CN103034302A - Server - Google Patents

Abstract

A server comprises a case, a fan assembly, at least one hard disk array unit and a plurality of main boards. The case is provided with a main board back panel. The fan assembly is arranged inside the case and divides the case into a first space and a second space. Airflow is sucked into and blown out the fan assembly along a first direction. The hard disk array unit is arranged in the first space and comprises a hard disk back panel and a plurality of hard disks. The hard disk back panel is horizontally arranged in the first space. The hard disks are vertically plugged into the hard disk back panel in a pluggable way along a second direction which is vertical to the first direction. Two surfaces with the largest area of each hard disk are parallel to the first direction. An airflow passage extending along the first direction is formed among the hard disks. The main board are arranged in the second space and connected to the main board back panel in a pluggable way. An airflow passage extending along the first direction is formed among the main boards.

Description

Servomechanism

Technical field

The present invention relates to a kind of electronic equipment, relate in particular to a kind of servomechanism.

Background technology

Servomechanism is the core computer of each computing machine of service in the network system, and the functions such as disk that network user needs and print service can be provided, simultaneously also can be for each user side interior every resource of shared network environment each other.The basic framework of servomechanism and general personal computer 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.Servomechanism has approximately experienced three evolution process by casing structure: from early stage tower case to emphasize to concentrate the rack of performance, again to the blade servomechanism of high density account form.

Take rack server as example, rack server is the servomechanism that a kind of outward appearance designs according to unified standard at this, cooperates the unified use of rack.Can say that rack is a kind of tower servomechanism of optimizing structure, its design aim mainly is in order to reduce as far as possible taking of servomechanism space.A lot of specialized network equipment all are the structures 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 has 1U, 2U, 3U, 4U, 5U, the servomechanism of several standards of 7U usually take U as unit (1U=1.75 inch=44.45 millimeter).

The size of rack also is to adopt general industrial standard, does not usually wait from 22U to 42U.Height by U in the rack has dismountable slip bracket, and the user can be according to the absolute altitude flexible height of own servomechanism, to deposit the network equipments such as servomechanism, hub, magnetic sheet disk array cabinet.After servomechanism was well placed, its all I/O lines were 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 posted label, is convenient to management.

Along with the prosperity of Information technology, the energy that servomechanism consumes and keep the required costs such as heat radiation of servomechanism equipment normal operation and sharply rise.Therefore how to realize the high-density arrangement of servomechanism, to save configuration space and to reduce heat radiation and wait cost, be current important problem.

Summary of the invention

The invention provides a kind of servomechanism, can save configuration space and improving heat radiation efficiency.

The present invention proposes a kind of servomechanism, comprises a cabinet, a fan module, at least one hard disk array unit and a plurality of motherboard.Cabinet has a motherboard backboard and a base plate.The fan module is disposed in the cabinet, and is one first space and a second space with the space segmentation in the cabinet.Air-flow is inhaled into and blows out the fan module along a first direction.The hard disk array cell location is in the first space.The hard disk array unit comprises a hard disk backboard and a plurality of hard disk.The hard disk backboard level is laid in the first space.These hard disks can vertically be inserted in hard disk backboard along a second direction of vertical first direction with plugging.Two parallel first directions of face of each hard disk area maximum.Form the gas channel that extends along first direction between these hard disks.These motherboards can be disposed in the second space with plugging and are connected on the motherboard backboard along second direction.Form the gas channel that extends along first direction between these motherboards.

In one embodiment of this invention, above-mentioned motherboard backboard is disposed between hard disk array unit and these motherboards, and is positioned at fan module below.

In one embodiment of this invention, above-mentioned hard disk array unit also comprises a plurality of hard disk rack, and these hard disks are disposed at respectively on these hard disk rack.

In one embodiment of this invention, above-mentioned servomechanism also comprises a plurality of power supply modules, is positioned at second space and is disposed on the base plate, and is wherein redundant each other between these power supply modules.

In one embodiment of this invention, above-mentioned servomechanism also comprises a power supply backplane, is disposed on the base plate and between these power supply modules and these hard disks, and is electrically connected at these power supply module and hard disk backboards.

In one embodiment of this invention, above-mentioned servomechanism also comprises a plurality of integrated management modules, is disposed in the second space and is electrically connected at power supply backplane, and wherein these integrated management modules are redundant each other.

In one embodiment of this invention, above-mentioned fan module comprises a plurality of fans, and these fans are redundant each other mutually.

In one embodiment of this invention, above-mentioned cabinet has a plurality of dismountable loam cakes, and the quantity of at least one hard disk array unit is a plurality of, and these loam cakes cover respectively on the fan unit and on these hard disk array unit.

