CN203455759U - Server - Google Patents

Abstract

The utility model discloses a server. The server comprises a case and a plug-in module, wherein the case is provided with a holding tank; the plug-in module is inserted in the holding tank and comprises a base plate, a heat radiation structure, a PCIE (Peripheral Component Interface Express) component and a framework body; the framework body comprises a front wall, a bottom and holding space which is located on the back of the front wall; the base plate is fixed at the bottom of the framework body and provided with a first connector and a second connector; the heat radiation structure is mounted on the front wall of the framework body and electrically connected with the first connector; the PCIE component is held in the holding space and electrically connected with the second connector, so that the heat radiation structure and the PCIE component are integrated. Through the server, the heat radiation structure and the PCIE component are integrated, so that the space on the back of the heat radiation structure is used fully; more PCIE interfaces are mounted on the case; the maintainability of the server is improved; the problem of poor maintainability of the server in the prior art caused due to the waste of the case space when the heat radiation structure and the PCIE component are two completely-independent modules can be solved.

Description

Server

Technical field

The utility model relates to communication technical field, relates in particular to a kind of server.

Background technology

In order to meet the various demands of user, in server, be typically provided with a plurality of Peripheral Component Interconnect standard expansion (PCIE, Peripheral Component Interconnect Express) assembly, and in PCIE assembly PCIE interface quantity number be the key index of weighing the specification of high-performance server.PCIE assembly in server of the prior art and fan structure are two completely independently modules be arranged on respectively the different places of machine box for server, cause fan structure space not below to be fully utilized, and the limited space of machine box for server, cause PCIE interface negligible amounts in PCIE assembly, cause maintainability performance poor.

Utility model content

Technical problem to be solved in the utility model is, for solving prior art, exists the problem that the space after fan structure can not be fully utilized.

To achieve these goals, the utility model embodiment provides following technical scheme:

A kind of server, comprise cabinet and card module, described cabinet is provided with accepting groove, described card module inserts in described accepting groove and comprises base plate, radiator structure, Peripheral Component Interconnect standard expansion (PCIE, Peripheral Component Interconnect Express) assembly and framework, described framework comprises antetheca, bottom and be positioned at described antetheca receiving space below, described base plate is fixed on the bottom of described framework and is provided with at least one first connector and the second connector, described radiator structure is installed on the antetheca of described framework and is electrically connected with described the first connector, described PCIE assembly is contained in described receiving space and with described the second connector and is electrically connected, described radiator structure and described PCIE assembly are become one.

In the possible embodiment of the first, described antetheca is provided with accepting hole, and described accepting hole and described receiving space are communicated with, and described radiator structure inserts in described accepting hole.

In the possible embodiment of the first, in the possible embodiment of the second, described radiator structure is provided with at least one fan frame, described fan frame is provided with the first pilot hole, described the first connector is provided with the first register pin, and described the first register pin inserts in described the first pilot hole to locate described radiator structure and described the first connector.

In the possible embodiment of the second, in the third possible embodiment, described card module also comprises grip structure, and described grip structure is installed on described radiator structure, to facilitate, installs or take out described radiator structure.

In the third possible embodiment, in the 4th kind of possible embodiment, described grip structure comprises handle, and described handle is installed on the sidewall bottom of described fan frame, for making described radiator structure separated with described the first connector.

In the 4th kind of possible embodiment, in the 5th kind of possible embodiment, described handle is provided with a pair of fixed orifice, and the described sidewall of described fan frame is convexly equipped with a pair of stationary shaft, described stationary shaft is contained in described fixed orifice, described handle pivot is connected to the sidewall of described fan frame.

In the 5th kind of possible embodiment, in the 6th kind of possible embodiment, described grip structure also comprises snap close, and described snap close is installed on the antetheca top of described fan frame, for handle described in snap close or release.

In the 7th kind of possible embodiment, described base plate also comprises the 3rd connector, described server also comprises backboard, and described backboard is provided with the 4th connector, and described the 3rd connector and described the 4th connector are in electrical contact to be electrically connected described card module and described backboard.

In the 7th kind of possible embodiment, in the 8th kind of possible embodiment, described card module also comprises wrench structure, and described wrench structure is installed on described framework, to facilitate, installs or takes out described card module.

In the 8th kind of possible embodiment, in the 9th kind of possible embodiment, described wrench structure comprises spanner, for making described the 3rd connector separated with described the 4th connector.

In the 9th kind of possible embodiment, in the tenth kind of possible embodiment, described wrench structure also comprises button, for spanner described in snap close or release.

