CN205405408U - Automatic many hard disks of wind -guiding server radiation structure - Google Patents

Abstract

The utility model provides an automatic many hard disks of wind -guiding server radiation structure, including many hard disks server and automatic wind -guiding heat dissipation unit, many hard disks server includes server machine case, hard disk array, mainboard and internal part, automatic wind -guiding heat dissipation unit includes hard disk module wind scooper, anterior induced draught fan, at least one middle part relaying fan and the rear end fan of airing exhaust. Divide into the syllogic heat dissipation with server radiation, the exclusive heat dissipation wind scooper of hard disk combines the heat dissipation of reinforcing hard disk with anterior induced draught fan, anterior induced draught fan combines reinforcing server internal part and mainboard heat dissipation with middle part relaying fan, airing exhaust the fan and combine in middle part relaying fan and rear end, carries out hot -blast direction, prevent hot air flowing back reinforcing heat dissipation. Through using the utility model discloses a design can improve the radiating efficiency of storage type server, improves the radiating effect of server internal part, reduces the energy consumption that consumes in the aspect of the server radiation.

Description

Automatic wind many hard disk servers radiator structure

Technical field

This utility model belongs to server radiating technical field, is specifically related to a kind of automatic wind many hard disk servers radiator structure.

Background technology

Along with information-based and mobile Internet rise, Web content explosive growth, storage demand is also increasing, and the unsuppressible-suppression due to network data, the many hard disk servers of storage-type make consumption quickly increase, server places substantial amounts of mechanical disk can bring huge caloric value in use, hard disk life-span can be produced impact if do not changed radiating mode, there is loss of data risk.

At present, cooling mechanism is usually fan wind to back to hard disk, it is difficult to reach desirable Hard disk heat radiation effect, solution is usually increase rotation speed of the fan, the drawback brought is that rotation speed of the fan promotes substantially beyond server case heat radiation needs, brings mass energy to waste, and increases server noise.It addition, fan is long with air outlet spacing, the windage of internal part in addition, hot air reflux and hot flow-disturbing can be caused, reduce radiating effect.

Utility model content

For the defect that prior art exists, this utility model provides a kind of automatic wind many hard disk servers radiator structure, can effectively solve the problems referred to above.

The technical solution adopted in the utility model is as follows:

This utility model provides a kind of automatic wind many hard disk servers radiator structure, including many hard disk servers and automatic wind heat-sink unit；

Wherein, described many hard disk servers include machine box for server (1-1), hard disk array (1-2), mainboard (1-7) and internal part (1-6)；Described machine box for server (1-1) has the front panel and rear board that are oppositely arranged；Described hard disk array (1-2) is arranged on described front panel；Chassis space between described front panel and described rear board is installed described mainboard (1-7) and described internal part (1-6)；

Described automatic wind heat-sink unit includes hard disk module wind scooper (1-3), anterior induced draught fan (1-4), relaying fan (1-5) and rear end air ejector fan (1-8) in the middle part of at least one；Described hard disk module wind scooper (1-3) has the air outlet of air intake vent and relative air intake vent；Described air intake vent surrounds the periphery being placed in described hard disk array (1-2), the outside of described air outlet installs described anterior induced draught fan (1-4), and, described anterior induced draught fan (1-4) is connected with space in the cover of described hard disk module wind scooper (1-3) by described air outlet, for the heat that described hard disk array (1-2) distributes being imported to described hard disk module wind scooper (1-3), and finally discharge from the air outlet of described hard disk module wind scooper (1-3)；

Each described middle part relaying fan (1-5) is arranged at after described anterior induced draught fan (1-4), and is positioned at before described mainboard (1-7) and internal part (1-6)；

Described rear end air ejector fan (1-8) is arranged at the inwall of described rear board, and the corresponding through hole that the air outlet of described rear end air ejector fan (1-8) is offered by described rear board connects with external environment condition.

Preferably, the quantity that arranges at described middle part relaying fan (1-5) is two, and one is placed in before described mainboard (1-7), and another is placed in before described internal part (1-6).

