JP5346514B2 - Air conditioning system for computer room - Google Patents

Description

  The present invention relates to a computer room air conditioning system.

Conventionally, various air conditioning systems for adjusting the air flow and temperature in a certain space have been proposed.
Among these air conditioning systems, air conditioning for computer rooms that adjusts the flow and temperature of air around the equipment in computer rooms where OA equipment and communication devices, etc. that tend to be highly integrated and heat-generating are installed. The system is known.
The computer room air conditioning system includes a plurality of equipment storage racks arranged opposite to each other across the passage, and an air conditioner disposed on the side of the equipment storage rack and facing the passage. There is.

Under such a configuration, when the air conditioning apparatus discharges the cooling air downward, the cooling air is sent to the passage and sucked into the equipment housing rack. Then, the cooling air is warmed by cooling the equipment housed in the equipment housing rack, and then blown out from the equipment housing rack. Then, the warmed and blown air flows through the upper space of the computer room, is sucked into the air conditioner, and is cooled and discharged again.
Thereby, the flow and temperature of the air in the computer room are controlled.

However, a portion of the air that has been warmed and blown out from the equipment housing rack may be directly returned to the passage from the upper space without being sent to the air conditioner. In that case, the air recirculated to the passage is sucked into the equipment housing rack again in a warmed state, thereby reducing the cooling efficiency of the equipment.
Therefore, a shielding plate is provided over the upper surface of the passage between the opposing equipment storage racks, and a wall is provided at the end of the passage to seal the passage space so that warm air is not mixed into the passage space. A configuration is proposed (see, for example, FIG. 9 of Patent Document 1).
Japanese Patent No. 3833515

By the way, in the computer room in which the OA equipment, the communication device and the like are installed as described above, an inert gas supply device for blowing an inert gas such as nitrogen gas at a high pressure is provided as a fire extinguishing equipment. However, as described above, when the passage space between the equipment-accommodating racks is sealed, even if inert gas is blown out from the outside of the passage by the inert gas supply device, the passage space is inactive. There was a problem that it was difficult to introduce gas.
Further, in the case where the passage space between the equipment housing racks is sealed, if the cooling air is not blown into the passage space due to malfunction of the air conditioner or the like, there is no flow of air from the outside, and the passage space The inside is in a negative pressure state. As a result, the low-strength portions of the shielding plates, wall portions, equipment housing racks and the like forming the passage space may be damaged.
On the other hand, when an air gap or the like is formed so that inert gas blown out of the passage or outside air is introduced into the passage space, air warmed from the air gap may enter the passage space. Thus, the cooling efficiency is lowered despite the fact that the folding angle, the shielding plate and the wall are provided. Thus, conventionally, there has not been provided an air conditioning system for a computer room that achieves both improvement in cooling efficiency and introduction of gas from the outside.

  This invention is made in view of such a situation, Comprising: The air warmed by cooling the apparatus accommodated in the apparatus accommodation rack mixes in the passage space between the apparatus accommodation racks. Air conditioning system for computer room that can improve the cooling efficiency and can introduce gas outside the passage (such as air and inert gas mentioned above) into the passage space as needed The purpose is to provide.

In order to solve the above problems, the present invention provides the following means.
The present invention is an apparatus accommodation rack installed on both sides of a passage having an internal space under the floor in a computer room, supplying air from the front surface and blowing out heated air from the upper surface or the rear surface, and an air conditioner. The cooling air blown out from the air conditioner flows through the internal space and further flows from the hole provided in the passage onto the floor of the passage, and the cooling air is accommodated in the rack. An air conditioning system for a computer room that cools the installed equipment and then flows through the space above the rack and is sucked back into the air conditioner, and is disposed between the upper surfaces of the racks on both sides across the passage. And an end shield provided at an end of the passage, and a passage space is defined by the upper shield and the end shield, and the upper shield and Less edge shield Also in part, an openable and closable and the gas inlet portion is provided, which is configured to introduce the external gas into the passage space from the gas inlet, internal balloon pressure and the passage space of the external gas And a controller for opening the gas inlet by detecting the pressure of the gas .

