CN104317368A - Server - Google Patents

Abstract

The invention provides a server. The server comprises a shell, wherein a partition plate is arranged in the shell; the shell is divided into at least two partitions, which are isolated mutually, by the partition plate; a calculation type component and an input and output type component are arranged in the shell and are positioned at different partitions in at least two partitions respectively; the shell is provided with an air inlet facing towards each partition; an air outlet passage which is communicated with each partition respectively is arranged on one side, away from the air inlet, of the shell and is provided with extraction equipment. The server has the beneficial effects that the space in the shell of the server is divided into a plurality of mutually isolated partitions by using the partition plate, the calculation type component and the input and output type component are arranged in different partitions respectively, the air outlet passage which is independently communicated with each partition is arranged so that the resistance of air during flowing in the shell is effectively improved, the extraction equipment can work at lower power and the noise of the server is reduced.

Description

A kind of server

Technical field

The present invention relates to the technical field of server, refer more particularly to a kind of server.

Background technology

Current No. 8 rack-mount servers adopt the framework of computing node (main devices comprises CPU and internal memory) and PCIe card cascade arrangement mostly, because a lot of PCIe card faceplate does not have perforate, can only be ventilated by the cabinet wall perforate between PCIe card, cause SR larger, and the device of quite a few PCIe card is using environment temperature as criterion, by the impact of anterior high power consumption calculation node, the temperature of incoming flow of PCIe card is higher, in order to overcome PCIe high-drag, and the problem of high temperature of incoming flow, the high performance fan of large scale is used in prior art, improve pressure head, increase systematic air flow, but along with fan performance is higher, noise is also larger, high performance fans is used to cause noise problem, as shown in Figure 1, fan 2 is adopted to be placed on after cabinet 1 in cabinet 1, PCIe card 3 is placed on below fan 2, the heat radiation of the PCIe card 3 of said structure is more difficult, supportive poor to PCIe cards 3 such as the GPU of large power consumption, and there is fan 2 speed governing difficulty, the problem that noise is higher.

Summary of the invention

The invention provides a kind of server, in order to realize the radiating effect of server and to reduce its noise.

First aspect, provide a kind of server, this server comprises: housing, dividing plate is provided with in described housing, described housing is divided at least two mutually isolated subregions by described dividing plate, be provided with compute classes parts and input and output base part in housing, and described compute classes parts and input and output base part lay respectively at described in subregion different at least two subregions; Wherein,

Described housing is provided with towards the air inlet of each subregion, the side that described housing deviates from described air inlet is provided with the air-out passage be communicated with respectively with each subregion, and described air-out passage is provided with at least one exhaust equipment for being extracted out by the air in subregion.

In conjunction with above-mentioned first aspect, in the implementation that the first is possible, the number of described subregion is two, be respectively the first subregion and the second subregion, and be provided with the first partition panel in described second subregion, described second subregion is divided into the first rest area and the second rest area by described first partition panel, and described first partition panel is provided with the first air vent of connection first rest area and the second rest area.

In conjunction with the first possible implementation of above-mentioned first aspect, in the implementation that the second is possible, the second partition panel is also provided with in described second subregion, described first partition panel is arranged between described dividing plate and described second partition panel, form bottom ventilation road 70 between described second partition panel and the base plate of described housing, and described second partition panel is provided with the second air vent that multiple and described second rest area is communicated with.

In conjunction with the implementation that the second of above-mentioned first aspect is possible, in the implementation that the third is possible, the number of described second air vent is two, and the center line of two the second air vents lays respectively at the middle part of described second rest area and described second rest area one end away from the enterprising air port of described housing.

In conjunction with the third possible implementation of above-mentioned first aspect, in the 4th kind of possible implementation, the 3rd partition panel is provided with in described second rest area, described 3rd partition panel is connected with described dividing plate and housing, and described 3rd partition panel is provided with the 3rd air vent be communicated with described air-out passage.

