CN204215333U - Frame and apply the storage device of this frame - Google Patents

Abstract

The utility model provides a kind of frame and applies the storage device of this frame, comprises one first side plate, one second side plate, one first elastic component and a slide assemblies.First side plate has one first chute and a connecting hole.Second side plate is relative to the first side plate.First side plate and the second side plate form a shallow storage space jointly.Second side plate has one second chute in the face of the first chute.First elastic component is arranged at the first side plate or the second side plate.Slide assemblies comprises a driven unit, a projection and one first relative sliding part and one second sliding part.Driven unit and projection are arranged at the first sliding part.First sliding part is arranged at the first chute slippingly and has a reception position and a withdrawn position.Second sliding part is arranged at the second chute slippingly.Relative two sides of hard disk are individually fixed in the first sliding part and the second sliding part.

Description

Frame and apply the storage device of this frame

Technical field

The utility model discloses a kind of frame and applies its storage device, particularly a kind of for arranging the frame of hard disk and applying its storage device.

Background technology

Along with the progress of infotech, in order to the height requirement of satisfied storage and operational data, then develop a kind of rack-mount server, multiple hard disk loads in a frame by it simultaneously, uses and saves space and convenient management.Because rack-mount server can utilize multiple hard disk jointly to run the data operation allowing hardware complete higher-order, therefore rack-mount server enjoys favor in the related art.

At present, the mode of conventional mounting hard disk is the extraction switching using pallet to carry out hard disk, is hard disk must be fixed on after on a pallet, then moves among main frame fixing by pallet along a slide rail.But the step be fixed on by hard disk on a pallet obviously increases the complexity of installing hard disk, also can occupy more space.

Utility model content

The utility model discloses a kind of frame and applies its storage device, and by this, hard disk can be arranged at frame quickly and easily in the situation of pallet-free.

The utility model discloses a kind of frame, exempts from pallet hard-disk extracting device for arranging a hard disk in one.Wherein, frame comprises one first side plate, one second side plate, one first elastic component and a slide assemblies.First side plate has one first chute and a connecting hole.Second side plate is relative to the first side plate, and the first side plate and the second side plate form a shallow storage space jointly.Second side plate has one second chute, and the first chute is in the face of the second chute.First elastic component is arranged at the first side plate or the second side plate.Slide assemblies comprises a driven unit, a projection and one first relative sliding part and one second sliding part.Driven unit and projection are arranged at the first sliding part.First sliding part is arranged at the first chute slippingly and has a reception position and a withdrawn position.Second sliding part is arranged at the second chute slippingly.Relative two sides of hard disk are individually fixed in the first sliding part and the second sliding part, with make the first sliding part when the first chute slippage interlock second sliding part in the second chute slippage.

Above-mentioned frame, wherein, when this slide assemblies is positioned at this reception position, this projection is sticked in this connecting hole makes this hard disk be positioned at this shallow storage space, and this first sliding part or this second sliding part compress this first elastic component and make this first elastic component storage elasticity potential energy, when this driven unit pushes against this projection by an external force, this projection departs from this connecting hole, and this first elastic component discharges elasticity potential energy and makes this first sliding part be moved to this withdrawn position from this reception position, gives prominence to this shallow storage space to make this hard disk.

Above-mentioned frame, wherein, more comprise one first gate and one second gate, wherein this first gate is hubbed at this first sliding part, and this second gate is hubbed at this second sliding part.

Above-mentioned frame, wherein, this first gate has one first pushing and pressing part, this second gate has one second pushing and pressing part, when this first sliding part slides onto this reception position from this withdrawn position, this first side plate and this second side plate compress this first pushing and pressing part and this second pushing and pressing part respectively, hide this at least part of shallow storage space respectively to make this first gate and this second gate pivotable.

Above-mentioned frame, wherein, this driven unit comprises a push piece and one second elastic component, this second elastic component is arranged at this push piece, when this push piece pushes against this projection by an external force, this projection departs from this connecting hole and this second elastic component compresses this first sliding part and makes this two elastic components storage elasticity potential energy, and when this external force disappears, this second elastic component discharges elasticity potential energy and makes this push piece reset.