In addition, the present invention provides a device housing rack installed on both sides of a passage having an internal space under the floor in a computer room, supplying air from the front surface and blowing out heated air from the upper surface or the rear surface, and an air conditioner. And cooling air blown out from the air conditioner flows through the internal space and further flows from the holes provided in the passage onto the floor of the passage, and the cooling air is supplied to the rack. An air conditioning system for a computer room that cools the equipment housed in the rack and then flows through the space above the rack and is sucked back into the air conditioner, between the upper surfaces of the racks on both sides across the passage. And an end shield provided at an end of the passage, and a passage space is defined by the upper shield and the end shield. Body and edge shield At least a part of the gas introduction part that can be opened and closed is provided, and an external gas is introduced into the passage space from the gas introduction part. The blade plates are arranged in parallel so as to be swingable, and the gas introduction part is configured to be opened and closed by the plurality of blade plates .

In addition, the present invention provides a device housing rack installed on both sides of a passage having an internal space under the floor in a computer room, supplying air from the front surface and blowing out heated air from the upper surface or the rear surface, and an air conditioner. And cooling air blown out from the air conditioner flows through the internal space and further flows from the holes provided in the passage onto the floor of the passage, and the cooling air is supplied to the rack. An air conditioning system for a computer room that cools the equipment housed in the rack and then flows through the space above the rack and is sucked back into the air conditioner, between the upper surfaces of the racks on both sides across the passage. And an end shield provided at an end of the passage, and a passage space is defined by the upper shield and the end shield. Body and edge shield At least a part of the gas introduction part that can be opened and closed is provided, and an external gas is introduced from the gas introduction part into the passage space. A control unit that senses an internal pressure and opens the gas introduction unit is provided, and a plurality of strip-shaped blades are slidably arranged in parallel in the gas introduction unit, and the gas introduction unit includes a plurality of gas introduction units. It is set as the structure opened and closed by the said slat .

Further, according to the present invention, when the vane swings toward the inside of the passage space, the gas introduction portion is opened, and when the vane swings toward the outside of the passage space, the gas introduction portion is opened. It is set as the structure closed .

Further, the present invention is characterized in that the slats are configured to swing by the blowing pressure of the external gas .

Further, the present invention is configured such that the gas introduction part is opened and closed by a roll screen having a storage part and a sheet part wound around the storage part and arranged so as to be able to protrude and retract from the storage part. It is characterized by being.

Further, the present invention is characterized in that the upper shield includes a side wall portion extending upward from the upper surface of the rack and a top plate portion passed over the side wall portion. And

Further, the present invention is characterized in that the gas introduction part is provided in a part of the side wall part .

Further, the present invention is characterized in that the gas introduction part is provided in a part of the end shield .

According to the present invention, the passage space is hermetically sealed by the upper shield disposed between the upper surfaces of the racks on both sides across the passage, and the end shield provided at the end of the passage. Further, it is possible to prevent the air warmed by cooling the device accommodated in the device accommodation rack from being mixed into the passage space between the device accommodation racks, thereby improving the cooling efficiency.
Furthermore, at least a part of the upper shield and the end shield is provided with a gas introduction part that can be freely opened and closed. The gas introduction part is opened by a pressure difference between the outside and the inside of the passage space, and the passage. Since the external gas is introduced into the interior, it is possible to introduce the external gas in the passage space into the passage space as necessary.

(Embodiment 1)
Hereinafter, an air conditioning system for a computer room according to a first embodiment of the present invention will be described with reference to the drawings.
A computer room air conditioning system 100 shown in FIG. 1 is used in a computer room 101 formed in a box shape.
First, the computer room 101 will be described.
The computer room 101 includes a double floor 2 having an internal space 5 under the floor. A passage 4 extending in the longitudinal direction is formed in the double floor 2. The double floor 2 is formed with a rectangular long hole 8 penetrating in the thickness direction. A rectangular plate-shaped perforated panel 7 covering the long hole 8 is fitted over the entire circumference of the edge of the long hole 8. The perforated panel 7 has a plurality of holes penetrating in the thickness direction. Thereby, the internal space 5 and the passage 4 under the floor communicate with each other through the plurality of holes.

Next, the computer room air conditioning system 100 used in the computer room 101 will be described.
The computer room air conditioning system 100 is arranged between the upper surfaces of the racks (equipment housing racks) 3 that are opposed to each other across the passage 4, the air conditioner 6, and the racks 3 on both sides across the passage 4. The upper shield 10 and the end shield 40 provided at the end of the passage 4 are provided. The rack 3, the upper shield 10, and the end shield 40 define the passage space S. Has been.

