CN103777713A - Server - Google Patents

Abstract

A server comprises a case, a power supply module and multiple mainboard modules. The case is provided with a containing space, and the power supply module is arranged in the containing space and located at a second opening of the case. The power supply module comprises a power supply backplane and multiple power supplies, and the power supply backplane is connected with the power supplies and provided with multiple insertion points. The mainboard modules are arranged in the containing space side by side and located on a first opening of the case. The mainboard modules are correspondingly connected with the insertion points to be connected with the power supply module, and the power supplies provide power for the mainboard modules through the power supply backplane. One front end of each mainboard module is provided with multiple input and output ports which are exposed to the first opening.

Description

Server

Technical field

The invention relates to a kind of electronic installation, and relate to especially a kind of server.

Background technology

Server is the core computer of serving each computer in network system, and the function such as disk and print service that can provide network user to need also can supply each user side every resource in share web environment each other simultaneously.The basic framework of server and general PC are roughly the same, formed by parts such as central processing unit (CPU), storer (Memory) and I/O (I/O) equipment, and connected in inside by bus (Bus), connect central processing unit and storer by north bridge chips, and connect input-output apparatus etc. by South Bridge chip.Server has approximately experienced three evolution process by casing structure: from early stage tower case to emphasizing to concentrate the rack of performance, again to the blade server of high density account form.

At this, take rack server as example, rack server is the server that a kind of outward appearance designs according to unified standard, coordinates the unified use of rack.Can say that rack is a kind of tower server of optimizing structure, its design aim is mainly in order to reduce as far as possible taking of server space.A lot of specialized network equipment is all the structure that adopts rack, and it mostly is flat, just as drawer.For example switch, router, hardware firewall these.The width of rack server is 19 inches, and height, take U as unit (1U=1.75 inch=44.45 millimeter), has 1U, 2U, 3U, 4U, 5U, the server of several standards of 7U conventionally.

The size of rack is also to adopt general industrial standard, conventionally from 22U to 42U not etc.In rack, have dismountable slip bracket by the height of U, user can be according to the absolute altitude flexible height of own server, with network equipments such as service device, hub, magnetic sheet disk array cabinets.After server is well placed, its all I/O lines are all drawn (total interface of rack server also in the wings) from the rear of rack, and unified being placed in the wire casing of rack, generally posts label, is convenient to management.

Along with the prosperity of Information technology, the energy that server consumes and maintain the costs such as the required heat radiation of server apparatus normal operation and sharply rise.In addition, how realizing the high-density arrangement of server to save configuration space, is current important problem.

Summary of the invention

The invention provides a kind of server, there is higher bulk density and can save cost.

The present invention proposes a kind of server, comprises a cabinet, a power supply module and multiple mainboard module.Cabinet has puts appearance space, one first opening and one second opening with respect to the first opening.Power supply module is arranged to put and holds space and be positioned at the second opening part.Power supply module comprises a power supply backplane and multiple power supply unit, and power supply backplane connects power supply unit and has multiple grafting points.Mainboard module is arranged side by side in putting and holds space and be positioned at the first opening part.Mainboard module connects accordingly grafting point and connects power supply module, and power supply unit provides electrical power to mainboard module via power supply backplane.One front end of mainboard module has multiple IO interface, and IO interface is exposed to the first opening part.

In one embodiment of this invention, above-mentioned each mainboard module comprises one first pallet and a motherboard, and motherboard is arranged at the first pallet and can inserts cabinet or extract out from cabinet from the first opening with the first pallet.

In one embodiment of this invention, above-mentioned motherboard has a Plug Division, and mainboard module connects one of them of the point of pegging graft via Plug Division.When motherboard is in the time inserting state, motherboard is electrically connected to power supply backplane.When motherboard is in the time extracting state out, motherboard disconnects the electric connection with power supply backplane.

In one embodiment of this invention, above-mentioned each mainboard module more comprises one first element, is positioned at the front end of mainboard module and is electrically connected motherboard.

In one embodiment of this invention, above-mentioned each mainboard module more comprises one second element, is positioned at mainboard module and is electrically connected motherboard with respect to a rear end of front end.When each mainboard module, via Plug Division being connected accordingly to one of them of the point of pegging graft, while connecting power supply module, the first element and the second element lay respectively at the relative both sides of power supply backplane.

