CN101963831A - Server device with storage array module - Google Patents
Server device with storage array module Download PDFInfo
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- CN101963831A CN101963831A CN2009101403901A CN200910140390A CN101963831A CN 101963831 A CN101963831 A CN 101963831A CN 2009101403901 A CN2009101403901 A CN 2009101403901A CN 200910140390 A CN200910140390 A CN 200910140390A CN 101963831 A CN101963831 A CN 101963831A
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Abstract
The invention relates to a server device with a storage array module, which comprises a case, a mainboard module and a storage array module, wherein the mainboard module is configured in the case; the storage array module is configured in the case and comprises a first tray, a hard disk back board and a plurality of hard disk devices; the first tray is arranged in the case in a drawing way; the hard disk back board is fixedly arranged at the bottom of the first tray and electrically connected with the mainboard module; the hard disk devices are movably plugged into the first tray respectively and electrically connected with the hard disk back board and extend into or extend out of the case along with the movement of the first tray.
Description
Technical field
The invention relates to a kind of server unit, particularly relevant for the server unit under a kind of double Rack Unit.
Background technology
Press, Rack Unit is that U.S.'s electronic industries alliance (EIA) is used for the unit of calibration server.A Rack Unit generally is called " 1U ", in fact highly is 1.75 inches (about 44.5 millimeters), and width is 19 inches; Two Rack Units generally are called " 2U ", in fact highly are 1.75 inches * 2 (about 89 millimeters), and width is 19 inches still, and the rest may be inferred.Therefore, in the server under N the alleged Rack Unit of above-mentioned rule, in any case its inner spare part collocation under certain specification limits, must be compatible with in this height.
" 2U " that industry provided in the market is though the machine box for server of specification room for promotion utilization factor there is no extendibility.Usually include a plurality of motherboards, power supply unit and signal wire in " 2U " machine box for server, power supply unit is in order to provide main frame needed power supply, and signal wire is in order to electrically connect each assembly of main frame.Respectively this motherboard further has a Winchester disk drive carrier, wherein is placed with a plurality of hard disk units in this Winchester disk drive carrier.Yet because the restriction of the distribution of signal wire, the servo host cabinet of general 2U specification only can provide and hold several main frames, can't effectively utilize the space, for other functional module of expansion, and then hinders server and increases work efficiency further.
Summary of the invention
In view of this, one aspect of the present invention discloses a kind of server unit that stores array module that has, and sees through the storage array module that movable extraction is provided, and increases the maneuverability of changing module.
The present invention discloses a kind of server unit that stores array module that has on the other hand, in order to the quantity of the more hard disk units of overlap joint to be provided, with the performance of the data storing that increases server unit.
In above-mentioned purpose, this server unit with storage array module comprises a cabinet, at least one mainboard module and at least one storage array module at least.Mainboard module is disposed in the cabinet.Store array module and be disposed in the cabinet, comprise one first pallet, a hard disk backboard and a plurality of hard disk unit.First pallet can be arranged in the cabinet with extracting.Hard disk backboard is fixedly arranged on the bottom of first pallet, and electrically connects with mainboard module.Be arranged in first pallet to the movable respectively plug of hard disk unit, be electrically connected in first pallet with hard disk backboard.
In one embodiment of the invention, hard disk backboard is positioned at first tray bottom smoothly, and hard disk backboard has a plurality of first hard-disk interfaces, and these first hard-disk interfaces compartment of terrain respectively are positioned at one side of hard disk backboard, and jointly towards same direction.These hard disk units lie against on the hard disk backboard respectively, and electrically connect with these first hard-disk interfaces one to one.