  The rack 3 is formed in a box shape and accommodates various devices such as communication devices. A plurality of these racks 3 are arranged along the longitudinal direction of the passage 4. The rack 3 supplies air in the passage space S from an air supply port (not shown) formed on opposing surfaces facing each other, and the supplied air is directed upward or rearward from the upper surface 3a or the rear outlet. To blow out.

  The air conditioner 6 is formed in a box shape. The air conditioner 6 is disposed outside the passage space S on the side of the rack 3 and facing one end in the longitudinal direction of the passage 4. The air conditioner 6 blows out cooling air from the outlet on the lower surface 6b, sucks the air flowing in the upper space of the computer room 101 from the suction port on the upper surface 6a, cools it, and then blows again. It comes to blow out from.

As shown in FIGS. 1 and 2, the upper shield 10 includes a side wall portion 30 extending upward from the upper surface of the rack 3, and a top plate portion 20 passed over the side wall portion 30. It has.
The top plate portion 20 includes a frame body 21 and a roll screen 22 attached to the frame body 21, and an opening portion opened and closed by the roll screen 22 is a first gas introduction portion ( Gas introduction part) 11.

  As shown in FIG. 3, the roll screen 22 includes a rectangular sheet portion 23, an accommodating portion 24 that accommodates the sheet portion 23, and a rod-shaped end rail 25 that is provided over the entire length of the front end side of the sheet portion 23. And. The sheet | seat part 23 consists of nonflammable members, such as a glass cloth, for example. The sheet portion 23 is wound around a winding portion (not shown) in the accommodating portion 24. The winding part is urged in the direction of winding the sheet part 23 by an urging member or the like.

The accommodating portion 24 is formed in a box shape, and a slit extending in the longitudinal direction is formed. The end rail 25 is formed to have a diameter larger than the width dimension of the slit, and is configured so that the entire seat portion 23 does not enter the accommodating portion 24.
Further, a rectangular shielding sheet 26 that covers a gap between the sheet portion 23 and another sheet portion 23 adjacent in the width direction is attached. The shielding sheet 26 is made of an incombustible member such as a glass cloth. Furthermore, a hook-and-loop fastener part (not shown) is provided at both ends of the shielding sheet 26 in the short direction, and the hook-and-loop fastener part is detachably attached to the sheet part 23.

In the roll screen 22 having such a configuration, the housing portion 24 is fixed to one side of the frame body 21 of the top plate portion 20, and the hooking hook provided on the side opposite to the one side to which the housing portion 24 is fixed. 27, the end rail 25 is hooked to close the opening of the top plate 20, that is, the first gas inlet 11.
The latching hook 27 is configured to be swingable so that the latching of the end rail 25 can be released. The swinging motion of the hook 27 is controlled by a control unit 28 to which a pressure sensor 29A for detecting the pressure Po outside the passage space S and a pressure sensor 29B for detecting the pressure Pi inside the passage space S are connected. ing. As shown in FIG. 4, when the pressure Po outside the passage space S becomes higher than the pressure Pi inside the passage space by a predetermined value Ps or more, the control unit 28 swings the latching hook 27 to end the pressure. The latch of the rail 25 is cancelled | released and it is set as the structure which open | releases the 1st gas introduction part 11. FIG.

As shown in FIG. 2, the side wall portion 30 includes a frame body 31 and a blind portion 32 attached to the frame body 31, and an opening portion that is opened and closed by the blind portion 32 is in this embodiment. The second gas introduction unit 12 (gas introduction unit) is used.
As shown in FIG. 5, the blind portion 32 includes a plurality of belt-like blade plates 33, a support portion 34 that supports the blade plates 33 in a swingable manner, and a fixing portion 35 that fixes the plurality of support portions 34. It is equipped with. In the present embodiment, the blades 33 are arranged so as to extend in the horizontal direction, and the plurality of blades 33 are arranged in parallel in the vertical direction.
Further, the length of the blade plate 33 is set to be substantially the same as the interval between the support portions 34, and is normally configured not to swing by the fixing portion 35.

  The fixing unit 35 is controlled by a control unit 38 to which a pressure sensor 39A that detects a pressure Po outside the passage space S and a pressure sensor 39B that detects a pressure Pi inside the passage space S are connected. As shown in FIG. 6, when the pressure Po outside the passage space S becomes higher than the pressure Pi inside the passage space by a predetermined value Ps or more, the control unit 38 releases the fixed portion 35 and the vane plate 33. Can be swung, and the vane plate 33 is swung toward the inside of the passage space S due to the pressure difference between the inside and the outside of the passage space S, so that the second gas introduction part 12 is opened. Become.

