CN103176574A - Server - Google Patents

Abstract

A server comprises a machine case, an air extractor, a rotary frame and a separating sheet. The air extractor is arranged on the machine case, the rotary frame which can rotate relative to the machine case is arranged on the machine case and on an exhaust port, and the separating sheet is arranged on the rotary frame in a pivot mode. When the air exactor operates, generated gas blows to the separating sheet, and the separating sheet is enabled to bear gravity influence and rotate relative to the rotary frame in a pivot mode to be exposed out of the exhaust port. In addition, the rotary frame is provided with an adhering piece, and the adhering piece is enabled to be dragged by gravity and rotate the rotary frame when the machine case inclines.

Description

Server

Technical field

The present invention relates to a kind of server, particularly a kind of server be used to preventing air return.

Background technology

In general, electronic installation comprises desk-top computer, notebook, flat computer, personal digital assistant (Personal digital assistant, PDA) or server, each electronic installation respectively has a safe working temperature higher limit that is fit to.When the existing temperature of electronic installation exceeded the safe working temperature higher limit, electronic installation just might produce non-response destruction, damaged as deadlock, intraware, more even can cause fire.Therefore, electronic installation can be turned round under the environment lower than the safe working temperature higher limit for each electronic installation heat abstractor of all having arranged in pairs or groups, and then extend the mission life of electronic installation.

With server, in order to allow server have excellent usefulness performance, server inside often arranges many group electronic-circuit devices.Yet, fill in more electronic-circuit devices in the server narrow space, the temperature that causes server to be produced in the running is higher.Therefore, a side of server has many groups side by side radiator fans mutually usually, and the heat energy of server inside can be discharged outside server through radiator fan is arranged, and turns round under the environment of safe working temperature to keep server.At this moment, if whole radiator fans is all damaged, server ought to be stopped preventing that the high temperature of electronic-circuit device from causing server to crash.If but only having the radiator fan damage of part, the wind-force that still can be only produces by the residue fan running takes away server with the heat of electronic-circuit device.But, because of the fan damage, the ventilating opening of fan of damage is an open space and to be communicated with casing inner outside with casing, because gas can be walked shortest path, and gas is flow to the path of ventilating opening of fans in operation by the ventilating opening of damage fan shorter than the path of ventilating opening that is flow to fans in operation by air entry, therefore the cold air in the server external world can enter server by the ventilating opening of the fan of damaging, and directly again the cold air in the external world is detached outside server by the fan of running.Thus, extraneous cold air can't be through the electronic-circuit device of high temperature.Therefore, even if the radiator fan of part remains in operation, the situation of server cooling can not take a turn for the better yet, and can allow equally server produce heat and crash.So how to design when there being fan not allow cool ambient air directly enter and to be one of primary problem that solves of designer by the ventilating opening of damage fan.

Summary of the invention

In view of above problem, the object of the present invention is to provide a kind of server, use the problem that the existing cool ambient air of prior art can directly enter from the ventilating opening of damaging fan that solves.

Server disclosed according to one embodiment of the invention, it comprises a casing, one first air extractor, one first swivel mount and at least one the first catch.Wherein, casing has at least one air entry and a first row gas port.The first air extractor is arranged at the inboard of casing, and is positioned at the first row gas port.The first swivel mount is arranged at the first row gas port outside of casing in the mode of casing rotation relatively, and the turning axle of the first swivel mount and first row gas port are towards same direction, the first swivel mount has one first attachment, when casing tilted, the weight of the first attachment was to make the first attachment affect the first swivel mount to rotate relative to casing.The first catch is articulated in the first swivel mount, and be positioned at the first row gas port, when the first air extractor running, produce a gas and entered by air entry, and discharged by the first row gas port, the gas that the first air extractor produces blows the first catch, make the first catch with respect to the casing pivotable, to expose the first row gas port, when the first air extractor shuts down, the first catch is because stopping being subjected to gas push and being subjected to gravity traction with respect to the casing pivotable, to cover the first row gas port.

