KR200488166Y1 - Steel Grating Panel For Computer Room - Google Patents

Abstract

This design is designed to enable the computer equipment in the mountain to be supplied uniformly to each equipment rack in the computer room, so that the cooling equipment discharged from the freezer can maintain the constant temperature and humidity without being affected by the season or the weather at all times. .

Description

TECHNICAL FIELD [0001] The present invention relates to a panel for an air conditioning system,

The present invention relates to an air conditioner panel installed in a computer room accommodating computer equipment such as an Internet data center or a traffic control center. More particularly, the computer equipment installed in the computer room is used for a season or a rainy or sunny day The present invention relates to a ventilation panel for a computer room that can uniformly supply cool air discharged from a cooler to each equipment rack of a computerized indoor computer equipment so as to maintain constant temperature and humidity without being influenced by the weather.

The computerized equipment (20) installed in the computer room is sensitive to temperature and humidity, so it should always be kept at a pleasant temperature (around 20 ℃) and humidity (around 50%) without being affected by the season or weather so as to prevent errors.

 The computer equipment 20 in the computer room is installed on the access panel 40 and the computer room air conditioning panel 30 is used instead of the access panel 40 while the two equipment racks 21 face each other Cooling air discharged from the air conditioner 10 is supplied to each equipment rack 21 of the computer 20 through the air conditioning panel 30 so that the equipment rack 21 does not overheat, And humidity so that the computer room (20) as well as the inside of the computer room can maintain the optimum temperature and humidity at all times regardless of the season and the weather. That is, the cooler 10 installed in the computer room discharges cool air to the lower portion of the access floor 40 as a lower discharge-type cooler for discharging cool air from the discharge port 11 installed in the lower portion of the cooler 10, Which is supplied to the inside of the computer room through the air conditioning panel 30 installed between the access floor 40 and the access floor 40 and is installed facing the air conditioning panel 30, The equipment racks 21 of the refrigerator 20 are supplied to the respective equipment racks 21, and the equipment racks 21 are cooled by the cooling air to maintain a constant temperature and humidity without overheating, so that the inside of the computer room can always maintain a comfortable temperature and humidity have.

Meanwhile, air warmed in the process of cooling each equipment rack 21 is discharged to the outside of the computer 20 through a discharge port (not shown) formed on the back surface of the computer 20, and is formed in the computer room ceiling The hot air sucked by the suction port (not shown) and sucked in is introduced into the air conditioner 10 through the piping (not shown), cooled again, discharged through the discharge port 11, The air cooled again by the cooling of the cooler 10 is exhausted to the outside of the computer equipment 20 → sucked into the intake port → cooled by the cooler 10 and then discharged through the discharge port 11 The cooling of each equipment rack 21 is repeated while discharging to the lower part of the access floor 40 via the air conditioning panel 30 through the air conditioning panel 30.

However, since the air-conditioning panel 30 currently used is vertically formed with all the air-direction guiding blades 31 as shown in FIG. 2, the cool air discharged from the air conditioner 10 flows only in the vertical direction of the air- As shown in FIG. 5, the supplied cold air is discharged continuously and is discharged vertically at a high speed by being pushed by the rising cold air. As a result, the cold air is sufficiently supplied to each equipment rack 21, A large amount of cold air passes through the equipment rack 21 and vertically escapes. Therefore, it is difficult to keep the temperature and the humidity of all the equipment racks 21 constant.

Also, since each computer has a difference in the amount of cool air supplied depending on the distance from the cooler and / or the static pressure, it is also difficult to keep the temperature and humidity of all the equipment racks 21 constant.

※ Prior art:

1. Korean Patent Registration No. 09611623.

2. Korean Patent Registration No. 0211912

3. Korean Utility Model Registration Application No. 2011-0003950

4. Japanese Patent No. 38702845

Therefore, it is possible to keep the inside of the computer room, which is sensitive to temperature and humidity, in a comfortable room temperature and humidity without being influenced by the season and the weather, as well as to supply cold air uniformly to all equipment racks installed vertically in the computer equipment There is a need. Furthermore, since each computing device differs in the amount of cool air supplied according to the distance from the cooler and / or the static pressure, it is also necessary to uniformly supply cool air to all equipment racks despite the difference in distance and / or static pressure.