Above-mentioned frame, wherein, this push piece has a teat, this projection has should a guide ramp of teat, this teat of this push piece pushes against this guide ramp along a pushing and pressing direction, make this projection depart from this connecting hole along an off-direction, and this pushing and pressing direction is orthogonal to this off-direction.

Above-mentioned frame, wherein, this first sliding part comprises a body and one the 3rd elastic component, this body is arranged at this first chute slippingly, relative two ends of the 3rd elastic component are individually fixed in this body and this projection, and when this push piece pushes against this projection, this projection compresses the 3rd elastic component and makes the 3rd elastic component storage elasticity potential energy, when this push piece and this projection are separated, the 3rd elastic component discharges elasticity potential energy and makes this projection reset.

Above-mentioned frame, wherein, more comprise one first gate being arranged at this first sliding part, wherein this driven unit more comprises a pressing piece, this pressing piece is hubbed at this push piece and has a stopper position and a latched position to rotate relative to this push piece, this first gate has an opening, when this first sliding part is positioned at this reception position and this pressing piece is positioned at this stopper position, this shallow storage space of this first gate covering part, and this pressing piece protrudes this opening and does not interfere with each other with this first gate, when this first sliding part is positioned at this reception position and this pressing piece is positioned at this latched position, this shallow storage space of this first gate covering part, and this pressing piece protrudes this opening and interferences with this first gate.

Above-mentioned frame, wherein, this slide assemblies more comprises the light-guiding pillar being arranged at this first sliding part, one end this shallow storage space contiguous of this light-guiding pillar.

The utility model discloses a kind of storage device again, wherein, comprises multiple aforesaid frame and multiple hard disk.Hard disk is individually fixed in the plurality of frame, and the mutual storehouse of multiple frame and form a hard disk arrangement architecture.

In the storage device that the utility model discloses, when the first sliding part of frame is positioned at withdrawn position, relative two ends of hard disk are only individually fixed in the first sliding part and the second sliding part.When the first sliding part is positioned at reception position, projection is sticked in connecting hole, makes hard disk be positioned at shallow storage space between the first side plate and the second side plate.By this, hard disk can be arranged in frame quickly and easily, and the hard disk contributing to improving prior art need be fixed on pallet and produce the complicated shortcoming of assembling.

Above about the explanation of the utility model content and following embodiment illustrate in order to demonstration with explain principle of the present utility model, and provide the protection domain of the claim appended by the utility model further to explain.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the frame according to the utility model first embodiment;

Fig. 2 is the decomposing schematic representation of the frame according to the utility model first embodiment;

Fig. 3 is the decomposing schematic representation of the slide assemblies of frame according to the utility model first embodiment;

Fig. 4 is the side schematic view of the slide assemblies of frame according to the utility model first embodiment;

Fig. 5 is the cut-away illustration of the slide assemblies of frame according to the utility model first embodiment;

Fig. 6 is the schematic perspective view being positioned at withdrawn position according to the first sliding part of the frame of the utility model first embodiment;

Fig. 7 is the schematic perspective view being positioned at reception position according to the first sliding part of the frame of the utility model first embodiment;

Fig. 8 is the cut-away illustration departing from connecting hole according to the projection of the frame of the utility model first embodiment;

Fig. 9 is the schematic perspective view being positioned at stopper position according to the pressing piece of the frame of the utility model first embodiment;

Figure 10 is the schematic perspective view being positioned at latched position according to the pressing piece of the frame of the utility model first embodiment;

Figure 11 is the schematic perspective view of the storage device according to the utility model second embodiment;

Figure 12 is the partial enlarged drawing of the storage device according to the utility model second embodiment;

Figure 13 is the schematic perspective view of the left side side plate of storage device according to the utility model second embodiment;

Figure 14 is the schematic perspective view of the right side side plate of storage device according to the utility model second embodiment;

Figure 15 is the schematic perspective view of the median septum of storage device according to the utility model second embodiment.

