CN2641694Y - Computer casing structure - Google Patents

Abstract

The utility model discloses a computer casing structure, which is applied in a server, and comprises a main rack and extraction type racks, wherein the main rack comprises first grid positions, second grid positions and an air intake channel, the first grid positions and the second grid positions are used to arrange the extraction type racks, and are separately arranged at the front end and the rear end of the main rack, and partially neighboring second grid positions are mutually connected, the air intake channel is arranged on the main rack to make the front end of the main rack connect with the second grid positions. Therefore when a fan is arranged on the extraction type racks of the second grid positions, and after the air absorbs the heat of the first grid positions and the extraction type racks are arranged on the first grid positions via the air intake channel, the air enters into the second grid positions to absorb the heat, and flows through the connected second grid positions, and then the air is emitted out of the main rack to do heat radiation, therefore the utility model can increase the residence time of the air in the interior, the air is made to absorb the heat of the interface equipment arranged on the main rack, and the heat radiation efficiency is enhanced.

Description

Computer casing structure

Technical field

The utility model relates to a kind of computer casing structure, is applied to server, especially a kind of hold-up time that increases air in inside, make the heat of interfacing equipment set in the absorption of air mainframe, and improve the computer casing structure of radiating efficiency.

Background technology

Information technology progresses rapidly now, and all trades and professions are finished many work by computing machine, and the use of computing machine becomes the indispensable instrument of society already, but not a few peoples' luxury goods; The thing followed, the product of high-order server are also more and more for popularizing.

The composition of main frame comprises motherboard, central processing unit, internal memory, display card, sound card, floppy disk, hard disk, CD-ROM drive, various adapter or the like, and these all need to be arranged in the computer housing.

Server product makes price cheap day by day because of improving of science and technology, and the user also increases day by day, but when power supply unit breaks down, just needs to finish the program in all application, and the closing server power supply just can carry out the action of repair and replacement.Yet, for the application of server, do not allow sometimes to close executory program, even close its power supply.Therefore, develop the design that hot plug (Hot-Pluggable) at present, make and just to finish to insert or to remove every peripherals at executory program and closing server power supply.

And for server being carried out apace the action of the every interfacing equipment of hot plug, mostly have the extraction-type shelf design, so that every interfacing equipment can both be placed in the extraction-type frame, and when repair and replacement, extract out from mainframe apace, and after changing interfacing equipment, insert in the mainframe again.But also, have influence on the heat radiation of server, and then cause server deadlock etc. because each set case is easy to blocks air flowing in mainframe in the mainframe.So how to make air in mainframe, be absorbed the heat of interfacing equipment set in the mainframe fully,, be considerable problem to improve radiating efficiency.

The utility model content

Fundamental purpose of the present utility model is to provide a kind of computer casing structure, increasing air in the hold-up time of inside, and makes the heat of interfacing equipment set in the absorption of air mainframe, improves radiating efficiency.

To achieve these goals, the utility model provides a kind of computer casing structure, is applied to server, and this computer casing structure comprises: a mainframe; A plurality of extraction-type frames; First case of this extraction-type frame of a plurality of placements is arranged at this mainframe front end; Second case of this extraction-type frame of a plurality of placements is arranged at this mainframe rear end, and this adjacent second case of part communicates with each other; Reach one and go into the air channel, be arranged at this mainframe, be communicated with this mainframe front end and this second case, therefore when fan being seated in this extraction-type frame of this second case, air can enter this second case and absorb heat by this mainframe front end after this be gone into the air channel and absorbs the heat of this first case and this extraction-type frame located therein, and this second case of flowing through and communicating, then be discharged from this mainframe, to dispel the heat.

Aforesaid computer casing structure, wherein, described second case comprises a plurality of diskware cases and a plurality of fan case, wherein this diskware case is located at this below, mainframe rear end, and this fan case is located at this top, mainframe rear end.

Aforesaid computer casing structure wherein, describedly respectively offers a connected holes between this diskware case.

Aforesaid computer casing structure, wherein, described this extraction-type frame that is arranged at this diskware case also offers a through hole, and this through hole is to should connected holes.

Aforesaid computer casing structure wherein, offers the hole that communicates between described diskware case and this fan case.

Aforesaid computer casing structure, wherein, described this extraction-type frame that is arranged at this fan case also offers consistent Durchgangshohle, and this runs through the hole to the hole that should communicate.

Aforesaid computer casing structure, wherein, described this extraction-type frame that is arranged at this diskware case also comprises a block piece, this block piece is arranged on the printed circuit board (PCB) that is placed on this diskware case, to increase the time of airflow through this diskware case.

Aforesaid computer casing structure, wherein, interfacing equipment is positioned in the described extraction-type frame.

The computer casing structure that the utility model provides can increase the hold-up time of air in mainframe, so that the heat of set interfacing equipment in the absorption of air mainframe, and improve radiating efficiency.

For the purpose of this utility model, structural attitude and function thereof are described better, further specify specific embodiment of the utility model below in conjunction with accompanying drawing.