In one embodiment of this invention, above-mentioned motherboard has an extension, is positioned at the rear end of mainboard module and extends from Plug Division, and the second element position lays respectively at the relative both sides of power supply backplane at extension and with the first element.

In one embodiment of this invention, the first above-mentioned element comprises hard disk or expansion card, and the second element comprises hard disk.

In one embodiment of this invention, the first above-mentioned element comprises hard disk and expansion card, and hard disk and expansion card are arranged side by side in the front end of mainboard module or the stacking front end that is arranged at mainboard module.

In one embodiment of this invention, above-mentioned server more comprises multiple blower modules, is arranged at the both sides of power supply unit, and blower module is electrically connected to power supply unit and corresponding to mainboard module.

In one embodiment of this invention, above-mentioned server more comprises one second pallet, and the second pallet carries power supply unit and blower module, is suitable for inserting cabinet or extracting out from cabinet from the second opening.

Based on above-mentioned, the present invention proposes a kind of server, and its power supply module is positioned at the second opening part of cabinet, and multiple mainboard module is positioned at the first opening part of cabinet.The power supply backplane of power supply module connects power supply unit and has multiple grafting points, and mainboard module connects accordingly grafting point and connects power supply module, and power supply unit provides electrical power to mainboard module via power supply backplane.Therefore, in server, multiple mainboard modules can be set, and server does not need to use the extra cable can be by power delivery to each mainboard module.Accordingly, server has higher bulk density and can save cost.

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate appended graphic being described in detail below.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the server of one embodiment of the invention.

Fig. 2 is the schematic top plan view of the server of Fig. 1.

Fig. 3 is the schematic diagram of the mainboard module of Fig. 1.

Fig. 4 is the schematic diagram of the mainboard module of another embodiment of the present invention.

[main element symbol description]

100: server

110: cabinet

112: put and hold space

114: the first openings

116: the second openings

120: power supply module

122: power supply unit

124: power supply backplane

124a: grafting point

130,130a: mainboard module

132: the first pallets

134: motherboard

134a: Plug Division

134b: extension

136: the first elements

136a: IO interface

138: the second elements

139: electronic component

140: blower module

142: fan

150: the second pallets

B: rear end

F: front end

Embodiment

Fig. 1 is the schematic diagram of the server of one embodiment of the invention.Fig. 2 is the schematic top plan view of the server of Fig. 1.Please refer to Fig. 1 and Fig. 2, in the present embodiment, server 100 comprises cabinet 110, power supply module 120 and multiple mainboard module 130.The server 100 that Fig. 1 and Fig. 2 illustrate is 1U rack-mount server, and the cabinet 110 of server 100 can configure two mainboard modules 130.But, the server 100 that Fig. 1 and Fig. 2 illustrate is only to illustrate that mainboard module 130 is applied to the mode of server 100, not only can be used for 1U rack-mount server in order to limit mainboard module 130 of the present invention, also non-limiting server 100 only can arrange two mainboard modules 130.

Particularly, please refer to Fig. 2, cabinet 110 has puts appearance space 112, the first opening 114 and the second opening 116 with respect to the first opening 114.In the present embodiment, mainboard module 130 is arranged side by side the first opening 114 places that hold space 112 and be positioned at cabinet 110 in putting, and power supply module 120 is arranged at second opening 116 places of putting appearance space 112 and being positioned at cabinet 110.

Please refer to Fig. 2, power supply module 120 comprises that multiple power supply unit 122(illustrate one for representative) and power supply backplane 124, power supply backplane 124 connects power supply unit 122 and has multiple grafting point 124a.Mainboard module 130 connects accordingly grafting point 124a and connects power supply module 120.In the present embodiment, power supply backplane 124 has two some 124a that peg graft, so that two groups of mainboard modules 130 of connection that power supply module 120 can be corresponding.But power supply backplane 124 can be according to the quantity of demand adjustment grafting point 124a, the present invention is not as restriction.

When connecting accordingly, mainboard module 130 pegs graft some 124a and while connecting power supply module 120, the power supply unit 122 that is positioned at the second opening 116 provides electrical power to the each mainboard module 130 that is positioned at the first opening 114 via power supply backplane 124.Accordingly, server 100 does not need to use extra cable by the power delivery of power supply module 120 to each mainboard module 130, server 100 can be saved the required cost of cable is set.