In the another embodiment of the present invention, hard disk backboard is erected to be located on first pallet, hard disk backboard has a plurality of second hard-disk interfaces, and these hard-disk interfaces are arranged on respectively on two corresponding surfaces of hard disk backboard alternately, electrically connects with these hard disk units one to one respectively.These hard disk units are arranged on two corresponding surfaces of hard disk backboard respectively mutually alignedly, and the oppositely setting of 180 degree each other mutually of these hard disk units.In addition, among this embodiment, these set hard disk units of each corresponding surface of hard disk backboard have two rows' arrayed mode more at least.
In the another embodiment of the present invention, mainboard module comprises one second pallet and a motherboard.Second pallet is mounted slidably in cabinet.Motherboard is positioned on second pallet.
In the another embodiment of the present invention, cabinet back to two ends have one first opening and one second opening, first opening definition has a top regions and a lower floor district.Mainboard module can be arranged at the lower floor district with extracting, stores array module and can be arranged at top regions with extracting.
In the another embodiment of the present invention, server unit also is provided with at least one input/output interface circuit plate module, the input/output interface circuit plate module can be arranged in second opening with extracting, and electrically connect wherein a mainboard module and store array module, so that detachable host machine plate module and input/output interface circuit plate module to be provided, make when mainboard module is drawn out of, need not remove the external wiring of all input/output interface circuit plate module.
The present invention discloses a kind of server unit that stores array module that has on the other hand, when making that storing array module is drawn out of first opening, still can electrically connect corresponding input/output interface circuit plate module.
This cabinet and this storage array module also comprise the sway brace of an extending/folding.This sway brace is become the series system arrangement and is pivoted in regular turn to form by a plurality of connecting rods, and its two ends articulate this cabinet respectively and store array module.In addition, sway brace also disposes a lead group, an end of lead group electrically connect store array module hard disk backboard, the other end electrically connects the input/output interface circuit plate module at least.
In addition, first pallet, second pallet or the 3rd pallet have a handle structure that can fold/produce, and push/pull out corresponding pallet for the user.
In sum, by the above-mentioned server unit of the present invention, make server unit have more space and place more applications module and associated component, in the hope of promoting the performance of server unit with storage array module.And when user's operate services apparatus, the design of the various embodiments described above, use that can more convenient user had both met user's expectation, had and can improve the market competitiveness.
Description of drawings
For above and other objects of the present invention, feature, advantage and embodiment can be become apparent, appended the description of the drawings is as follows:
Fig. 1 illustrates the present invention and has the schematic perspective view of storage array module D server unit at an embodiment;
Fig. 2 illustrates the mainboard module schematic top plan view in this embodiment that the present invention has the server unit that stores array module;
Fig. 3 A illustrates the storage array module that the present invention has the server unit that stores array module and watch the schematic side view that stores array module every the direction of riser from central area in one first changes;
Fig. 3 B illustrates the storage array module that the present invention has the server unit that stores array module and watch the schematic side view that stores array module towards the direction of first opening in one second changes;
Fig. 4 illustrates the input/output interface circuit plate module schematic perspective view in this embodiment that the present invention has the server unit that stores array module;
Fig. 5 illustrates the sway brace extended configuration synoptic diagram in this embodiment that the present invention has the server unit that stores array module;
Fig. 6 illustrates the handle structure synoptic diagram in this embodiment that the present invention has the server unit that stores array module.
[primary clustering symbol description]
10: server unit 332 ': the second reverse hard disk unit
100: cabinet 340: the connector of hard disk backboard
Opening 400 in 101: the first: power module
102: top regions 410: extract handgrip
103: lower floor district 500: the input/output interface circuit plate module
510: the three pallets of 104: the first accommodation spaces
Opening 520 in 105: the second: the input/output interface circuit plate
110: central area is every riser 541: the add-on card IO interface
120: shifting sledge 542: add-on card
130: 544: the first radiator fans of carrier
140: 545: the three radiator fans of power supply riser
150: protruding 550: motherboard connector
160: take in district 560: store array connector
200: mainboard module 600: sway brace
Pallet 610 in 210: the second: connecting rod
220: motherboard 620: the lead group
230: attachment unit interface 621: first connector of lead group one end
240: semi-conductor chip 622: second connector of the lead group other end
250: internal memory 623: the 3rd connector of the lead group other end
260: heat radiator 624: power lead
270: input/output interface circuit connector for substrate 625: signal conductor
300: store array module 700: handle structure
320,330: hard disk backboard 712: pivoting part
Hard-disk interface 714 in 321: the first: fix groove
Hard-disk interface 730 in 331: the second: cylinder
332: second hard disk unit 732 of forward: fix projection
Embodiment
Below will clearly demonstrate spirit of the present invention with accompanying drawing and detailed description, as the person skilled in the art after understanding embodiments of the invention, when can be by the technology of teachings of the present invention, change and modification, it does not break away from spirit of the present invention and scope.