In one embodiment of this invention, the first above-mentioned space, fan module and second space arrive the arranged sequentially of rear end according to the cabinet front end.

In one embodiment of this invention, the first above-mentioned space, fan module and second space are according to arranged sequentially to left end or left end to right-hand member of cabinet right-hand member.

Based on above-mentioned, a plurality of hard disks of the present invention can vertically be inserted in hard disk backboard with plugging, and each motherboard can be connected to the motherboard backboard with plugging, and can take full advantage of the space in the cabinet, to save configuration space.In addition, the fan module is disposed in the cabinet, air-flow is inhaled into and blows out the fan module along first direction, form the gas channel that extends along first direction between these hard disks, and form the gas channel that extends along first direction between these motherboards, the fan module can be dispelled the heat to motherboard and hard disk effectively, promote the radiating efficiency of servomechanism.

For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate accompanying drawing to be described in detail below.

Description of drawings

Fig. 1 is the stereographic map of the servomechanism of one embodiment of the invention.

Fig. 2 is the stereographic map of internals of the servomechanism of Fig. 1.

Reference numeral:

100: servomechanism

110: cabinet

110a: the first space

110b: second space

112: the motherboard backboard

114: base plate

116: loam cake

120: the fan module

122: fan

130: the hard disk array unit

132: hard disk backboard

134: hard disk

136: hard disk rack

140: motherboard

150: power supply backplane

152: power supply cable

160: the integrated management module

170: the power supply module

D1: first direction

D2: second direction

Embodiment

Fig. 1 is the stereographic map of the servomechanism of one embodiment of the invention.Fig. 2 is the stereographic map of internals of the servomechanism of Fig. 1.Please refer to Fig. 1 and Fig. 2, the servomechanism 100 of present embodiment comprises a cabinet 110, a fan module 120, at least one hard disk array unit 130 (being shown as a plurality of) and a plurality of motherboard 140.Cabinet 110 has a motherboard backboard 112 and a base plate 114.Fan module 120 is disposed in the cabinet 110, and is one first space 110a and a second space 110b with the space segmentation in the cabinet 110.

The parallel first direction D1 of the air-out direction of fan module 120 makes air-flow be inhaled into and blow out fan module 120 along first direction D1.Each hard disk array unit 130 is disposed in the first space 110a and comprises a hard disk backboard 132 and a plurality of hard disk 134.Hard disk backboard 132 levels are laid in the first space 110a.These hard disks 134 can vertically be inserted in hard disk backboard 132 along the second direction D2 of vertical first direction D1 with plugging.The parallel first direction D1 of two faces of each hard disk 134 area maximum is to form the gas channel that extends along first direction D1 between these hard disks 134.These motherboards 140 can be disposed in the second space 110b with plugging and are connected on the motherboard backboard 112 along second direction D2, and form the gas channel that extends along first direction D1 between these motherboards 140.

Under above-mentioned configuration mode, a plurality of hard disks 134 can vertically be inserted in hard disk backboard 132 with plugging, and each motherboard 140 can be connected to motherboard backboard 112 with plugging, and can take full advantage of the space in the cabinet 110, to save configuration space.In addition, fan module 120 is disposed in the cabinet 110, air-flow is inhaled into and blows out the fan module along first direction D1, form the gas channel that extends along first direction D1 between these hard disks 134, and form the gas channel that extends along first direction D1 between these motherboards 140, fan module 120 can be dispelled the heat to motherboard 140 and hard disk 134 effectively, promote the radiating efficiency of servomechanism 100.

In the present embodiment, motherboard backboard 112 is disposed between hard disk array unit 130 and these motherboards 140, and is positioned at fan module 120 belows, with further saving configuration space.In addition, the hard disk array unit 130 of present embodiment also comprises a plurality of hard disk rack 136, and these hard disks 134 are disposed at respectively on these hard disk rack 136, and each hard disk 134 can vertically be fixed on the hard disk backboard 132 by hard disk rack 136.

In the present embodiment, cabinet 110 has dismountable a plurality of loam cake 116, and these loam cakes 116 cover respectively on the fan module 120 and reach on these hard disk array unit 130.When user's wish repairs or replaces single hardware array element 130 or fan module 120, only need open corresponding loam cake 116 and will not open by all loam cakes 116, the maintenance that makes hard disk array unit 130 and fan module 120 with change more convenient.