In conjunction with the 4th kind of possible implementation of above-mentioned first aspect, in the 5th kind of possible implementation, described air intake passage is provided with the 4th air vent be communicated with described second subregion, the setting position of described 3rd air vent and described 4th air vent is staggered.

In conjunction with the 5th kind of possible implementation of above-mentioned first aspect, in the 6th kind of possible implementation, the first tellite and the second tellite is also provided with in described housing, wherein, described dividing plate comprises the first demarcation strip, second demarcation strip and being arranged between described first dividing plate and described air-duct clapboard and the first tellite be connected with described first demarcation strip and the second demarcation strip respectively, and described first tellite extends in described second subregion, the part that described first tellite is positioned at described second subregion forms described first partition panel, described first air vent arranges the part that described first tellite is positioned at described second subregion, the second tellite that described second partition panel comprises lattice baffle plate and is connected with described lattice baffle plate, described second air vent is arranged on described second tellite.

In conjunction with above-mentioned first aspect, the first possibility implementation of first aspect, the second possibility implementation of first aspect, the third possibility implementation of first aspect, 4th kind of possibility implementation of first aspect, that possibility implementation of first aspect, 6th kind of possibility implementation of first aspect, in the 7th kind of possible implementation, also comprise the air-duct clapboard be arranged in described air-out passage, described air-out passage is divided into the subchannel that be communicated with corresponding to each subregion by described air-duct clapboard, and be provided with exhaust equipment in each subchannel.

In conjunction with the 7th kind of possible implementation of above-mentioned first aspect, in the 8th kind of possible implementation, also comprise:

To be arranged in each subregion and temperature-detecting device for detecting this zone temperature;

Control device, be connected with each temperature-detecting device and exhaust equipment respectively, and the corresponding relation of the temperature threshold of the temperature detected according to each temperature-detecting device and setting, control the exhaust equipment work in subchannel that this temperature-detecting device place subregion is communicated with.

In conjunction with the 8th kind of possible implementation of above-mentioned first aspect, in the 9th kind of possible implementation, stating compute classes parts is RAM (random access memory) card and/or processor, and described input and output base part is: hard disk, disk array or PCIe card.

In conjunction with the 9th kind of possible implementation of above-mentioned first aspect, in the tenth kind of possible implementation, described exhaust equipment is fan.

According to the server that first aspect provides, by using dividing plate that the compartition in the housing of server is become mutually isolated multiple subregions, compute classes parts and input and output device are separately positioned in different subregions; And the air-out passage be communicated with separately with each subregion is set, by the exhaust equipment be arranged in air-out passage, exhausting is carried out to above-mentioned subregion, make the parts in each subregion can touch the lower air of temperature, improve the effect of heat interchange, improve its radiating effect, and owing to adopting independent air-out passage, air can be unobstructed flow out in housing, the resistance be subject to is less, and exhaust equipment can carry out work with lower power, reduces the noise of server.

Accompanying drawing explanation

The stereographic map of the server that Fig. 1 provides for the embodiment of the present invention;

The structural representation of the server that Fig. 2 provides for the embodiment of the present invention;

The another kind of structural representation of the server that Fig. 3 provides for the embodiment of the present invention;

The another kind of structural representation of the server that Fig. 4 provides for the embodiment of the present invention;

The another kind of structural representation of the server that Fig. 5 provides for the embodiment of the present invention.

Reference numeral:

1-cabinet 2-fan 3-PCIe card

10-housing 11-dividing plate 111-the 4th air vent

112-first demarcation strip 113-second demarcation strip 12-first partition panel

121-first air vent 13-second partition panel 131-second air vent

132-lattice baffle plate 14-the 3rd partition panel 141-the 3rd air vent

15-air-duct clapboard 20-first subregion 30-second subregion

31-first rest area 32-second rest area 40-air-out passage

41-exhaust equipment 50-compute classes parts 60-input and output base part

70-bottom ventilation road 80-first tellite 90-second tellite

Embodiment

In order to improve radiating effect and the noise effect of server, embodiments provide a kind of server, in the inventive solutions, by housing being divided into two mutually isolated subregions, and be provided with special air-out passage, in air-out passage, be provided with exhaust equipment the electric elements in two subregions are lowered the temperature, thus improve the air channel layout in server, improve the radiating effect of server, reduce the noise of server simultaneously.For making the object, technical solutions and advantages of the present invention clearly, for nonrestrictive embodiment, the present invention is described in further detail below.