The present invention discloses a kind of server unit that stores array module that has, the adaptive large-scale board (not shown) that places, and this large-scale board can be installed for a plurality of server units.At least one mainboard module of server unit tool and at least one storage array module.The storage array module comprises a plurality of hard disk units on a hard disk backboard and the hard disk backboard.Hard disk backboard and mainboard module and hard disk unit electrically connect.
See also shown in Figure 1ly, Fig. 1 stores the server unit schematic perspective view in one embodiment of array module for the present invention has.In one embodiment of the invention, server unit 10 is to come ccontaining at least two mainboard modules 200, store array module 300, power module 400 and at least two input and output (Input/Output) interface circuit plate module 500 with a cabinet 100.
About 19 inches of the width of this cabinet 100, (thickness) about 2*1.75 inch highly, its relatively the xsect of its Width be " U " font or " mouth " font.This cabinet 100 back to two ends have one first opening 101 and one second opening 105 that is connected respectively.The direction of first opening, 101 relative cabinet 100 height (thickness) can mark off a top regions 102 and a lower floor district 103.The direction of first opening, 101 relative cabinet 100 width is upright establishes a central area every riser 110.Central area respectively is provided with two opposed facing shifting sledges 120 every a side inwall of riser 110 and cabinet 100 in respectively at top regions 102 and lower floor district 103, wantonly two opposed facing shifting sledges 120 can support a pallet, and provide this pallet relatively to move on shifting sledge 120.
So, central area adds up in respectively at top regions 102 and lower floor district 103 every riser 110 can be for placing 4 pallets, and in other words, central area has four first accommodation spaces 104 simultaneously every two corresponding surfaces of riser 110 in top regions 102 and lower floor district 103.
The xsect of carrier 130 relative cabinet 100 Widths is " U " font or " mouth " font, and its both sides have the opening (as shown in the figure) of circulation mutually.These above-mentioned power modules 400 are that above, following stacked mode is set up in the carrier 130.One end of these power modules 400 has the extraction handgrip 410 that exposes carrier 130 1 sides, is detached/stretch into carrier 130 to make things convenient for power module 400.
See also shown in Figure 2ly, Fig. 2 illustrates mainboard module of the present invention schematic top plan view in this embodiment.Among this embodiment, mainboard module 200 is arranged at respectively in two first accommodation spaces 104 in lower floor district 103 one to one.Mainboard module 200 comprises one second pallet 210, a motherboard 220, a connector interface 230, a plurality of semi-conductor chip 240, a plurality of internal memory 250 and a plurality of heat radiator 260.Second pallet 210 is set up in wherein one first accommodation space 104 in lower floor district 103, sees through shifting sledge 120, extracts or insert first opening 101 movably out.Motherboard 220 is located on second pallet 210 flatwise.Attachment unit interface 230 is located at the end of motherboard 220, and exposes first opening 101 (as shown in Figure 1), plugs for the different external connection connector.Semi-conductor chip 240, heat radiator 260 and internal memory 250 are located at the one side of motherboard 220 respectively.Motherboard 220 can directly electrically connect by a signal conductor (not shown) and storage array module 300, or sees through input/output interface circuit plate module 500 and store array module 300 electric connections (seeing shown in Figure 5).
