Data center
Technical field
The present invention relates to a kind of data center.
Background technology
The each server of cold wind to data center that existing data center is generally produced by refrigerator dispels the heat.But refrigerator need consume a large amount of electric energy, is unfavorable for energy-conserving and environment-protective.
Summary of the invention
In view of this, the data center that a kind of energy-conserving and environment-protective are provided is necessary.
A kind of data center, comprising:
One casing, this casing comprises the first side wall, one second sidewall and the dividing plate that are parallel to each other, dividing plate is located between this first side wall and the second sidewall, this the first side wall offers some air intake vents, this second sidewall offers some air outlets, some air vents are offered at the top of this dividing plate, and this first side wall is provided with in each air intake vent place the first blinker that can shield this air intake vent actively, and this dividing plate is provided with in each disposed at air vent the second blinker that can shield this air vent actively;
Some Cabinet-type server be located between the second sidewall of this casing and this dividing plate, each Cabinet-type server is provided with one through dividing plate and just to the fan wall of an air intake vent; And
One control device, the first motor, one that this control device comprises these the first blinker activities of a driving drives second motor, of these the second blinker activities to be located at temperature inductor on this dividing plate and a controller, first motor, the second motor and temperature inductor are electrically connected at this controller, this controller controls first, second motor according to the temperature that temperature inductor senses and rotates and then drive these first blinkers and the activity of these the second blinkers, to regulate the size of air intake vent and air vent.
Compare prior art, cold wind outside casing sucks in casing from the air intake vent of the first side wall by the fan wall of the Cabinet-type server of this data center, and discharge from the air outlet of the second sidewall after carrying out heat interchange with Cabinet-type server, data center only utilizes cold wind to dispel the heat, energy-conserving and environment-protective.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the first better embodiment of data center of the present invention.
Fig. 2 is the block scheme of the control device of data center of the present invention.
Fig. 3 is a using state figure of the first better embodiment of data center of the present invention.
Fig. 4 is another using state figure of the first better embodiment of data center of the present invention.
Fig. 5 is the schematic diagram of the second better embodiment of data center of the present invention.
Main element symbol description
Casing 20
Diapire 21
The first side wall 22
Second sidewall 23
Roof 25
Dividing plate 26
Cold air duct 27
Hot-air channel 28
Air intake vent 221
First blinker 222
Groove 261
Ventilating opening 262
Second blinker 263
Air outlet 231
Third gear wind sheet 232
Cabinet-type server 30
Fan wall 32
Control device 50
First motor 51
Second motor 52
3rd motor 53
Temperature inductor 55
Controller 56
Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.
Embodiment
Please refer to Fig. 1, the first better embodiment of data center of the present invention comprises a casing 20, is somely located at Cabinet-type server 30 in this casing 20 and a control device 50 side by side.
This casing 20 comprises a rectangular diapire 21, the first side wall 22 extended vertically upward from the both sides that this diapire 21 is relative and one second sidewall 23, and just the roof 25 and of this diapire 21 is parallel to the first side wall 22 and is connected to the dividing plate 26 between this diapire 21 and roof 25.Surround a cold air duct 27 between this first side wall 22 and this dividing plate 26, between this second sidewall 23 and this dividing plate 26, surround a hot-air channel 28.This first side wall 22 offers some air intake vents 221 along its length, and this first side wall 22 can shield the first blinker 222 of this air intake vent 221 in each air intake vent 221 place's pivot joint one.The downside of this dividing plate 26 offers a groove 261 along its length, and the upside of this dividing plate 26 offers some ventilating openings 262 along its length.This dividing plate 26 rotatably installs in each ventilating opening 262 place the second blinker 263 that can shield this ventilating opening 262.This second sidewall 23 offers some air outlets 231 along its length, and this second sidewall 23 can shield the third gear wind sheet 232 of this air outlet 231 in each air outlet 231 place's pivot joint one.Cabinet-type server 30 to be contained in this hot-air channel 28 and to press close to dividing plate 26.The rear side of Cabinet-type server 30 is provided with fan wall 32, and the groove 261 that fan wall 32 is placed in this dividing plate 26 is interior to communicate with cold air duct 27.
Refer to Fig. 2, the controller 56 that this control device 50 comprises the 3rd motor 53 that the second motor 52, that the first motor 51, that driving first blinker 222 rotates drives the second blinker 263 to rotate drives third gear wind sheet 232 to rotate, temperature inductor 55 and is electrically connected at this first motor 51, second motor 52, the 3rd motor 53 and temperature inductor 55.Temperature inductor 55 to be located on dividing plate 26 and to be positioned at cold air duct 27.According to this temperature inductor 55, this controller 56 senses that the temperature of the cold air entered in Cabinet-type server 30 controls the rotation of the first motor 51, second motor 52 and the 3rd motor 53, thus regulate the size of air intake vent 221, ventilating opening 262 and air outlet 231.
Please refer to Fig. 3 to Fig. 4, during use, the work of these Cabinet-type server 30 produces heat, and fan wall 32 works and to be sucked in cold air duct 27 by the air intake vent 221 of the cold wind of outside through the first side wall 22.Enter in hot-air channel 28 after flowing through Cabinet-type server 30, discharge from the air outlet 231 of the second sidewall 23.If during the temperature value of the temperature value entering the cold air in Cabinet-type server 30 higher than this setting of this temperature inductor 55 sensing, this controller 56 controls the first motor 51 and the 3rd motor 53 makes the first blinker 222 and third gear wind sheet 232 rotate towards away from the first side wall and the second sidewall, thus the opening of air intake vent 221 and air outlet 231 is increased.Now, the ventilating opening 262 of the second blinker 263 shielded partitions 26, to prevent the hot blast in this hot-air channel 28 from flowing in cold air duct 27, improves radiating efficiency.If during the temperature value of the temperature value that this temperature inductor 55 senses lower than this setting, this controller 56 controls the first motor 51 and the 3rd motor 53 makes the first blinker 222 and third gear wind sheet 232 rotate towards contiguous the first side wall and the second sidewall, thus the opening of air intake vent 221 and air outlet 231 is reduced, and this controller 56 controls the second motor 52 makes the second blinker 263 rotate towards away from this dividing plate 26, thus open ventilating opening 262 and make hot air reflux in this hot-air channel 28 in cold air duct 27, thus make the temperature of cold air in this cold air duct 27 be down in OK range, can be Cabinet-type server 30 better.
Please refer to Fig. 5, second embodiment of data center is similar to the first embodiment, difference is: each first blinker 222 is provided with one first motor 51, each second blinker 263 is provided with one second motor 52, each third gear wind sheet 232 is provided with one the 3rd motor 53, is respectively equipped with a temperature inductor 55 on rear side of these Cabinet-type server 30.Corresponding one first motor 51,1 second motor 52 and one the 3rd motor 53 of each temperature inductor 55, and these the first motor 51, second motor 52, the 3rd motor 53 and temperature inductors 55 are electrically connected at controller 56.The temperature of the cold air entered in corresponding Cabinet-type server 30 that this controller 56 senses according to temperature inductor 55 controls the first corresponding motor 51, second motor 52 and the rotation of the 3rd motor 53, thus open respectively or close corresponding air intake vent 221, ventilating opening 262 and air outlet 231, or the perforate size of adjustment air intake vent 221, ventilating opening 262 and air outlet 231.