As shown in Figure 2, Fig. 2 shows a kind of structural representation of the server that the embodiment of the present invention provides.

Embodiments provide a kind of server, this server comprises: housing 10, dividing plate 11 is provided with in housing 10, housing 10 is divided at least two mutually isolated subregions by dividing plate 11, be provided with compute classes parts 50 and input and output base part 60 in housing 10, and described compute classes parts 50 and input and output base part 60 lay respectively at described in subregion different at least two subregions; Wherein,

Housing 10 is provided with towards the air inlet of each subregion, the side that housing 10 deviates from air inlet is provided with the air-out passage 40 be communicated with respectively with each subregion, and air-out passage 40 is provided with at least one exhaust equipment 41 for being extracted out by the air in subregion.

In the above-described embodiments, mutually isolated different space will be divided in housing 10 by adopting dividing plate 11, compute classes parts 50 and input and output base part 60 are separately positioned in different subregions, and both sides relative on this housing 10 are provided with air inlet and air-out passage 40 respectively, by the exhaust equipment 41 be arranged in air-out passage 40, the air in server is extracted out.When its specific works, cold air enters in each subregion from air inlet, and be drawn out of through after whole subregion under the effect of exhaust equipment 41, in whole process, due to due to compute classes parts 50 and input and output base part 60 are split in different subregions, cold air is each passed through the subregion placing compute classes parts 50 and input and output base part 60 in housing, make the compute classes parts 50 dispelling the heat higher can accept the lower outside air of temperature, when carrying out heat interchange, both temperature difference are larger, heat interchange is obvious, contribute to the heat radiation of compute classes parts 50, thus improve the radiating efficiency of server, simultaneously, air after heat interchange directly flows out to housing 10 from air-out passage 40, owing to being provided with special air-out passage 40, input base part 60 is exported without the need to passing by the air that exhaust equipment 41 is extracted out, the resistance be subject to is less, reduce the resistance that hot-air flows out, exhaust equipment 41 can realize exhausting with lower power, reduce the noise of exhaust equipment 41.

Fan can be adopted for exhaust equipment 41 wherein.

Conveniently to the understanding of above-described embodiment, with specific embodiment, technical scheme of the present invention is described below.

Embodiment 1

As shown in Figure 3, in the structure of the server shown in Fig. 3, the number of subregion is two, be respectively the first subregion 20 and the second subregion 30, and be provided with the first partition panel 12 in the second subregion 30, second subregion 30 is divided into the first rest area 31 and the second rest area 32 by the first partition panel 12, and the first partition panel 12 is provided with the first air vent 121 of connection first rest area 31 and the second rest area 32.In addition, the number of air-out passage 40 one, the number of this exhaust equipment 41 is also one, is arranged in above-mentioned air-out passage 40; In the first subregion 20 wherein, placing component is the parts placed in compute classes parts 50, second subregion 30 is input and output base part 60.Concrete, compute classes parts 50 are RAM (random access memory) card or processor; Input and output base part 60 is hard disk, disk array or PCIe card.

The heat operationally produced due to processor is higher, and the gap of PCIe card and housing 10 junction is less, in order to avoid PCIe impact card to the circulation of gas, therefore, both are placed on respectively the first subregion 20 and the second subregion 30, when exhaust equipment 41 carries out work, extraneous air enters to be entered into respectively in the first subregion 20 and the second subregion 30 by air inlet lowers the temperature to processor and PCIe card, heat interchange between air and radiating element is comparatively large, thus makes exhaust equipment 41 can be able to realize dispelling the heat to processor with lower power.Meanwhile, when arranging PCIe card, hard disk and disk array are placed in the first rest area 31, PCIe card is placed in the second rest area 32, when outside air enters in the second subregion 30, first hard disk, disk array are lowered the temperature, afterwards PCIe card is lowered the temperature.By adopting such subregion to arrange, facilitating the setting of hard disk, disk array and PCIe card, reasonably can utilize the space in housing 10.

