CN208459916U - A kind of compound server radiating case - Google Patents
A kind of compound server radiating case Download PDFInfo
- Publication number
- CN208459916U CN208459916U CN201820595292.1U CN201820595292U CN208459916U CN 208459916 U CN208459916 U CN 208459916U CN 201820595292 U CN201820595292 U CN 201820595292U CN 208459916 U CN208459916 U CN 208459916U
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- China
- Prior art keywords
- heat
- cabinet
- dissipating cylinder
- air duct
- side wall
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Abstract
The utility model discloses a kind of compound server radiating casees, belong to server technology field, it solves existing server stacked on top to place, the problem of heat for causing the server of middle section to generate is difficult the fan cooling that sheds and use, and the heat sea to shed is gathered in cabinet ambient influence subsequent thermal dissipation effect.Including cabinet, air duct is equipped in the cabinet, the roof of cabinet is run through on the top in the air duct, and the top in air duct is equipped with exhaust fan;The both ends in the air duct are respectively equipped with several heat-dissipating cylinders, it is connected between the heat-dissipating cylinder and air duct by ventilation duct, heat dissipation pipe is wound in the side wall of the heat-dissipating cylinder, perforative first through hole is equipped on the side wall of heat-dissipating cylinder between heat dissipation pipe, the heat dissipation pipe in the side wall of the heat-dissipating cylinder of air duct two sides is interconnected respectively;Heat radiation rack is equipped in the heat-dissipating cylinder, the heat radiation rack is equipped with several perforative second through-holes;The side wall of the cabinet is equipped with air inlet pipe.
Description
Technical field
The utility model relates to server technology fields, and in particular to a kind of compound server radiating case.
Background technique
With the development of information technology, cloud computing and big data are gradually stepped into people's lives, Computing
The raising of processing capacity, chip calorific value are also increasing at an amazing speed.Machine box for server and general computer cabinet group
At similar, including processor, hard disk, memory, system bus etc., due to the continuous development of electronic technology at this stage, with system
And the continuous promotion of device power consumption, the calorific value of server internal device are continuously increased, heat dissipation problem becomes server and develops institute
The biggest problem faced.
Server generally can all continue working, so server can generate a large amount of heat at work, if not in time
Heat dissipation, the heat of aggregation will affect the normal work of server, influence the normal operation of enterprise, while also influence the normal of people
Work and life.
Existing server is all stacked above together, is radiated using radiator fan, and the server of middle section is caused to generate
Heat be difficult to shed, the heat gathered increase damage server risk;Meanwhile the heat that radiator fan sheds can be assembled
Around cabinet, subsequent heat dissipation effect is caused to be deteriorated.
Utility model content
It is all stacked above together to solve existing server, is radiated using radiator fan, lead to the clothes of middle section
The heat that business device generates is difficult to shed, and the heat gathered increases the risk of damage server;Meanwhile the heat that radiator fan sheds
The problem of amount can be gathered in around cabinet, and subsequent heat dissipation effect is caused to be deteriorated, the utility model provides a kind of compound service
Device heat dissipation tank.
In order to solve the above technical problems, the utility model is the following technical schemes are provided: a kind of compound server radiating case,
Including cabinet, air duct is equipped in the cabinet, the roof of cabinet is run through on the top in the air duct, and the top in air duct is equipped with exhausting
Machine;
The both ends in the air duct are respectively equipped with several heat-dissipating cylinders, are connected between the heat-dissipating cylinder and air duct by ventilation duct,
One end of the ventilation duct is arranged through air duct, and the other end of ventilation duct is arranged through the side wall of heat-dissipating cylinder, the heat-dissipating cylinder
It is wound with heat dissipation pipe in side wall, perforative first through hole, air duct two are equipped on the side wall of the heat-dissipating cylinder between heat dissipation pipe
Heat dissipation pipe in the side wall of the heat-dissipating cylinder of side is interconnected respectively;
Be equipped in the heat-dissipating cylinder heat radiation rack, the rectangular in cross-section of the heat radiation rack, and the incline of heat radiation rack respectively with dissipate
The inner wall of hot cylinder connects, and the heat radiation rack is equipped with several perforative second through-holes;The side wall of the cabinet is equipped with air inlet pipe.
At work, server is placed in the heat radiation rack of heat-dissipating cylinder the compound server radiating case of the utility model,
The heat that server work generates is transmitted in heat-dissipating cylinder by the second through-hole on heat radiation rack, opens the exhaust fan on air duct top
Switch, exhaust fan by ventilation duct inside each heat-dissipating cylinder server work generate heat be retracted to outside case, reduce
Heat in heat-dissipating cylinder reduces the temperature in heat-dissipating cylinder, builds good temperature environment for server work.