Being the width (about 19 inches) that meets above-mentioned cabinet 100, specially is half of general requirements with motherboard 220 constrictions, makes above-mentioned two motherboards 220 arranged side by side can be compatible with the specification of server unit 10 of the present invention.And mainboard module 200 is in also having hard disk unit on motherboard 220 under the independent use.
Among this embodiment, store array module 300 and be positioned over one to one respectively in two first accommodation spaces 104 of top regions 102, and can be electrically connected on the motherboard 220 of respective hosts plate module 200 through a lead (not shown) respectively.
See also shown in Fig. 3 A and the 3B figure, Fig. 3 A illustrates the storage array module that the present invention has the server unit that stores array module and watch the schematic side view that stores array module 300 every riser 110 from central area in one first changes.Fig. 3 B illustrates the storage array module that the present invention has the server unit that stores array module and watch the schematic side view that stores array module from the direction of first opening 101 in one second changes.When consulting Fig. 3 A and 3B figure, it is shown in Figure 1 to arrange in pairs or groups.
One first of this embodiment changes, see also shown in Fig. 1 and Fig. 3 A, Fig. 3 A illustrates the storage array module that the present invention has the server unit that stores array module and watch the schematic side view that stores array module 300 every riser 110 from central area in one first changes.Store array module 300 and comprise one first pallet 310, a hard disk backboard 320 and a plurality of first hard disk unit 322.First pallet 310 is set up in wherein one first accommodation space 104 of top regions 102, and sees through shifting sledge 120, extracts or insert first opening 101 movably out.Hard disk backboard 320 tiling ground are located on first pallet 310, its on the one side of first pallet 310 respectively the compartment of terrain be arranged with a plurality of first hard-disk interfaces 321, and these first hard-disk interfaces 321 are jointly towards same direction, just common direction (reference is shown in Figure 1) towards first opening 101 outside in cabinet 100 for example is to accept the plug of first hard disk unit 322.First hard disk unit 322, for example specification is 3.5 inches, and is smooth in (it is individual to can be 4-6 in this embodiment) on the hard disk backboard 320 with the arrangement mode of array (for example 2X2 or 2X3) respectively, and electrically connects with these first hard-disk interfaces 321 one to one.
In addition, each first hard-disk interface 321 can be located at a circuit riser (not shown) that is inserted on the hard disk backboard 320 respectively, and the circuit riser electrically connects another golden finger connector on this hard disk backboard 320 with golden finger connector.
Second of this embodiment changes, and sees also shown in Fig. 1 and Fig. 3 B, and Fig. 3 B illustrates the storage array module that the present invention has the server unit that stores array module and watch the schematic side view that stores array module from the direction of first opening 101 in one second changes.Store array module 300 and comprise one first pallet 310, a hard disk backboard 330 and a plurality of second hard disk unit 332,332 '.First pallet 310 is set up in wherein one first accommodation space 104 of top regions 102, and sees through shifting sledge 120, extracts or insert first opening 101 movably out.Hard disk backboard 330 can be a riser, upright being located on first pallet 310, and one long side face is attached on first pallet 310.Second hard disk unit 332,332 ', for example specification is 2.5 inches, can be arranged on two corresponding surfaces of hard disk backboard 330 alignedly mutually respectively with plugging.
When hard disk backboard 330 upright being located on first pallet 310, be provided with a plurality of second hard-disk interfaces 331 on its two corresponding surface respectively alternately.Specifically, second set on the one side of hard disk backboard 330 hard-disk interface 331 can pass hard disk backboard 330, and protrudes from the correspondence position on the another side.Similarly, second set on hard disk backboard 330 another sides hard-disk interface 331 can pass hard disk backboard 330, and protrude from correspondence position on the one side of hard disk backboard 330, so hard disk backboard 330 2 obverse second hard-disk interfaces 331 can cause interference each other, can't be positioned at hard disk backboard 330 2 obverse same correspondence positions, can adopt in staggered mode and be located on two corresponding surfaces of hard disk backboard 330.