Embodiment 2

Continue with reference to figure 3, the structure of the present embodiment and the structure of embodiment 1 similar, its distinguish structure be, in the second subregion 30, set up the second partition panel 13; Concrete, the second partition panel 13 is also provided with in second subregion 30, first partition panel 12 is arranged between dividing plate 11 and the second partition panel 13, form bottom ventilation road 70 between second partition panel 13 and the base plate of housing 10, and the second partition panel 13 is provided with multiple the second air vent 131 be communicated with the second rest area 32.

In the present embodiment, because PCIe card is arranged on the one end near exhaust equipment 41, and exhaust equipment 41 is arranged on the top of PCIe card, when exhaust equipment 41 works, the air of flowing possibly cannot blow on whole PCIe card (as shown in Figure 2), in order to improve the radiating effect of PCIe card, embodiment adds the second partition panel 13, bottom ventilation road 70 is formed with housing 10 by the second partition panel 13, and the second partition panel 13 is provided with multiple second air vent 131, bottom ventilation road 70 is communicated with the second rest area 32.During its specific works, under the effect of exhaust equipment 41, portion of air flows in bottom ventilation road 70, and directly entered in the second rest area 32 by the second air vent 131 PCIe card is lowered the temperature, simultaneously, air can be made can to blow to the diverse location of PCIe card by the setting position of change second air vent 131, more effectively reduce the temperature of PCIe card.Concrete, continue with reference to figure 3, the number of the second air vent 131 is two, and the center line of two the second air vents 131 lays respectively at the middle part of the second rest area 32 and the second rest area 32 one end away from the enterprising air port of housing 10.Can clearly find out by Fig. 3, by the second air vent 131 being separately positioned on the middle part of the second rest area 32 and effectively can improving air away from one end of the air inlet of housing 10 and blow to effect on whole PCIe card, when lowering the temperature, air can blow on whole PCIe card, avoid part PCIe card blown less than, thus cause PCIe card portion temperature higher.Its effect is contrasted can clearly be found out by Fig. 2 and Fig. 3, and when adopting bottom ventilation road 70, the area of the PCIe card covered during air flowing significantly increases, and effectively improves the cooling of PCIe, improves its radiating effect.

Embodiment 3

As shown in Figure 4, the structure of the present embodiment and the structure of embodiment 3 similar, its difference structure is, the 3rd partition panel 14 is provided with in the second rest area 32,3rd partition panel 14 is connected with dividing plate 11 and housing 10, and the 3rd partition panel 14 is provided with the 3rd air vent 141 be communicated with air-out passage 40;

The 3rd partition panel 14 set up in the second rest area 32 effectively can improve the current intelligence of air in the second rest area 32, when specifically arranging, the air circulation situation in the second rest area 32 can be improved by change the 3rd air vent 141 be arranged on the 3rd partition panel 14.Thus air can more be lowered the temperature to PCIe card.Preferably: setting position air intake passage being provided with the 4th air vent the 111, three air vent 141 and the 4th air vent 111 be communicated with the second subregion 30 is staggered.As seen from Figure 4, wherein the setting position of the 4th air vent 111 and the horizontal range of exhaust equipment 41 are greater than the setting position of the 3rd air vent 141 and the horizontal range of exhaust equipment 41, thus make air when circulating, the effect of individual bending is had at two disposed at air vents, make the air being positioned at the second rest area 32 more can blow to PCIe card one end away from air inlet, effectively improve the radiating effect of PCIe card.

