CN1170288C

CN1170288C - Hard disc extracting and changing mechanism for data processor

Info

Publication number: CN1170288C
Application number: CNB011210508A
Authority: CN
Inventors: 黄金洞
Original assignee: Wistron Corp; Acer Inc
Current assignee: Wistron Corp; Acer Inc
Priority date: 2001-06-18
Filing date: 2001-06-18
Publication date: 2004-10-06
Anticipated expiration: 2021-06-18
Also published as: CN1392563A

Abstract

The present invention relates to a hard disc extracting and changing mechanism for a data processor, which comprises a casing, guide plates at both sides of the casing, a back carrier plate and a front carrier plate, wherein both side edges of the casing are respectively provided with a sliding path, the guide plates at both sides and the sliding paths are matched in a sliding mode, and the back section of each guide plate is combined with the back carrier plate; both sides of the front section of each guide plate are respectively provided with a staircase-shaped guide groove, and both side edges of the front carrier plate slide between a first position and a second position of the staircase-shaped guide groove. When the front carrier plate slides to the first position of the guide groove, the front carrier plate and the back carrier plate are mutually combined. When the front carrier plate slides to the second position of the guide groove, the front carrier plate and the back carrier plate form a staircase shape, so that hard discs loaded above the front carrier plate and the back carrier plate are simultaneously exposed so as to facilitate heat pumping replacement.

Description

The hard disc extracting and changing mechanism of data processor

The present invention relates to a kind of hard disc extracting and changing mechanism of data processor, particularly relate to a kind of more easy hard disc extracting and changing mechanism of hard disc extracting and changing that can make data processor.

Arriving along with cybertimes, human dependence for data processor is also just more and more heavier, data processor mainly comprises personal computer, servomechanism, PDA and Palm etc., wherein the servomechanism major function can provide the required hardware platforms of manufacturer such as virtual private networks (VPN), Co-location business (Co-Location), ecommerce, ISP, ICP, ASP and Internet Gateway, and the servo platform of client computer (comprising personal computer, PDA and Palm).

See also shown in Figure 1, it is the 1U servomechanism synoptic diagram of prior art, for management in response to machine room, at present each tame servomechanism producer all competitively releases the servomechanism product of 1U specification, wherein 1U refers to the height of a unit of machine room internal rack, approximately is 1.75 inches and since the 1U servomechanism have volume little, do not take up space and normalized product, be easy in frame, carry out advantage such as upper and lower, therefore more and more be subjected to liking of user.

The casing material of servomechanism 10 mainly is to be metal, and it is made up of a shell 12, two flipper guides 14 and a bottom deck 16, and casing inside is provided with motherboard, power supply unit (not shown) and many elements such as hard disk 11,13.Because the hard disk of current servo device 10 inside all 11,13 has hot plug (hot swap) function, so servomechanism 10 can be substituted

hard disk

11,13 under the state that runs well.The maintenance of inner member for convenience with substitute, the servomechanism 10 of prior art is respectively equipped with a sliding path (not shown) in the dual side-edge inboard of shell 12, two flipper guides 14 can slidably reciprocate in sliding path, its lower edge then is to interosculate with two sides of bottom deck 16, after bottom deck 16 had been subjected to pulling force, itself and two flipper guides 14 will outwards skid off along the sliding path that shell 12 is provided.Therefore the current servo device is that

hard disk

11,13 is arranged on the bottom deck 16 mostly, when bottom deck 16 when being drawn out of, the user just can directly will be located at

hard disk

11,13 taking-ups of bottom deck 16 and change.