  As shown in FIG. 7, the end shield 40 is disposed so as to close the end of the passage 4, and includes a frame 41, a panel 42 that closes the opening of the frame 41, and the frame 41. And a blind part 43 provided in the lower part. The opening part opened and closed by the blind part 43 is the third gas introduction part 13 (gas introduction part) in the present embodiment.

As shown in FIG. 8, the blind portion 43 includes a plurality of strip-like blade plates 44 and a support portion 45 that supports the blade plates 44 in a swingable manner. In the present embodiment, the blades 44 are arranged so as to extend in the horizontal direction, and the plurality of blades 44 are arranged in parallel in the vertical direction.
Here, the longitudinal direction (vertical direction in FIG. 8) length of the blade plate 44 is set to be longer than the interval between the support portions 45 arranged in parallel, and the lower end of the blade plate 44 is adjacent to the lower support portion. The third gas introduction part 13 is configured to be closed by contacting the 45 passage space S side.

  This blind part 43 is not provided with a drive part, and is configured to open and close by a pressure difference between the inside and outside of the passage space S. On the other hand, when the external gas is blown out, since the pressure Pi inside the passage space S is lower than the external pressure Po, the vane plate 44 moves inward of the passage space S as shown in FIG. The third gas introduction part 13 is opened like a slit.

Next, the operation of the air conditioning system 100 for a computer room according to this embodiment configured as described above will be described.
In the computer room 101, a communication device or the like housed in the rack 3 operates to generate heat, and these devices are heated. Therefore, it is necessary to cool each operating device.
Therefore, cooling air is blown out into the internal space 5 from the outlet of the lower surface 6 b of the air conditioner 6. This cooling air is blown upward (passage 4) from the plurality of holes of the perforated panel 7 through the internal space 5. And the cooling air sent to the channel | path 4 is supplied from the air inlet of the front surface of the rack 3, and cools each apparatus by a heat exchange effect | action. Thereby, the supplied air is warmed and becomes hot air. The hot air is blown upward from the upper surface 3a of the rack 3 or the air outlet on the rear surface. Further, the hot air blown out flows in the upper space of the computer room 101, is sucked from the suction port on the upper surface 6 a of the air conditioner 6, cooled, and then blown out from the blower outlet on the lower surface 6 b again.
Thereby, the flow and temperature of the air in the computer room 101 are controlled, and the favorable operation state of each apparatus is maintained.

By the way, the hot air blown from the upper surface 3 a or the rear surface of the rack 3 may be returned to the passage 4 and supplied from the front surface of the rack 3 before being supplied to the air conditioner 6.
However, in the present embodiment, the rack includes an upper shield 10 disposed between the upper surfaces of the racks 3 on both sides of the passage 4, and an end shield 40 provided at an end of the passage 4. 3. Since the passage space S is defined by the upper shield 10 and the end shield 40, the hot air on the upper surface of the rack 3 is restricted from flowing into the passage space S. That is, the passage space S is always filled with cooling air from the floor of the double floor 2 to the top plate portion 20 of the upper shield 10.

Further, the cooling air in the passage 4 may be directly sucked into the air conditioner 6 without being supplied to the rack 3.
However, in the present embodiment, the end shield 40 is disposed so as to close the end of the passage 4 and the air conditioner 6 is installed outside the passage space S. The cooling air that has been blown out is restricted from flowing into the installation space of the air conditioner 6.

Further, the computer room 101 is provided with an inert gas supply device (not shown) that blows off an inert gas such as nitrogen gas at a high pressure as fire extinguishing equipment. When this inert gas supply device operates, the pressure Po outside the passage space S increases.
Here, in the present embodiment, the first gas introduction part 11 provided in the top plate part 20 of the upper shield 10 is closed by the sheet part 23 unwound from the accommodating part 24 of the roll screen 22. . Then, the swinging motion of the latching hook 27 that latches the end rail 25 provided at the front end side of the seat portion 23 causes the pressure sensor 29A for detecting the pressure Po outside the passage space S and the inside of the passage space S. Since the control unit 28 is connected to the pressure sensor 29B that detects the pressure Pi, the pressure Po outside the passage space S is higher than the pressure Pi inside the passage space by a predetermined value Ps or more. In this case, the latching hook 27 swings and the latching of the end roll 25 is released, the first gas introduction part 11 is opened, and the inert gas is introduced into the passage space S.