In addition, mainboard module 130 can removably be disposed in cabinet 110 and connect power supply module 120.Therefore, mainboard module 130 can be pulled out and pull down to change or keep in repair in cabinet 110 from power supply module 120.Accordingly, the assembling of mainboard module 130 is more convenient with replacement.

On the other hand, please refer to Fig. 2, in the present embodiment, server 100 more comprises multiple blower modules 140.Each blower module 140 comprises multiple fans 142.Blower module 140 is arranged at the both sides of power supply unit 122 and is electrically connected to power supply unit 122, and blower module 140 is corresponding to mainboard module 130.Therefore, in the present embodiment, the quantity of blower module 140 is two, and each blower module 140 has three fans 142, but the present invention does not limit the quantity of blower module 140 and fan 142.One to one in the face of mainboard module 130, can make blower module 140 effectively disperse the temperature that mainboard module 130 produces blower module 140.

Fig. 3 is the schematic diagram of the mainboard module of Fig. 1.Please refer to Fig. 2 and Fig. 3, in the present embodiment, each mainboard module 130 comprises the first pallet 132 and motherboard 134.Motherboard 134 is arranged at the first pallet 132 and can inserts cabinet 110 or extract out from cabinet 110 from the first opening 114 with the first pallet 132.Say further, mainboard module 130 is to form an independently assembly by the first pallet 132, and all the other members of mainboard module 130 are disposed on the first pallet 132, make mainboard module 130 to be assembled in cabinet 110 or to remove from cabinet 110 in overall mode.

In addition, in the present embodiment, server 50 more comprises that the second pallet 150, the second pallets 150 carry power supply unit 122 and blower module 140.The second pallet 150 is suitable for inserting cabinet 110 or extracting out from cabinet 110 from the second opening 116.In other words, power supply unit 122 and blower module 140 can removably be disposed at putting of cabinet 110 via the second pallet 150 to be held in space 112, makes the assembling of power supply unit 122 and blower module 140 more convenient with replacement.But in the embodiment not illustrating at other, power supply unit 122 can be directly fixed on putting of cabinet 110 with blower module 140 to be held in space 112, the present invention is not as restriction.

On the other hand, the motherboard 134 of mainboard module 130 is electrically connected power supply unit 122 via connecting power supply backplane 124.In the present embodiment, mainboard module 130 can be distinguished into front end F and the rear end B with respect to front end F.The front end F of mainboard module 130 has multiple IO interface 136a, and IO interface 136a is exposed to the first opening 114 places, makes server 100 to connect other external device (ED)s via IO interface 136a.In addition,, in the time that mainboard module 130 is arranged at cabinet 110 and connects power supply module 120, mainboard module 130 is to connect power supply backplane 124 in the face of power supply backplane 124 with rear end B.

Particularly, in the present embodiment, motherboard 134 has Plug Division 134a, and Plug Division 134a is positioned at the rear end B of mainboard module 130.As previously mentioned, mainboard module 130 is to connect power supply backplane 124 in the face of power supply backplane 124 with rear end B.Furthermore, mainboard module 130 connects power supply backplane 124 via the Plug Division 134a of motherboard 134 being connected to one of them of the some 124a that pegs graft.

Therefore, when motherboard 134 is in the time inserting state, motherboard 134 is electrically connected to power supply backplane 124, and power supply unit 122 provides electrical power to the motherboard 134 of mainboard module 130 via power supply backplane 124.In other words,, in the time that motherboard 134 connects power supply module 120, motherboard 134 is electrically connected mutually with power supply backplane 124 and power supply unit 122.In addition,, when motherboard 134 is in the time extracting state out, motherboard 134 disconnects the electric connection with power supply backplane 124.

On the other hand, in the present embodiment, mainboard module 130 comprises that the first element 136, the first elements 136 are positioned at the front end F of mainboard module 130 and are electrically connected motherboard 134.The first element 136 has storage area.In the time that motherboard 134 and power supply backplane 124 are electrically connected, server 100 can storage data and the function of carrying out corresponding to the first element 136.