In the 7th kind of possible embodiment, in the 11 kind of possible embodiment, described the 3rd connector is provided with the second pilot hole, described the 4th connector is provided with the second register pin, described the second register pin inserts in described the second pilot hole, to locate described the 3rd connector and described the 4th connector.

The server that the utility model provides, by being installed on to framework, radiator structure and PCIE assembly become one, radiator structure space is below fully utilized, thereby more PCIE interface can be installed on to cabinet, to improve the maintainability of server, so solved in prior art because of radiator structure and PCIE assembly be two completely independently module cause chassis space waste to cause the maintainable poor problem of server.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing of required use during embodiment is described is briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the decomposing schematic representation of the server that provides of the utility model;

Fig. 2 is the decomposing schematic representation of the card module shown in Fig. 1;

Fig. 3 is the decomposing schematic representation of the base plate shown in Fig. 2 and housing;

Fig. 4 is the decomposing schematic representation of the radiator structure shown in Fig. 2 and base plate and PCIE assembly;

Fig. 5 is the enlarged diagram of Fig. 4 circle V;

Fig. 6 is the enlarged diagram of circle VI in Fig. 4;

Fig. 7 is the schematic perspective view of the radiator structure shown in Fig. 2;

Fig. 8 is the enlarged diagram of circle VIII in Fig. 7;

Fig. 9 is the decomposed schematic diagram of the server shown in Fig. 1;

Figure 10 is the enlarged diagram of circle X in Fig. 4;

Figure 11 is the enlarged diagram of circle XI in Fig. 9;

Figure 12 is the enlarged diagram of circle XII in Fig. 2;

Figure 13 is the assembling schematic diagram of Fig. 1.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Please also refer to Fig. 1 to Fig. 3, the server 100 that the utility model provides comprises cabinet 10 and card module 20, described cabinet 10 is provided with accepting groove 12, described card module 20 inserts in described accepting groove 12 and comprises base plate 22, radiator structure 24, Peripheral Component Interconnect standard expansion (PCIE, Peripheral Component Interconnect Express) assembly 26 and framework 28, described framework 28 comprises antetheca 282, bottom 284 and be positioned at described antetheca 282 receiving space 286 below, the bottom 284 of described base plate 22 fixing described frameworks 28 is also provided with at least one first connector 222 and the second connector 224, described radiator structure 24 is installed on the antetheca 282 of described framework 28 and is electrically connected with described the first connector 222, described PCIE assembly 26 is contained in described receiving space 286 and with described the second connector 224 and is electrically connected, described radiator structure 24 and described PCIE assembly 26 are become one.

Because being all installed in framework 28, radiator structure 24 and PCIE assembly 26 become one, radiator structure 24 space is below fully utilized, thereby more PCIE interface can be installed on to cabinet 10, to improve the maintainability of server 100, so solved in prior art because of radiator structure 24 and PCIE assembly 26 be two completely independently module cause cabinet 10 spaces wastes to cause the maintainable poor problem of server 100.

In the present embodiment, described the first connector 222 is two.

In other embodiments, described the first connector 222 can be 1, three or more.

In the present embodiment, described base plate 22 is screwed the bottom 284 in framework 28.

In the present embodiment, PCIE assembly 26 is screwed in framework 28 and comprises a plurality of PCIE interfaces.

As shown in Figure 3, as further improvement of the utility model, described antetheca 282 is provided with accepting hole 281, and described accepting hole 281 and described receiving space 286 are communicated with, and described radiator structure 24 inserts in described accepting hole 281.

In the present embodiment, described radiator structure 24 is two.

In other embodiments, described radiator structure 24 can be 1, three or more, and the quantity of described radiator structure 24 equates with the quantity of the first connector 222.

Please also refer to Fig. 3 to Fig. 6, as further improvement of the utility model, described radiator structure 24 is provided with at least one fan frame 242, described fan frame 242 is provided with the first pilot hole 2420, described the first connector 222 is provided with the first register pin 2220, and described the first register pin 2220 inserts in described the first pilot hole 2420 to locate described radiator structure 24 and described the first connector 222.

Because described radiator structure 24 and the first connector 222 are by the first pilot hole 2420 and the first register pin 2220 location, make when described radiator structure 24 inserts in the accepting hole 281 of antetheca 282 of frameworks 28, position relationship between described radiator structure 24 and the first connector 222 is difficult for dislocation, and then improved the accuracy that described radiator structure 24 is installed, and saved the set-up time of described radiator structure 24.

As further improvement of the utility model, described card module 20 also comprises grip structure 21, and described grip structure 21 is installed on described radiator structure 24, to facilitate, installs or take out described radiator structure 24.