Embodiment 4

As shown in Figure 5, in the structure of the server provided in the present embodiment, be arranged on the device in housing 10 to occur as the part of dividing plate 11, concrete, the first tellite 80 and the second tellite 90 is also provided with in housing 10, wherein, dividing plate 11 comprises the first demarcation strip 112, second demarcation strip 113 and being arranged between the first dividing plate 11 and air-duct clapboard 15 and the first tellite 80 be connected with the first demarcation strip 112 and the second demarcation strip 113 respectively, and the first tellite 80 extends in the second subregion 30, the part that first tellite 80 is positioned at the second subregion 30 forms the first partition panel 12, first air vent 121 arranges the part that the first tellite 80 is positioned at the second subregion 30, the second tellite 90, second air vent 131 that second partition panel 13 comprises lattice baffle plate 132 and dative baffle plate 132 connection is arranged on the second tellite 90.

In the above-described embodiments, by arrange the first tellite 80 and the second tellite 90 occur respectively as partitioned organization in whole housing 10, which effectively reduces the dividing plate 11 of setting, reduce raw-material use, simultaneously, adopt said structure, effectively raise the space availability ratio in housing 10, the first tellite 80 of setting and the second tellite 90 can reasonably be arranged.Its effect as shown in Figure 5, in Figure 5, can clearly find out, the part-structure of the first demarcation strip 112, second demarcation strip 113 and part first tellite 80 defines dividing plate 11 and says that housing 10 divide into the first subregion 20 and the second subregion 30, wherein, first demarcation strip 112, part first tellite 80 and the second demarcation strip 113 form a bending structure, thus facilitate the setting of the first subregion 20 and the second subregion 30 inner radiator part.

Embodiment 5

In the lump with reference to figure 3, Fig. 4 and Fig. 5, the structure provided in the present embodiment is the improvement carried out air-out passage 40, in order to improve the radiating effect to radiating element, the server provided in the present embodiment is except comprising the structure of above-described embodiment 1, embodiment 2 or embodiment 3, also comprise: the air-duct clapboard 15 in described air-out passage 40, described air-out passage 40 is divided into the subchannel that be communicated with corresponding to each subregion by described air-duct clapboard 15, and is provided with exhaust equipment 41 in each subchannel.

Conveniently to the understanding of the present embodiment, the first subregion 20 and the second subregion 30 is also adopted to be described for example below.Concrete, air-out passage 40 is divided into first passage and second channel by the air-duct clapboard 15 arranged in air-out passage 40, and first passage and second channel are respectively arranged with an exhaust equipment 41.By arrange air-duct clapboard 15 by two subregions thoroughly seal isolation come, the air-conditioning requirement of the first subregion 20 can be separated with the air-conditioning requirement of the second subregion 30 completely, when specifically lowering the temperature, can require that the exhaust equipment 41 controlling its correspondence respectively carries out work by the difference of two subregions, thus effectively raise the utilization factor of exhaust equipment 41, avoid exhaust equipment 41 that two zoning requirements difference causes and must to meet the demands the draft requirements of higher subregion.And then the power of exhaust equipment 41 can be improved, reduce the noise of exhaust equipment 41.

In addition, in order to improve the automaticity of this server when lowering the temperature.The server that the present embodiment provides also comprises:

To be arranged in each subregion and temperature-detecting device for detecting this zone temperature;

Control device, be connected with each temperature-detecting device and exhaust equipment 41 respectively, and the corresponding relation of the temperature threshold of the temperature detected according to each temperature-detecting device and setting, the exhaust equipment 41 controlled in subchannel that this temperature-detecting device place subregion is communicated with works.

By the Automated condtrol that the temperature-detecting device that arranges and control device can realize exhaust equipment 41.When specific works, control device can control different exhaust equipments 41 according to specific circumstances and carry out work with different power.When the temperature rise of certain subregion is higher, the exhaust equipment 41 of this subregion can be controlled with larger power work, when the temperature rise of certain subregion is lower, the power of the exhaust equipment 41 of this subregion can be reduced.Thus effectively utilize the power of exhaust equipment 41, improve its work efficiency, and the temperature of different subregion can be controlled accurately.