Server disclosed according to above-described embodiment, that the first catch is hubbed at the position on the casing of the first exhaust ports, when having gas flow to cross the first row gas port, the first catch can be blown and resist by gas gravity effect, so with respect to the casing pivotable to expose the first row gas port.When air extractor shut down or damages, gas stopped flowing through the first row gas port, thus the first catch because of stop being subjected to gas push and be subjected to gravity traction with respect to the casing pivotable to cover the first row gas port.At this moment, the first catch can prevent that cool ambient air from flowing into server from the first row gas port, cool ambient air can be flowed into from air entry, and cold air is by electronic-circuit device and carry out becoming hot-air after heat interchange, and hot-air is discharged server from the second row gas port again.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Description of drawings

Fig. 1 is for disclosing the schematic perspective view of the server of the first embodiment according to the present invention;

Fig. 2 is the preliminary decomposing schematic representation of Fig. 1;

Fig. 3 A is the decomposing schematic representation of the first framework, the first swivel mount and the first washer of Fig. 1;

3 figure B are the cross-sectional schematic of the first framework, the first swivel mount and the first washer of Fig. 1;

Fig. 3 C is the cross-sectional schematic of the second framework, the second swivel mount and the second washer of Fig. 1;

Fig. 4 is the schematic perspective view of the gas flow paths of Fig. 1;

Fig. 5 is the schematic perspective view of the gas flow of Fig. 1;

Fig. 6 is the schematic perspective view that the server of Fig. 1 is vertically put;

Fig. 7 is the schematic perspective view that the server of Fig. 1 is laterally put;

Fig. 8 is for disclosing the schematic perspective view of the server of the second embodiment according to the present invention.

Wherein, Reference numeral

10 servers

100 casings

110 air entries

120 first row gas ports

130 second row gas ports

140 ventilation mouths

150 bodies

160 first frameworks

161 first chutes

170 second frameworks

171 second chutes

200 electronic-circuit devices

300 first air extractors

400 second air extractors

500 first swivel mounts

510 first attachments

520 first ventilating openings

530 first lug bosses

600 second swivel mounts

610 second attachments

620 second ventilating openings

630 second lug bosses

700 first catch

710 blades

720 pivots

800 second catch

Embodiment

Below in conjunction with accompanying drawing, structural principle of the present invention and principle of work are done concrete description:

Please consult simultaneously Fig. 1 to Fig. 4, Fig. 1 is for disclosing the schematic perspective view of the server of the first embodiment according to the present invention, Fig. 2 is the preliminary decomposing schematic representation of Fig. 1, Fig. 3 A is the decomposing schematic representation of the first framework, the first swivel mount and the first washer of Fig. 1, Fig. 3 B is the cross-sectional schematic of the first framework, the first swivel mount and the first washer of Fig. 1, Fig. 3 C is the cross-sectional schematic of the second framework, the second swivel mount and the second washer of Fig. 1, and Fig. 4 is the schematic perspective view of the gas flow paths of Fig. 1.

The server 10 of the present embodiment comprises a casing 100, one first air extractor 300, one second air extractor 400, one first swivel mount 500, one second swivel mount 600, at least one the first catch 700 and at least one the second catch 800.Wherein, casing 100 comprises a body 150, one first framework 160 and one second framework 170.Body 150 has a plurality of air entries 110, a first row gas port 120 and a second row gas port 130, and air entry 110, first row gas port 120 and 130 of second row gas ports form a gas flow paths a.First row gas port 120 has respectively a plurality of ventilation mouths 140 with second row gas port 130.The first framework 160 has one first chute 161, the second frameworks 170 and has one second chute 171.Wherein, the server 10 in the present embodiment is to be provided with two air extractors, but the quantity of the air extractor of the present embodiment is not to limit the present invention, and the quantity of air extractor is for example three or eight in other embodiment.

