CN102999088A - Server - Google Patents

Abstract

The invention relates to a server which comprises a machine cabinet, a plurality of electronic modules, a wire sorting structure, a fan module and at least one cable. The machine cabinet has a layered space. The electronic modules penetrate through the front end of the machine cabinet to move into or out of the layered space. Motion paths are respectively formed when the electronic modules move into or out of the layered space. The wire sorting structure is configured at the front end of the machine cabinet and is arranged in the area between the motion paths and the wall of the machine cabinet, and the wire sorting structure and the electronic modules are correspondingly arranged along a longitudinal shaft. The fan module is assembled at the rear end of the machine cabinet and generates radiating air flow. The radiating air flow sequentially passes through the front end of the machine cabinet, the electronic modules and the fan module to flow out from the rear end of the machine cabinet. The cable is configured in the machine cabinet, one end of the cable is connected onto the electronic module, and the other end of the cable penetrates out of the machine cabinet from the wire sorting structure.

Description

Server

Technical field

The present invention relates to a kind of server, relate in particular to a kind of server with structure for arranging wires.

Background technology

Server is the core computer of each computing machine of service in the network system, and the functions such as disk that the network user needs and print service can be provided, simultaneously also can be for each client interior every resource of share web environment each other.The basic framework of server and general personal computer are roughly the same, formed by parts such as central processing unit (CPU), internal memory (Memory) and I/O (I/O) equipment, and connected in inside by bus (Bus), see through north bridge chips and connect central processing unit and internal memory, connect input-output apparatus etc. and see through South Bridge chip.Server has approximately experienced three evolution process by casing structure: from early stage tower case to emphasize to concentrate the cabinet-type of performance, again to the blade server of high density account form.

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

Wherein, each server in the rack is to be connected to external device (ED) via many cables, if properly put in order, these cables can cause the obstruction of user when operating the rack interior arrangement because of its mixed and disorderly configuration, also can affect the heat dissipation of server inside simultaneously.

Summary of the invention

The invention provides a kind of server, the configuration cable that it can be appropriate by structure for arranging wires is to improve operating efficiency and the heat dissipation of server.

One embodiment of the invention propose a kind of server, comprise a rack, a plurality of electronic module, a structure for arranging wires, a blower module and at least one cable.Rack has a tier rack type space.Electronic module passes the rack front end and moves into or shift out the tier rack type space, and each electronic module moves in rack or shifts out the tier rack type spatial time sharing and do not form a path of motion.Structure for arranging wires is disposed at the rack front end, and the position path of motion and rack must between the zone, wherein structure for arranging wires is corresponding setting with electronic module along a longitudinal axis.Blower module is assembled to the rack rear end.Blower module produces a radiating airflow, and this radiating airflow is sequentially via rack front end, electronic module, blower module and flow out from the rack rear end.Cable arrangement is in rack.One end of cable is connected to electronic module, and the other end of cable passes rack from structure for arranging wires.

In one embodiment of this invention, above-mentioned rack front bottom end has an air intake vent.Radiating airflow flows into the rack front end via air intake vent along the longitudinal axis, and sequentially flow through tier rack type space and interior electronic module and rack rear end thereof and flow out rack along a transverse axis again, and longitudinal axis select shaft.

In one embodiment of this invention, above-mentioned rack front end has the position groove on the wall within it, and structure for arranging wires comprises a plurality of locating parts, along above-mentioned longitudinal axis array be configured in the groove.

In one embodiment of this invention, each above-mentioned locating part is an annular component, and all is parallel to the plane take the above-mentioned longitudinal axis as normal.The other end of cable passes these annular components.

In one embodiment of this invention, above-mentioned annular component respectively has a breach, and cable is arranged in the annular component via breach.

In one embodiment of this invention, above-mentioned rack front end also has the opening of position above structure for arranging wires.The other end of cable sequentially passes structure for arranging wires and opening and passes rack.

In one embodiment of this invention, an end of above-mentioned cable is connected to front end and the close structure for arranging wires place of electronic module.

In one embodiment of this invention, above-mentioned electronic module comprises a switch and at least one server unit.

In one embodiment of this invention, also comprise a door closure, can open and be assembled to the rack front end entirely.When door closure close entire during to front baffle, the door closure position before structure for arranging wires and not with its interference.

Based on above-mentioned, in the above embodiment of the present invention, rack is the structure for arranging wires of corresponding setting by the relative both sides that are configured in the tier rack type space and with electronic module, and allowing an end of cable be connected to electronic module, and the other end of cable can be configured in the structure for arranging wires to pass rack.This measure allows cable arrangement can not hinder running in enclosure interior, and structure for arranging wires and electronic module are by the configuration relation that corresponds to each other, decapacitation allows the user successfully operate outside the interior electronic module of rack, more can avoid stopping because of cable the heat dissipation that passes through to reduce server of radiating airflow.

