KR20120070123A - Temperature control method each group of data processing room and system thereof - Google Patents

Abstract

PURPOSE: A temperature control method to control the inner temperature of each group of a computer room and a device using the same are provided to prevent power waste through supplying the cool outside air through a bypass passage in case of the temperature of each group of server racks. CONSTITUTION: A temperature control method to control the inner temperature of each group of a computer is as follows. The excess of the temperature of each group of server racks over determined temperature range is detected through receiving the temperature information from the temperature sensors installed in a plurality of server racks(11). The opening and closing of the punched floor is controlled according to the temperature information of each group of server racks.

Description

Temperature control method and group thereof in a computer room

The present invention relates to an energy management system for each group of a computer room, and more particularly to an energy management system for each group of a computer room that can adjust the temperature inside the computer room for each group of server racks.

In the energy management system for cooling the server rack, in order to cool the server rack disposed inside the computer room, an air conditioner is installed in the room to supply cold air, and the heat generated from the server rack forms an exhaust port at the top. It is designed to discharge to the outside.

Referring to FIG. 1, a plurality of server racks are arranged in the computer room at equal intervals. Here, the blue color indicates a low temperature, the red color indicates a high temperature, and it can be seen that the temperature distribution inside the computer room is unevenly formed.

However, the energy management system described above shows excellent efficiency in the cooling of the server rack where cold air discharged from the air conditioner directly affects it, but where the cold air does not reach the point of passing from green to green. The central part, which appears as a red series, has a high cooling temperature due to the high ambient temperature along with the heat from other server racks placed around the server rack before it is cooled.

Also, even in a computer room where multiple server racks are arranged, if the usage is concentrated on a specific server or if a specific server where the usage is concentrated occurs frequently in an unspecified area, the server rack in an area outside the air-cooling area of the air conditioner has a low cooling efficiency. It can not be denied that the overall power consumption increases significantly.

The present invention relates to an energy management system for each group of computer rooms, and more particularly, to a computer room that can control the temperature inside the computer room by group of server racks through opening / closing control of a perforated floor or adjusting rotational force of an air supply fan and a blowing fan. The purpose is to provide a group energy management system.

According to the present invention, a plurality of server racks and a thermo-hygrostat are installed, and a per-group temperature control method of a computer room in which perforated floors are formed on a bottom surface, wherein each group of server racks measured by temperature sensors installed in the plurality of server racks Receiving temperature information to determine whether the temperature of each group of the server rack exceeds a set temperature range and corresponding to the temperature of each group of the server rack, included in the group of the server rack exceeding a set temperature range It provides a group temperature control method of the computer room including the step of controlling the opening and closing of the perforated floor.

The opening and closing of the perforated floor may include opening the perforated floor disposed around the high temperature group in response to the temperature of the group of the server racks, and opening the perforated floor disposed around the low temperature group. Control to close.

In the temperature control method for each group of the computer room, one or a plurality of air supply fans for supplying cold air discharged from the thermo-hygrostat are installed in the lower part of the perforated floor, and an exhaust fan for suctioning warm air is installed in the ceiling of the computer room. In response to the temperature of each group of the server rack, it is possible to adjust the rotational force of the air supply fan installed around the server rack group.

Adjusting the rotational force of the air supply fan, the air supply fan to increase the rotational force of the air supply fan disposed in the vicinity of the high temperature group corresponding to the group temperature of the server rack, the air supply fan disposed in the vicinity of the low temperature group It can be adjusted to lower the rotational force.

In another aspect, the present invention is a temperature control system for each group of the computer room in which a plurality of server racks and a constant temperature and humidity chamber is installed, the perforated floor is formed on the bottom surface, a plurality of groups including at least two server racks are formed, A determination unit that receives information measured by at least one temperature sensor unit included in the groups and determines whether the set temperature range is exceeded, and is included in the group that receives the determined information and exceeds the set temperature range. It provides a temperature control system for each group of the computer room including a perforated floor opening and closing control unit for controlling the opening and closing of the perforated floor.

The perforated floor opening and closing control unit may control to open the perforated floor disposed around the high temperature group and close the perforated floor disposed around the low temperature group corresponding to the temperature of each group. have.