Wherein the external form of air entry 110 and ventilation mouth 140 is for example the assembling gap between all parts of a perforate or casing 100.

Wherein, casing 100 internal configurations have an electronic-circuit device 200, electronic-circuit device 200 general reference mainboard, adapter and power supply units etc.Electronic-circuit device 200 is arranged at 130 of air entry 110 and first row gas port 120 or second row gas ports, and is positioned on gas flow paths a.

The first air extractor 300 and the second air extractor 400 are arranged in casing 100, and the first air extractor 300 is positioned at first row gas port 120 and the second air extractor 400 is positioned at second row gas port 130.

The first swivel mount 500 and the second swivel mount 600 respectively with can relative the first framework 160 and the relation of the second framework 170 rotations be arranged on the first framework 160 and the second framework 170.And the first swivel mount 500 has one first ventilating opening 520 and the second swivel mount 600 has one second ventilating opening 620.The edge ring of first swivel mount 500 of the present embodiment is provided with a plurality of the first lug bosses 530, and these first lug bosses 530 embed the first chute 161, and the first lug boss 530 can be slided along the track of the first chute 161.Wherein, during relative the first framework 161 rotation of the first swivel mount 500, the turning axle of the first swivel mount 500 and first row gas port 120 make the first swivel mount 500 remain in same plane, and the centre of form of the first ventilating opening 520 remain in same position towards same direction.Meaning namely refers to, the first swivel mount 500 is take the centre of form of the first ventilating opening 520 as rotation center and relative the first framework 160 rotations.Wherein, the second swivel mount 600 also has a plurality of the second lug bosses 630, and is arranged at the rotation relationship identical with the first swivel mount 500 on the second chute 171 of the second framework 170.Wherein, in the present embodiment, the quantity of the first lug boss 530 and the second lug boss 630 is 3, but not as limit, can change according to actual demand during enforcement, is for example 5 or 10.

The first swivel mount 500 of the present embodiment and other embodiment has one first attachment 510, the first attachments 510 and is arranged at the place, below that the first swivel mount 500 is positioned at the first catch 700.The material of the first attachment 510 can be the weights such as wooden unit, iron block or copper billet, makes the weight of the first attachment 510 be enough to make the first attachment 510 to affect the first swivel mount 500 to rotate relative to casing 100.The second swivel mount 600 has one second attachment 610 equally, and all the other structures are similar to the first swivel mount 500, therefore repeat no more.

The first catch 700 has a blade 710 and is positioned at the pivot 720 of a side of blade 710, and the first catch 700 can be integrated structure or structure as shown in Figure 3A.Wherein, the two ends of pivot 720 are hubbed at the surface that the first swivel mount 500 forms the first ventilating opening 520, make blade 710 take pivot 720 as relative the first swivel mount 500 pivotables in pivotable center.In other words, the first catch 700 can relative the first swivel mount 500 pivotables.The structure of the second catch 800 is similar to the first catch 700, therefore repeat no more.

Next, describe when server 10 has a wherein air extractor inefficacy, how the mobility status of gas can change.See also Fig. 4 and Fig. 5, Fig. 5 is the schematic perspective view of the gas flow of Fig. 1.At first as shown in Figure 4, the first air extractor 300 and the second air extractor 400 all turn round, gas flows into server 10 by air entry 110, and flow through electronic-circuit device 200 along gas flow paths a, at this moment, the cold air that is sucked by air entry 110 can carry out heat interchange and become hot-air with electronic-circuit device 200, then discharges server 10 by first row gas port 120 and second row gas port 130 respectively.In other embodiment of the present embodiment and part, hot blast can promote respectively the first catch 700 and the second catch 800 when exhausr port, make the first catch 700 and the second catch 800 opposing gravity effects and with respect to casing 100 pivotables to expose first row gas port 120 and second row gas port 130.Then, if the first air extractor 300 is damaged and changed gas flow paths a, the first air extractor 300 can stop guiding gas to discharge from first row gas port 120, and gas can be discharged from second row gas port 130 according to the second air extractor 400 guiding.Therefore, the first catch 700 because of stop being subjected to gas push and be subjected to gravity traction with respect to casing 10 pivotables to cover first row gas port 120.At this moment, because first row gas port 120 is closed by the first catch 700, flow into from first row gas port 120 to prevent gas, can allow gas be flowed into by air entry 110 totally, after passing through electronic-circuit device 200 along gas flow paths a, then discharge from second row gas port 130.