On the other hand, in the present embodiment, mainboard module 130 more comprises that the second element 138, the second elements 138 are positioned at the rear end B of mainboard module 130 and are electrically connected motherboard 134.Should be noted, when each mainboard module 130, via Plug Division 134a being connected accordingly to one of them of the some 124a that pegs graft, while connecting power supply module 120, the first element 136 and the second element 138 lay respectively at the relative both sides of power supply backplane 124 herein.

Particularly, in the present embodiment, motherboard 134 also has extension 134b.Extension 134b is positioned at the rear end B of mainboard module 130 and extends from Plug Division 134a, and the second element 138 is electrically connected with motherboard 134 via being arranged at extension 134b.Therefore, mainboard module 130 makes the first element 136 and the second element 138 lay respectively at the relative both sides of power supply backplane 124 via Plug Division 134a being connected accordingly to grafting point 124a.

Accordingly, the second element 138 can be considered it is the element that the room in order to fill up between mainboard module 130 and power supply module 120 arranges properly to utilize the space in server 100, and extension 134b can be considered it is the part additionally extending out in order to make the second element 138 connect motherboard 134.Therefore, server 100 has comparatively compact system layout, to reduce the total cost of server 100.

Therefore, in the present embodiment, extension 134b protrudes from outside the first pallet 132, and the second element 138 is in mainboard module 130 is arranged at cabinet 110, to be just assembled to extension 134b afterwards.But, in other embodiments, extension 134b and the second element 138 can first be arranged in the first pallet 132 simultaneously, and the shape of the first pallet 132 is not interfered power supply unit 122, make mainboard module 130 can insert in cabinet 110 and make the Plug Division 134a of motherboard 134 connect power supply backplane 124, the present invention is not as restriction.

In the present embodiment, the second element 138 also has storage area.In the time that motherboard 134 and power supply backplane 124 are electrically connected, server 100 can storage data and the function of carrying out corresponding to the second element 138.Therefore, the first element 136 and the second element 138 are set on motherboard 134, can improve the storage area of mainboard module 130.But whether, mainboard module 130 can be adjusted according to user demand, is only using a preferred embodiment of the present invention as explanation in the setting that the present invention does not limit the second element 138 herein.

In addition, in the present embodiment, mainboard module 130 also has multiple electronic components 139, for example, be central processing unit or internal memory.Electronic component 139 is disposed on motherboard 134 and between the first element 136 and the second element 138.But the present invention does not limit kind, the quantity of electronic component 139 and whether arranges, mainboard module 130 can be adjusted according to user demand.

Please refer to Fig. 3, in the present embodiment, the first element 136 and the second element 138 are hard disk, for example small size (small form factor, SFF) 2.5 inches of solid state hard discs (solid state drive, SSD), but the present invention does not limit the kind of hard disk.In other embodiments, the first element 136 and the second element 138 also can be the hard disk of 3.5 inches of solid state hard discs or other kinds.

The quantity of the first element 136 and the second element 138 is respectively two, the first element 136 is arranged at abreast each other motherboard 134 and is positioned at the front end F of mainboard module 130 and the second element 138 is arranged at motherboard 134 each other abreast and be positioned at the rear end B of mainboard module 130, but the present invention does not limit quantity and the arrangement mode of the first element 136 and the second element 138.

Fig. 4 is the schematic diagram of the mainboard module of another embodiment of the present invention.Please refer to Fig. 4, in the present embodiment, the first element 136 of mainboard module 130a is expansion card, for example, be the display card of short run (low profile, LP).The quantity of the first element 136 is two, is arranged at abreast each other motherboard 134 and is positioned at the front end F of mainboard module 130.But the present invention does not limit the kind of expansion card, in other embodiments, but the first element 136 is also the display card of other kinds.Now, the second element 138 can be the hard disk of 2.5 inches, 3.5 inches of solid state hard discs or other kinds.

In addition,, in the embodiment not illustrating at other, the first element 136 comprises hard disk and expansion card.In other words,, in the time that the quantity of the first element 136 is greater than one, the first element 136 does not limit and is necessary for identical type.For example, the quantity of the first element 136 is two, and one of them is hard disk, for example, be the hard disk of 2.5 inches, 3.5 inches of solid state hard discs or other kinds, and another one is expansion card, for example, be the display card of short run or the display card of other kinds.Now, hard disk and expansion card can be arranged side by side in the front end F of mainboard module 130 or the stacking front end F that is arranged at mainboard module 130, and the present invention is not as restriction, and the present invention does not limit kind and the arrangement mode of the first element 136.