See also shown in Figure 2, it substitutes the mode synoptic diagram for 1U servomechanism 10 internal hard drives, because the integral thickness of 1U servomechanism 10 is thinner relatively, if therefore will be at eight hard disks of servomechanism 10 inner placements, usually all be hard disk to be divided into forward and backward two dischargings place on the bottom deck 16, front-seat near placing four front-seat hard disks 11 in the outside, row's hard disk 13 after back row then can place four near the inboard.Servomechanism 10 is when changing hard disk, and it must be extracted bottom deck 16 out earlier and just can change forward and backward row's hard disk 11,13.If wherein during the front-seat hard disk 11 of the hard disk of being changed, the user can directly change front-seat hard disk 11 in the hot plug mode, if but the hard disk of being changed is when afterwards arranging hard disk 13a, just must earlier all front-seat hard disks 11 be taken out, allow the user have enough working spaces can change back row's hard disk 13a afterwards.Because this kind substituted very inconvenience of mode, in the servomechanism product on the market, be to put hard disk mostly at present with single configuration mode.Therefore, the servomechanism of prior art can't be provided with under the situation of double hard disk, allows forward and backward row's hard disk all can freely carry out heat simultaneously again and substitutes.

Its reason mainly is that therefore forward and backward row's hard disk must be close to arrangement because its inner space of servomechanism of prior art is limited, but thus, back row's hard disk is become be not easy to change very much; Otherwise, if the inner space of the increasing servomechanism relatively volume of servomechanism also can become big, therefore how to design a kind of hard disc extracting and changing mechanism, make servomechanism (data processor) not need to increase under the situation of volume, allow forward and backward row's hard disk of being located at servomechanism inside become to be easy to extract and change, be the target place of solution that computer manufacturing person is bursting in fact.

The object of the present invention is to provide a kind of hard disc extracting and changing mechanism of data processor, this mechanism can increase the convenience that the data processor internal hard drive is substituted.

Order of the present invention is achieved in that the hard disc extracting and changing mechanism that a kind of data processor promptly is provided, and comprising: a shell, and it has two sidewalls, and above-mentioned two sidewalls are respectively equipped with a sliding path; Two flipper guides are slidingly matched with above-mentioned sliding path formation, and its leading portion is respectively equipped with at least one stepped guide groove, and this stepped guide groove has one first location and one second location; One back board can carry a plurality of backs row's hard disk on it, its dual side-edge combines with the back segment of above-mentioned flipper guide respectively, and this back board can relatively move by above-mentioned flipper guide and above-mentioned shell; And board before, can carry a plurality of front-seat hard disks on it, before above-mentioned, be respectively equipped with at least one guide rod on the dual side-edge of board, above-mentioned guide rod can slide in the stepped guide groove of above-mentioned two flipper guide leading portions; When wherein current board slides into first location of guide groove, its with the back board mutually and close, current board slides into second when location of guide groove, and it forms step structure with the back board, forward and backward row's hard disk is come out simultaneously be beneficial to the heat of carrying out back row's hard disk to be substituted.

The present invention also provides a kind of hard disc extracting and changing mechanism of data processor, comprising: a shell, and it has two sidewalls, and this two sidewall is respectively equipped with a sliding path; Two flipper guides are slidingly matched with above-mentioned sliding path formation, and the leading portion of wherein above-mentioned two guide plates is respectively equipped with at least one guide rod; One back board can carry a plurality of backs row's hard disk on it, its dual side-edge combines with the back segment of above-mentioned flipper guide respectively, and this back board can relatively move with above-mentioned shell by above-mentioned flipper guide; And board before, can carry a plurality of front-seat hard disks on it, and its dual side-edge is respectively equipped with at least one stepped guide groove, and wherein above-mentioned stepped guide groove has one first location and one second location, and above-mentioned guide rod can slide between locate first location and second of above-mentioned stepped guide groove; Wherein when two flipper guides slide into second location of guide groove, before board and back board mutually and close, when two flipper guides slide into first when location of guide groove, preceding board will form step structure with the back board, forward and backward row's hard disk be come out simultaneously be beneficial to carry out the back to arrange the heat of hard disk and substitute.