The above problem is solved by providing a wind direction induction vane of an air conditioning panel installed in a computer room in such a manner that the wind direction guiding vanes are inclined at an angle of 30 ° to 70 ° sequentially from the front of the air conditioner panel facing the computer equipment, Plate can be developed and adhered to the lower part of the present invention air conditioning panel so that the air volume can be adjusted according to the distance from the cooler and / or the amount of heat generated by the static pressure or the equipment rack.

First, the wind direction induction vane of the air conditioning panel for the computer room is formed to be inclined at 30 ° to 70 ° sequentially from the front of the air conditioner panel facing the computer equipment. As a result, as shown in FIG. 6, By supplying cool air to the equipment rack uniformly, the heat of the equipment rack can be cooled, so that the temperature and humidity inside the computer room can always be kept comfortable.

Second, it is necessary to adjust the angle of the airflow guiding plate appropriately for each equipment rack according to the difference in the distance from the air conditioner, the degree of the static pressure, and the difference in the calorific value of each equipment rack. So that an adequate amount of cold air can be uniformly supplied to all equipment racks.

Figure 1: Internal view of the computer room
2 is a perspective view of a panel for current air conditioning and a partial enlarged view of a wind direction guiding blade
Fig. 3 is a perspective view of the present invention air conditioning panel and a partial enlarged view of a wind direction guiding blade
Fig. 4 (a) is a perspective view of the airflow guiding plate, Fig. 4 (b) is a view showing a state in which the airflow guiding plate is attached to the lower part of the panel for air conditioning, c) is a view showing that the airflow guide plate is adjusted to a desired angle by using the attachment portion
5: drawing showing the amount of cool air supplied through the present air conditioning panel to the equipment rack
Fig. 6 is a diagram showing the amount of cool air supplied through the present invention air conditioning panel to the equipment rack
Fig. 7: Plot showing the phenomenon that the cool air supplied through the current air conditioning panel without air induction plate is irregularly supplied to each equipment rack
Fig. 8 is a view showing a state in which cool air is supplied through the present invention air conditioning panel with the present design air flow guide plate. Fig. 8 (a) is a view showing a phenomenon in which cool air is uniformly supplied to each equipment rack. ) Is a diagram showing a state in which the angle of the airflow guide plate is changed according to the distance from the discharge port and the degree of the static pressure

The present invention relates to a panel for air conditioning which is capable of maintaining a comfortable temperature and humidity at all times without being influenced by season or weather, in a computer room sensitive to temperature and humidity.

Hereinafter, the present invention will be described in detail with reference to the drawings.

Fig. 1 is a perspective view of the inside of the computer room, Fig. 2 is a perspective view of a panel for current air conditioning and a partially enlarged view of a wind direction guiding blade, Fig. 3 is a perspective view of a panel for air conditioning, Fig. 4 (a) is a perspective view of the airflow guide plate, Fig. 4 (b) is a view showing a state in which the airflow guide plate is attached to the lower part of the panel for air conditioning, FIG. 5 is a view showing the amount of cool air supplied through the current air conditioning panel to the equipment rack, FIG. 6 is a view showing the amount of cool air supplied through the panel for the present invention FIG. 7 is a view showing a phenomenon in which cool air supplied through a panel for current air conditioning without an airflow induction plate is irregularly supplied to each equipment rack, and FIG. However, (A) is a view showing a state in which cool air is uniformly supplied to each equipment rack, (b) is a view showing a state in which cool air is uniformly supplied to each equipment rack, And the angles of the airflow guiding plates are changed according to the distance and the degree of static pressure.

As shown in FIG. 3, a plurality of wind direction induction blades 110 are sequentially arranged at an angle of 30 to 70 degrees from the front of the air conditioning panel 100 facing the computer equipment, And is inclined.