Wherein, Reference numeral

1,1a, 1b frame

2 storage devices

2a dividing plate

9 hard disks

90 second joint portions

10 first side plates

100 first chutes

110 connecting holes

120 shallow storage space

130 extension

20 second side plates

200 second chutes

30 first elastic components

40 slide assemblies

400 first sliding parts

401 first joint portions

402 bodies

402a storage tank

402b perforate

403 the 3rd elastic components

410 second sliding parts

420 driven units

421 push pieces

421a teat

422 second elastic components

423 pressing pieces

430 projections

430a guide ramp

50 first gates

500 openings

502 first pushing and pressing parts

60 second gates

601 second pushing and pressing parts

Embodiment

Below detailed features of the present utility model and advantage is described in embodiments in detail; its content is enough to make any those skilled in the relevant technical field understand technology contents of the present utility model and implement according to this; and the protection domain of content disclosed by this instructions, claim and graphic, any those skilled in the relevant technical field can understand the relevant object of the utility model and advantage easily.Following embodiment further describes viewpoint of the present utility model, but non-to limit category of the present utility model anyways.

Referring to Fig. 1 and Fig. 2.Fig. 1 is the schematic perspective view of the frame according to the utility model first embodiment.Fig. 2 is the decomposing schematic representation of the frame according to the utility model first embodiment.In the present embodiment, a frame 1 for arranging a hard disk 9, and comprises one first side plate 10,1 second side plate 20,1 first elastic component 30 and a slide assemblies 40.It should be noted that, in other embodiments, can by multiple frame 1 arranging hard disk 9 storehouse and form a hard disk arrangement architecture mutually, such as, be a hard disk array (Redundant Array of Independent Disks, RAID), subsequent descriptions please be dissolved in as detailed content.

First side plate 10 has one first chute 100 and a connecting hole 110.Second side plate 20 relative to the first side plate 10 in forming a shallow storage space 120 between the two.Second side plate 20 has one second chute 200 in the face of the first chute 100.In other words, the first chute 100 and the second chute 200 are positioned at the relative both sides of shallow storage space 120.

First elastic component 30 is arranged at the first side plate 10, and contiguous first chute 100 in its one end.Specifically, the first side plate 10 has extension 130, first elastic component 30 and is arranged in extension 130.Certainly, other positions the first elastic component 30 being arranged at the first side plate 10 can also be selected.In the present embodiment, the first elastic component 30 is arranged at the first side plate 10, but not as limit.In other embodiments, the first elastic component 30 also can be arranged at the second side plate 20.

Slide assemblies 40 is arranged at the first chute 100 and the second chute 200 slippingly.Specifically, slide assemblies 40 comprises one first sliding part 400,1 second sliding part 410, driven unit 420 and a projection 430.First sliding part 400 is arranged at the first chute 100 slippingly and has a reception position and a withdrawn position, and the second sliding part 410 is arranged at the second chute 200 slippingly.First sliding part 400 and the second sliding part 410 all have multiple first joint portion 401, and relative two sides of hard disk 9 have multiple second joint portions 90 of those the first joint portions 401 corresponding.First joint portion 401 embeds the second joint portion 90 makes relative two sides of hard disk 9 be individually fixed in the first sliding part 400 and this second sliding part 410, with make the first sliding part 400 when the first chute 100 slippage interlock second sliding part 410 in the second chute 200 slippage.

Please with reference to Fig. 3, Fig. 4 and Fig. 5.Fig. 3 is the decomposing schematic representation of the slide assemblies of frame according to the utility model first embodiment.Fig. 4 is the side schematic view of the slide assemblies of frame according to the utility model first embodiment.Fig. 5 is the cut-away illustration of the slide assemblies of frame according to the utility model first embodiment.

