CN102005236B - Information storage device and electronic device - Google Patents
Information storage device and electronic device Download PDFInfo
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- CN102005236B CN102005236B CN 201010215299 CN201010215299A CN102005236B CN 102005236 B CN102005236 B CN 102005236B CN 201010215299 CN201010215299 CN 201010215299 CN 201010215299 A CN201010215299 A CN 201010215299A CN 102005236 B CN102005236 B CN 102005236B
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- disk drive
- underframe
- hard disk
- support portion
- support chip
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Abstract
The invention discloses an information storage device and an electronic device. The information storage device comprises: at least two mutually-laminated magnetic disk driving devices (16a,16b), a first bottom frame (20) mounted on one magnetic disk driving device (16a) and a second bottom frame (31) mounted on another magnetic disk driving device (16b). The first bottom frame (20) comprises a plurality of first support parts (24) detachably supported on a top plate (19) and a plurality of second support parts (28) arranged at the position apart from the first support parts (24). The second bottom frame (31) comprises a plurality of third support parts (35) opposite to the second support parts (28) when mutually laminating the magnetic disk driving devices (16a, 16b). The second support parts (28) are detachably connected with the third support parts (35) by a shockproof object (38).
Description
Technical field
The present invention relates to a kind of stacked at least two disk drives (diskdrive: information-storing device disc driver) mutually that has.And, the invention still further relates to a kind of electronic equipments that at least two disk drives are accommodated in mutually stackedly enclosure interior.
Background technology
For example, be known in when recording a video a plurality of TVs (TV) program simultaneously or recording a video long-time program the recording apparatus that is connected with televisor (TV) and uses in the prior art.
This recording apparatus comprises the housing of box-shaped and is accommodated in a plurality of hard disk drives of this enclosure interior (hard disk drive: hard disk drive).In the finite space (space) that hard disk drive is encased in enclosure interior, hard disk drive is in the mutual stacked configuration of enclosure interior.
Japanese kokai publication hei 6-309859 communique has disclosed for example stacked and fix the hard disk installing device of two hard disk drives.According to existing hard disk installing device, two hard disk drives are incorporated in the receiver.Receiver has hard disk drive is clipped in the middle and opposed left and right sides sidewall.Be separately installed with guide rail (guide rail) in inside surface of side wall.Two hard disk drives are supported on the guide rail respectively.
According to above-mentioned Japanese Laid-Open Patent communique, two hard disk drives are fixed on the guide rail of taking in shell with mutual different stationary installation.In such formation, from take in shell, pull down hard disk drive, must remove the fixing of relative guide rail by platform.Thereby, the operability variation when from take in shell, pulling down hard disk drive.
And, because every hard disk drive needs special-purpose stationary installation, so can't avoid increasing of number of components.Its result exists the structure for the Fixed disk drive unit to become numerous and diverse and become the high defectives such as main cause of cost that cause hard disk installing device.
Summary of the invention
The objective of the invention is to obtain a kind ofly can simultaneously or dismantle stacked a plurality of disk drives separately, thereby the operability can improve the dismounting disk drive time can be cut down the information-storing device of number of components simultaneously.
Another object of the present invention is to obtain a kind of like this electronic equipment, this electronic equipment can be simultaneously or dismounting stacked a plurality of disk drives in housing separately, thereby the operability in the time of can improving the dismounting disk drive can be cut down number of components simultaneously.
To achieve these goals, the related information-storing device of one aspect of the present invention is the mutual information-storing device of stacked at least two disk drives, and above-mentioned information-storing device comprises first underframe (first chassis) that is installed on the disk drive and is installed in second underframe (second chassis) on another disk drive.
This information-storing device is characterised in that, above-mentioned first underframe has and removably is supported on a plurality of first support portions in the portion of being mounted and is arranged on locational a plurality of second support portions of leaving above-mentioned first support portion, above-mentioned second underframe has when mutual stacked above-mentioned disk drive and opposed a plurality of the 3rd support portions, above-mentioned second support portion, removably connects by shockproof object between above-mentioned second support portion and above-mentioned the 3rd support portion.
To achieve these goals, the related electronic equipment of one aspect of the present invention comprises: housing, mutually be accommodated in stackedly above-mentioned enclosure interior at least two disk drives, be installed in first underframe on the disk drive and be installed in second underframe on another disk drive.