In the temperature control method for each group of the computer room, one or a plurality of air supply fans for supplying cold air discharged from the thermo-hygrostat are installed in the lower part of the perforated floor, and an exhaust fan for suctioning warm air is installed in the ceiling of the computer room. And a fan rotation controller configured to adjust a rotational force of an air supply fan installed around the server rack group in response to the temperature of the computer room.

The fan rotation control unit may increase the rotational force of the air supply fan disposed around the high temperature group and reduce the rotational force of the air supply fan disposed around the low temperature group corresponding to the temperature of each group of the server rack. Can be controlled.

Energy management system for each group of the computer room according to the present invention,

First, it is possible to uniformly control the overall temperature distribution inside the computer room by analyzing the temperature measured by each group by a plurality of temperature sensors in real time,

Second, when the temperature of a certain group drops significantly, it can control the opening and closing of perforated floors to provide high intensity cold air to a specific group, and can also adjust the temperature of a specific group quickly by adjusting the rotational force of the air supply fan and the blowing fan. And

Third, when the outside air temperature is lower than the set temperature, it is provided with a bypass flow path to supply the cold outside air to the room to prevent power waste, thereby reducing the cost.

1 is a temperature distribution diagram showing the temperature distribution of the computer room according to the prior art,
Figure 2a is a perspective view showing the interior of the computer room installed the temperature control system of the computer room according to the present invention,
2b is a schematic diagram showing a temperature control system according to an embodiment of the present invention;
3 is a configuration diagram showing a temperature control system shown in FIG. 2A;
4 is a configuration diagram showing a temperature control system according to another embodiment of the present invention;
FIG. 5 is a flowchart of the temperature control system shown in FIG. 4.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Figure 2a is a perspective view showing the interior of the computer room 10 is installed, the temperature control system 100 of the computer room according to the present invention, Figure 2b is a schematic diagram showing a temperature control system 100 according to an embodiment of the present invention, Figure 3 is a configuration diagram showing the temperature control system 100 shown in FIG. 2A. 2A to 3, a plurality of server racks 11 and a thermo-hygrostat 13 are installed in the computer room 10, and a perforated floor 131 is formed on a bottom surface B of the computer room 10. do.

The server rack 11 forms a plurality of groups (G, G ') by setting one or a plurality as one group, and at least one or more temperature sensors 111 in the plurality of groups (G, G'). Is provided. In an embodiment of the present invention, three server racks 11 are gathered to form one group G, and a plurality of groups G and G 'are formed, but for convenience, two groups G and G' are provided. It demonstrates by showing.

The server rack 11 disposed among the three server racks 11 included in the first group G is provided with a temperature sensor 111. The temperature sensor unit 111 may include a temperature sensor and a humidity sensor.

The server rack 11 is cold air is introduced into the front portion, the introduced cold air is warmed as the temperature rises and is discharged to the rear portion. Therefore, the perforated floor 131 is formed on the front surface bottom surface (B) of the server rack (11).

The warm air discharged from the server rack 11 is sucked through the exhaust fan 143 provided in the ceiling T of the computer room 10 and recovered by the thermo-hygrostat 13. Of course, the warmth sucked through the ceiling (T) of the computer room 10 can be configured to be discharged to the outside.

The thermo-hygrostat 13 may be disposed regardless of the indoor or outdoor of the computer room 10, and the upper portion of the thermo-hygrostat 13 is connected to the ceiling T of the computer room 10 to be sucked from the exhaust fan 143. The warmth is supplied, the lower portion of the thermo-hygrostat 13 is connected to the bottom surface (B) of the computer room 10, that is, the bottom of the perforated floor 131 is formed, through the air supply fan 141 Cold air is supplied to the upper side of the floor 131.

As shown in FIG. 2B, the temperature control system 100 for each group of the computer room may determine whether the temperature information measured by the temperature sensor 111 provided in the server rack 11 exceeds a set temperature range. 120, a perforated floor opening / closing control unit 130 for controlling the opening and closing of the perforated floor included in the group exceeding a set temperature range, and a fan rotation control unit 140 for controlling the rotational force of the air supply fan 141. Although not shown in Figures 2a and 3, the temperature control system 100 for each group of the computer room is installed in the lower portion of the perforated floor.

The temperature control system 100 for each group of the computer room provides the temperature control system 100 with temperature information measured from the temperature sensor unit 111 provided with at least one of the groups G and G '. The opening and closing of the perforated floor 131 is determined according to the temperature degree measured by the temperature sensor 111, and the opening and closing of the hole formed in the perforated floor is controlled by the perforated floor opening / closing control unit 130.