The present invention also provides a kind of hard disc extracting and changing mechanism of data processor, comprising: a shell, and it has two sidewalls, and this two sidewall is respectively equipped with a sliding path; Two flipper guides are slidingly matched with above-mentioned sliding path formation; One back board can carry a plurality of backs row's hard disk on it, its dual side-edge combines with the back segment of above-mentioned flipper guide respectively, and this back board can relatively move by above-mentioned flipper guide and above-mentioned shell; And board before, can carry a plurality of front-seat hard disks on it; Should before become portable cooperation between dual side-edge and the above-mentioned two flipper guide leading portions of board, this preceding board can be moved between a primary importance and a second place with respect to above-mentioned two flipper guides, when current board moves to this primary importance, it merges mutually with the back board, when current board moves to this second place, itself and back will form step structure between the board, forward and backward row's hard disk be come out simultaneously be beneficial to carry out the back to arrange the heat of hard disk and substitute.

The first embodiment of the present invention is, two sidewalls of its shell are respectively equipped with a sliding path, two flipper guides then are to form with the sliding path of shell two sidewalls respectively to be slidingly matched, and can on sliding path, slidably reciprocate, wherein the back segment of two flipper guides partly is to combine with the back board, two sides of its leading portion part then are to be respectively equipped with a stepped guide groove, and the dual side-edge of preceding board can slide between locate first location and second of stepped guide groove.Owing to be placed with a plurality of front-seat hard disks and back row's hard disk on the back board of data processor and the preceding board respectively, when current board slides into first location of guide groove, its with the back board mutually and close; When current board slides into second location of guide groove, it forms step structure with the back board, the hard disk that forward and backward board top is carried is come out simultaneously, therefore the user can directly carry out heat to back row's hard disk and substitutes, and not change back row's hard disk after not needing earlier front-seat hard disk to be extracted out again.

The second embodiment of the present invention is, two sidewalls of its shell are respectively equipped with a sliding path, two flipper guides form with the sliding path of shell two sidewalls respectively and are slidingly matched, and can on sliding path, move around, wherein a plurality of backs row's hard disk can be placed in board top in back, preceding board can be placed a plurality of front-seat hard disks, and its dual side-edge forms stepped guide groove respectively, and two flipper guides can be slided between locate first location and second of stepped guide groove.When two flipper guides slide into second when location of guide groove, preceding board and back board are mutually and close; When two flipper guides slide into first when location of guide groove, will form step structure between preceding board and the back board, so the user can directly carry out heat to back row's hard disk and substitute, and after not needing earlier front-seat hard disk to be extracted out again to after arrange hard disk and do not change.

Can increase the facility that the data processor internal hard drive is substituted by above explanation hard disc extracting and changing mechanism of the present invention as can be known, back row's hard disk can directly be changed, again back row's hard disk is not changed and do not need to extract out earlier front-seat hard disk, for the operation that hard disk is changed, mechanism provided by the present invention will allow hard disc extracting and changing more convenient.

Below in conjunction with accompanying drawing, describe embodiments of the invention in detail, wherein:

Fig. 1 is the servomechanism synoptic diagram of prior art;

Fig. 2 substitutes synoptic diagram for the servomechanism internal hard drive of prior art;

Fig. 3 is that first of servomechanism of the present invention is implemented illustration;

Fig. 4 A, Fig. 4 B are that the internal hard drive of first embodiment is substituted synoptic diagram;

Fig. 5 implements illustration for second of servomechanism of the present invention;

Fig. 6 A, Fig. 6 B are that the internal hard drive of second embodiment is substituted synoptic diagram.

The present invention discloses a kind of hard disc extracting and changing mechanism of data processor, data processor inside is provided with forward and backward row's hard disk, hard disc extracting and changing mechanism can make forward and backward row's hard disk of data processor inside come out simultaneously, make back row's hard disk when changing, can not be subjected to the influence of front-seat hard disk, therefore can increase the facility that the data processor internal hard drive is substituted, for the ease of implementation, data processor of the present invention will be with the servomechanism of 1U specification, and to forward and backward row's hard disc extracting and changing mechanism of inside as explanation, yet practical range of the present invention is not as limit.