This electronic equipment is characterised in that, above-mentioned first underframe has by shockproof object and removably is supported on a plurality of first support portions in the above-mentioned housing and is arranged on locational a plurality of second support portions of leaving above-mentioned first support portion, above-mentioned second underframe has when mutual stacked above-mentioned disk drive and opposed a plurality of the 3rd support portions, above-mentioned second support portion, removably connects by shockproof object between above-mentioned second support portion and above-mentioned the 3rd support portion.
According to the present invention, can under overlapped state, take out a plurality of disk drives or taking-up and another disk drive that disk drive is overlapping separately simultaneously.Therefore, the operability in the time of can improving needs dismounting disk drive.
And by the universalization of shockproof object, as long as needed special-purpose member when stacked at least two disk drives is these two on first and second underframe.Thereby, number of components can be controlled to seldom, thereby reduce cost.
Other purposes of the present invention and advantage will be described below, and will be therefrom apparent partly, maybe can understand by practice of the present invention.Objects and advantages of the present invention can realize and obtain by the device that hereinafter particularly points out and combination thereof.
Description of drawings
Accompanying drawing is included in the instructions, constitutes the part of instructions, and it sets forth embodiments of the present invention with above-mentioned general description and following embodiment, and embodiment is used for explaining principle of the present invention, wherein:
Fig. 1 is the stereographic map of the related televisor of embodiments of the present invention (TV) connection device;
Fig. 2 is the stereographic map that the inner structure of the related televisor of embodiments of the present invention (TV) connection device roughly is shown;
Fig. 3 is the stereographic map of employed information storage module (module) in embodiments of the present invention;
Fig. 4 is the vertical view of employed information storage module (module) in embodiments of the present invention;
Fig. 5 is the rear view of employed information storage module (module) in embodiments of the present invention;
Fig. 6 is the sectional view of representing in embodiments of the present invention information storage module (module) to be encased in the state of enclosure interior;
Fig. 7 is the side view from the information storage module (module) of the direction observation of the F7 line of Fig. 6; And
Fig. 8 is the sectional view along the F8-F8 line of Fig. 4.
Embodiment
Below, describe referring to figs. 1 through the embodiments of the present invention of Fig. 8.
Fig. 1 shows as the televisor of electronic equipment one example (TV) connection device 1.Televisor connection device 1 is to be connected with liquid crystal TV set and the equipment that uses, for example has the function that receives various TV programme and the function of record a video simultaneously a plurality of TV programme or the long-time program of recording a video.
Televisor connection device 1 has the equipment body 2 of flat box-shaped.Equipment body 2 comprise the trim (cover) 4 of metal housing 3, covering shell 3 and cover trim 4 front surface about two fan Qianmen (front doors) 5a, 5b.
Housing 3 becomes the framework of equipment body 2, and has the base plate 6 of smooth (flat).Tuner module (tuner module) 7, power module 8, card (card) coupling arrangement 9, first information memory module 10 and second information storage module 11 are configured on the base plate 6 of housing 3.
First information memory module 10 and second information storage module 11 are used for video tv program or the retrieval TV programme of having recorded a video and resetting rapidly.First information memory module 10 for example has hard disk drive 14a, the 14b of two 5 inches (inch). Hard disk drive 14a, 14b are flatly supported by holder 15 respectively, and stacked mutually on the thickness direction of equipment body 2.
As shown in Figures 2 and 3, second information storage module 11 has two hard disk drive 16a, 16b as 3.5 inches (inch) of disk drive.Each hard disk drive 16a, 16b have the closed enclosure 17 that is made of base and top cover.Be incorporated in the inside of closed enclosure 17 such as the motor various composed components such as (motor) of a plurality of disks (magnetic disk), the carriage (carriage) with magnetic head (magnetic head) and driving disk.And, dispose connector shown in Figure 5 (connector) 17a at an end of closed enclosure 17.
As Fig. 2 and shown in Figure 6, two hard disk drive 16a, 16b are to be supported on the brace table 18 at mutual stacked state on the thickness direction of equipment body 2.Below, the supporting construction of hard disk drive 16a, 16b is described.
Brace table 18 is by being fixed on the base plate 6 of housing 3 such as devices such as screw clamps.Brace table 18 has the top board 19 of level.Top board 19 is examples that are mounted portion, and itself and housing 3 are integrated and be positioned at the top of base plate 6.
