KR101437312B1 - A built-up air conditioner system for a data center - Google Patents

Abstract

The present invention relates to an air conditioner system of a data center which comprises: a cooling unit cooling flowed-in air and discharging the same; a supply unit supplying the air discharged from the cooling unit to a workspace; a rack connecting unit installed in an upper part of a server rack, shielding a rack space, forming a communicating hole therein and discharging air inside the rack space through the communicating hole; and a return supply unit communicated with the rack connecting unit, connected to the cooling unit, and supplying the air flowed in from the communicating hole to the cooling unit. Therefore, cooling performance of the server rack can be maintained and the workspace can be maintained with freshness by improving a technology of controlling cooling air current and being equipped with an organized system of an automatic process.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data center air conditioner system,

The present invention relates to a data center air conditioning system capable of improving a cooling airflow control technology of a high density data center and establishing a systematic system of an automatic control process in a data center.

Typically, data centers lease computing and networking facilities to businesses and individuals, and provide services such as maintenance and maintenance by attracting customers' facilities. These data centers are usually composed of a plurality of racks equipped with communication devices And a rack space portion formed between the racks adjacent to each other.

On the other hand, since the apparatus including the above-described server rack is not smoothly operated at a high temperature and heat is generated during operation, the data center needs a cooling device for cooling it. Furthermore, in the case of electronic components and circuits, there is a risk of short circuit if there is a large amount of moisture in the data center, and problems such as generation of static electricity, sparks, and breakage of electronic parts are likely to occur.

Therefore, in the data center, an air conditioner for cooling and constant temperature and humidity is installed. Examples of such technologies include Korean Patent Registration Nos. 10-0478755, 10-1103394, 10-2010-0013312, The technology for various air conditioners installed in the air conditioner has been disclosed.

However, the conventional air conditioning system of the data center is designed to focus only on the cooling of the server rack, and the cooling air discharged from the air conditioner is first supplied to the rack space and flows into the work space through the server rack Therefore, the working space is excessively heated due to the heated air passing through the server rack, which not only deteriorates the working environment but also causes a problem in the server in the data center due to overheating.

The present invention provides a cooling airflow control technology capable of effectively preventing a problem caused by an improvement of a working environment of a data center and an overheating of a server, and an air conditioning system of a data center capable of establishing a systematic system of an automatic control process .

The present invention provides a data center air conditioner including a plurality of server racks on which communication devices are mounted and arranged in a row to include a work space in which an operator can work and a rack space portion formed between the adjacent server racks, A harmonizing system comprising: a cooling unit for cooling and discharging inflow air; A supply unit for supplying the air discharged from the cooling unit to the work space; A rack connection portion provided on the upper side of the server rack for shielding the rack space portion, the rack connection portion being formed with a communication port and discharging air from the rack space portion through the communication port; And a return supply unit connected to the rack connection unit and connected to the cooling unit to supply the air introduced from the communication unit to the cooling unit, wherein the cooling unit includes an outside air inlet through which the outside air flows, A flow path for guiding the air to the outflow port is formed in the inside air inflow port and the outflow port for discharging the introduced air to the supply port, A humidity controller disposed on the flow path of the main body to adjust humidity of the air passing through the flow path; A cooling unit disposed in front of the humidity control unit to cool the air; A temperature / humidity sensor provided in the interior of the cooling unit and in the work space to sense temperature and humidity of the air; A pressure sensor for sensing a pressure of the air discharged from the work space and the cooling unit; And a control unit for controlling the mixing amount of the outside air and the air according to the information received from the temperature / humidity sensor and controlling the blowing unit according to the information received from the pressure sensor, wherein air discharged from the cooling unit And passes through the server rack, and after passing through the server rack, is discharged through the rack connection portion and flows into the return supply portion.

The supply unit is provided at the bottom of the data center, and one side communicates with the outlet of the cooling unit to allow the air to flow from the cooling unit. The upper side of the supply unit communicates with the air introduced into the floor of the work space And a supply duct for supplying the floor to the floor of the work space.