Therefore, different mainboard modules can have different use functions via different types of the first element 136 is set.Accordingly, server 100 can be selected according to user demand the kind of mainboard module.In simple terms, mainboard module 130 can select position to adjust the function of mainboard module 130 in the kind of the first element 136 of front end F, and different mainboard module 130 can be selected and change to server 100.In addition, server 100 is interior can arrange multiple mainboard modules 130, makes server 100 have higher bulk density.

In sum, the present invention proposes a kind of server, and its power supply module is positioned at the second opening part of cabinet, and multiple mainboard module is positioned at the first opening part of cabinet.The power supply backplane of power supply module has multiple grafting points, and mainboard module connects power supply module via connecting accordingly grafting point.Mainboard module can removably connect power supply module via pegging graft point, and the electric power that power supply unit provides can directly be passed to mainboard module via power supply backplane.Therefore, in server, multiple mainboard modules can be set, and server does not need to use the extra cable can be by power delivery to each mainboard module.Accordingly, server has higher bulk density and can save cost.

Although the present invention discloses as above with embodiment; so it is not in order to limit the present invention; under any, in technical field, have and conventionally know the knowledgeable; without departing from the spirit and scope of the present invention; when doing a little change and retouching, therefore protection scope of the present invention is when being as the criterion of defining depending on accompanying claim.

Claims (10)

1. a server, comprising:

One cabinet, has to put and holds space, one first opening and one second opening with respect to this first opening;

One power supply module, is arranged at this and puts appearance space and be positioned at this second opening part, and this power supply module comprises a power supply backplane and multiple power supply unit, and this power supply backplane connects those power supply units and has multiple grafting points; And

Multiple mainboard modules, be arranged side by side in this and put appearance space and be positioned at this first opening part, those mainboard modules connect accordingly those and peg graft point and connect this power supply module, those power supply units provide electrical power to those mainboard modules via this power supply backplane, one front end of those mainboard modules has multiple IO interface, and those IO interface are exposed to this first opening part.

2. server as claimed in claim 1, is characterized in that, respectively this mainboard module comprises one first pallet and a motherboard, and this motherboard is arranged at this first pallet and can inserts this cabinet or extract out from this cabinet from this first opening with this first pallet.

3. server as claimed in claim 2, it is characterized in that, this motherboard has a Plug Division, this mainboard module connects one of them of those points of pegging graft via this Plug Division, when this motherboard is in the time inserting state, this motherboard is electrically connected to this power supply backplane, and when this motherboard is in the time extracting state out, this motherboard disconnects the electric connection with this power supply backplane.

4. server as claimed in claim 1, is characterized in that, respectively this mainboard module more comprises one first element, is positioned at this front end of this mainboard module and is electrically connected to this motherboard.

5. server as claimed in claim 4, it is characterized in that, respectively this mainboard module more comprises one second element, be positioned at this mainboard module and be electrically connected to this motherboard with respect to a rear end of this front end, in the time that each this mainboard module connects this power supply module via this Plug Division being connected accordingly to one of them of those points of pegging graft, this first element and this second element lay respectively at the relative both sides of this power supply backplane.

6. server as claimed in claim 5, it is characterized in that, this motherboard has an extension, is positioned at this rear end of this mainboard module and extends from this Plug Division, and this second element is positioned at this extension and lays respectively at the relative both sides of this power supply backplane with this first element.

7. server as claimed in claim 5, is characterized in that, this first element comprises hard disk or expansion card, and this second element comprises hard disk.

8. server as claimed in claim 5, is characterized in that, this first element comprises hard disk and expansion card, and this hard disk and expansion card are arranged side by side in this front end of this mainboard module or stacking this front end that is arranged at this mainboard module.

9. server as claimed in claim 1, is characterized in that, more comprises multiple blower modules, is arranged at the both sides of those power supply units, and those blower modules are electrically connected to those power supply units and corresponding to those mainboard modules.

10. server as claimed in claim 9, is characterized in that, more comprises one second pallet, and this second pallet carries those power supply units and those blower modules, is suitable for inserting this cabinet or extracting out from this cabinet from this second opening.

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