To shown in Figure 7, metal first underframe (first chassis) 20 is installed on the closed enclosure 17 of hard disk drive 16a as Fig. 3, Fig. 5.First underframe 20 has tetragonal back up pad 21.Back up pad 21 has the size identical with the flat shape of the closed enclosure 17 of hard disk drive 16a.Four bights of back up pad 21 are fixed on the bottom of closed enclosure 17 by screw 22.And, in order to seek lightweight, be formed with tetragonal peristome 21a at the central portion of back up pad 21.
Back up pad 21 has the first edge 23a and the second edge 23b.The first edge 23a and the second edge 23b keep prolonging in parallel to each other at interval at the Width of closed enclosure 17.
On the first edge 23a of back up pad 21 and the second edge 23b, be formed with a pair of first support chip 24 respectively.First support chip 24 is examples of first support portion, after its two ends from the first edge 23a of back up pad 21 and the second edge 23b are bent downwardly, flatly stretches out towards the side direction of back up pad 21.Therefore, first support chip 24 with four jiaos the mode that is positioned at back up pad 21 keep the compartment of terrain be configured in hard disk drive 16a around.
And, be formed with slit (slit: slit) 25 at each first support chip 24.Slit 25 is to cut and form towards the first edge 23a and the second edge 23b of back up pad 21 from the front edge of first support chip 24.
As shown in Figure 7, pair of side plates 27a, 27b are formed on the back up pad 21.Side plate 27a generally perpendicularly erects from the first edge 23a of back up pad 21, and is located between a pair of first support chip 24 that the side direction of the first edge 23a stretches out.Equally, another side plate 27b generally perpendicularly erects from the second edge 23b of back up pad 21, and is located between a pair of first support chip 24 that the side direction of the second edge 23b stretches out.Therefore, side plate 27a, 27b are clipped in the middle closed enclosure 17 and are opposed mutually.
On the coboundary of side plate 27a, 27b, be formed with a pair of second support chip 28 respectively.Second support chip 28 is examples of second support portion, and flatly stretch out towards the side direction of back up pad 21 at its two ends from the coboundary of side plate 27a, 27b.Second support chip 28 has threaded hole 29 separately.
Therefore, as shown in Figure 5, first support chip 24 and second support chip 28 with adjacent mode be arranged in hard disk drive 16a around.
And as shown in Figure 5, a pair of first support chip 24 that is positioned at a pair of first support chip 24 of the first edge 23a and is positioned at the second edge 23b is configured to symmetrical with respect to the center line O1 along the Width of back up pad 21.Equally, being positioned at a pair of second support chip 28 of coboundary of a side plate 27a and a pair of second support chip 28 that is positioned at the coboundary of another side plate 27b is configured to symmetrical with respect to center line O1.
Therefore, when being installed on first underframe 20 on the hard disk drive 16a, can not limit first underframe 20 towards, therefore can easily carry out the operation to first underframe 20.
Metal second underframe 31 is installed on the closed enclosure 17 of hard disk drive 16b.Second underframe 31 has tetragonal back up pad 32.Back up pad 32 has the size identical with the back up pad 21 of first underframe 20.Four bights of back up pad 32 are fixed on the bottom of closed enclosure 17 by screw 33.
As Fig. 4 and shown in Figure 7, back up pad 32 has the first edge 34a and the second edge 34b.The first edge 34a and the second edge 34b keep prolonging in parallel to each other at interval at the Width of closed enclosure 17.
On the first edge 34a of back up pad 32 and the second edge 34b, be formed with a pair of the 3rd support chip 35 respectively.The 3rd support chip 35 is examples of the 3rd support portion, and it flatly stretches out towards the side direction of back up pad 32 from the first edge 34a of back up pad 32 and the two ends of the second edge 34b.When being stacked in hard disk drive 16b on the hard disk drive 16a, second support chip 28 of the 3rd support chip 35 and first underframe 20 is opposed.
And, on the 3rd support chip 35, be formed with slit 36 respectively.Slit 36 is to cut and form towards the first edge 34a and the second edge 34b of back up pad 32 from the front edge of the 3rd support chip 35.
As shown in Figure 4, a pair of the 3rd support chip 35 that is positioned at a pair of the 3rd support chip 35 of the first edge 34a and is positioned at the second edge 34b is configured to symmetrical with respect to the center line 02 along the Width of back up pad 32.