Preferably, described anterior induced draught fan (1-4), described middle part relaying fan (1-5) and described rear end air ejector fan (1-8) all adopt band electric heating plug version.

Automatic wind many hard disk servers radiator structure that this utility model provides has the advantage that

Server radiating is divided into syllogic to dispel the heat by this utility model, and the exclusive radiation wind-guiding hood of hard disk is combined with anterior induced draught fan and strengthens Hard disk heat radiation；Anterior induced draught fan strengthens server internal parts and mainboard heat radiation with middle part relaying fan combination；Middle part relaying fan is combined with rear end air ejector fan, carries out hot blast guiding, it is prevented that hot air reflux strengthens heat radiation.By using design of the present utility model, it is possible to improve the radiating efficiency of storage-type server, improve the radiating effect of server internal parts, reduce the energy consumption that server radiating aspect consumes.

Accompanying drawing explanation

Automatic wind many hard disk servers radiator structure that Fig. 1 provides for this utility model is at the arrangement form schematic diagram within machine box for server；

Air flow direction schematic diagram when Fig. 2 dispels the heat for automatic wind many hard disk servers radiator structure that this utility model provides.

Detailed description of the invention

In order to make this utility model be solved the technical problem that, technical scheme and beneficial effect clearly understand, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain this utility model, be not used to limit this utility model.

In conjunction with Fig. 1 and Fig. 2, this utility model provides a kind of automatic wind many hard disk servers radiator structure, by the new design to hardware view radiator structure, enhances server hard disc heat radiation, reduces radiation energy consumption, and reduce server noise.

Automatic wind many hard disk servers radiator structure includes many hard disk servers and automatic wind heat-sink unit；

Wherein, many hard disk servers include machine box for server 1-1, hard disk array 1-2, mainboard 1-7 and internal part 1-6；Machine box for server 1-1 has the front panel and rear board that are oppositely arranged；Hard disk array 1-2 plate forward-mounted；Chassis space between front panel and rear board is installed mainboard 1-7 and internal part 1-6；

Automatic wind heat-sink unit includes hard disk module wind scooper 1-3, anterior induced draught fan 1-4, relaying fan 1-5 and rear end air ejector fan 1-8 in the middle part of at least one；Hard disk module wind scooper 1-3 has the air outlet of air intake vent and relative air intake vent；Air intake vent surrounds the periphery being placed in hard disk array 1-2, the outside of air outlet installs anterior induced draught fan 1-4, and, anterior induced draught fan 1-4 is connected with space in the cover of hard disk module wind scooper 1-3 by air outlet, therefore, hard disk module wind scooper 1-3 will form confined space between hard disk array 1-2 and anterior induced draught fan 1-4, it is hard disk wind guide chamber 2, for the heat that hard disk array 1-2 distributes being imported to hard disk module wind scooper 1-3, and finally discharge from the air outlet of hard disk module wind scooper 1-3；

Relay fan 1-5 in the middle part of each to be arranged at after anterior induced draught fan 1-4, and be positioned at before mainboard 1-7 and internal part 1-6；Anterior induced draught fan 1-4 relays fan 1-5 and is combined enhancing server internal parts and mainboard heat radiation with middle part.In the accompanying drawings, the quantity that arranges of middle part relaying fan is two, and the 1st middle part relaying fan 1-5-1 represents, is placed in before mainboard 1-7；2nd middle part relaying fan 1-5-2 represents, is placed in before internal part 1-6.

Rear end air ejector fan 1-8 is arranged at the inwall of rear board, and the corresponding through hole that the air outlet of rear end air ejector fan 1-8 is offered by rear board connects with external environment condition.Middle part relaying fan is combined with rear end air ejector fan, carries out hot blast guiding, it is prevented that hot air reflux strengthens heat radiation.

Anterior induced draught fan, middle part relaying fan and rear end air ejector fan are provided with charged hot swap characteristics, do not affect the normal use of server during replacing.

