat dissipation box is not influenced to realize the function of reading and writing the optical disc.

Furthermore, the side wall of the heat dissipation box is provided with a groove matched with the side profile of the disk box to be installed.

Specifically, the design of the groove further enables the structure of the optical disk library to be more compact, the air channel in the heat dissipation box to be smaller, and the air pressure formed by the rotation of the rotary disk type optical disk box to be larger.

Further, the optical disc read/write apparatus includes: the CD-ROM drive support is arranged on the CD-ROM drive support in a fan-shaped distribution mode.

Specifically, the optical drives are distributed on the optical drive bracket in a fan shape to match the shape of the optical disk box, so that the structure of the device in the box body is more compact, and the occupied volume is smaller.

Further, the optical disc drive holder comprises: the CD-ROM drive support frame comprises a support frame, a fixing plate and a comb plate, wherein the support frame is L-shaped, the fixing plate and the comb plate are horizontally fixed on the vertical part of the support frame, and the comb plate is provided with a groove matched with the side profile of the CD-ROM drive.

Specifically, the combined parts of the CD-ROM support are a support frame, a fixing plate and a comb plate respectively, wherein the fixing plate is used for fixing the CD-ROM in the CD-ROM support, the comb plate is used for bearing the CD-ROM, and the height of the CD-ROM is adjusted to adapt to a disk-shaped optical storage device; the grooves of the comb adjust the optical drive ports of the optical drive to the same height to align with the optical disk slot openings of the optical storage device.

Furthermore, the support is divided into a front read-write optical drive support and a back read-write optical drive support, the fixing plate of the front read-write optical drive support is positioned above the comb-shaped plate, and the fixing plate of the back read-write optical drive support is positioned below the comb-shaped plate.

Specifically, information data is increased every day, massive data is stored and managed, the capacity of a single-sided optical disk obviously cannot meet the requirement, and in order to realize that a disk box can read and write a double-sided optical disk, the scheme adopts the design of a front-side read-write optical drive support and a back-side read-write optical drive support. The front read-write optical drive support and the back read-write optical drive support are the same in combination part and respectively comprise a support frame, a fixing plate and a comb-shaped plate, wherein the difference is that the fixing plate of the front read-write optical drive support is positioned above the comb-shaped plate, and the fixing plate of the back read-write optical drive support is positioned below the comb-shaped plate; the protruding part of the front read-write optical drive passes through the comb plate and faces downwards, and the protruding part of the back read-write optical drive passes through the comb plate and faces upwards. The parts are the same, so that the matching requirements are not required to be considered when the parts are produced, and only the combination mode and the number are considered. When the device in later stage damages, it is more convenient when maintaining the change, finds the part replacement easily. The different combination modes of the same components solve the problem of communication between the CD driver and the optical storage device, and the different orientations of the grooves of the comb-shaped plate adjust the CD driver ports of the front read-write CD driver and the back read-write CD driver to the same height, so that the CD can pass in and out between the CD driver and the optical storage device.

Furthermore, the fixed plate and the comb plate are integrally fan-shaped, the grooves of the comb plate are distributed in a fan shape, and the notch of each groove faces towards the inner side of the fan shape.

Specifically, the fixing plate and the comb plate are formed into a fan shape to fit the disc-shaped optical storage device, and the inner side of the fan shape is matched with the outer edge profile of the optical storage device. The grooves of the comb plate are distributed in a fan shape, and the openings of the grooves are fan-shaped inner sides so as to align with the CD inlet and the CD outlet of the optical storage device.

Further, the air outlet is provided with a fan cover.

Specifically, the fan cover of the air outlet has a certain dustproof effect, so that sundries cannot enter the box, and the operation of equipment in the box is influenced.

Furthermore, the bottom of the heat dissipation box is provided with a screw hole for fixing the disk box and the disk read/write device.

Specifically, the bottom of the case body is provided with a screw hole through which a bolt is passed to fix the disk cartridge in the case body. When the box body is transported, the compact disc box and the box body can not collide to cause equipment damage due to movement.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the design that the fan is arranged on the side wall of the box body is adopted, so that the rotary disk type disk box and the disk read/write device can be effectively radiated.

(2) The read-write function of the double-sided optical disk is realized by different combination modes of the single-sided read-write optical disk drive and the optical disk drive bracket, and the occupied space is small.