 More specifically, the determination unit 120 receives the temperature information of each group from the temperature sensor unit 111 installed in the server rack 11 in the computer room, the temperature of each group is a set temperature range Determine if is over or below set temperature range.

The perforated floor opening and closing control unit controls the opening and closing of the perforated floor 131 disposed on the bottom surface (B) of each server rack.

The perforated floor opening and closing control unit 130 opens the perforated floor 131 around the group including the temperature sensor unit 111 that exceeds the set temperature range in response to the information received from the determination unit 120. The opening degree of the hole formed in the perforated floor 131 around the group including the temperature sensor unit 111 that exceeds the set temperature range can be controlled.

Therefore, the perforated floor opening / closing control unit opens the perforated floor 131 when the temperature is determined to be higher than the set temperature range in response to the temperature of each group, and determines that the temperature is within the set temperature range. Upon receiving, the perforated floor 131 is controlled to close.

In addition, the temperature control system 100 for each group of the computer room may adjust the temperature depending on whether the perforated floor 131 is opened or closed, but by the rotational force of the air supply fan 141 disposed under the perforated floor 131. I can regulate it.

Therefore, the fan rotation controller 140 increases the rotational force of the air supply fan 141 when it is determined that the temperature exceeds the set temperature range in response to the temperature of each group, and the temperature is within the set temperature range. And when it is determined that the information is determined to control to reduce the rotational force of the air supply fan 141.

In addition, the temperature control system 100 for each group of the computer room is configured to supply the outdoor air to the air supply fan using the power of the air supply fan 141 when the temperature of the outdoor air is lower than the set temperature range set in the determination unit 120. The air flow is controlled to allow the cold air to flow into the perforated floor 131 through the bypass flow path 150 that communicates with the outdoor unit 141.

The bypass flow path 150 may reduce the power consumption by supplying the external air having a low temperature without operating the thermo-hygrostat 13 when the temperature of the outdoor air in winter is lower than the temperature of the indoor air of the computer room 10. There is an effect that can reduce the cost.

4 is a schematic diagram showing a temperature control system 100 according to another embodiment of the present invention, and FIG. 5 shows a flowchart of the temperature control system shown in FIG. The same reference numerals according to the following components represent the same components as the aforementioned components.

4 and 5, a brief description of the difference between an embodiment of the present invention and a plurality of blowing fans 145 is provided below the perforated floor 131.

The blowing fan 145 may receive rapid air discharged from the air supply fan 141 to realize rapid cooling through the perforated floor 131. At this time, the blower fan further comprises a rotation control unit (not shown) for adjusting the rotational force of the fan (145).

The fan rotation control unit 140 and the blowing fan rotation control unit may be controlled, respectively, by controlling the fan rotation control unit 140 and the blowing fan rotation control unit at the same time the air supply fan 141 and the blowing fan 145 It can be controlled to work in conjunction.

In addition, the blowing fan rotation control unit controls the blowing fan 145 to adjust the strength of the cold air output to the perforated floor 131, the fan rotation control unit 140 is discharged from the thermo-hygrostat 13 Control the rotational force of the air supply fan 141 to supply the air to the blower fan 145, determine whether to supply the external air introduced through the bypass flow path 150, and supply the external air to the blower fan 145. By controlling the rotational force of the air supply fan 141 to share the function of each of the blowing fan rotation control unit and the fan rotation control unit.

Therefore, the rotational force of the blower fan 145 may be increased in response to the rotational force of the air supply fan 141 around the group of the server racks 11 that exceed the set temperature, thereby providing a faster cooling effect.

Hereinafter, a temperature control method for each group of a computer room according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The temperature control method for each group of the computer room according to the present invention includes the steps of receiving temperature information for each group of the server rack from the temperature sensor unit 111 (S10), and whether the received temperature information exceeds a set temperature range And determining (S20) and controlling the opening and closing of the perforated floor corresponding to the group of the server racks exceeding a set temperature range (S30).

In step S30 of controlling the opening and closing of the perforated floor, the control unit is configured to open the perforated floor 131 corresponding to the group of the server racks in which the information provided from the determination unit exceeds a set temperature range, and the determination. Control to close the perforated floor 131 corresponding to the group of the server rack that the information provided from the unit is less than the set temperature range.