Cold air outside cabinet can enter cabinet wall by the air inlet pipe on wall box, by heat-dissipating cylinder
First through hole on wall enters inside heat-dissipating cylinder, carries out after heat exchange by exhaust fan with the heat that server work generates from logical
It is in charge of extraction.
The input end of heat dissipation pipe connects water source, and water recycles in heat dissipation pipe, and the heat that server work generates will lead to
Heat transfer can make the side wall heating of heat-dissipating cylinder, can take away the heat on heat-dissipating cylinder side wall by the water circulation in heat dissipation pipe
Amount, and this partial heat can be taken away with dampening, so that the heat to shed, far from cabinet, subsequent heat dissipation effect improves.
Meanwhile there are sufficient spaces between heat radiation rack and heat-dissipating cylinder, and it is outside to be conducive to the heat that server work generates
Diffusion, and heat exchange is carried out with the air outside the case come in from first through hole, reduce the temperature that server work generates.Air duct
Two sides be equipped with several heat-dissipating cylinders, the number of servers placed in the heat radiation rack of each heat-dissipating cylinder is seldom, and heat radiation rack and dissipates
There are very large space between hot frame, there is no server stacked on top together caused by the heat of server in middle layer dissipate not
Out the problem of;The heat dissipation effect of server in each heat-dissipating cylinder is also more preferable.
Further, door component is equipped on the side wall of the cabinet on exhaust fan top, the door component includes strut
And baffle, the low side of strut are arranged on the roof of cabinet, the top of strut is connect with baffle, the cross-sectional area ratio of the baffle
The cross-sectional area in air duct is big.Baffle can prevent foreign matter from falling in exhaust fan, damage exhaust fan, can also slow down exhaust fan pumping
The blowing force of wind out.
Further, slide plate is equipped in the heat radiation rack, the slide plate is equipped with third through-hole, and the slide plate is heat radiation rack
It is separated into place position and lower place position.When the quantity of server increases, slide plate can be arranged by the centre in heat radiation rack,
Heat radiation rack is separated into upper place position and lower place position, increases the quantity that server is placed.Server will not substantially be dissipated
Heat has an impact.
Further, it is connected between the neighbouring heat-dissipating cylinder in air duct two sides by connecting plate.Enhance heat-dissipating cylinder and air duct
Between stability.
Further, connecting rod, the top of the connecting rod are equipped between the heat-dissipating cylinder on the top and the roof of cabinet
It is connect with the inner wall of cabinet, the bottom end of connecting rod and the side wall of heat-dissipating cylinder connect.Enhance the stability between heat-dissipating cylinder and cabinet.
Further, connecting rod, the top of the connecting rod are equipped between the heat-dissipating cylinder of the bottom end and the bottom wall of cabinet
It is connect with the side wall of heat-dissipating cylinder, the bottom end of connecting rod and the bottom wall of cabinet connect.Enhance the stability between heat-dissipating cylinder and cabinet.
Further, the inlet end and an outlet end of the heat dissipation pipe extends through the side wall setting of cabinet.It is easily installed
And disassembly.
Further, the bottom of the cabinet is equipped with support leg.It can prevent the ponding on ground from entering in case, damage clothes
Business device.
The utility model has the beneficial effect that compared with prior art
1, server is placed in the heat radiation rack of heat-dissipating cylinder, and the heat that server work generates passes through second on heat radiation rack
Through-hole is transmitted in heat-dissipating cylinder, opens the switch of the exhaust fan on air duct top, exhaust fan is by ventilation duct in each heat-dissipating cylinder
The heat that the server work in portion generates is retracted to outside case, is reduced the heat in heat-dissipating cylinder, is reduced the temperature in heat-dissipating cylinder, for clothes
Good temperature environment is built in business device work.
Cold air outside cabinet can enter cabinet wall by the air inlet pipe on wall box, by heat-dissipating cylinder
First through hole on wall enters inside heat-dissipating cylinder, carries out after heat exchange by exhaust fan with the heat that server work generates from logical
It is in charge of extraction.
The input end of heat dissipation pipe connects water source, and water recycles in heat dissipation pipe, and the heat that server work generates will lead to
Heat transfer can make the side wall heating of heat-dissipating cylinder, can take away the heat on heat-dissipating cylinder side wall by the water circulation in heat dissipation pipe
Amount, and this partial heat can be taken away with dampening, so that the heat to shed, far from cabinet, subsequent heat dissipation effect improves.