Driven unit 420 and projection 430 are arranged at the first sliding part 400.Driven unit 420 comprises a push piece 421 and is arranged at one second elastic component 422 of push piece 421.Push piece 421 has a protuberance 421a, and projection 430 has a guide ramp 431.In addition, the first sliding part 400 comprises body 402 and one the 3rd elastic component 403.Body 402 is arranged at the first chute 100 slippingly, and has an a storage tank 402a and perforate 402b.Push piece 421, second elastic component 422, projection 430 and the 3rd elastic component 403 are all positioned at storage tank 402a.The protuberance 421a of push piece 421 can push against the guide ramp 431 of projection 430 by an external force.Relative two ends of the 3rd elastic component 403 are individually fixed in body 402 and projection 430.When the first sliding part 400 is positioned at reception position, projection 430 normality is given prominence to perforate 402b and is sticked in the connecting hole 110 of the first side plate 10.In the present embodiment, push piece 421, second elastic component 422, projection 430 and the 3rd elastic component 403 are all positioned at storage tank 402a, but not as limit.In other embodiments, the first sliding part 400 can not have storage tank 402a and perforate 402b, and push piece 421, second elastic component 422, projection 430 and the 3rd elastic component 403 are then directly arranged at the surface of the first sliding part 400 in the face of the first side plate 10.

Please referring again to Fig. 1 and Fig. 2.In addition, frame 1 more comprises one first gate 50 and one second gate 60.First gate 50 and the second gate 60 are hubbed at the first sliding part 400 and the second sliding part 410 through a torsion spring respectively, but not as limit.In other embodiments, the first gate 50 and the second gate 60 also directly can be hubbed at the first sliding part 400 and the second sliding part 410.First gate 50 has opening 500 and one first pushing and pressing part 501, and the second gate has one second pushing and pressing part 601.Driven unit 420 more comprises the pressing piece 423 being hubbed at push piece 421.When the first sliding part 400 is positioned at reception position, pressing piece 423 gives prominence to opening 500, and pressing piece 423 can rotate relative to push piece 421 and have a stopper position and a latched position.Use-pattern as pressing piece 423 please be dissolved in subsequent detailed.

Moreover slide assemblies 40 more comprises the light-guiding pillar 440 being arranged at the first sliding part 400.The contiguous shallow storage space 120 in one end of light-guiding pillar 440.By this, can judge whether hard disk 9 is electrically connected at a power supply unit (not illustrating) at frame 1 rear via the light signal of light-guiding pillar 440.

Below describe the use-pattern of frame, first describe slide assemblies and the use-pattern with the first elastic component.Referring to Fig. 6, Fig. 7 and Fig. 8.Fig. 6 is the schematic perspective view being positioned at withdrawn position according to the first sliding part of the frame of the utility model first embodiment.Fig. 7 is the schematic perspective view being positioned at reception position according to the first sliding part of the frame of the utility model first embodiment.Fig. 8 is the cut-away illustration departing from connecting hole according to the projection of the frame of the utility model first embodiment.

As shown in Figure 6, when for arranging hard disk 9 in frame 1, first the first sliding part 400 and the second sliding part 410 being extracted out and being positioned at withdrawn position in shallow storage space 120, and the first sliding part 400 and the second sliding part 410 is fixed in relative two sides of hard disk 9.Now, part hard disk 9 is positioned at outside shallow storage space 120, and hard disk 9 only transmits the first sliding part 400 and the second sliding part 410 is fixed on its relative both sides to reach fixed effect.

Then as shown in Figure 7, user can impose an external force pushing and pressing hard disk 9 and make the first sliding part 400 slide onto reception position from withdrawn position along the first chute 100, and interlock second sliding part 410 is in the second chute 200 slippage.When the first sliding part 400 is positioned at reception position, projection 430 normality is sticked in connecting hole 110 and makes hard disk 9 be positioned at shallow storage space 120, to reach storage effect between the first side plate 10 and the second side plate 20.Now, the first sliding part 400 compresses the first elastic component 30 and makes the first elastic component 30 storage elasticity potential energy.Effect of elasticity potential energy stored by first elastic component 30 will in subsequent detailed.