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The return supply unit may include a ventilation duct provided in a ceiling of the data center for introducing the air in the rack space and having one side communicating with the inflow inlet of the cooling unit and supplying the introduced air to the cooling unit At this time, the ventilation duct may further include an outside air outlet communicating with the outside and discharging the introduced air to the outside.

The cooling unit may further include an outside air damper provided at the outside air inlet and adjusting the opening of the outside air inlet, and an internal damper provided at the inside air inlet to adjust the opening of the inside air inlet.

The rack connection part is provided on the upper side of the plurality of server racks to shield the rack space part. The shield part is formed with the communication hole. The one end part is in communication with the communication hole of the shield part. And a communication unit connected to the rack space unit to supply the air in the rack space unit to the return supply unit. The communication unit may have a length corresponding to the length of the server rack, and may be formed along the row of the server rack. Further, a plurality of the communicating portions may be arranged apart from each other along the row of the server rack.

The data center air conditioning system according to the present invention provides the following effects.

First, since the module itself is a unit module, it is easy to modularize, so that a plurality of modules can be connected in parallel according to the model, so that the modules can be easily expanded, and construction and maintenance are convenient.

Second, the built-up air conditioning system can achieve optimal air conditioning and can be environmentally friendly and maximize energy efficiency using outside air.

Third, by improving the cooling air flow control technology so that the cooled air is supplied directly to the work space after passing through the server rack, and by constructing a systematic system of the automatic control process, the cooling efficiency of the server rack is maintained, .

1 is a front sectional view schematically showing the configuration of an air conditioning system of a data center according to an embodiment of the present invention.
Fig. 2 is a perspective view showing the structure of the rack connection portion of Fig. 1;
3 is a perspective view showing another embodiment of the rack connection portion of FIG.
FIG. 4 is a plan view showing a case where unit modules are connected in parallel and modularized using the air conditioning system of the data center of FIG. 1 as a unit module.
Figure 5 is a side view of the modular data center air conditioning system of Figure 4;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, a data center air conditioning system 500 according to an embodiment of the present invention is installed in a data center and includes a cooling unit 100, a supply unit 200, a rack connection unit 300, And a return supply unit 400.

Before describing the configuration of the air conditioning system 500 of the data center, a plurality of server racks 10 mounted with communication devices are installed in the data center, and in detail, And a rack space portion 30 formed between the rows of the server racks 10 adjacent to each other.

The cooling unit 100 includes a main body, a humidity control unit, a cooling unit, and an air blowing unit, though not shown, for cooling and discharging the introduced air. The main body is formed with an outside air inflow opening for introducing outside air, an inside air inflow opening for introducing air from the return supplying part 400, and an outflow opening for discharging inflow air to the supplying part 200, And a flow path for guiding air to the outflow port is formed. Here, the humidity controller controls the humidity of air passing through the flow path. The cooling unit is disposed in front of the humidity control unit and serves to cool the air.

Here, the humidity controller and the cooling unit respectively regulate the humidity and the temperature of the air through the working fluid. In detail, the humidity control unit applies a structure that controls the humidity of the air by spraying the working fluid, and the cooling unit includes a heat exchange coil through which the working fluid of a predetermined temperature flows, It is preferable to apply a structure in which the fluid undergoes heat exchange and is cooled or heated.

The cooling unit 100 includes a pipe for supplying and discharging the working fluid to and from the humidity control unit and the cooling unit and a combined valve 110 provided in the pipe for controlling the flow rate of the working fluid And the combined valve 110 is installed in the cooling unit 100.

In the meantime, although the humidity control unit and the cooling unit have been described by way of example in which the operation fluid is sprayed and the heat exchange coil is applied as described above, if the above objects can be achieved, Of course, can be applied. Further, the air blowing unit is disposed on the flow path and forcedly flows the introduced air into the outflow port, and a detailed description thereof will be omitted with a similar configuration to the air blowing device.

Although not shown, the cooling unit 100 includes an outside air damper, which is provided at the outside air inflow port and adjusts the opening of the outside air inflow port, and an inside damper that is provided at the inside air inflow port and adjusts the opening of the inside air inflow port Respectively.