  Moreover, in this embodiment, the 2nd gas introduction part 12 provided in the side wall part 30 of the upper shielding body 10 is the support part which supports the several strip | belt-shaped blade board 33 and this blade board 33 so that rocking | fluctuation is possible. 34 and a fixing portion 35 that fixes the plurality of support portions 34 are closed by a blind portion 32, and the swing of the plurality of blade plates 33 detects the pressure Po outside the passage space S. Since the pressure sensor 39A and the pressure sensor 39B for detecting the pressure Pi inside the passage space S are controlled by the control unit 38 connected thereto, the pressure Po outside the passage space S is set inside the passage space. When the pressure Pi becomes higher than the predetermined value Ps by more than the predetermined value Ps, the blade plate 33 swings, the second gas introduction part 12 is opened, and the inert gas is introduced into the passage space S.

  Furthermore, in the present embodiment, the third gas introduction unit 13 provided in the end shield 40 includes a plurality of strip-shaped blades 44 and a support unit 45 that supports the blades 44 so as to be swingable. Since these blades 44 are configured to swing due to the pressure difference between the inside and the outside of the passage space S, the passage space S is blown by the blowing of inert gas. When the external pressure becomes somewhat higher than the pressure inside the passage space S, the vane plate 44 swings toward the inside of the passage space S, the third gas introduction part 13 is opened, and the inert gas passes through the passage. It will be introduced into the space S.

Further, when the air conditioner 6 or the like breaks down and the blowing of cooling air to the passage space S stops, the upper shielding plate that forms the passage space S due to negative pressure inside the passage space S 10, the end shield 40, the rack 3, etc. may be damaged at low strength.
Even in such a case, according to the present embodiment, the third gas introduction portion 13 provided in the end shield 40 swings due to the pressure difference between the inside and the outside of the passage space S. The blade portion 44 is swung toward the inside of the passage space S, the third gas introduction portion 13 is opened, and the air outside the passage space S is in the passage space S. The negative pressure state can be eliminated.

From the above, according to the computer room air conditioning system 100 of the present embodiment, air that has been warmed by cooling the equipment accommodated in the rack 3 is prevented from entering the passage 4 between the racks 3. The cooling efficiency can be improved.
Furthermore, the upper shield 10 and the end shield 40 are provided with first, second, and third gas introduction portions 11, 12, and 13 that can be opened and closed. These first, second, and third gas introductions are provided. Since the parts 11, 12, and 13 are configured to be opened according to the pressure Po outside the passage space S and the pressure Pi inside the passage space S, the gas is supplied from the outside of the passage space S as necessary. It can be introduced into the passage space S.
In particular, in this embodiment, since the second gas introduction part 12 is provided in the side wall part 30, when the inert gas supply device is provided in the ceiling part of the computer room 101, the inert gas is efficiently inactivated. Gas can be introduced into the passage space S.

(Embodiment 2)
Next, a second embodiment of the present invention will be described.
FIG. 9 shows a second embodiment of the present invention.
In FIG. 9, the same components as those shown in FIGS. 1 to 8 are denoted by the same reference numerals, and the description thereof is omitted.
This embodiment and the first embodiment have the same basic configuration, and different points will be mainly described here.

The second gas introduction part 212 provided on the side wall part 230 of the upper shield in the present embodiment is configured to be closed by the roll screen 232.
Here, the roll screen 232 includes a rectangular sheet portion 233, an accommodating portion 234 that accommodates the sheet portion 233, and a rod-shaped end rail 235 provided over the entire length of the front end side of the sheet portion 233. .