Meanwhile there are sufficient spaces between heat radiation rack and heat-dissipating cylinder, and it is outside to be conducive to the heat that server work generates
Diffusion, and heat exchange is carried out with the air outside the case come in from first through hole, reduce the temperature that server work generates.Air duct
Two sides be equipped with several heat-dissipating cylinders, the number of servers placed in the heat radiation rack of each heat-dissipating cylinder is seldom, and heat radiation rack and dissipates
There are very large space between hot frame, there is no server stacked on top together caused by the heat of server in middle layer dissipate not
Out the problem of;The heat dissipation effect of server in each heat-dissipating cylinder is also more preferable.
2, baffle can prevent foreign matter from falling in exhaust fan, damage exhaust fan, can also slow down what exhaust fan was released
The blowing force of wind.
3, when the quantity of server increases, heat radiation rack can be separated by the way that slide plate is arranged in the intermediate of heat radiation rack
Upper place position and lower place position increase the quantity that server is placed.The heat dissipation of server will not substantially be had an impact.
4, slide plate is equipped in heat radiation rack, heat radiation rack is separated into upper place position and lower place position by the slide plate.Work as server
Quantity when increasing, can pass through and slide plate is set in the intermediate of heat radiation rack, increase the quantity that server is placed.What slide plate was equipped with
Third through-hole can enhance the draught capacity of entire heat radiation rack, and the wind in air duct is allowed preferably to carry out heat in heat-dissipating cylinder
Exchange.
5, it is connected between the neighbouring heat-dissipating cylinder in air duct two sides by connecting plate.Enhance steady between heat-dissipating cylinder and air duct
It is qualitative.Connecting rod is equipped between the heat-dissipating cylinder on top and the roof of cabinet, the top of connecting rod and the inner wall of cabinet connect, connection
The bottom end of bar and the side wall of heat-dissipating cylinder connect.Connecting rod, the top of connecting rod are equipped between the heat-dissipating cylinder of bottom end and the bottom wall of cabinet
End is connect with the side wall of heat-dissipating cylinder, and the bottom end of connecting rod and the bottom wall of cabinet connect.Enhance the stabilization between heat-dissipating cylinder and cabinet
Property.
6, the bottom of the cabinet is equipped with support leg, can prevent the ponding on ground from entering in case, damages server.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of the heat-dissipating cylinder of the utility model;
Fig. 3 is the structural schematic diagram of the heat radiation rack of the utility model;
Fig. 4 is the structural schematic diagram of the slide plate of the utility model.
Marked in the figure: 1- cabinet, the air duct 2-, 3- exhaust fan, 4- heat-dissipating cylinder, 41- first through hole, 5- ventilation duct, 6- heat dissipation
Water pipe, 7- heat radiation rack, the second through-hole of 71-, 8- air inlet pipe, 81- filter screen, 9- strut, 10- baffle, 11- slide plate, 111- third
Through-hole, 12- connecting plate, 13- connecting rod, 14- support leg, the upper place position of 15-, place position under 16-.
Specific embodiment
Below with reference to embodiment, the utility model will be further described, and described embodiment is only that this is practical new
Type a part of the embodiment is not whole embodiment.Based on the embodiments of the present invention, the ordinary skill people of this field
Member's other embodiments used obtained without making creative work, belong to the protection model of the utility model
It encloses.
Embodiment 1:
As shown in Figs 1-4, a kind of compound server radiating case, including cabinet 1, the cabinet 1 is interior to be equipped with air duct 2, institute
The roof of cabinet 1 is run through on the top for stating air duct 2, and the top in air duct 2 is equipped with exhaust fan 3;In the side of the cabinet 1 on 3 top of exhaust fan
Wall is equipped with door component, and the door component includes strut 9 and baffle 10, and the roof of cabinet 1 is arranged in the low side of strut 9
On, the top of strut 9 is connect with baffle 10, and the cross-sectional area of the baffle 10 is bigger than the cross-sectional area in air duct 2.Baffle 10 can be with
It prevents foreign matter from falling in exhaust fan 3, damages exhaust fan 3, the blowing force for the wind that exhaust fan 3 is released can also be slowed down.
The both ends in the air duct 2 are respectively equipped with several heat-dissipating cylinders 4, pass through ventilation duct 5 between the heat-dissipating cylinder 4 and air duct 2
One end of connection, the ventilation duct 5 is arranged through air duct 2, and the other end of ventilation duct 5 is arranged through the side wall of heat-dissipating cylinder 4, described
It is wound with heat dissipation pipe 6 in the side wall of heat-dissipating cylinder 4, perforative first is equipped on the side wall of the heat-dissipating cylinder 4 between heat dissipation pipe 6
Through-hole 41, the heat dissipation pipe 6 in the side wall of the heat-dissipating cylinder 4 of 2 two sides of air duct are interconnected respectively;The import of the heat dissipation pipe 6
End and outlet end extend through the side wall setting of cabinet 1.It is easily installed and dismantles.