On the other hand, second hard disk unit 332,332 ' not along a center line of second hard disk unit 332,332 ' one side and dispose, but is positioned at the edge of second hard disk unit 332,332 ' this side in order to the connecting interface that joins with second hard-disk interface 331.So, when the user desires forward ground second hard disk unit 332 being installed, 332 ' time, the user is positioned at second hard disk unit 332,332 ' connecting interface in above-mentioned center line below and is connected to second hard-disk interface 331 of correspondence; Otherwise the user is positioned at second hard disk unit 332,332 ' connecting interface above-mentioned center line top and is connected to the second corresponding hard-disk interface 331.
So, when these second hard disk units 332,332 ' electrically connect obverse second hard-disk interface 331 of hard disk backboard 330 2 respectively one to one, second hard disk unit 332 of a part is that forward ground is provided with, and second hard disk unit 332 ' of another part is for oppositely being provided with.So, since institute is provided with respectively on two corresponding surfaces of hard disk backboard 330 second hard disk unit 332,332 ' respectively mutually each other 180 degree oppositely be provided with, make these second hard disk units 332,332 ' still can be arranged on alignedly mutually respectively hard disk backboard 330 two corresponding surfaces on.In addition, these second hard disk units 332 or 332 ' are to be arranged on two corresponding surfaces of hard disk backboard 330 with upper and lower two array (for example 2X6 or the 2X4) arrangement modes of arranging at least.
What deserves to be explained is that storage array module 300 of the present invention is not a mainboard module 200, and the first above-mentioned hard disk unit 322 and second hard disk unit 332 also can be implemented in simultaneously in the storage array modules 300 different on the server unit 10 (as shown in Figure 1).
So, when first pallet 310 partly or when all detaching cabinet 100, first hard disk unit 322 or second hard disk unit 332,332 ' just can expose from cabinet 100, so the user just can plug first hard disk unit 322 or second hard disk unit 332,332 ' on hard disk backboard 330.
In addition, see also Fig. 1 and shown in Figure 4, Fig. 4 illustrates the input/output interface circuit plate module schematic perspective view in this embodiment that the present invention has the server unit that stores array module.These input/output interface circuit plate module 500 are arranged at respectively in second accommodation space 106 of carrier 130 both sides one to one, and a wherein storage array module 300 of the corresponding top regions 101 of difference and a wherein mainboard module 200 in lower floor district 103.The configuration mode of all component on the two simultaneously adjacent input/output interface circuit plate module 500 this carrier 130 relatively is into the mirror symmetry shape.
Input/output interface circuit plate module 500 comprises one the 3rd pallet 510, an input/output interface circuit plate 520, a connector interface 530, a motherboard connector 550.The 3rd pallet 510 is set up in (with reference to shown in Figure 1) in this second accommodation space 106, and extracts or insert second opening 105 movably out.Input/output interface circuit plate 520 is located on the 3rd pallet 510 smoothly.Attachment unit interface 530 is located at the end of input/output interface circuit plate 520, exposes second opening 105, plugs for different external connectors.Motherboard connector 550 is located on the input/output interface circuit plate 520, electrically connects an input/output interface circuit connector for substrate 270 of its pairing mainboard module 200.The a plurality of add-on card IO interface 541 of input/output interface circuit plate 520 tools, these add-on card IO interface 541 can provide respectively and plug an add-on card 542 (for example PCI-E, PCI).This add-on card 542 is to see through a golden finger interface 546 to insert add-on card IO interface 541, electrically connects with input/output interface circuit plate 520.