The servomechanism 100 of present embodiment also comprises a plurality of power supply modules 170.These power supply modules 170 are positioned at second space 110b and are disposed on the base plate 114.Redundant each other mutually between these power supply modules 170, so that the running of servomechanism 100 is more stable.Specifically, the servomechanism 100 of present embodiment also comprises a power supply backplane 150 and many power supply cables 152.Power supply backplane 150 is disposed on the base plate 114 and between these power supply modules 170 and these hard disks 134.Power supply backplane 150 is electrically connected at these power supply modules 170.These power supply cables 152 are connected to these hard disk backboards 132, and be electrically connected to power supply backplane 150, so that power supply backplane 150 is electrically connected at these hard disk backboards 132, these power supply modules 170 can be powered by 150 pairs of hard disk array unit 130 of power supply backplane.

The fan module 120 of present embodiment comprises a plurality of fans 122, and these fans are redundant each other mutually, so that the running of servomechanism 100 is more stable.Fan module 120 is electrically connected to power supply backplane 150, and these power supply modules 170 are powered by 150 pairs of fan modules 120 of power supply backplane.

In the present embodiment, servomechanism 100 also comprises a plurality of integrated management modules 160.These integrated management modules 160 are disposed at second space 110b and redundant each other, so that the running of servomechanism 100 is more stable.These integrated management modules 160 are electrically connected at power supply backplane 150, and these power supply modules 170 are powered to these integrated management modules 160 by power supply backplane 150.

In the present embodiment, the first space 110a, fan module 120 and second space 110b are according to arranged sequentially to the rear end of cabinet 110 front ends.Right the present invention is as limit, and in other embodiments, the first space 110a, fan module 120 and second space 110b can be according to arranged sequentially to left end or left end to right-hand member of cabinet 110 right-hand members.

In sum, a plurality of hard disks of the present invention can vertically be inserted in hard disk backboard with plugging, and each motherboard can be connected to the motherboard backboard with plugging, and can take full advantage of the space in the cabinet, to save configuration space.In addition, the fan module is disposed in the cabinet, air-flow is inhaled into and blows out the fan module along first direction, form the gas channel that extends along first direction between these hard disks, and form the gas channel that extends along first direction between these motherboards, the fan module can be dispelled the heat to motherboard and hard disk effectively, promote the radiating efficiency of servomechanism.In addition, a plurality of power supply modules and a plurality of integrated module are disposed in the second space, and motherboard, fan module, integrated module and hard disk array unit pass through same power supply backplane from power supply module reception electric power, with the configuration space in the further saving cabinet.

Although the present invention discloses as above with embodiment, so it is not to limit the present invention, and any person of an ordinary skill in the technical field when can doing a little change and retouching, and does not break away from the spirit and scope of the present invention.

Claims (10)

1. servomechanism comprises:

One cabinet has a motherboard backboard and a base plate;

One fan module is disposed in this cabinet, and is one first space and a second space with the space segmentation in this cabinet, and air-flow is inhaled into and blows out this fan module along a first direction;

At least one hard disk array unit is disposed in this first space, and this hard disk array unit comprises:

One hard disk backboard, level are laid in this first space; And

A plurality of hard disks can vertically be inserted in this hard disk backboard along a second direction of vertical this first direction with plugging, and wherein parallel this first direction of two faces of this hard disk area maximum respectively forms between those hard disks along the gas channel of this first direction extension; And

A plurality of motherboards can be disposed in this second space with plugging and are connected on this motherboard backboard along this second direction, wherein form the gas channel that extends along this first direction between those motherboards.

2. servomechanism according to claim 1, wherein this motherboard backboard is disposed between this hard disk array unit and those motherboards, and is positioned at this fan module below.

3. servomechanism according to claim 1, wherein this hard disk array unit also comprises a plurality of hard disk rack, those hard disks are disposed at respectively on those hard disk rack.

4. servomechanism according to claim 1 wherein also comprises a plurality of power supply modules, is positioned at this second space and is disposed on this base plate, and is wherein redundant each other between those power supply modules.

5. servomechanism according to claim 4 wherein also comprises a power supply backplane, is disposed on this base plate and between those power supply modules and those hard disks, and is electrically connected at those power supply modules and this hard disk backboard.

6. servomechanism according to claim 5 wherein also comprises a plurality of integrated management modules, is disposed in this second space and is electrically connected at this power supply backplane, and wherein those integrated management modules are redundant each other.

7. servomechanism according to claim 1, wherein this fan module comprises a plurality of fans, those fans are redundant each other mutually.

8. servomechanism according to claim 1, wherein this cabinet has a plurality of dismountable loam cakes, and the quantity of this at least one hard disk array unit is a plurality of, and those loam cakes cover respectively on this fan unit and on those hard disk array unit.

9. servomechanism according to claim 1, wherein this first space, this fan module and this second space are according to arranged sequentially to the rear end of this cabinet front end.

10. servomechanism according to claim 1, wherein this first space, this fan module and this second space are according to arranged sequentially to left end or left end to right-hand member of this cabinet right-hand member.

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