Please also refer to Fig. 3, Fig. 4 and Fig. 7, as further improvement of the utility model, described grip structure 21 comprises handle 212, described handle 212 is installed on the sidewall bottom of described fan frame 242, be used for making described radiator structure 24 separated with described the first connector 222, thereby described radiator structure 24 is taken out from described accepting hole 281.

In the present embodiment, described handle 212 is provided with a pair of fixed orifice 2121, the described sidewall of described fan frame 242 is convexly equipped with a pair of stationary shaft 2421, and described stationary shaft 2421 is contained in described fixed orifice 2121, described handle 212 is articulated in to the sidewall of described fan frame 242.

As further improvement of the utility model, described grip structure 21 also comprises snap close 214, and described snap close 214 is installed on antetheca 282 tops of described fan frame 242, for handle 212 described in snap close or release.

As shown in Fig. 3 to Fig. 7, during use, as need by as described in radiator structure 24 from accepting hole 281, take out, press snap close 214 and make handle 212 releases outside handle hand 212, make described radiator structure 24 separated with the first connector 222 of base plate 22, thereby described radiator structure 24 can be taken out from accepting hole 281 to safeguard; After described radiator structure 24 is safeguarded, as need by as described in radiator structure 24 be installed on as described in framework 28, hold the first pilot hole 2420 that handle 212 makes the first register pin 2220 insertion radiator structures 24 of the first connector 222, so that radiator structure 24 is inserted in the accepting hole 281 of framework 28 antethecas 282, make again handle 212 rotate and be locked in snap close 214 towards snap close 214, thereby radiator structure 24 is installed on to the framework 28 of cabinet 10.

Please also refer to Fig. 3 and Fig. 9, as further improvement of the utility model, described base plate 22 also comprises the 3rd connector 226, described server 100 also comprises backboard 29, described backboard 29 is provided with the 4th connector 296, and described the 3rd connector 226 and described the 4th connector 296 are in electrical contact to be electrically connected described card module 20 and described backboard 29.

Please also refer to Fig. 3, Fig. 4, Figure 10 and Figure 11, in the present embodiment, described the 3rd connector 226 is provided with the second pilot hole 2260, and described the 4th connector 296 is provided with the second register pin 2960.During installation, the second register pin 2960 inserts in the second pilot hole 2260, to locate described the 3rd connector 226 and described the 4th connector 296, thereby can prevent the dislocation between described the 3rd connector 226 and described the 4th connector 296, and prevent from causing because of Rig up error the damage of described the 3rd connector 226 and described the 4th connector 296, simultaneously also save the set-up time that card module 20 is installed on cabinet 10, improved efficiency of assembling.

Please also refer to Fig. 2 and Figure 12, as further improvement of the utility model, described card module 20 also comprises wrench structure 23, and described wrench structure 23 is installed on described framework 28, to facilitate, installs or takes out described card module 20.

In the present embodiment, described wrench structure 23 comprises spanner 232, for making described the 3rd connector 226 separated with described the 4th connector 296.

In the present embodiment, described wrench structure 23 also comprises button 234, for spanner 232 described in snap close or release.

Please also refer to Fig. 2, Fig. 3 and Fig. 9 to Figure 11, during use, as need by as described in card module 20 from as described in cabinet 10 as described in pull out accepting groove 12, pressing keys 234 makes spanner 232 releases outside spanner 232, make the 3rd connector 226 of described card module 20 and the 4th connector 296 of backboard 29 separated, thereby described card module 20 can be taken out from described accepting groove 12, and then can safeguard PCIE assembly 26.After PCIE assembly 26 is safeguarded, as card module 20 being installed on to the accepting groove 12 of cabinet 10, hold the second pilot hole 2260 that spanner 232 makes the second register pin 2960 insertion the 3rd connectors 226 of the 4th connector 296, card module 20 is installed in the accepting groove 12 of cabinet 10, make again spanner 232 snap closes in button 234, thereby card module 20 is installed on to the accepting groove 12 of cabinet 10.

Please also refer to Fig. 1 to 4 and Figure 12, during installation, base plate 22 is fixed on the bottom 284 of framework 28, radiator structure 24 is installed on the accepting hole 281 of framework 28 antethecas 282, PCIE assembly 26 is installed on from the top down the receiving space 286 of framework 28 and is screwed in framework 28, thereby base plate 22, framework 28, PCIE assembly 26 and radiator structure 24 are just installed on card module 20, then card module 20 is inserted in the accepting groove 12 of cabinet 10, thereby cabinet 10 and card module 20 are just assembled into server 100.