In addition, add-on card 542 has one and stores array connector 560 (for example mini-SAS interface), in order to electrically connect storing array module 300 and input/output interface circuit plate module 500 respectively, in order to connect the storage array module 300 directly over mainboard module 200 and this mainboard module 200.
In addition, in the above embodiments of the present invention, second opening 105 also can be with the spatial design (not shown) that has upper and lower layer as first opening 101.So, second opening 105 can provide four second accommodation spaces 106 simultaneously.In other words, second opening 105 just can provide stacked in twos four input/output interface circuit plate module 500 of putting simultaneously.It all electrically connects lower floor district 103 pairing mainboard modules 200 jointly with each input/output interface circuit plate module 500 of lower floor at the middle and upper levels, to provide mainboard module 200 more external approach.And each the input/output interface circuit plate module 500 that is positioned at the upper strata also can electrically connect storage array module 300 by its add-on card 542.
For heat dissipation design, this server unit 10 has first radiator fan 544, second radiator fan 142 and the 3rd radiator fan 545.One end of add-on card 542 extends to the top regions 102 of cabinet 100, wherein one when storing on the array module 300, first radiator fan 544 is positioned at add-on card 542 towards storing the end that array module 300 is extended, store the air of 542 of array module 300 and add-on card in order to circulate, dispel the heat storing array module 300 and add-on card 542.
In addition, because the module section of well known server cabinet or all detached machine box for server and will lose the inconvenience that electrically connects with machine box for server.According to the above embodiments, see also Fig. 1 and shown in Figure 5, Fig. 5 illustrates the sway brace extended configuration synoptic diagram in this embodiment that the present invention has the server unit that stores array module.The sway brace 600 that has an extending/folding between cabinet 100 and the storage array module 300.This sway brace 600 is arranged through series system by a plurality of connecting rods 610, and is pivoted in regular turn and forms.One end of the first connecting rod 610 of this sway brace 600 is pivoted to the position of cabinet 100 near input/output interface circuit plate module 500, and for example one protruding 150 (as shown in Figure 1) of cabinet 100 1 side inwalls, its other end is pivoted to an end of other connecting rod 610.One end of position, the end connecting rod 610 of this sway brace 600 is pivoted on first pallet 310 that stores array module 300, and its other end is pivoted to an end of other another connecting rod 610.
So, when first pallet 310 is drawn out and drives when storing array module 300 and leaving first opening 101, pivot in regular turn by each connecting rod 610 launches sway brace 600, to increase the extension distance (as Fig. 5) of sway brace 600, otherwise first pallet 310 is pushed into and drives when storing array module 300 and entering first opening 101, the folding sway brace 600 by the pivot in regular turn of each connecting rod 610, to shorten the extension distance (as Fig. 1) of sway brace 600, reach the purpose that does not take up space.
In addition, also comprise a lead group 620 on the sway brace 600, lead group 620 is disposed on the sway brace 600, and lead group 620 is to extend to storage array module 300 with each connecting rod 610 from input/output interface circuit plate module 500.Specifically, comprise an at least one power lead 624 and a signal conductor 625 in the lead group 620.One end of lead group 620 electrically connects connector 340 on this hard disk backboard 320,330 that stores array module 300 with one first connector 621 (the mini-SAS interface that for example has power lead 624 and signal conductor 625 simultaneously), and the other end comprises second connector 622 of a tool signal conductor 625 and the 3rd connector 623 of a tool power lead 624.Second connector 622 is electrically connected to and stores array connector 560 (see figure 4)s.The 3rd connector 623 electrically connects the connector of power supply riser 140.