How the related swivel mount that allows rotates with casing 100 inclinations then to describe attachment, sees also Fig. 6 and Fig. 7, and Fig. 6 is the schematic perspective view that the server of Fig. 1 is vertically put, and Fig. 7 is the schematic perspective view that the server of Fig. 1 is laterally put.At first, server 10 is vertically put, and the first attachment 510 and the second attachment 610 are subjected to gravity traction and are positioned at server 10 bottoms.Then, when server 10 tilts along the indicated direction of arrow b, server 10 is laterally put.At this moment, the first attachment 510 and the second attachment 610 are subjected to gravity traction and move along the indicated direction of arrow c, make the first swivel mount 500 and relative the first framework 160 and the second framework 170 rotations respectively of the second swivel mount 600, allow the pivot 720 of the first catch 700 and the second catch all remain in level, and allow the blade 710 of the first catch 700 and the second catch 800 be affected by gravity and to naturally droop.

Certainly, the body 150 of casing 100, the first framework 160 and the second framework 170 also can be integrated structure, see also Fig. 8, and Fig. 8 is for disclosing the schematic perspective view of the server of the second embodiment according to the present invention.The server 10 of the second embodiment is similar to the server 10 of the first embodiment, therefore only describe for different place.

The server 10 of the present embodiment comprises a casing 100, an electronic-circuit device 200, one first air extractor 300, one second air extractor 400, one first swivel mount 500, one second swivel mount 600, at least one the first catch 700 and at least one the second catch 800.Wherein, casing 100 has a plurality of air entries 110, a first row gas port 120 and a second row gas port 130, and air entry 110, first row gas port 120 and 130 of second row gas ports form a gas flow paths a.First row gas port 120 has respectively a plurality of ventilation mouths 140 with second row gas port 130.Casing 100 is positioned at first row gas port 120 places and has one first chute 161, and casing 100 is positioned at second row gas port 130 places and has one second chute 171.Wherein, the server 10 in the present embodiment is to be provided with two air extractors, can change according to actual demand during enforcement, as three or eight.

The first air extractor 300 and the second air extractor 400 are arranged in casing 100, and the first air extractor 300 is positioned at first row gas port 120 and the second air extractor 400 is positioned at second row gas port 130.

The first swivel mount 500 and the second swivel mount 600 are arranged at outside casing 100 with relation that can relative casing 100 rotations respectively, and are positioned at first row gas port 120 and second row gas port 130.And the first swivel mount 500 has one first ventilating opening 520 and the second swivel mount 600 has one second ventilating opening 620.Specifically, the edge ring of the first swivel mount 500 is provided with a plurality of the first lug bosses 530, and these first lug bosses 530 embed the first chute 161, and the first lug boss 530 can be slided along the track of the first chute 161.Wherein, during the first relative casing of swivel mount 500 100 rotation, the turning axle of the first swivel mount 500 and first row gas port 120 make the first swivel mount 500 remain in same plane towards same direction, and the centre of form place of the first ventilating opening 520 remains in same position.Meaning namely refers to, the first swivel mount 500 is take the centre of form of the first ventilating opening 520 as rotation center and casing 100 rotations relatively.Wherein, the second swivel mount 600 also has a plurality of the second lug bosses 630, and is arranged at the rotation relationship identical with the first swivel mount 500 on the second chute 171 of casing 100.Wherein, in the present embodiment, the quantity of the first lug boss 530 and the second lug boss 630 is 3, but not as limit, can change according to actual demand during enforcement, is for example 5 or 10.