See also shown in Figure 3ly, it is first embodiment of the present invention figure, and the data processor that present embodiment is carried is a servomechanism 30, and it comprises board 34 before a shell 31, two flipper guides 32, the back board 33 and.Shell 31 has two sidewalls, and its inboard is respectively equipped with a sliding path 35, and above-mentioned sliding path 35 forms with two flipper guides 32 respectively and is slidingly matched, and it can be slidably reciprocated on sliding path 35.Wherein can utilize bolt or welding manner to interosculate between the back segment of two flipper guides 32 part and the back board 33, perhaps the back segment of two flipper guides 32 part also can be one-body molded with back board 33.The leading portion of two flipper guides 32 partly is respectively equipped with two stepped guide grooves 36, and it has 361 and second location 362, first location, and the position of first location 361 is than the position height of second location 362.The dual side-edge of preceding board 34 is provided with guide rod 341 and can be inserted among the stepped guide groove 36, make guide rod 341 preceding board 34 can be moved with respect to flipper guide 32 between a higher position and a lower position in first location, 361 and second 362 slips in location of stepped guide groove 36.Preferably, the end of guide rod 341 is provided with a larger-diameter lug 342, and guide rod 341 can be slided among stepped guide groove 36, and lug 342 can prevent that guide rod 341 breaks away from stepped guide groove 36, to avoid causing preceding board 34 to drop.In addition, can a sheathed ring set 343 in the outside of guide rod 341, when guide rod 341 slided in stepped guide groove 36, the ring set 343 in guide rod 341 outsides can roll in stepped guide groove 36, to reduce the friction force between guide rod 341 and the guide groove 36, board 34 is mobile more smooth and easy before making.For lug 342 can be assembled among the stepped guide groove 36, can a circular hole 363 be set at stepped guide groove 36 again, its aperture just can make lug 342 pass through smoothly.

See also shown in Fig. 4 A, Fig. 4 B, owing to can place a plurality of backs row's hard disk 37 on the back board 33 of servomechanism 30, and on preceding board 34, can place a plurality of front-seat hard disks 38, current board 34 slides into first of stepped guide groove 36 and located 361 o'clock, merge mutually between itself and the back board 33, push flipper guide 32 among the sliding path 35 this moment again, with make forward and backward

board

33,34 with and on forward and backward row's

hard disk

37,38 all be accommodated in the inside of shell 31; Work as flipper guide 32 again and pulled out shell 31 along sliding path 35, and with preceding board 34 slide into stepped guide groove 36 second the location 362 o'clock, it will form step structure with back board 33, the

hard disk

38,37 that this moment, carried forward and backward

board

34,33 tops will outwards expose simultaneously, front-seat hard disk 38 is then being arranged hard disk 37 last down, therefore the user can directly carry out heat to back row's hard disk 37 and substitute, and not change and again hard disk is arranged in the back after not needing must earlier front-seat hard disk be extracted out as prior art.

See also shown in Figure 5ly, it is second embodiment of the present invention figure, and the described data processor of present embodiment is a servomechanism 50, comprises board 54 before a shell 51, two flipper guides 52, the back board 53 and.Shell 51 has two sidewalls, and its inboard is respectively equipped with a sliding path 55, and above-mentioned sliding path 55 forms with two flipper guides 52 respectively and is slidingly matched, and it can be slidably reciprocated on the sliding path 55 of shell 51.Wherein utilize bolt or welding manner to interosculate between the back segment of two flipper guides 52 part and the back board 53, perhaps, the back segment of two flipper guides 52 part also can be one-body molded with back board 53.The leading portion of two flipper guides 52 partly is respectively equipped with two guide rods 541, the dual side-edge of preceding board 54 is respectively equipped with two stepped guide grooves 56, it can make the guide rod 541 on two flipper guides 52 be inserted in wherein, guide rod 541 can be slidably reciprocated between 561 and second location 562, first location of stepped guide groove 56, and the position of first location 561 of wherein stepped guide groove 56 is than second location, 562 height.So, preceding board 54 can be moved between a higher position and a lower position with respect to flipper guide 52.In this embodiment, the design of guide rod 541 and guide groove 56 is similar to guide rod 341 and the guide groove 36 of first embodiment haply, but the circular hole of guide groove 56 is provided with slightly difference of position.