It should be noted that when the first sliding part 400 is positioned at withdrawn position in addition, the first gate 50 and the second gate 60 normality keep not hiding shallow storage space 120 (as shown in Figure 6).When the first sliding part 400 is positioned at reception position, the shallow storage space 120 of the first gate 50 and the second gate 60 covering part.Specifically, when the first sliding part 400 slides onto reception position from withdrawn position, first side plate 10 and the second side plate 20 compress the first pushing and pressing part 501 and the second pushing and pressing part 601 respectively, to make the first gate 50 and the second gate 60 pivotable and to hide at least part of shallow storage space 120 (as shown in Figure 7) respectively, and torsion spring is made to store an elasticity potential energy.When the first sliding part 400 slides onto withdrawn position from reception position, torsion spring release elasticity potential energy and make the first gate 50 and the second gate 60 reset with normality keep do not hide shallow storage space 120.By this, the first gate 50 and the second gate 60 contribute to preventing hard disk 9 from dropping from frame 1, and reach aesthetic.The pivoting form of above-mentioned driving first gate 50 and the second gate 60 is not as limit.In other embodiments, the first gate 50 and the second gate 60 directly can be hubbed at the first sliding part 400 and the second sliding part 410 and carry out pivotable through manual manipulation mode.

Then as shown in Figure 8, when user is for dismounting hard disk 9, executes an external force in the pressing piece 423 of driven unit 420 and push against projection 430 to drive push piece 421, and then make projection 430 depart from connecting hole 110.Specifically, the teat 421a of push piece 421 pushes against the guide ramp 431 of projection 430 along a pushing and pressing direction D1, make projection 430 depart from connecting hole 110 along the off-direction D2 being orthogonal to pushing and pressing direction D1.In addition, push piece 421 pushes against projection 430 second elastic component 422 is compressed the first sliding part 400 protrudes from a storage tank 402a wall from body 402, and then makes the second elastic component 422 storage elasticity potential energy.In addition, projection 430 compresses the 3rd elastic component 403 along off-direction D2, and then makes the 3rd elastic component 403 storage elasticity potential energy.Now, projection 430 departs from connecting hole 110 and the first elastic component 30 discharges elasticity potential energy, and makes the first sliding part 400 be moved to withdrawn position from reception position.After projection 430 departs from connecting hole 110, the external force putting on pressing piece 423 can be discharged, make the second elastic component 422 and the 3rd elastic component 403 discharge elasticity potential energy respectively, and make push piece 421 and projection 430 be reset to the position of not bearing external force respectively.

In sum, when the first sliding part 400 is positioned at withdrawn position, relative two ends of hard disk 9 are only individually fixed in the first sliding part 400 and the second sliding part 410.When the first sliding part 400 is positioned at reception position, projection 430 is sticked in connecting hole 110, makes hard disk 9 between the first side plate 10 and the second side plate 20.By this, hard disk 9 can be arranged in frame 1 quickly and easily, and the hard disk 9 contributing to improving prior art need be fixed on pallet and produce the complicated shortcoming of assembling.

In the present embodiment, the pushing and pressing direction D1 of the teat 421a of push piece 421 is orthogonal to the off-direction D2 of projection 430 (namely pushing against direction D1 mutually vertical with off-direction D2), but not as limit.In other embodiments, pushing against direction D1 and off-direction D2 can not be orthogonal according to the design of frame 1.

Below describe the use-pattern of the pressing piece of driven unit.Referring to Fig. 9 and Figure 10.Fig. 9 is the schematic perspective view being positioned at stopper position according to the pressing piece of the frame of the utility model first embodiment.Figure 10 is the schematic perspective view being positioned at latched position according to the pressing piece of the frame of the utility model first embodiment.

When the first sliding part 400 is positioned at reception position and pressing piece 423 is positioned at stopper position (as shown in Figure 9), pressing piece 423 protrudes opening 500 and does not interfere with each other with the first gate 50.In other words, now the first gate 50 can relative first sliding part 400 pivotable, and pressing piece 423 can drive push piece 421 to push against projection 430.When the first sliding part 400 is positioned at reception position and pressing piece 423 is positioned at latched position (as shown in Figure 10), pressing piece 423 protrudes opening 500 and interferences with the first gate 50, namely now the first gate 50 cannot relative first sliding part 400 pivotable, and pressing piece 423 cannot drive push piece 421.By this, the first gate 50 and pressing piece 423 interference and have fool proof effect, make hard disk 9 deviate from frame 1 to prevent user from pushing casting die 423 by mistake.