Two embodiments are described below:

Embodiment one:

As illustrated in fig. 1 and 2, when the hard disk array 1-2 of the many hard disk servers of storage-type dispels the heat not enough, anterior induced draught fan 1-4 will improve rotating speed, and form airtight hard disk wind guide chamber 2 by hard disk module wind scooper 1-3, improve Hard disk heat radiation efficiency.

Embodiment two:

Under Hard disk heat radiation good situations, if server internal caloric value is excessive, anterior induced draught fan 1-4 is without increasing rotating speed, by the 1st middle part relaying fan 1-5-1 and the 2 middle part relaying fan 1-5-2, internal part 1-6 and mainboard 1-7 is dispelled the heat, and by the air draft effect of rear end air ejector fan 1-8, complete accurate heat radiation.

Automatic wind many hard disk servers radiator structure that this utility model provides has the advantage that

(1) this utility model by increasing hard disk module wind scooper between hard disk array and anterior induced draught fan, by forming confined space between hard disk and fan, strengthen blast, make fan air intake as much as possible from hard disk array, under not improving rotation speed of the fan situation, strengthen Hard disk heat radiation effect.

(2) this utility model is by anterior induced draught fan and middle part relaying fan combination mode, machine box for server internal part is dispelled the heat, improve heat radiation accuracy, avoid uneven situation appearance of dispelling the heat, and middle part relaying fan plays relaying wind-guiding effect, it is prevented that hot blast is portion's hot reflux in the server.

(3) this utility model rear end air ejector fan is responsible for getting rid of cabinet inside hot blast, relays fan combination with middle part and plays wind-guiding effect, and solves rear end hot reflux problem, reduces anterior induced draught fan heat radiation pressure simultaneously.

The above is only preferred implementation of the present utility model; it should be pointed out that, for those skilled in the art, under the premise without departing from this utility model principle; can also making some improvements and modifications, these improvements and modifications also should look protection domain of the present utility model.

Claims (3)

1. automatic wind many hard disk servers radiator structure, it is characterised in that include many hard disk servers and automatic wind heat-sink unit；

Wherein, described many hard disk servers include machine box for server (1-1), hard disk array (1-2), mainboard (1-7) and internal part (1-6)；Described machine box for server (1-1) has the front panel and rear board that are oppositely arranged；Described hard disk array (1-2) is arranged on described front panel；Chassis space between described front panel and described rear board is installed described mainboard (1-7) and described internal part (1-6)；

Described automatic wind heat-sink unit includes hard disk module wind scooper (1-3), anterior induced draught fan (1-4), relaying fan (1-5) and rear end air ejector fan (1-8) in the middle part of at least one；Described hard disk module wind scooper (1-3) has the air outlet of air intake vent and relative air intake vent；Described air intake vent surrounds the periphery being placed in described hard disk array (1-2), the outside of described air outlet installs described anterior induced draught fan (1-4), and, described anterior induced draught fan (1-4) is connected with space in the cover of described hard disk module wind scooper (1-3) by described air outlet, for the heat that described hard disk array (1-2) distributes being imported to described hard disk module wind scooper (1-3), and finally discharge from the air outlet of described hard disk module wind scooper (1-3)；

Each described middle part relaying fan (1-5) is arranged at after described anterior induced draught fan (1-4), and is positioned at before described mainboard (1-7) and internal part (1-6)；

Described rear end air ejector fan (1-8) is arranged at the inwall of described rear board, and the corresponding through hole that the air outlet of described rear end air ejector fan (1-8) is offered by described rear board connects with external environment condition.

2. automatic wind many hard disk servers radiator structure according to claim 1, it is characterized in that, the quantity that arranges at described middle part relaying fan (1-5) is two, one is placed in before described mainboard (1-7), and another is placed in before described internal part (1-6).

3. automatic wind many hard disk servers radiator structure according to claim 1, it is characterized in that, described anterior induced draught fan (1-4), described middle part relaying fan (1-5) and described rear end air ejector fan (1-8) all adopt band electric heating plug version.