Because servomechanism 50 can be placed a plurality of backs row's hard disk 57 and can place a plurality of front-seat hard disks 58 on preceding board 54 on the board 53 of back, when two flipper guides 52 slide into second location of stepped guide groove 56 562 the time, before board 54 will with back board 53 mutually and close (as shown in Figure 6A), push two flipper guides 52 among the sliding path 55 this moment again, with make forward and backward

board

54,53 with and on forward and backward row's hard disk 58,57 all be accommodated in the inside of shell 51; Again, when flipper guide 52 is pulled out shell 31 along sliding path 35, and make two flipper guides 52 slide into stepped guide groove 56 first the location 561 o'clock, to form step structure (shown in Fig. 6 B) between preceding board 54 and the back board 53, the hard disk 57,58 that this moment, carried forward and backward

board

54,53 tops will outwards expose simultaneously, front-seat hard disk 58 is then being arranged hard disk 57 last down, therefore the user can directly carry out heat to back row's hard disk 57 and substitute, and not change and again hard disk is arranged in the back after not needing must earlier front-seat hard disk be extracted out as prior art.

Again, in above-mentioned first and second embodiment,

current board

34,54 and

back board

33,53 are in mutually and during the state that closes, promptly under the state of Fig. 4 A and Fig. 6 A, the length of flipper guide 32,52 is preferable slightly protrude in before the leading edge of board.In other words, when flipper guide 32,52 is pushed into shell 31,51 along sliding path 35,55, when

board

34,54 and

back board

33,53 are accommodated in the shell 31,51 fully before making, the front end of flipper guide 32,52 can be kept somewhere in the outside of shell 31,51, therefore can make things convenient for pulling out of flipper guide 32,52 on the one hand, can be used for installing the face version of servomechanism on the other hand.

Certainly; the above only is the preferred embodiment of the hard disc extracting and changing mechanism of data processor of the present invention; it is not in order to limit practical range of the present invention; any those skilled in the art all should belong to scope of the present invention in the modification of making without prejudice to spirit of the present invention, so protection scope of the present invention should be with claim as foundation.

Claims

1. the hard disc extracting and changing mechanism of a data processor comprises:

One shell, it has two sidewalls, and above-mentioned two sidewalls are respectively equipped with a sliding path;

Two flipper guides are slidingly matched with above-mentioned sliding path formation, and its leading portion is respectively equipped with at least one stepped guide groove, and this stepped guide groove has one first location and one second location;

One back board can carry a plurality of backs row's hard disk on it, its dual side-edge combines with the back segment of above-mentioned flipper guide respectively, and this back board can relatively move by above-mentioned flipper guide and above-mentioned shell; And

Board before one can carry a plurality of front-seat hard disks on it, be respectively equipped with at least one guide rod before above-mentioned on the dual side-edge of board, and above-mentioned guide rod can slide in the stepped guide groove of above-mentioned two flipper guide leading portions;

When wherein current board slides into first location of guide groove, its with the back board mutually and close, current board slides into second when location of guide groove, and it forms step structure with the back board, forward and backward row's hard disk is come out simultaneously be beneficial to the heat of carrying out back row's hard disk to be substituted.

2. the hard disc extracting and changing mechanism of data processor as claimed in claim 1, wherein this data processor is the servomechanism of specification 1U.

3. the hard disc extracting and changing mechanism of data processor as claimed in claim 1, wherein the leading portion of two flipper guides is respectively equipped with two stepped guide grooves.

4. the hard disc extracting and changing mechanism of data processor as claimed in claim 1, wherein the position of first of the stepped guide groove location is than second height of locating.