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 synoptic diagram according to a kind of server of one embodiment of the invention.

Fig. 2 is the partial component synoptic diagram of the server of Fig. 1.

Fig. 3 is the partial enlarged drawing of A part in the server of Fig. 2.

The primary clustering symbol description:

100: server

110: rack

113a: inwall

113b: groove

113c: air intake vent

120: electronic module

122: mesh-structured

130: cable

140: blower module

150: structure for arranging wires

152: locating part

160: door closure

C1: tier rack type space

E1: first end

E2: the second end

G1: breach

G2: opening

H1: transverse axis

P1, P2: plane

V1: the longitudinal axis

Embodiment

Fig. 1 is the synoptic diagram according to a kind of server of one embodiment of the invention.Fig. 2 is the partial component synoptic diagram of the server of Fig. 1.Wherein and represent the flow direction of air-flow with arrow at Fig. 2.Please also refer to Fig. 1 to Fig. 3, in the present embodiment, server 100 for example is a cabinet-type server, and it comprises many cables 130 of a rack 110, a plurality of electronic module 120, a structure for arranging wires 150, a blower module 140 and connecting electronic module 120.At this, for making the relativeness between member can be by clearly identification, therefore only show two electronic modules 120 and the 130 conduct representatives of part cable, and in the present embodiment, electronic module 120 for example is a server unit (as shown in the figure) or a switch (not shown).At this, do not limit the form of electronic module 120, that is the relevant apparatus that is configured in the rack 110 and needs to be connected with cable 130, all applicable to present embodiment.

Rack 110 has a tier rack type space C1.Electronic module 120 passes rack 110 front ends and moves into or shift out tier rack type space C1, and each electronic module 120 forms respectively path of motion in rack 110 interior immigrations or when shifting out tier rack type space C1.In the present embodiment, the front end of rack 110 and rear end are to allow user A1 visual angle look it, are front end near the user wherein, and are the rear end away from the user.

In the present embodiment, structure for arranging wires 150 is configured in rack 110 front ends and the position zone between the pair of inner wall 113a of the path of motion of electronic module 120 and rack 110 front ends.Electronic module 120 passes rack 110 front ends and moves into or shift out tier rack type space C1 along a transverse axis H1.Moreover structure for arranging wires 150 is corresponding setting with electronic module 120 along a longitudinal axis V1, uses to allow each electronic module 120 that the structure for arranging wires corresponding with it 150 all can be arranged and as the placement space of cable 130, wherein transverse axis is perpendicular to the longitudinal axis.

In addition, blower module 140 is assembled to rack 110 rear ends, it is in order to produce a radiating airflow (arrow as shown in Figure 2), and sequentially flow out rack 110 via rack 110 front ends, tier rack type space C1 and rack 110 rear ends, to reach the effect that the electronic package (not shown) in the electronic module 120 is dispelled the heat.

Cable 130 is configured in the rack 110, and a first end E1 of cable 130 is connected to electronic module 120, and one second end E2 of cable 130 passes rack 110 via structure for arranging wires 112, to contact with the external device (ED) (not shown).

Based on above-mentioned, because the rack 110 of present embodiment has structure for arranging wires 150, and this structure for arranging wires 150 is neither on the path of motion of electronic module 120, also not in order to the air-flow to electronic module 120 heat radiation, so the cable 130 that not only can convey electronic module 120 connections reaches the purpose of whole line by this, and make rack 110 have better space utilization and configuration, more be improved the operation usefulness of electronic module 120 and the radiating effect of server 100 because of its position.

Refer again to Fig. 2 and Fig. 3, specifically, rack 110 front bottom end have an air intake vent 113c.Accordingly, because blower module 140 is exhausting modules, it is assembled in rack 110 rear ends.When its start, the air in the rack 110 can be detached rack 110, thereby the extraneous air of drive imports rack 110 front ends via air intake vent 113c into along longitudinal axis V1; Then, branch to again each tier rack type space C1 and transmit towards rack 110 rear ends.Via above-mentioned, air-flow just is able to use the effect that reaches heat radiation along transverse axis H1 sequentially via tier rack type space C1 and rack 110 rear ends and spread out of outside the rack 110.Accordingly, be connected to the cable 130 of electronic module 120 just because of above-mentioned structure for arranging wires 112, and can avoid the flow path of this radiating airflow, so can improve the heat dissipation of server 100.

In addition, 150 of structure for arranging wires are on the inwall 113a of rack 110 front ends, and not on the path of motion of electronic module 120.This measure is by being the relative both sides that are configured in the path of motion of electronic module 120 with structure for arranging wires 150, and make electronic module 120 in mobile process, can not be subject to the stopping of cable 130 of other electronic modules 120, and then be convenient to allow the user substitute electronic module 120, also can therefore improve its operating efficiency.Fig. 3 is the partial enlarged drawing of A part in the server of Fig. 2.Please be with reference to figure 2 and Fig. 3, in the present embodiment, rack 110 front ends also have the position at the groove 113b of inwall 113a, structure for arranging wires 150 comprises a plurality of locating parts 152, its respectively along longitudinal axis V1 array be configured in the groove 113b.Moreover each locating part 152 is respectively along longitudinal axis V1 and corresponding with electronic module 120, that is in the present embodiment, locating part 152 namely corresponding electronic modules 120.