Below describe the mode multiple frame assembling being formed hard disk array.Referring to Figure 11, Figure 12, Figure 13, Figure 14 and Figure 15.Figure 11 is the schematic perspective view of the storage device according to the utility model second embodiment.Figure 12 is the partial enlarged drawing of the storage device according to the utility model second embodiment.Figure 13 is the schematic perspective view of the left side side plate of storage device according to the utility model second embodiment.Figure 14 is the schematic perspective view of the right side side plate of storage device according to the utility model second embodiment.Figure 15 is the schematic perspective view of the median septum of storage device according to the utility model second embodiment.

In the present embodiment, a storage device 2 is such as rack-mount server, and it comprises multiple frame 1a, multiple frame 1b and multiple hard disk 9.Hard disk 9 is individually fixed in frame 1a, 1b.The mutual stack arrangement of frame 1a, 1b and form a hard disk arrangement architecture.It should be noted that for adjacent frame 1a and frame 1b, first side plate 10 of frame 1a and second side plate 20 of frame 1b jointly can form a dividing plate 2a of server 2 and be formed in one.In other words, the dividing plate 2a of storage device 2 can simultaneously as second side plate 20 (as shown in figure 11) of first side plate 10 of frame 1a and the frame 1b of adjacent rack 1a, but not as limit.In other embodiments, first side plate 10 of frame 1a and second side plate 20 of frame 1b also can be two adjacent independent components.Furthermore, according to the quantity of frame 1a, 1b and the difference of stacked manner, first side plate 10 can be used as the side plate (as shown in figure 13) on the left of storage device 2, also can be used as the part (as shown in figure 14) of the dividing plate 2a in the middle of storage device 2.Second side plate 20 can be used as the side plate 2a (as shown in figure 15) on the right side of storage device 2, also can be used as the part (as shown in figure 14) of the dividing plate 2a in the middle of storage device 2.

In addition, in the present embodiment, frame 1b can comprise another first elastic component 30 being arranged at the second side plate 20, and dividing plate 2a can have a perforating 211.2 first elastic components 30 wear perforating 211 and link together, and 2 first elastic components 30 of the first side plate 10 and the second side plate 20 are formed in one.By this, frame 1a, the 1b assembling when production run is conducive to.

In sum, in the frame that the utility model discloses, relative two ends of hard disk are only individually fixed in the first sliding part and the second sliding part.When the first sliding part is positioned at reception position, projection is sticked in connecting hole, makes hard disk be positioned at shallow storage space between the first side plate and the second side plate.By this, hard disk can be arranged in frame quickly and easily, and the hard disk contributing to improving prior art need be fixed on pallet and produce the complicated shortcoming of assembling.

In addition, when the first sliding part slides onto reception position from withdrawn position, first side plate and the second side plate compress the first pushing and pressing part of the first gate and the second pushing and pressing part of the second gate respectively, to make the first gate and the second gate pivotable and to hide at least part of shallow storage space respectively.By this, contribute to preventing hard disk from dropping from frame.

Moreover when the first sliding part is positioned at reception position and the pressing piece of driven unit is positioned at stopper position, pressing piece protrudes the opening of the first gate and does not interfere with each other with the first gate.When the first sliding part is positioned at reception position and pressing piece is positioned at latched position, pressing piece protrudes opening and interferences with the first gate.By this, pressing piece can reach the effect of fool proof to avoid misrouting the first gate, contributes to preventing hard disk from dropping from frame further.

Certainly; the utility model also can have other various embodiments; when not deviating from the utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the utility model, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the utility model.