Should be understood that, the server that the present embodiment provides should not be limited to above-mentioned specific embodiment 1, embodiment 2, embodiment 3, embodiment 4 and embodiment 5; Other can realize arbitrarily adopting the structure of segmentation cooling all to may be used in the present embodiment to housing 10 inner radiator part, and its principle is identical with the principle of above-described embodiment, and this is no longer going to repeat them.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (11)

1. a server, it is characterized in that, comprise: housing, dividing plate is provided with in described housing, described housing is divided at least two mutually isolated subregions by described dividing plate, be provided with compute classes parts and input and output base part in housing, and described compute classes parts and input and output base part lay respectively at described in subregion different at least two subregions; Wherein,

Described housing is provided with towards the air inlet of each subregion, the side that described housing deviates from described air inlet is provided with the air-out passage be communicated with respectively with each subregion, and described air-out passage is provided with at least one exhaust equipment for being extracted out by the air in subregion.

2. server as claimed in claim 1, it is characterized in that, the number of described subregion is two, be respectively the first subregion and the second subregion, and be provided with the first partition panel in described second subregion, described second subregion is divided into the first rest area and the second rest area by described first partition panel, and described first partition panel is provided with the first air vent of connection first rest area and the second rest area.

3. server as claimed in claim 2, it is characterized in that, the second partition panel is also provided with in described second subregion, described first partition panel is arranged between described dividing plate and described second partition panel, form bottom ventilation road between described second partition panel and the base plate of described housing, and described second partition panel is provided with the second air vent that multiple and described second rest area is communicated with.

4. server as claimed in claim 3, it is characterized in that, the number of described second air vent is two, and the center line of two the second air vents lays respectively at the middle part of described second rest area and described second rest area one end away from the enterprising air port of described housing.

5. server as claimed in claim 4, it is characterized in that, be provided with the 3rd partition panel in described second rest area, described 3rd partition panel is connected with described dividing plate and housing, and described 3rd partition panel is provided with the 3rd air vent be communicated with described air-out passage.

6. server as claimed in claim 5, it is characterized in that, described air intake passage is provided with the 4th air vent be communicated with described second subregion, the setting position of described 3rd air vent and described 4th air vent is staggered.

7. server as claimed in claim 5, it is characterized in that, the first tellite and the second tellite is also provided with in described housing, wherein, described dividing plate comprises the first demarcation strip, second demarcation strip and being arranged between described first dividing plate and described air-duct clapboard and the first tellite be connected with described first demarcation strip and the second demarcation strip respectively, and described first tellite extends in described second subregion, the part that described first tellite is positioned at described second subregion forms described first partition panel, described first air vent arranges the part that described first tellite is positioned at described second subregion, the second tellite that described second partition panel comprises lattice baffle plate and is connected with described lattice baffle plate, described second air vent is arranged on described second tellite.

8. the server as described in any one of claim 1 ~ 7, it is characterized in that, also comprise the air-duct clapboard be arranged in described air-out passage, described air-out passage is divided into the subchannel that be communicated with corresponding to each subregion by described air-duct clapboard, and is provided with exhaust equipment in each subchannel.

9. server as claimed in claim 8, is characterized in that, also comprise:

To be arranged in each subregion and temperature-detecting device for detecting this zone temperature;

Control device, be connected with each temperature-detecting device and exhaust equipment respectively, and the corresponding relation of the temperature threshold of the temperature detected according to each temperature-detecting device and setting, control the exhaust equipment work in subchannel that this temperature-detecting device place subregion is communicated with.

10. server as claimed in claim 8, it is characterized in that, described compute classes parts are RAM (random access memory) card and/or processor, and described input and output base part is: hard disk, disk array or PCIe card.

11. servers as claimed in claim 8, it is characterized in that, described exhaust equipment is fan.