In addition, as shown in Figure 6, Fig. 6 illustrates the handle structure synoptic diagram in this embodiment that the present invention has the server unit that stores array module.In the above embodiments, all can have a handle structure that can fold/produce 700 on above-mentioned second pallet 210, first pallet 310 or the 3rd pallet 510.This can fold handle structure 700 and comprise a handle body of rod 710, a shell fragment 720 and a cylinder 730.The handle body of rod 710 is by a pivoting part 712, an end of the handle body of rod 710 is pivotally arranged on one of second pallet 210, first pallet 310 or the 3rd pallet 510 takes in the district 160, and its end away from pivoting part 712 has one and fixes groove 714.One end of shell fragment 720 is fixedly arranged on to be taken in the district 160, and the other end is a free end, and extends outside this takes in district 160 obliquely.One end of cylinder 730 is fixedly arranged on second pallet 210, first pallet 310 or the 3rd pallet 510, and the other end is a free end, and the other end is provided with one to a side of the handle body of rod 710 and fixes projection 732.So, when the handle body of rod 710 change over to take in the district 160 and push shell fragment 720 after, fixing groove 714 is fixed to fixing on the projection 732, motion with the restriction handle body of rod 710, otherwise, when the other end of cylinder 730 is pulled, and then make fixing projection 732 away from after fixing groove 714, the shell fragment 720 that is urged is instead released the handle body of rod 710 and is taken in district 160, be exposed to first opening 101 or second opening 105, hold for the user and get the handle body of rod 710 and push/pull out above-mentioned second pallet 210, first pallet 310 or the 3rd pallet 510.
Mentioned " riser " is example with a plate body all in above the instructions, the mode of its setting all stands on cabinet 100, input/output interface circuit plate 520 or the pallet with its narrower plane, can be according to the factor of space or design, the decision side that " riser " is long or short is attached on the one side of cabinet 100, input/output interface circuit plate 520 or pallet, so that larger area one side can provide configuration or connect.
The present invention discloses among as above each embodiment; be not in order to qualification the present invention, any person skilled in the art, without departing from the spirit and scope of the present invention; when can being used for a variety of modifications and variations, so protection scope of the present invention is as the criterion when looking the scope that claims define.
Claims (15)
1. one kind has the server unit that stores array module, it is characterized in that, comprising:
One cabinet;
At least one mainboard module is disposed in this cabinet; And
At least one storage array module is disposed in this cabinet, comprising:
One first pallet is mounted slidably in this cabinet, in order to stretch into or to stretch out this cabinet;
One hard disk backboard is fixedly arranged on this first tray bottom, and electrically connects with this mainboard module; And
A plurality of hard disk units can be arranged in this first pallet with plugging, electrically connect with this hard disk backboard, and wherein, when this first pallet stretched out this cabinet, those hard disk units exposed this cabinet.
2. the server unit with storage array module according to claim 1 is characterized in that, is arranged at this first tray bottom to this hard disk backboard tiling, and this hard disk backboard comprises:
A plurality of first hard-disk interfaces, the compartment of terrain is positioned at the one side of this hard disk backboard respectively, and jointly towards same direction,
Wherein those hard disk units lie against respectively on this hard disk backboard, and electrically connect with those first hard-disk interfaces one to one.
3. the server unit with storage array module according to claim 1 is characterized in that this hard disk backboard is erected to be located on this first pallet, comprising:
A plurality of second hard-disk interfaces are arranged on respectively on two corresponding surfaces of this hard disk backboard alternately, electrically connect with those hard disk units one to one respectively,
Wherein, those hard disk units are arranged on two corresponding surfaces of this hard disk backboard respectively mutually alignedly, and oppositely setting of 180 degree each other mutually.
4. the server unit with storage array module according to claim 3 is characterized in that, those set hard disk units of respectively this corresponding surface of this hard disk backboard are the arrayed modes that have two rows at least.
5. according to claim 1 have a server unit that stores array module, it is characterized in that, this cabinet back to two ends have one first opening and one second opening, this first opening defines a top regions and a lower floor district.
6. the server unit with storage array module according to claim 5 is characterized in that this at least one mainboard module can be arranged at this lower floor district with extracting, and this at least one storage array module can be arranged at this top regions with extracting.