(3) The size of the heat dissipation box and the size of the device arranged in the box are matched with each other in an approximately equal size, so that the structure of the optical disk library is more compact, and the heat dissipation effect is better.

Drawings

FIG. 1 is a schematic view of a heat dissipation box of the present invention;

fig. 2 is a top view of the storage device of the present invention;

FIG. 3 is a schematic view of a front read/write optical disc drive holder according to the present invention;

in the figure: 1-air inlet, 2-air outlet, 3-heat dissipation box side wall groove, 11-rotating disc type optical disc box, 12-optical disc read/write device, 21-fixing plate, 22-supporting frame, 23-comb plate, 24-comb plate groove.

Detailed Description

The drawings of the present invention are for illustration purposes only and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples

This embodiment provides a CD jukebox cooling system, and figure 1 is the utility model discloses a heat dissipation case schematic diagram, figure 2 are the utility model discloses a storage device top view, as shown in the figure, include: the disc-type optical disk reading/writing device comprises a heat dissipation box, a fan, a rotary disc-type optical disk box 11 and an optical disk reading/writing device 12, wherein the side wall of the heat dissipation box with longer length is provided with an air inlet 1 and an air outlet 2, the air inlet 1 is provided with the fan, and the rotary disc-type optical disk box 11 arranged in parallel is arranged in the heat dissipation box; the rotating disc type disc boxes 11 are annular, discs are stored on the annular rotating disc type disc boxes 11 in a vertical annular mode, and disc reading/writing devices 12 which are arranged in a stacked mode are arranged between the parallel rotating disc type disc boxes 11; the air inlet 1 is over against one end of the rotating disc type disc box 11 close to the disc read/write device 12, and the air outlet 2 is over against one end of the rotating disc type disc box 11 far away from the disc read/write device 12.

Specifically, the overall capacity of the disk magazine for storing optical disks in a vertical manner is large, and more optical disks can be stored, and the optical disk read/write devices 12 are arranged between the disk magazines 11 in a stacked manner, so that the volume occupied by the optical disk library is reduced. Because of the consideration of applicable places, the devices in the optical disk library are set as compact as possible, so that the space in the optical disk library is reduced, and the optical disk library is made small, thereby causing the problem that the heat dissipation of the optical disk library is insufficient. The existing solution of the optical disc library is to install a heat dissipation fan on the cover plate or the front and rear ends of the housing to take away heat. However, if the fan is mounted on the cover plate, the compact structure of the optical disc library cannot be maintained, and the fan is mounted at the front end and the rear end of the box body, the heat of the read/write device cannot be effectively taken away, and the heat dissipation effect is poor. In this embodiment, a design of arranging the fan on the side wall is adopted, and in order to avoid the fan blowing directly towards the optical disc read/write device 12 and generating air flow to influence the process of the optical disc between the optical disc read/write device 12 and the optical disc library, the air inlet 1 is designed to be over against one end of the rotating disc type optical disc cassette 11 close to the optical disc read/write device 12, and the air outlet 2 is designed to be over against one end of the rotating disc type optical disc cassette 11 far away from the optical disc read/write device 12. Thus, the fan of the air inlet 1 blows air into the heat dissipation box, and can effectively take away the heat of the optical disk read/write device 12 in time while taking away the heat of the turntable type optical disk box 11.

Further, the heat dissipation box is rectangular, and includes two rotating disk type disc cases 11 arranged at two ends of the heat dissipation box in parallel, a disc reading/writing device 12 arranged between the two rotating disk type disc cases 11 and facing the corresponding rotating disk type disc cases 11, at least two fans arranged at the side wall of the heat dissipation box near the rotating disk type disc cases 11, and at least four air outlets 2 arranged at four corners of the heat dissipation box, wherein the air inlet direction faces the back side of the corresponding disc reading/writing device 12.