Say that further each locating part 152 is an annular component, and these locating parts 152 are arranged parallel to each other in groove 113b, that is each locating part 152 is parallel to the plane P 1 take longitudinal axis V1 as normal.Moreover each locating part 152 has the breach G1 towards C1.Accordingly, the second end E2 of the cable 130 that picks out from electronic module 120 just can insert the locating part 152 from breach G1, and passes simultaneously these locating parts 152 and be limited in the groove 113b on the inwall 113a.If look it with visual angle A1 this moment from Fig. 2, then on the plane P 2 take transverse axis H1 as normal, electronic module 120 is not overlapped in the orthogonal projection of locating part 152 on this plane P 2 in the orthogonal projection on this plane P 2.

In addition, rack 110 front ends also have the opening G2 of position above structure for arranging wires 112.Accordingly, the second end E2 of cable 130 be configured in locating part 152 interior after, just can sequentially pass therewith opening G2 and pass rack 110 of structure for arranging wires 112, to be connected with external device (ED).

On the other hand, refer again to Fig. 1 and Fig. 2, server 100 also comprises a door closure 160, and it can be opened and be assembled to rack 110 front ends entirely, uses when opening and can substitute electronic module 120, and can form confined space when entire and flow for radiating airflow closing.It should be noted that, when door closure 160 is when closing entire state with respect to rack 110 front ends, the position of door closure 160 is in fact adjacent to structure for arranging wires 150 and do not interfere with each other each other, that is on transverse axis H1, see it with the A1 visual angle, 160 of door closures before structure for arranging wires 150 and door closure 160 when closing, be not subjected to the impact of structure for arranging wires 150.

In sum, in the above embodiment of the present invention, rack is by the structure for arranging wires of the relative both sides that are configured in the tier rack type space, and allowing an end of cable be connected to electronic module, and the other end of cable can be configured in the structure for arranging wires to pass rack.This measure allows cable arrangement can not hinder running in enclosure interior, and decapacitation allows the user successfully operate outside the electronic module in the rack, more can avoid stopping because of cable the heat dissipation that passes through to reduce server of radiating airflow.

Although the present invention discloses as above with embodiment; but it is not to limit the present invention, any affiliated technical field technician, without departing from the spirit and scope of the present invention; when doing a little change and retouching, so protection scope of the present invention should be as the criterion with the scope that claim was defined.

Claims (9)

1. a server is characterized in that, comprising:

One rack has a tier rack type space;

A plurality of electronic modules pass this rack front end and move into or shift out this tier rack type space, and respectively this electronic module moves into or shifts out this tier rack type spatial time sharing and do not form a path of motion in this rack;

One structure for arranging wires is disposed at this rack front end, and the zone of position between this path of motion and cabinet walls, and wherein this structure for arranging wires is corresponding setting along a longitudinal axis each other with this electronic module;

One blower module is assembled to this rack rear end, and this blower module produces a radiating airflow, and this radiating airflow sequentially flows out from this rack rear end via this rack front end, this electronic module and this blower module; And

At least one cable is configured in this rack, and an end of this cable is connected to this electronic module, and the other end of this cable passes this rack from this structure for arranging wires.

2. server according to claim 1, wherein this rack front bottom end has an air intake vent, this radiating airflow flows into this rack front end via this air intake vent along this longitudinal axis, sequentially flow through this tier rack type space and interior this electronic module and this rack rear end thereof and flow out this rack along a transverse axis again, vertical this transverse axis of this longitudinal axis.

3. server according to claim 2, wherein this rack front end has the position groove on the wall within it, and this structure for arranging wires comprises:

A plurality of locating parts, along this longitudinal axis array be configured in this groove.

4. server according to claim 3, wherein respectively this locating part is an annular component, and all is parallel to the plane take this longitudinal axis as normal, this cable passes those annular components.

5. server according to claim 4, wherein respectively this annular component has a breach, and this cable is arranged in those annular components through those breach.

6. server according to claim 1, wherein this rack front end also has the opening of position above this structure for arranging wires, and the other end of this cable passes this rack from this structure for arranging wires through this opening.

7. server according to claim 1, wherein an end of this cable is connected to the front end of this electronic module and near this structure for arranging wires place.

8. server according to claim 1, wherein this electronic module comprises a switch and at least one server unit.

9. server according to claim 1 also comprises:

One door closure can be opened and be assembled to this rack front end entirely, wherein when this door closure close entire during to this rack front end, this door closure position before this structure for arranging wires and not with its interference.

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