Claims (10)

1. a frame, it exempts from pallet hard-disk extracting device for arranging a hard disk in one, it is characterized in that, comprises:

One first side plate, has one first chute and a connecting hole;

One second side plate, relative to this first side plate, form a shallow storage space between this first side plate and this second side plate, this second side plate has one second chute, and this first chute is in the face of this second chute;

One first elastic component, is arranged at this first side plate or this second side plate; And

One slide assemblies, comprise a driven unit, a projection and one first relative sliding part and one second sliding part, this driven unit and this projection are arranged at this first sliding part, this first sliding part is arranged at this first chute slippingly and has a reception position and a withdrawn position, this second sliding part is arranged at this second chute slippingly, relative two sides of this hard disk are individually fixed in this first sliding part and this second sliding part, with make this first sliding part when this first chute slippage this second sliding part of interlock in this second chute slippage.

2. frame as claimed in claim 1, it is characterized in that, when this slide assemblies is positioned at this reception position, this projection is sticked in this connecting hole makes this hard disk be positioned at this shallow storage space, and this first sliding part or this second sliding part compress this first elastic component and make this first elastic component storage elasticity potential energy, when this driven unit pushes against this projection by an external force, this projection departs from this connecting hole, and this first elastic component discharges elasticity potential energy and makes this first sliding part be moved to this withdrawn position from this reception position, gives prominence to this shallow storage space to make this hard disk.

3. frame as claimed in claim 1, it is characterized in that, more comprise one first gate and one second gate, wherein this first gate is hubbed at this first sliding part, and this second gate is hubbed at this second sliding part.

4. frame as claimed in claim 3, it is characterized in that, this first gate has one first pushing and pressing part, this second gate has one second pushing and pressing part, when this first sliding part slides onto this reception position from this withdrawn position, this first side plate and this second side plate compress this first pushing and pressing part and this second pushing and pressing part respectively, hide this at least part of shallow storage space respectively to make this first gate and this second gate pivotable.

5. frame as claimed in claim 1, it is characterized in that, this driven unit comprises a push piece and one second elastic component, this second elastic component is arranged at this push piece, when this push piece pushes against this projection by an external force, this projection departs from this connecting hole and this second elastic component compresses this first sliding part and makes this two elastic components storage elasticity potential energy, and when this external force disappears, this second elastic component discharges elasticity potential energy and makes this push piece reset.

6. frame as claimed in claim 5, it is characterized in that, this push piece has a teat, this projection has should a guide ramp of teat, this teat of this push piece pushes against this guide ramp along a pushing and pressing direction, make this projection depart from this connecting hole along an off-direction, and this pushing and pressing direction is orthogonal to this off-direction.

7. frame as claimed in claim 5, it is characterized in that, this first sliding part comprises a body and one the 3rd elastic component, this body is arranged at this first chute slippingly, relative two ends of the 3rd elastic component are individually fixed in this body and this projection, and when this push piece pushes against this projection, this projection compresses the 3rd elastic component and makes the 3rd elastic component storage elasticity potential energy, when this push piece and this projection are separated, the 3rd elastic component discharges elasticity potential energy and makes this projection reset.

8. frame as claimed in claim 5, it is characterized in that, more comprise one first gate being arranged at this first sliding part, wherein this driven unit more comprises a pressing piece, this pressing piece is hubbed at this push piece and has a stopper position and a latched position to rotate relative to this push piece, this first gate has an opening, when this first sliding part is positioned at this reception position and this pressing piece is positioned at this stopper position, this shallow storage space of this first gate covering part, and this pressing piece protrudes this opening and does not interfere with each other with this first gate, when this first sliding part is positioned at this reception position and this pressing piece is positioned at this latched position, this shallow storage space of this first gate covering part, and this pressing piece protrudes this opening and interferences with this first gate.

9. frame as claimed in claim 1, it is characterized in that, this slide assemblies more comprises the light-guiding pillar being arranged at this first sliding part, one end this shallow storage space contiguous of this light-guiding pillar.

10. a storage device, is characterized in that, comprises:

Multiple frame as claimed in claim 1; And

Multiple hard disk, it is individually fixed in the plurality of frame;

Wherein, the mutual storehouse of the plurality of frame and form a hard disk arrangement architecture.