It is connected between the neighbouring heat-dissipating cylinder 4 in 2 two sides of air duct by connecting plate 12.Enhance between heat-dissipating cylinder 4 and air duct 2
Stability.Between the heat-dissipating cylinder 4 on the top and the roof of cabinet 1 be equipped with connecting rod 13, the top of the connecting rod 13 with
The inner wall of cabinet 1 connects, and the bottom end of connecting rod 13 is connect with the side wall of heat-dissipating cylinder 4.Enhance steady between heat-dissipating cylinder 4 and cabinet 1
It is qualitative.Connecting rod 13, the top of the connecting rod 13 and heat dissipation are equipped between the heat-dissipating cylinder 4 of the bottom end and the bottom wall of cabinet 1
The side wall connection of cylinder 4, the bottom end of connecting rod 13 is connect with the bottom wall of cabinet 1.Enhance the stability between heat-dissipating cylinder 4 and cabinet 1.
The incline difference of heat radiation rack 7, the rectangular in cross-section of the heat radiation rack 7, and heat radiation rack 7 is equipped in the heat-dissipating cylinder 4
Connect with the inner wall of heat-dissipating cylinder 4, the heat radiation rack 7 is equipped with several perforative second through-holes 71;It is set on the side wall of the cabinet 1
Have an air inlet pipe 8, the inlet of air inlet pipe 8 is equipped with filter screen 81, can filter out dust and impurities, moreover it is possible to can prevent mouse etc. into
Enter into cabinet 1, worked normally in order to avoid influencing server, the bottom of the cabinet 1 is equipped with support leg 14.It can prevent ground
Ponding enters in case, damages server.
Embodiment 2:
As shown in Figs 1-4, this implementation is to advanced optimize on the basis of embodiment 1, and the present embodiment emphasis illustrates and reality
The improvements that example 1 is compared are applied, something in common repeats no more, and in the present embodiment, is equipped with slide plate 11, institute in the heat radiation rack 7
Slide plate 11 is stated equipped with third through-hole 111, heat radiation rack 7 is separated into upper place position 15 and lower place position 16 by the slide plate 11.When
When the quantity of server increases, heat radiation rack 7 can be separated into upper place position by the way that slide plate 11 is arranged in the intermediate of heat radiation rack 7
15 and lower place position 16, increase the quantity that server is placed.The heat dissipation of server will not substantially be had an impact.
Further, the bottom of the cabinet 1 is equipped with support leg 14.It can prevent the ponding on ground from entering in case, damage
Bad server.
Working principle of the utility model is: server is placed in the heat radiation rack 7 of heat-dissipating cylinder 4, server work is generated
Heat is transmitted in heat-dissipating cylinder 4 by the second through-hole 71 on heat radiation rack 7, opens the switch of the exhaust fan 3 on 2 top of air duct, is taken out
Blower 3 is retracted to the heat that the server work inside each heat-dissipating cylinder 4 generates outside case by ventilation duct 5, reduces heat-dissipating cylinder 4
Interior heat reduces the temperature in heat-dissipating cylinder 4, builds good temperature environment for server work.
Cold air outside cabinet 1 can enter 1 inner wall of cabinet by the air inlet pipe 8 on 1 side wall of cabinet, pass through heat-dissipating cylinder
First through hole 41 on 4 inner wall enters inside heat-dissipating cylinder 4, and the heat generated with server work is taken out after carrying out heat exchange
Blower 3 is extracted out from reduction of fractions to a common denominator pipe.
The input end of heat dissipation pipe 6 connects water source, and water recycles in heat dissipation pipe 6, and the heat that server work generates will
Logical heat transfer can make the side wall heating of heat-dissipating cylinder 4, can take away 4 side wall of heat-dissipating cylinder by the water circulation in heat dissipation pipe 6
On heat, and this partial heat can be taken away with dampening, so that the heat to shed is far from cabinet 1, subsequent heat dissipation effect
Fruit improves.
Meanwhile there are sufficient space between heat radiation rack 7 and heat-dissipating cylinder 4, be conducive to heat that server work generates to
External diffusion, and heat exchange is carried out with from the air outside the case that first through hole 41 is come in, reduce the temperature that server work generates.