During use, as need are safeguarded radiator structure 24, just the also outside handle hand 212 of handle 212 of only need unblanking can make described radiator structure 24 separated with the first connector 222 of base plate 22, thereby described radiator structure 24 can be taken out from accepting hole 281 to safeguard.In other words, thereby the utility model just can will take out in radiator structure 24 frameworks 28 by outside handle hand 212, thereby can safeguard radiator structure 24, makes the maintenance of radiator structure 24 very simple and convenient.

As need are safeguarded PCIE assembly 26, only need unlocking spanner 232 and outwards spanner 232 just can make the 3rd connector 226 of card module 20 and the 4th connector 296 of backboard 29 separated, thereby described card module 20 can be taken out from the accepting groove 12 of cabinet 10 with maintenance.In other words, thereby the utility model just can take out in card module 20 cabinets 10 by outside spanner 232, thereby can safeguard PCIE assembly 26, makes the maintenance of PCIE assembly 26 very simple and convenient.Meanwhile, also make the maintenance of the PCIE interface in PCIE assembly 26 very simple and convenient.

Further, because radiator structure 24 and PCIE assembly 26 are installed as one, take full advantage of radiator structure 24 space below, take full advantage of the space of cabinet 10, thereby more PCIE interface can be packed in cabinet 10, improve the maintainability of server 100.Simultaneously, because of radiator structure 24 and a card module 20 of PCIE assembly 26 compositions, be about to radiator structure 24 and PCIE assembly 26 modularizations, make the installation module of radiator structure 24 and PCIE assembly 26, further simplified the installation procedure of radiator structure 24 and PCIE assembly 26, save the set-up time, improved installation effectiveness.

Above-described embodiment, does not form the restriction to this technical scheme protection domain.The modification of doing within any spirit at above-mentioned embodiment and principle, be equal to and replace and improvement etc., within all should being included in the protection domain of this technical scheme.

Claims (12)

1. a server, it is characterized in that: described server comprises cabinet and card module, described cabinet is provided with accepting groove, described card module inserts in described accepting groove and comprises base plate, radiator structure, Peripheral Component Interconnect standard expansion (PCIE, Peripheral Component Interconnect Express) assembly and framework, described framework comprises antetheca, bottom and be positioned at described antetheca receiving space below, described base plate is fixed on the bottom of described framework and is provided with at least one first connector and the second connector, described radiator structure is installed on the antetheca of described framework and is electrically connected with described the first connector, described PCIE assembly is contained in described receiving space and with described the second connector and is electrically connected, described radiator structure and described PCIE assembly are become one.

2. server as claimed in claim 1, is characterized in that, described antetheca is provided with accepting hole, and described accepting hole and described receiving space are communicated with, and described radiator structure inserts in described accepting hole.

3. server as claimed in claim 2, it is characterized in that, described radiator structure is provided with at least one fan frame, described fan frame is provided with the first pilot hole, described the first connector is provided with the first register pin, and described the first register pin inserts in described the first pilot hole to locate described radiator structure and described the first connector.

4. server as claimed in claim 3, is characterized in that, described card module also comprises grip structure, and described grip structure is installed on described radiator structure, to facilitate, installs or take out described radiator structure.

5. server as claimed in claim 4, is characterized in that, described grip structure comprises handle, and described handle is installed on the sidewall bottom of described fan frame, for making described radiator structure separated with described the first connector.

6. server as claimed in claim 5, is characterized in that, described handle is provided with a pair of fixed orifice, and the described sidewall of described fan frame is convexly equipped with a pair of stationary shaft, and described stationary shaft is contained in described fixed orifice, described handle pivot is connected to the sidewall of described fan frame.

7. server as claimed in claim 5, is characterized in that, described grip structure also comprises snap close, and described snap close is installed on the antetheca top of described fan frame, for handle described in snap close or release.

8. server as claimed in claim 1, it is characterized in that, described base plate also comprises the 3rd connector, and described server also comprises backboard, described backboard is provided with the 4th connector, and described the 3rd connector and described the 4th connector are in electrical contact to be electrically connected described card module and described backboard.

9. server as claimed in claim 8, is characterized in that, described card module also comprises wrench structure, and described wrench structure is installed on described framework, to facilitate, installs or takes out described card module.

10. server as claimed in claim 9, is characterized in that, described wrench structure comprises spanner, for making described the 3rd connector separated with described the 4th connector.

11. servers as claimed in claim 10, is characterized in that, described wrench structure also comprises button, for spanner described in snap close or release.

12. servers as claimed in claim 8, it is characterized in that, described the 3rd connector is provided with the second pilot hole, and described the 4th connector is provided with the second register pin, described the second register pin inserts in described the second pilot hole, to locate described the 3rd connector and described the 4th connector.

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