7. the server unit with storage array module according to claim 6, it is characterized in that, this cabinet also is provided with a central area every riser in this first opening, this central area is separated out a plurality of first accommodation spaces every riser in this top regions and the centre, this lower floor district of this first opening, wherein, those first accommodation spaces in this lower floor district respectively ccontaining this at least one mainboard module one of them, those first accommodation spaces in this top regions distinguish ccontaining this at least one storage array module one of them.
8. the server unit with storage array module according to claim 7 is characterized in that each those mainboard module comprises:
One second pallet is mounted slidably wherein one first accommodation space in this lower floor district; And
One motherboard is positioned on this second pallet.
9. the server unit with storage array module according to claim 7 is characterized in that, also comprises:
One carrier is arranged in this second opening, and this second open region is divided into a plurality of second accommodation spaces: and
A plurality of removable power modules are set up in this carrier in the mode of stacked on top of one another.
10. the server unit with storage array module according to claim 9, it is characterized in that, this cabinet between riser, is provided with a power supply riser at this carrier and this central area, and two corresponding surfaces of this power supply riser are electrically connected those power modules and those mainboard modules respectively.
11. the server unit with storage array module according to claim 9, it is characterized in that, also comprise a plurality of input/output interface circuit plate module that extract, those input/output interface circuit plate module are arranged at respectively in those second accommodation spaces one by one, and electrically connect those mainboard modules one of them, each those input/output interface circuit plate module comprises:
One the 3rd pallet, be mounted slidably in those second accommodation spaces one of them;
One input/output interface circuit plate is located on the 3rd pallet, electrically connects with one of them this motherboard of those mainboard modules; And
A plurality of add-on card IO interface electrically connect this input/output interface circuit plate, and plug at least one add-on card.
12. according to claim 11 have a server unit that stores array module, it is characterized in that, an end of this add-on card extend to this top regions those store array modules one of them, and this end of this add-on card is provided with a radiator fan.
13. the server unit with storage array module according to claim 9 is characterized in that, this second opening definition has a top regions and a lower floor district.
14. the server unit with storage array module according to claim 11 is characterized in that this cabinet also comprises:
The sway brace of one extending/folding becomes series system to arrange and be pivoted in regular turn by a plurality of connecting rods and forms, two ends of this sway brace articulate respectively this cabinet and those storage array modules one of them; And
One lead group is disposed on this sway brace, and with this sway brace extension/folding, the one end electrically connects this storage array module that this sway brace articulates, the other end electrically connect at least those input/output interface circuit plate module one of them.
15. according to claim 1,8 or 11 described server units with storage array module, it is characterized in that this first pallet, second pallet or the 3rd pallet have a handle structure that can fold/produce, this handle structure comprises:
The one handle body of rod, one end are pivotally arranged on one of this first pallet, second pallet or the 3rd pallet to be taken in the district, and the other end has one and fixes groove;
One shell fragment, the one end is fixedly arranged on this and takes in the district, and the other end is a free end, and extends outside this takes in the district obliquely; And
One cylinder, one end are fixedly arranged on this first pallet, this second pallet or the 3rd pallet, and the other end is a free end, and this other end is provided with a fixing projection to a side of this handle body of rod,
Wherein, when this handle body of rod change over to this take in the district and push this shell fragment after, this fixing groove is fixed to this fixing projection,
After this fixing projection fixed groove away from this, this shell fragment that is urged was released this with this handle body of rod and is taken in the district and be exposed to this first opening or this second opening.
Priority Applications (1)
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Effective date of registration: 20160826 Address after: 510635, A4 building, No. 11, Kaiyuan Avenue, Science City, Guangzhou hi tech Industrial Development Zone, Guangdong, Guangzhou, third Patentee after: GUANGZHOU TRUSME ELECTRONIC TECHNOLOGY CO., LTD. Address before: Taipei City, Taiwan Chinese Shilin District Hougang Street No. sixty-six Patentee before: Inventec Corporation |