Thus, when being installed on second underframe 31 on the hard disk drive 16b, can not limit the direction of second underframe 31, thereby can easily carry out the operation to second underframe 31.
To shown in Figure 8, be separately installed with the shockproof object 38 of rubber system as Fig. 3 at the 3rd support chip 35 of first support chip 24 of first underframe 20 and second underframe 31.Shockproof object 38 is the universal components that are the open circles tubular.Embeded slot 39 is formed in the pars intermedia vertically of outer circumference surface of shockproof object 38.
By embeded slot 39 is pushed in the slit 25 of first support chip 24, thereby shockproof object 38 is remained on first support chip 24.Equally, by embeded slot 39 is pushed in the slit 36 of the 3rd support chip 35, thereby shockproof object 38 is remained on the 3rd support chip 35.
Therefore, shockproof object 38 has from first support chip 24 and the 3rd support chip 35 outstanding 38a of first and the second portion 38b that projects upwards from first support chip 24 and the 3rd support chip 35 downwards.The overhang of the overhang of the 38a of first and second portion 38b is equal to each other.
Under the state of stacked two hard disk drive 16a, 16b, be installed in the 38a of first of the shockproof object 38 on the 3rd support chip 35 between the 3rd support chip 35 and second support chip 28.
Removably connect by screw 41 between second support chip 28 and the 3rd support chip 35.Screw 41 connects shockproof object 38, and screws in the threaded hole 29 of second support chip 28.And the head 41a of each screw 41 contacts across the upper surface of packing ring 42 with the second portion 38b of shockproof object 38.
Therefore, tightening under the state of screw 41 with the moment of torsion of regulation, shockproof object 38 is compressed between packing ring 42 and second support chip 28, thereby second underframe 31 flexibly is supported on first underframe 20.
As shown in Figure 7, under the state of stacked two hard disk drive 16a, 16b, between the back up pad 32 of the upper surface of the closed enclosure 17 of the hard disk drive 16a of lower floor and second underframe 31, be formed with gap 44.Gap 44 is set to the thickness greater than the 38a of first of shockproof object 38.The head that second underframe 31 is fixed on the screw 33 on the hard disk drive 16b exposes in gap 44.
On the other hand, two hard disk drive 16a, 16b are placed on the top board 19 of brace table 18 with mutual stacked state.Thus, be installed in the 38a of first of the shockproof object 38 on first support chip 24 of first underframe 20 between first support chip 24 and top board 19.
Removably connect by general screw 41 between first support chip 24 and the top board 19.Screw 41 connects shockproof object 38, and screws in the threaded hole of opening on top board 19 45.And the head 41a of screw 41 contacts across the upper surface of general packing ring 42 with the second portion 38b of shockproof object 38.
Therefore, tightening under the state of screw 41 with the moment of torsion of regulation, shockproof object 38 is compressed between packing ring 42 and the top board 19, thereby first underframe 20 flexibly is supported on the top board 19.
As shown in Figure 7, between the back up pad 21 of first underframe 20 and top board 19, be formed with gap 46.Gap 46 is set to the thickness greater than the 38a of first of shockproof object 38.The head that first underframe 20 is fixed on the screw 22 on the hard disk drive 16a exposes in gap 46.
Two hard disk drive 16a, 16b both can be stacked and form and be assemblied on the top board 19 of brace table 18 under the state of Construction integration thing mutually, after also can first underframe 20 on will being installed on hard disk drive 16a being assemblied on the top board 19, stacked and be fixed on first underframe 20 with being installed on second underframe 31 on the hard disk drive 16b.
According to such embodiments of the present invention, second support chip 28 of first underframe 20 is arranged on the position of leaving first support chip 24, with not overlapping with first support chip 24.Thus, second underframe 31 is fixed on screw 41 on first underframe 20 can not be positioned at first underframe 20 be fixed on screw 41 on the top board 19 directly over.
Therefore, as long as remove fastening with respect to top board 19 of first support chip 24, just can be simultaneously unload the hard disk drive 16a of the lower floor that first underframe 20 supports and the hard disk drive 16b on the upper strata that second underframe 31 supports from top board 19.Therefore, can directly from housing 3, mutual two stacked hard disk drive 16a, 16b be taken out simultaneously.
Meanwhile, for example change under the situation of the hard disk drive 16b that is positioned at the upper strata at needs, second underframe 31 that supports this hard disk drive 16b can be unloaded separately from first underframe 20.