Specifically, the fan is disposed at a position on the side wall of the heat dissipation box near the rotating disk type optical disk cartridge 11, the air inlet direction faces the back side of the corresponding optical disk read/write device 12, the fan in the air inlet 1 blows cold air into the heat dissipation box, the cold air enters the heat dissipation box and meets the rotating disk type optical disk cartridge 11, when the rotating disk type optical disk cartridge 11 rotates, the optical disk stored in the rotating disk type optical disk cartridge 11 has the same effect as a fan blade, and drives air to flow, and when the cold air flows through the rotating disk type optical disk cartridge 11 and the optical disk read/write device 12 and is changed into hot air through cold-heat exchange, the hot air is discharged from the air outlet 2. The air outlets 2 are arranged at four corners of the heat dissipation box, so that air does not flow out of the heat dissipation box too early, the flow path of the air in the heat dissipation box is lengthened, the air flows according to a set air duct, heat of the turntable type optical disc cassette 11 and the optical disc read/write device 12 is taken away as far as possible, and the air is discharged out of the heat dissipation box.

Furthermore, the size of the heat dissipation box and the size of the device arranged in the box are matched with each other in an approximately equal size, so that the side wall of the heat dissipation box is as close as possible to the device in the box under the condition that the operation of the device in the box is not influenced, and the at least four air outlets 2 are arranged on the side walls of four corner spaces enclosed by the heat dissipation box and the rotating disc type optical disc box 11.

Specifically, in order to make the structure of the optical disc library more compact and make the air passage in the heat dissipation box smaller, the rotating turntable type optical disc cartridge 11 forms a larger air pressure, so as to accelerate the air flow and obtain a better heat dissipation effect. Therefore, the side wall of the heat dissipation box is made as close to the turntable-type disk magazine 11 as possible without affecting the function of reading and writing the disk by the device in the heat dissipation box.

Furthermore, the side wall of the heat dissipation box is provided with a groove 3 matched with the side profile of the disk box to be installed.

Specifically, the design of the groove 3 further makes the structure of the optical disk library more compact, the air channel in the heat dissipation box smaller, and the air pressure formed by the rotation of the turntable type optical disk box 11 is larger.

Further, the optical disc read/write apparatus 12 includes: the CD-ROM drive support is arranged on the CD-ROM drive support in a fan-shaped distribution mode.

Specifically, the optical drives are distributed on the optical drive bracket in a fan shape to match the shape of the optical disk box, so that the structure of the device in the box body is more compact, and the occupied volume is smaller.

Further, fig. 3 is the utility model discloses a front reading and writing optical drive support schematic diagram, as shown in the figure, the optical drive support includes: the CD-ROM drive support frame comprises a support frame 22, a fixing plate 21 and a comb-shaped plate 23, wherein the support frame 22 is L-shaped, the fixing plate 21 and the comb-shaped plate 23 are horizontally fixed on the vertical part of the support frame 22, and the comb-shaped plate 23 is provided with a groove 24 matched with the side profile of the CD-ROM drive.

Specifically, the combined components of the optical drive support are a support frame 22, a fixing plate 21 and a comb-shaped plate 23, the fixing plate 21 is used for fixing the optical drive in the optical drive support, the comb-shaped plate 23 is used for bearing the optical drive, and the height of the optical drive is adjusted to adapt to a disc-shaped optical storage device; the grooves 24 of the comb plate 23 adjust the optical drive ports of the optical drive to the same height to align with the disk slot openings of the optical storage device.

Further, the support is divided into a front read-write optical drive support and a back read-write optical drive support, the fixing plate 21 of the front read-write optical drive support is positioned above the comb-shaped plate 23, and the fixing plate 21 of the back read-write optical drive support is positioned below the comb-shaped plate 23.

Specifically, information data is increased every day, massive data is stored and managed, the capacity of a single-sided optical disc obviously cannot meet the requirement, and in order to realize that a disc cartridge can read and write a double-sided optical disc, the design of a front-side read-write optical disc drive support and a back-side read-write optical disc drive support is adopted in the embodiment. The front read-write optical drive support and the back read-write optical drive support have the same combined components, namely a support frame 22, a fixing plate 21 and a comb-shaped plate 23, and the difference is that the fixing plate 21 of the front read-write optical drive support is positioned above the comb-shaped plate 23, and the fixing plate 21 of the back read-write optical drive support is positioned below the comb-shaped plate 23; the protruding part of the front read-write optical drive passes through the comb plate 23 and faces downwards, and the protruding part of the back read-write optical drive passes through the comb plate 23 and faces upwards. The parts are the same, so that the matching requirements are not required to be considered when the parts are produced, and only the combination mode and the number are considered. When the device in later stage damages, it is more convenient when maintaining the change, finds the part replacement easily. The different combination modes of the same components solve the problem of communication between the optical drive and the optical storage device, and the different orientations of the grooves 24 of the comb-shaped plate 23 adjust the optical drive ports of the front read-write optical drive and the back read-write optical drive to the same height, so that the optical disk can pass in and out between the optical drive and the optical storage device.