Therefore, the wind direction guiding vanes 110 are provided from the front of the air conditioning panel 100 so that cool air discharged from the air conditioner 10 can be uniformly transmitted to all of the equipment racks 21 stacked in the computer equipment 20 A pair of air conditioning panels 100 installed in place of the access floor 40 between the computer devices 20 after being formed obliquely at an angle of 30 ° to 70 ° gradually toward the back side, 6, the cool air discharged from the cooler 10 is discharged upward along the angle of the wind direction guiding vane 110, so that all the discharged cool air is guided to the respective equipment racks 21 The remaining cold air, except for the cold air that has flowed into the equipment rack (21) during the cold air striking the equipment rack (21) located at the lower part, 21) The cold air is continuously supplied to the equipment rack 21 continuously clunging while the remaining cold air is continuously pushed up by the cold air that is pushed up and then repeatedly raised so that the height of the computer 20 and the number of the equipment racks 21 It is possible to uniformly deliver cold air to all the equipment racks 21. Therefore, it is possible to overcome the disadvantages (see FIG. 5) in which the amount of lost cold air, which is a problem of the existing air conditioning panel, is large and utilize 100% of cold air.

However, the temperature and humidity in the computer room 20 can not be maintained at a comfortable level by simply supplying the cool air to all the equipment racks 21 by adjusting the inclination angle of the wind direction guiding blade 110.

The reason for this is that the cool air supplied from the discharge port 11 formed in the lower portion of the cooler 10 flows into the air conditioning panel 30 close to the cooler 10 as shown in FIG. The amount of cool air to be supplied to the air conditioning panel 30 located at a close distance from the air conditioner 10 becomes small before the air is sufficiently supplied in the vertical direction until the air is sufficiently supplied to the air conditioner panel 30, Due to the influence of the positive pressure (positive pressure) formed in the lower part of the access floor 40, the air conditioning panel 30 located far away from the air conditioner 10 increases the wind speed as the distance from the air outlets 11 increases, There is a problem that the amount of cool air differs in all the equipment racks 21 because the wind speed and the air flow rate vary depending on the distance from the apparatus rack 11. [

Also, since the amount of heat generated varies according to each computer 20, the amount of the cool air varies depending on the amount of heat generated by the computer 20.

8 is a view showing a state where cool air is supplied through the present invention air conditioning panel 110 to which the present invention air guide plate 120 is attached. FIG. 8 (a) FIG. 8 (b) is a view showing a state in which the angle of the airflow guide plate 120 is changed according to the distance from the discharge port 11 and the degree of the static pressure.

8 (b), in this embodiment, the airflow induction plate 120 is attached to the lower portion of each of the air conditioning panels 100 and the angle of the airflow induction plate 120 is set to a distance from the discharge port 11 and / Or the static pressure and the calorific value of the computer, so that the amount of cool air supplied to each computer 20 can be made uniform. That is, in the case of the computer 20 in which the angle of the airflow induction plate 120 is controlled within the range of 30 ° to 150 ° and the distance from the discharge port 11 is long or the heat generation amount is high, So that the amount of cool air can be reduced by adjusting the angle of the airflow guiding plate 120 as the distance from the discharge port 11 or the amount of heat generated by the computer 20 is reduced The amount of cool air can be evenly distributed to all the computer 20 as shown in FIG. 8 (a).

The angle of the airflow induction plate 120 may be adjusted by attaching the attachment portion 122 rotatably and adjusting the airflow induction vane 110 of the airflow induction plate 120 to a desired angle.

10: cooler 11: outlet
20: Computing equipment 21: Equipment rack
30: air conditioning panel 31: wind direction inducing wing
40: Access panel
100: The present invention is an air conditioning panel 110: A wind direction inducing wing
120: airflow guide plate 121: wing
122:

Claims (3)

In an air conditioning panel installed in a computer room,
Wherein the wind direction inducing vanes of the air conditioning panel are formed to be inclined at an angle of 30 ° to 70 ° sequentially from the front to the front of the air conditioning panel facing the computer equipment. The method of claim 1, wherein
Wherein a ventilation guide plate is formed on the lower portion of the air conditioning panel so that the amount of cool air can be adjusted according to the distance from the air outlet and / or the amount of heat generated by positive pressure or computer equipment. The method according to claim 2, wherein
The airflow guiding plate is capable of adjusting the angle in the range of 30 ° to 150 ° in order from the front of the discharge port in accordance with the distance from the discharge port and / or the amount of heat generated to uniform the amount of cool air supplied to each equipment rack Panel for air conditioner use.

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