In addition, the temperature control method for each group of the computer room includes the step (S40) of controlling the rotational force of the air supply fan 141 corresponding to the temperature of each group of the server rack.

In step S40 of controlling the rotational force of the air supply fan 141, the rotational force of the air supply fan 141 is increased in response to the group of the server racks in which the information provided from the determination unit exceeds a set temperature range. The control unit controls the rotational force of the air supply fan 141 to correspond to the group of the server racks having the information provided from the determination unit being below a set temperature range.

The temperature control method for each group of the computer room includes controlling to supply outside air to the lower portion of the perforated floor 131 by using the power of the air supply fan 141 when the outdoor temperature is less than or equal to a predetermined temperature (not shown). do.

The controlling to supply the outside air may include an outdoor temperature sensor (not shown) for measuring the outdoor temperature (not shown), and whether the outside air is supplied by the air supply fan 141 according to the measured temperature. And a step (not shown), and a bypass flow path 150 communicating with the outside to control the outside air to be supplied to the bypass flow path 150 when the outdoor temperature is lower than the set temperature. do.

Therefore, when the temperature is lowered since late autumn and the external temperature is lower than the room temperature of the computer room 10, the external air is introduced without the supply of cold air to the thermo-hygrostat 13, thereby reducing power consumption and reducing costs.

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.

100: temperature control system 111: temperature sensor
120: determination unit 130: perforated floor opening and closing control unit
131: perforated floor 140: fan rotation control unit
141: supply fan 143: exhaust fan
145: blower fan 150: bypass flow path
10: computer room 11: server rack
13: thermo-hygrostat

Claims (8)

In the temperature control method for each group of the computer room in which a plurality of server racks and a constant temperature and humidity chamber is installed, the perforated floor is formed on the bottom surface,
Receiving temperature information for each group of the server racks measured from temperature sensors installed in the plurality of server racks and determining whether the temperature for each group of the server racks exceeds a set temperature range; And
And controlling the opening and closing of the perforated floor included in the group of the server racks exceeding a set temperature range in response to the group temperature of the server rack. The method according to claim 1,
Controlling the opening and closing of the perforated floor,
Group temperature control method of the computer room for controlling the opening of the perforated floor disposed in the vicinity of the high temperature group and closes the perforated floor disposed in the vicinity of the low temperature group corresponding to the group temperature of the server rack . The method according to claim 2,
One or a plurality of air supply fans for supplying the cold air discharged from the thermo-hygrostat is installed at the lower part of the perforated floor, and an exhaust fan for sucking the warmth is installed at the ceiling of the computer room.
And adjusting the rotational force of the air supply fan installed around the server rack group in response to the group rack temperature of the server rack. The method according to claim 3,
Adjusting the rotational force of the air supply fan,
Group-by-group of the computer room to increase the rotational force of the air supply fan disposed in the vicinity of the high temperature group, and to lower the rotational force of the air supply fan disposed in the vicinity of the low temperature group corresponding to the group temperature of the server rack Temperature control method. In the temperature control system for each group of the computer room in which a plurality of server racks and a constant temperature and humidity chamber is installed, and a perforated floor is formed on the bottom surface,
A determination unit configured to form a plurality of groups including at least two server racks, and to determine whether the set temperature range is exceeded by receiving information measured by a temperature sensor unit including at least one of the server racks; And
And a perforated floor opening / closing control unit for controlling the opening and closing of the perforated floor included in the group in response to receiving the information of the determination unit. The method according to claim 5,
The perforated floor opening and closing control unit,
A computer-specific group temperature control system for controlling the opening of the perforated floor disposed in the vicinity of the group having a higher temperature and closing the perforated floor disposed in the vicinity of the group having a lower temperature corresponding to each of the group-specific temperatures. The method of claim 6,
One or a plurality of air supply fans for supplying the cold air discharged from the thermo-hygrostat is installed at the lower part of the perforated floor, and an exhaust fan for sucking the warmth is installed at the ceiling of the computer room.
And a fan rotation controller configured to adjust a rotational force of an air supply fan installed around the server rack group in response to the temperature of the computer room. The method of claim 7,
The fan rotation control unit,
Group-by-group of the computer room controlling to increase the rotational force of the air supply fan disposed in the vicinity of the high temperature group corresponding to the group temperature of the server rack, and to lower the rotational force of the air supply fan disposed in the vicinity of the low temperature group Temperature control system.

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