Thereby, although two hard disk drive 16a, 16b are stacked mutually, when from housing 3, taking out hard disk drive 16a, 16b, as long as also unscrew four screws 41 of fastening first underframe 20 or second underframe 31, improved operability.
And according to above-mentioned formation, the shockproof object 38 that is supported on first support chip 24 and the 3rd support chip 35 has general structure mutually, and the screw 41 that connects shockproof object 38 also is general.Thus, when stacked two hard disk drive 16a, 16b, special-purpose parts only need first underframe 20 and second underframe 31 these two get final product.Its result, number of components and variety of components can be controlled to minimum, thereby can reduce the manufacturing cost of televisor connection device 1.
And, according to present embodiment, gap 44 between the upper surface of the closed enclosure 17 of hard disk drive 16a and the back up pad 32 of second underframe 31 is set to the thickness greater than the 38a of first of shockproof object 38, thereby expose in this gap 44 head that second underframe 31 is fixed on the screw 33 on the hard disk drive 16b on upper strata is arranged.
Equally, the back up pad 21 of first underframe 20 and the gap 46 between the top board 19 are set to the thickness greater than the 38a of first of shockproof object 38, thereby expose in this gap 46 head that first underframe 20 is fixed on the screw 22 on the hard disk drive 16a of lower floor are arranged.
Thus, even be subjected to from the bigger bump in outside at for example televisor coupling arrangement 1, shockproof object 38 is for absorbing bump when suffering to be out of shape than the mode of havoc, also can avoid the mutual interference of the back up pad 32 of the hard disk drive 16a of the mutual interference of the back up pad 21 of mutual interference, first underframe 20 of the hard disk drive 16b on the hard disk drive 16a of lower floor and upper strata and top board 19 and lower floor and second underframe 31.
Therefore, the head with the hard disk drive 16a collision of the head that can prevent screw 33 and lower floor or screw 22 and top board 19 collisions and impact can not be passed to the advantage of hard disk drive 16a, 16b.
The present invention is not limited to above-mentioned embodiment, in the scope of the principle that does not break away from invention, can carry out various distortion to the present invention.
For example, stacked hard disk drive is not limited to same size mutually.Specifically, can make the hard disk drive on upper strata less than the hard disk drive of lower floor, or in contrast, make the hard disk drive on upper strata greater than the hard disk drive of lower floor.
Meanwhile, in the above-described embodiment, between a pair of first support chip, disposed a pair of second support chip, but the present invention is not limited to this.For example, also can make the configuration space of a pair of second support chip greater than the configuration space of a pair of first support chip, thereby a pair of first support chip is configured between a pair of second support chip.
And, in the above-described embodiment, mutually stacked two hard disk drives, if but have in the space of enclosure interior more than needed, the also hard disk drive of stacked three or three above quantity mutually then.At this moment, certainly need to prepare underframe with stacked hard disk drive respective amount.
And electronic equipment involved in the present invention is not limited to have the televisor connection device of receiving function, for example also can be the video recording specialized apparatus.
Those skilled in the art will expect other advantages of the present invention and distortion at an easy rate.Therefore, aspect wideer, the invention is not restricted to the concrete representative embodiments of describing and providing in this instructions.Therefore, only otherwise break away from the spirit or scope of the upperseat concept that claims and equivalent thereof limit, can carry out various distortion to the present invention.
Claims (8)
1. information-storing device, mutually stacked at least two disk drives (16a, 16b) in the described information-storing device, and be formed with gap (44) between stacked described disk drive (16a, 16b), described information-storing device comprises:
First underframe (20) is installed on the disk drive (16a); And
Second underframe (31) is installed on another disk drive (16b), and described information-storing device is characterised in that,
Described first underframe (20) has a plurality of first support portions (24) in the portion of being mounted that removably is supported on (19) and is arranged on locational a plurality of second support portions (28) of leaving described first support portion (24),
Described second underframe (31) has when mutual stacked described disk drive (16a, 16b) and opposed a plurality of the 3rd support portions, described second support portion (28) (35),
Removably be connected by shockproof object (38) between described second support portion (28) and described the 3rd support portion (35).
2. information-storing device according to claim 1 is characterized in that,
Described first support portion (24) and described second support portion (28) with adjacent mode be configured in a described disk drive (16a) around.
3. information-storing device according to claim 1 is characterized in that,
Described gap (44) is greater than the thickness of described shockproof object (38).