Description of drawings

Fig. 1 is a front exploded view of the present utility model;

Fig. 2 is a rear exploded view of the present utility model;

When Fig. 3 is to use the utility model, the synoptic diagram of air flow.

Embodiment

As shown in Figures 1 and 2, according to computer casing structure provided by the utility model, be applied to server, mainly comprise mainframe 10 and extraction-type frame 20a, 20b, 20c, wherein mainframe 10 also comprises first case 11, second case 12 and go into air channel 13, first case 11 is arranged at mainframe 10 front ends, in order to place extraction-type frame 20a, second case 12 is arranged at mainframe 10 rear ends, in order to place extraction-type frame 20b, 20c, and second case 12 that part is adjacent communicates to each other, go into 13 in air channel and be arranged at mainframe 10, so that mainframe 10 front ends communicate with second case 12, therefore when fan 40 being positioned over the extraction-type frame 20b of second case 12, air can be by mainframe 10 front ends after going into air channel 13 and absorb first cases 11 and being arranged at its heat of extraction-type frame 20a, enter second case 12 and absorb heat, and second case 12 of flowing through and communicating then is discharged from mainframe 10, to dispel the heat.

Second case 12 can be divided into diskware case 121 and fan case 122, wherein diskware case 121 is located at below, mainframe 10 rear ends, and 121 of each diskware cases offer connected holes 1211, and the extraction-type frame 20c that is arranged at diskware case 121 also offers the through hole 21 of corresponding connected holes 1211, also have this extraction-type frame 20c also to comprise block piece 22, block piece 22 is arranged at the printed circuit board (PCB) 30 that is placed on diskware case 121, to increase the time of airflow through diskware case 121, be located at top, mainframe 10 rear ends as for 122 of fan cases, in order to place fan 40, and it offers the hole 1212 that communicates with 121 of diskware cases, so that diskware case 121 communicates with 122 of fan cases, and the extraction-type frame 20b that is arranged at fan case 122 offer also that correspondence communicates hole 1212 run through hole 23.

As Fig. 1, Fig. 2 and shown in Figure 3, when using the utility model, need make fan 40 entrys into service of the extraction-type frame 20b that is arranged at fan case 122, so that air enters mainframe 10 from going into air channel 13, this moment, air can absorb the heat of first case 11 and extraction-type frame 20a, then, the air of going into air channel 13 continues to be attracted by fan 40, and enter the extraction-type frame 20c of diskware case 121, and the block piece 22 that is extracted open frame 20c stops, and the hold-up time of air at printed circuit board (PCB) 30 that be increased, to take away the heat that printed circuit board (PCB) 30 is produced, then, air continues to be attracted by fan 40, flow through connected holes 1211 and through hole 21, and come the diskware case 121 that communicates with fan case 122, afterwards, airflow is through communicating hole 1212 and run through hole 23, and come fan case 122, to be guided to mainframe 10 outsides by fan 40, so the utility model can increase the hold-up time of air in mainframe 10, so that the heat of set interfacing equipment in the absorption of air mainframe 10, and improve radiating efficiency.

The above is preferred embodiment of the present utility model only, is not in order to limit the scope that the utility model is implemented; Those skilled in the art, the equalization of being done in territory of the present utility model changes and modifies, and all is included in the claim of the present utility model.

Claims (8)

1, a kind of computer casing structure is applied to server, it is characterized in that, this computer casing structure comprises:

One mainframe;

A plurality of extraction-type frames;

First case of this extraction-type frame of a plurality of placements is arranged at this mainframe front end;

Second case of this extraction-type frame of a plurality of placements is arranged at this mainframe rear end, and this adjacent second case of part communicates with each other; And

One goes into the air channel, is arranged in this mainframe, is communicated with this mainframe front end and this second case.

2, computer casing structure as claimed in claim 1 is characterized in that: this second case comprises a plurality of diskware cases and a plurality of fan case, and wherein this diskware case is located at this below, mainframe rear end, and this fan case is located at this top, mainframe rear end.

3, computer casing structure as claimed in claim 2 is characterized in that: this respectively offers a connected holes between this diskware case.

4, computer casing structure as claimed in claim 3 is characterized in that: this extraction-type frame that is arranged at this diskware case also offers a through hole, and this through hole is to should connected holes.

5, computer casing structure as claimed in claim 2 is characterized in that: offer the hole that communicates between this diskware case and this fan case.

6, computer casing structure as claimed in claim 5 is characterized in that: this extraction-type frame that is arranged at this fan case also offers consistent Durchgangshohle, and this runs through the hole to the hole that should communicate.

7, computer casing structure as claimed in claim 2 is characterized in that: this extraction-type frame that is arranged at this diskware case also comprises a block piece, and this block piece is arranged on the printed circuit board (PCB) that is placed on this diskware case.

8, computer casing structure as claimed in claim 1 is characterized in that, also comprises: an interfacing equipment, this interfacing equipment can be placed in this extraction-type frame.