Further, although not shown, the air conditioning system 500 of the data center includes a temperature / humidity sensor, which is provided in the cooling unit 100 and in the work space 20 to sense the temperature and humidity of the air, A pressure sensor for sensing the pressure of the air discharged from the work space 20 and the cooling unit 100 and a control unit for controlling the outside air damper and the inside damper according to information received from the on / And a control unit for controlling the mixing amount of the outside air and the air and controlling the blowing unit according to the information received from the pressure sensor.

Accordingly, since the air conditioning system 500 of the data center has a structure in which not only temperature control but also pressure control are performed in parallel, it is difficult to obtain accurate data when controlled only by temperature. For example, But accurate information of the entire server rack 10 can be difficult to check and problems that may be partially overheated can be compensated and uniform data can be obtained as a whole and the server rack 10 can be provided with a constant flow rate The cooling of the server rack 10 and the overall air conditioning efficiency can be improved.

The supply unit 200 supplies the air discharged from the cooling unit 100 to the work space 20. In detail, the supply unit 200 is provided at the bottom of the data center, and one side communicates with the outlet of the cooling unit 100 to receive the cooled air from the cooling unit 100, And a supply duct 210 for supplying the air introduced through the bottom of the space 20 to the bottom of the work space 20.

The rack connection part 300 is provided on the upper side of the server rack 10 so as to shield the rack space part 30 and a communication hole 301 is formed, (30). The rack connection unit 300 will be described in detail later.

The return supply unit 400 communicates with the rack connection unit 300 and is connected to the cooling unit 100 to supply the air introduced from the communication hole 301 to the cooling unit 100 . In detail, the return supply unit 400 is installed in the ceiling of the data center, and air in the rack space unit 30 is introduced. One side of the air supply unit communicates with the inside air inlet of the cooling unit 100, And a ventilation duct 410 having an outside air outlet 401 communicating with the outside and discharging the introduced air to the outside so as to discharge the air to the outside as the case may be.

The supplying unit 200 and the return supplying unit 400 may further include one or a plurality of air blowing units (not shown) for forcedly flowing air, and the air blowing unit may be an air blowing device A detailed description thereof will be omitted.

 The air conditioning system 500 of the data center first supplies the air discharged from the cooling unit 100 to the work space 20 and then the air in the work space 20 The air having passed through the server rack 10 and having a temperature rising from the server rack 10 is not introduced into the work space 20 through the rack connection portion 300 but flows into the return supply portion 400 The temperature of the work space 20 can be prevented from rising, and the server rack 10 can be effectively cooled.

Hereinafter, the rack connection unit 300 will be described in detail. The rack connection part 300 includes a shielding part 310 and a communication part 320. The shielding portion 310 is provided on the upper side of the plurality of server racks 10 to shield the rack space portion 30 and has a communication hole 301 communicating with the rack space portion 30 .

In this case, the shield 310 is formed in a plate shape to cover the upper side of the server rack 10, but this is a preferred embodiment, and in addition to the above-described structure, a funnel- Can also be applied.

One end of the communication part 320 communicates with the communication hole 301 of the shield 310 to allow the air in the rack space part 30 to flow and the other end to communicate with the return supply part 400 And supplies the air in the rack space portion 30 to the return supply portion 400. [

2, the communication part 320 has a length corresponding to the length of the server rack 10 and is formed along the row of the server rack 10, Structure.

3, the plurality of communication units 330 are spaced apart from each other along the rows of the server racks 10.

At this time, the structure of each of the communication units 320 and 330 can be variously applied according to the structure of the data center, the arrangement of the server rack 10, and the like. Although the communication parts 320 and 330 are formed in a box shape in the drawing, the present invention can be applied to various shapes of ducts and circular tubes as long as it is connected to the return supply part 400 to be.

4 and 5, the air conditioning system 500 of the data center itself is a unit module, and a plurality of air conditioning systems 500 of the data center are connected in parallel to be modularized .