4. information-storing device according to claim 3 is characterized in that,
Described second underframe (31) is fixed on described another disk drive (16b) by screw (33), and the head of described screw (33) exposes in described gap (44).
5. information-storing device according to claim 1 is characterized in that,
Described gap (44) is the key element of the mutual interference of the mutual interference of the described disk drive (16a) that produces be used to avoiding following the distortion of described shockproof object (38) and described another disk drive (16b) or described first underframe (20) and described second underframe (31).
6. electronic equipment comprises:
Housing (3);
At least two disk drives (16a, 16b), described two disk drives are accommodated in the inside of described housing (3) mutually stackedly;
Gap (44) is formed between the stacked mutually described disk drive (16a, 16b);
First underframe (20) is installed on the disk drive (16a); And
Second underframe (31) is installed on another disk drive (16b), and described electronic equipment is characterised in that,
Described first underframe (20) has removably to be situated between and is supported on a plurality of first support portions (24) in the described housing (3) and is arranged on locational a plurality of second support portions (28) of leaving described first support portion (24) by shockproof object (38),
Described second underframe (31) has when mutual stacked described disk drive (16a, 16b) and opposed a plurality of the 3rd support portions, described second support portion (28) (35),
Removably be connected by shockproof object (38) between described second support portion (28) and described the 3rd support portion (35).
7. electronic equipment according to claim 6 is characterized in that,
Described first support portion (24) and described second support portion (28) with adjacent mode be configured in a described disk drive (16a) around.
8. electronic equipment according to claim 6 is characterized in that,
Mutually the described gap (44) between the stacked described disk drive (16a, 16b) and be arranged on described housing (3) and a described disk drive (16a) between gap (46) greater than the thickness of described shockproof object (38).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2009198885A JP4799650B2 (en) | 2009-08-28 | 2009-08-28 | Electronics |
JP2009-198885 | 2009-08-28 |
Publications (2)
Publication Number | Publication Date |
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CN102005236A CN102005236A (en) | 2011-04-06 |
CN102005236B true CN102005236B (en) | 2013-08-14 |
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ID=43812519
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201010215299 Expired - Fee Related CN102005236B (en) | 2009-08-28 | 2010-06-25 | Information storage device and electronic device |
Country Status (2)
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JP (1) | JP4799650B2 (en) |
CN (1) | CN102005236B (en) |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6075695A (en) * | 1997-02-21 | 2000-06-13 | Mitsumi Electric Co., Ltd. | Mounting structure of magnetic disk drive into main body of computer |
US7031152B1 (en) * | 2004-12-29 | 2006-04-18 | Tatung Co., Ltd. | Hard disk common support structure |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS609264U (en) * | 1983-06-28 | 1985-01-22 | 沖電気工業株式会社 | Loading body |
JPH03127818A (en) * | 1989-10-13 | 1991-05-30 | Fujitsu Ltd | Manufacture of reticle |
JP3185833B2 (en) * | 1993-10-22 | 2001-07-11 | ミツミ電機株式会社 | Data recording / reproducing device |
JP3073941B2 (en) * | 1997-09-04 | 2000-08-07 | 三菱電機株式会社 | Drive retention mechanism |
JPH11184559A (en) * | 1997-12-24 | 1999-07-09 | Toshiba Corp | Portable information equipment |
JP3648471B2 (en) * | 2001-09-19 | 2005-05-18 | 株式会社東芝 | Electronic device with bracket for fixing storage device |
JP2007004885A (en) * | 2005-06-23 | 2007-01-11 | Adtex:Kk | Hard disk device for mirroring |
-
2009
- 2009-08-28 JP JP2009198885A patent/JP4799650B2/en not_active Expired - Fee Related
-
2010
- 2010-06-25 CN CN 201010215299 patent/CN102005236B/en not_active Expired - Fee Related
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6075695A (en) * | 1997-02-21 | 2000-06-13 | Mitsumi Electric Co., Ltd. | Mounting structure of magnetic disk drive into main body of computer |
US7031152B1 (en) * | 2004-12-29 | 2006-04-18 | Tatung Co., Ltd. | Hard disk common support structure |
Also Published As
Publication number | Publication date |
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CN102005236A (en) | 2011-04-06 |
JP2011048790A (en) | 2011-03-10 |
JP4799650B2 (en) | 2011-10-26 |
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