The disclosed server according to the present invention, that the first catch is hubbed at the position on the casing of the first exhaust ports, when having gas flow to cross the first row gas port, the first catch can be blown and resist by gas gravity effect, so with respect to the casing pivotable to expose the first row gas port.When air extractor shut down or damages, gas stopped flowing through the first row gas port, thus the first catch because of stop being subjected to gas push and be subjected to gravity traction with respect to the casing pivotable to cover the first row gas port.At this moment, the first catch can prevent that cool ambient air from flowing into server from the first row gas port, cool ambient air can be flowed into from air entry, and cold air is by electronic-circuit device and carry out becoming hot-air after heat interchange, and hot-air is discharged server from the second row gas port again.

Certainly; the present invention also can have other various embodiments; in the situation that do not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims (8)

1. a server, is characterized in that, comprising:

One casing has at least one air entry and a first row gas port;

One first air extractor is arranged at the inboard of this casing, and is positioned at this first row gas port;

One first swivel mount, be arranged at this first row gas port outside of this casing in the mode of relatively this casing rotation, and the turning axle of this first swivel mount and this first row gas port are towards same direction, this first swivel mount has one first attachment, when this casing tilted, the weight of this first attachment made this first attachment affect this first swivel mount to rotate relative to this casing; And

At least one the first catch, be articulated in this first swivel mount, and be positioned at this first row gas port, when this first air extractor running, producing a gas is entered by this air entry, and discharged by this first row gas port, this gas that this first air extractor produces blows this first catch, make this first catch with respect to this casing pivotable, to expose this first row gas port, when this first air extractor shut down, this first catch was because stopping being subjected to this gas push and being subjected to gravity traction with respect to this casing pivotable, to cover this first row gas port.

2. server according to claim 1, it is characterized in that, this casing comprises a body and one first framework, this first row gas port is equipped on this body, this first framework is arranged at this body and is positioned at this first row gas port, this first swivel mount is arranged at this first framework in the mode of this first framework rotation relatively, and this first catch is articulated in this first swivel mount.

3. server according to claim 2, it is characterized in that, the pivot that this first catch comprises a blade and is positioned at the side of this blade, this first swivel mount comprises one first ventilating opening, the two ends of this pivot are hubbed at the surface of this first ventilating opening of formation of this first swivel mount.

4. server according to claim 2, it is characterized in that, the side of this first swivel mount has a plurality of lug bosses, this first framework has one first chute, these a plurality of lug bosses are sticked in respectively this first chute, and this first swivel mount can be rotated by relative this first framework on the plane of this first framework.

5. server according to claim 2, it is characterized in that, also comprise one second air extractor, one second swivel mount and at least one the second catch, this casing also comprises one second framework, this body also comprises a second row gas port, this second framework is arranged at this body and is positioned at this second row gas port, this second swivel mount is arranged at this second framework in the mode of this second framework rotation relatively, this second catch is articulated in respectively this second swivel mount, when the running of this second air extractor and this first air extractor when shutting down, this first catch because of stop being subjected to this gas push and be subjected to gravity traction with respect to this casing pivotable to cover this first row gas port, this gas that this second air extractor produces blows this second catch, make this second catch opposing gravity effect and with respect to this casing pivotable to expose this second row gas port.

6. server according to claim 5, it is characterized in that, the pivot that this second catch comprises a blade and is positioned at the side of this blade, this second swivel mount comprises one second ventilating opening, the two ends of this pivot are hubbed at the surface of this second ventilating opening of formation of this second swivel mount.

7. server according to claim 5, is characterized in that, this first row gas port and this second row gas port have a plurality of bleeder vents.

8. server according to claim 1, is characterized in that, this first air extractor and one second air extractor are a fan assembly.

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