The two sides in air duct 2 are equipped with several heat-dissipating cylinders 4, and the number of servers placed in the heat radiation rack 7 of each heat-dissipating cylinder 4 is seldom, and dissipates
There are very large space between hot frame 7 and heat radiation rack 7, there is no server stacked on top together caused by middle layer server
Heat the problem of can not dissipating;The heat dissipation effect of server in each heat-dissipating cylinder 4 is also more preferable.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model
Protection scope within.
Claims (8)
1. a kind of compound server radiating case, including cabinet (1), which is characterized in that air duct (2) are equipped in the cabinet (1),
The roof of cabinet (1) is run through on the top of the air duct (2), and the top of air duct (2) is equipped with exhaust fan (3);
The both ends of the air duct (2) are respectively equipped with several heat-dissipating cylinders (4), pass through ventilation between the heat-dissipating cylinder (4) and air duct (2)
(5) connection is managed, one end of the ventilation duct (5) is arranged through air duct (2), and the other end of ventilation duct (5) is through heat-dissipating cylinder (4)
Side wall is arranged, and is wound with heat dissipation pipe (6) in the side wall of the heat-dissipating cylinder (4), the heat-dissipating cylinder (4) between heat dissipation pipe (6)
Side wall be equipped with perforative first through hole (41), the heat dissipation pipe (6) in the side wall of the heat-dissipating cylinder (4) of air duct (2) two sides point
Xiang Huliantong not;
Heat radiation rack (7) are equipped in the heat-dissipating cylinder (4), the rectangular in cross-section of the heat radiation rack (7), and the incline of heat radiation rack (7)
Connect respectively with the inner wall of heat-dissipating cylinder (4), the heat radiation rack (7) is equipped with several perforative second through-holes (71);The cabinet
(1) side wall is equipped with air inlet pipe (8).
2. a kind of compound server radiating case according to claim 1, which is characterized in that on exhaust fan (3) top
The side wall of cabinet (1) is equipped with door component, and the door component includes strut (9) and baffle (10), and the low side of strut (9) is set
It sets on the roof of cabinet (1), the top of strut (9) is connect with baffle (10), and the cross-sectional area of the baffle (10) compares air duct
(2) cross-sectional area is big.
3. a kind of compound server radiating case according to claim 1, which is characterized in that set in the heat radiation rack (7)
Have slide plate (11), the slide plate (11) is equipped with third through-hole (111), and the slide plate (11), which is separated into heat radiation rack (7), puts
Set storehouse (15) and lower place position (16).
4. a kind of compound server radiating case according to claim 1, which is characterized in that air duct (2) two sides phase up and down
It is connected between adjacent heat-dissipating cylinder (4) by connecting plate (12).
5. a kind of compound server radiating case according to claim 1, which is characterized in that the heat-dissipating cylinder on the top
(4) connecting rod (13) being equipped between the roof of cabinet (1), the top of the connecting rod (13) is connect with the inner wall of cabinet (1),
The bottom end of connecting rod (13) is connect with the side wall of heat-dissipating cylinder (4).
6. a kind of compound server radiating case according to claim 1, which is characterized in that the heat-dissipating cylinder (4) of bottom end and
Connecting rod (13) are equipped between the bottom wall of cabinet (1), the top of the connecting rod (13) is connect with the side wall of heat-dissipating cylinder (4), even
The bottom end of extension bar (13) is connect with the bottom wall of cabinet (1).
7. a kind of compound server radiating case according to claim 1, which is characterized in that the heat dissipation pipe (6)
Inlet end and an outlet end extends through the side wall setting of cabinet (1).
8. a kind of compound server radiating case according to claim 1, which is characterized in that the bottom of the cabinet (1)
Equipped with support leg (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820595292.1U CN208459916U (en) | 2018-04-25 | 2018-04-25 | A kind of compound server radiating case |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820595292.1U CN208459916U (en) | 2018-04-25 | 2018-04-25 | A kind of compound server radiating case |
Publications (1)
Publication Number | Publication Date |
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CN208459916U true CN208459916U (en) | 2019-02-01 |
Family
ID=65150432
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820595292.1U Expired - Fee Related CN208459916U (en) | 2018-04-25 | 2018-04-25 | A kind of compound server radiating case |
Country Status (1)
Country | Link |
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CN (1) | CN208459916U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110362173A (en) * | 2019-06-20 | 2019-10-22 | 杭州美创科技有限公司 | A kind of server intelligent heat dissipation system |
-
2018
- 2018-04-25 CN CN201820595292.1U patent/CN208459916U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110362173A (en) * | 2019-06-20 | 2019-10-22 | 杭州美创科技有限公司 | A kind of server intelligent heat dissipation system |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190201 Termination date: 20200425 |