Further, the fixing plate 21 and the comb plate 23 are fan-shaped integrally, the grooves 24 of the comb plate 23 are distributed in a fan shape, and the notches of the grooves 24 face the inner side of the fan shape.

Specifically, the fixing plate 21 and the comb plate 23 are formed in a fan shape to fit the disc-shaped optical storage device, and the inner side of the fan shape matches the outer edge profile of the optical storage device. The grooves 24 of the comb plate 23 are distributed in a fan shape, and the openings of the grooves 24 are fan-shaped inner sides to align with the disk entrance/exit of the optical storage device.

Further, the outlet 2 is provided with a fan cover.

Specifically, the fan cover of the air outlet 2 has a certain dustproof effect, so that sundries cannot enter the box, and the operation of equipment in the box is influenced.

Further, the bottom of the heat dissipation box has screw holes for fixing the disk magazine and the disk read/write device 12.

Specifically, the bottom of the case body is provided with a screw hole through which a bolt is passed to fix the disk cartridge in the case body. When the box body is transported, the compact disc box and the box body can not collide to cause equipment damage due to movement.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not limitations to the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims (10)

1. A heat dissipation system for an optical disc library, comprising: the side wall of the heat dissipation box with longer length is provided with an air inlet and an air outlet, the air inlet is provided with the fan, and the heat dissipation box is internally provided with the rotating disc type optical disc boxes which are arranged in parallel; the rotating disc type disc boxes are annular, discs are stored on the annular rotating disc type disc boxes in a vertical annular mode, and disc reading/writing devices which are arranged in a stacked mode are arranged between the parallel rotating disc type disc boxes; the air inlet is over against one end of the rotary disc type disc box close to the disc read/write device, and the air outlet is over against one end of the rotary disc type disc box far away from the disc read/write device.

2. The system as claimed in claim 1, wherein the heat dissipation box is rectangular, and comprises two disk cartridges arranged side by side at two ends of the heat dissipation box, the optical disc read/write device is arranged between the two disk cartridges and faces the corresponding disk cartridges, the fan is arranged at a position on the side wall of the heat dissipation box near the disk cartridges, the air intake direction faces the back side of the corresponding optical disc read/write device, and the air outlets are arranged at four corners of the heat dissipation box.

3. The system as claimed in claim 1, wherein the heat dissipation box has a size that is approximately equal to a size of the device disposed therein, so that the side walls of the heat dissipation box are as close as possible to the device without affecting the operation of the device, and the at least four air outlets are disposed on the side walls of the four corner spaces defined by the heat dissipation box and the carousel-type disk magazine.

4. The CD-ROM drive heat dissipation system as claimed in claim 3, wherein the side wall of the heat dissipation box has a groove matching with the profile of the side edge of the CD-ROM drive case to be installed.

5. The heat dissipation system for optical disc library as claimed in claim 1, wherein the optical disc read/write device comprises: the CD-ROM drive support is arranged on the CD-ROM drive support in a fan-shaped distribution mode.

6. The system for cooling a disc library according to claim 5, wherein the optical disc drive holder comprises: the CD-ROM drive support frame comprises a support frame, a fixing plate and a comb plate, wherein the support frame is L-shaped, the fixing plate and the comb plate are horizontally fixed on the vertical part of the support frame, and the comb plate is provided with a groove matched with the side profile of the CD-ROM drive.

7. The system as claimed in claim 6, wherein the frame is divided into a front read/write optical drive frame and a back read/write optical drive frame, the fixing plate of the front read/write optical drive frame is located above the comb plate, and the fixing plate of the back read/write optical drive frame is located below the comb plate.

8. The system as claimed in claim 7, wherein the fixing plate and the comb plate are integrally formed in a fan shape, the grooves of the comb plate are distributed in a fan shape, and the groove opening faces the inner side of the fan shape.

9. The optical disc library heat dissipation system as claimed in claim 1, wherein the air outlet is provided with a fan cover.

10. The system as claimed in any one of claims 1 to 9, wherein the heat dissipation box has a screw hole at the bottom thereof for fixing the disk magazine and the disk read/write device.

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