5. the hard disc extracting and changing mechanism of data processor as claimed in claim 1, wherein the end of above-mentioned guide rod is provided with a larger-diameter lug, and guide rod can be slided in this stepped guide groove, and this lug can prevent that this guide rod breaks away from this stepped guide groove.

6. the hard disc extracting and changing mechanism of data processor as claimed in claim 5, wherein above-mentioned guide rod is arranged with a ring set in its outside, makes between guide rod and the stepped guide groove and can carry out relative motion.

7. the hard disc extracting and changing mechanism of a data processor comprises:

One shell, it has two sidewalls, and this two sidewall is respectively equipped with a sliding path;

Two flipper guides are slidingly matched with above-mentioned sliding path formation, and the leading portion of wherein above-mentioned two guide plates is respectively equipped with at least one guide rod;

One back board can carry a plurality of backs row's hard disk on it, its dual side-edge combines with the back segment of above-mentioned flipper guide respectively, and this back board can relatively move with above-mentioned shell by above-mentioned flipper guide; And

Board before one, can carry a plurality of front-seat hard disks on it, and its dual side-edge is respectively equipped with at least one stepped guide groove, and wherein above-mentioned stepped guide groove has one first location and one second location, and above-mentioned guide rod can slide between locate first location and second of above-mentioned stepped guide groove;

Wherein when two flipper guides slide into second location of guide groove, before board and back board mutually and close, when two flipper guides slide into first when location of guide groove, preceding board will form step structure with the back board, forward and backward row's hard disk be come out simultaneously be beneficial to carry out the back to arrange the heat of hard disk and substitute.

8. the hard disc extracting and changing mechanism of data processor as claimed in claim 7, wherein this data processor is the servomechanism of specification 1U.

9. the hard disc extracting and changing mechanism of data processor as claimed in claim 7, wherein before the dual side-edge of board be respectively equipped with two stepped guide grooves.

10. the hard disc extracting and changing mechanism of data processor as claimed in claim 7, wherein the position of first of the stepped guide groove location is than second height of locating.

11. the hard disc extracting and changing mechanism of data processor as claimed in claim 7, wherein the end of above-mentioned guide rod is provided with a larger-diameter lug, and this guide rod slides in this stepped guide groove, and this lug can prevent that this guide rod breaks away from this stepped guide groove.

12. the hard disc extracting and changing mechanism of data processor as claimed in claim 11, wherein above-mentioned guide rod is arranged with a ring set in its outside, makes between guide rod and the stepped guide groove and can carry out relative motion.

13. the hard disc extracting and changing mechanism of a data processor comprises:

Two flipper guides are slidingly matched with above-mentioned sliding path formation;

Board before one can carry a plurality of front-seat hard disks on it;

It is characterized in that:

Should before become portable cooperation between dual side-edge and the above-mentioned two flipper guide leading portions of board, this preceding board can be moved between a primary importance and a second place with respect to above-mentioned two flipper guides, when current board moves to this primary importance, it merges mutually with the back board, when current board moves to this second place, itself and back will form step structure between the board, forward and backward row's hard disk be come out simultaneously be beneficial to carry out the back to arrange the heat of hard disk and substitute.

14. the hard disc extracting and changing mechanism of data processor as claimed in claim 13, wherein this data processor is the servomechanism of specification 1U.

15. the hard disc extracting and changing mechanism of data processor as claimed in claim 13, wherein above-mentioned two flipper guide leading portions are respectively equipped with at least one stepped guide groove, and the dual side-edge of this preceding board is to be respectively equipped with at least one guide rod, can slide in this stepped guide groove.

16. the hard disc extracting and changing mechanism of data processor as claimed in claim 13, the dual side-edge of board is respectively equipped with at least one stepped guide groove before wherein being somebody's turn to do, and above-mentioned two flipper guide leading portions are respectively equipped with at least one guide rod, can slide in this stepped guide groove.

17. the hard disc extracting and changing mechanism of data processor as claimed in claim 13, wherein this primary importance is than the height of the second place.