In detail, since it is conventionally difficult to modularize the air conditioning system of each data center in order to connect the air conditioning systems in parallel, it is difficult to modularize the system because a series of configurations including external piping and valves for supplying operating fluid must be installed. Since the air conditioning system 500 has the built-in hybrid valve 110, a plurality of air conditioning systems 500 of the data center are connected in parallel to each other, It is possible to easily expand the structure according to the embodiment of the present invention.

As described above, the air conditioning system 500 of the data center supplies the cooled air discharged from the cooling unit 100 to the work space 20 first, and then the server rack 10 The work space 20 can be separated from the work space 20 and the rack space portion 30 through the rack connection portion 300 The heated air passing through the server rack 10 is discharged directly to the return supply unit 400 without flowing into the work space 20, thereby making the work space 20 more comfortable.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10 ... server rack 20 ... workspace
30 ... rack space part 100 ... cooling unit
200 ... supply unit 210 ... supply duct
300 ... rack connection part 301 ... communication hole
310 ... shielding portions 320, 330 ... communicating portion
400 ... return supply unit 401 ... ambient air outlet
410 ... ventilation duct
500 ... Data center air conditioning system

Claims (9)

A data center air conditioning system comprising a work space in which a plurality of server racks equipped with communication devices are installed so as to be able to work by an operator and a rack space portion formed between the adjacent server racks ,
A cooling unit for cooling and discharging the introduced air;
A supply unit for supplying the air discharged from the cooling unit to the work space;
A rack connection portion provided on the upper side of the server rack for shielding the rack space portion, the rack connection portion being formed with a communication port and discharging air from the rack space portion through the communication port; And
And a return supply unit that is connected to the rack connection unit and is connected to the cooling unit and supplies the air introduced from the communication unit to the cooling unit,
The cooling unit includes:
A flow path for guiding the air to the outflow port is formed in each of the outflow port, the inflow port, A body formed therein;
A humidity controller disposed on the flow path of the main body to adjust humidity of the air passing through the flow path;
A cooling unit disposed in front of the humidity control unit to cool the air;
A temperature / humidity sensor provided in the interior of the cooling unit and in the work space to sense temperature and humidity of the air;
A pressure sensor for sensing a pressure of the air discharged from the work space and the cooling unit;
And a control unit for controlling the mixing amount of the outside air and the air according to the information received from the temperature / humidity sensor and controlling the blowing unit according to the information received from the pressure sensor,
Wherein the air discharged from the cooling unit passes through the server rack through the work space and is discharged through the rack connection unit and then flows into the return supply unit after passing through the server rack. delete The method according to claim 1,
Wherein the supply unit includes:
Wherein the air is introduced from the cooling unit and the upper side is connected to the bottom of the work space and the air flows into the floor of the work space A data center air conditioning system comprising a supply duct. The method according to claim 1,
The return supply unit includes:
And a ventilation duct provided in a ceiling of the data center for introducing air in the rack space and communicating with an indoor air inlet port of the cooling unit on one side and supplying the air to the cooling unit, . The method of claim 4,
The ventilation duct may include:
Further comprising an outside air outlet communicating with the outside and discharging the introduced air to the outside. The method according to claim 1,
The cooling unit may further include an outside air damper provided at the outside air inlet and adjusting the opening of the outside air inlet, and an internal damper provided at the inside air inlet to control the opening of the inside air inlet,
Wherein,
And controls the outside air damper and the inside damper according to information received from the on / humidity sensor to control a mixing amount of the outside air and the air. The method according to claim 1,
The rack connection portion
A shielding portion provided above the plurality of server racks for shielding the rack space,
Wherein the one end portion is in communication with the communication port of the shielding portion and the other end portion is in communication with the return supply portion to supply the air in the rack space portion to the return supply portion. The method of claim 7,
The communicating portion includes:
Wherein the server rack has a length corresponding to the length of the server rack and is formed along a row of the server rack. The method of claim 7,
The communicating portion includes:
Wherein a plurality of the racks are spaced apart from each other along a row of the server racks.

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