The roll screen 232 is provided separately for each rack 3, and the sheet portion 233 is attached with a rectangular shielding sheet 236 that covers a gap between other sheet portions 233 adjacent in the width direction. It has become. Furthermore, the hook-and-loop fastener part is provided in the both ends of the transversal direction of the shielding sheet 236, and this hook-and-loop fastener part is attached to the sheet | seat part 233 so that attachment or detachment is possible.
In the roll screen 232 having such a configuration, the accommodating portion 234 is fixed to one side of the frame body of the side wall portion 230, and the end rail 235 is hooked to a hooking hook (not shown) installed on the upper surface of the rack 3. Thus, the opening of the side wall part 230, that is, the second gas introduction part 212 is closed.
The latching hook is swingable, and is configured so that the latched end rail 235 can be released. The swinging motion of the hook is controlled by a control unit to which a pressure sensor that detects the pressure Po outside the passage space S and a pressure sensor that detects the pressure Pi inside the passage space S are connected. As shown in FIG. 4, when the pressure Po outside the passage space S is higher than the pressure Pi inside the passage space by a predetermined value Ps or more, the control unit swings the latching hook to end rail 235. Is released, and the second gas introduction part 212 is opened.

As described above, according to the computer room air conditioning system 200 in the present embodiment, the same effects as those of the first embodiment described above can be obtained.
Moreover, as shown in FIG. 9, even if the racks 3 having different height dimensions are installed adjacent to each other, the upper space of the rack 3 and the space of the passage 4 can be partitioned without a gap. Therefore, the upper shield 10 can be easily installed.

(Embodiment 3)
Next, a third embodiment of the present invention will be described.
FIG. 10 shows a third embodiment of the present invention.
10, the same components as those shown in FIGS. 1 to 8 are denoted by the same reference numerals, and the description thereof is omitted.
This embodiment and the first embodiment have the same basic configuration, and different points will be mainly described here.

The upper shield 310 in this embodiment does not have a side wall portion, and is configured such that the top plate portion 320 is passed to the upper portion of the rack 3. The top plate part 320 is provided with a first gas introduction part closed by a roll screen as in the first embodiment.
In addition, the end shield 340 is provided with a door 347 so that it can enter and exit the passage space S.

As mentioned above, according to the air conditioning system 300 for computer rooms in this embodiment, there can exist an effect similar to the said 1st Embodiment.
Moreover, since it does not have a side wall part, the upper shielding body 310 becomes a simple structure, and the upper shielding body 310 can be installed easily.

The computer room air conditioning system according to an embodiment of the present invention has been described above. However, the technical scope of the present invention is not limited to this, and is appropriately changed without departing from the technical idea of the present invention. Is possible.
For example, the first gas introduction part is provided in the top plate part of the upper shield, the second gas introduction part is provided in the side wall part, and the third gas introduction part is provided in the end shield. There is no limitation, and it is only necessary that the gas introduction part is provided in part of the upper shield and the end shield.

Moreover, although it demonstrated as what provided the 3rd gas introduction part in the lower part of the edge part shield, it is not limited to this, For example, as shown in FIG. 11, the edge part shield 440 is comprised with a roll screen. Alternatively, as shown in FIG. 12, the end shield 540 may be configured by a blind portion.
Furthermore, although it has been described that the slats are swayed by the pressure difference between the inside and the outside of the passage space S as the blind part, the present invention is not limited to this. Also good. Further, as shown in FIG. 13, the blind portion 732 may have a configuration in which a swing support portion 734 is provided at the longitudinal center of the blade plate 733.

  Further, the control unit has been described as a configuration in which the gas introduction unit is opened by detecting the pressure outside the passage space and the pressure inside the passage space, but the present invention is not limited to this. It is good also as a structure which detects the rate or the failure signal of an air conditioning apparatus etc., and opens the required part of a gas introduction part.

BRIEF DESCRIPTION OF THE DRAWINGS It is a whole block diagram which shows 1st Embodiment of the air conditioning system for computer rooms which concerns on this invention. It is a perspective view which shows the upper shielding body with which the computer room air conditioning system shown in FIG. 1 was equipped. It is explanatory drawing which shows the structure of the roll screen with which the upper shielding body shown in FIG. 2 was equipped. FIG. 4 is a control flow diagram of the roll screen shown in FIG. 3. It is explanatory drawing which shows the structure of the blind part with which the upper shielding body shown in FIG. 2 was equipped. It is a control flow figure of the blind part shown in FIG. It is a perspective view which shows the edge part shielding body with which the computer room air conditioning system shown in FIG. 1 was equipped. It is explanatory drawing which shows the structure of the blind part with which the edge part shield shown in FIG. 7 was equipped. It is a perspective view which shows the structure of the side wall part in 1st Embodiment of the air conditioning system for computer rooms which concerns on this invention. It is a whole block diagram which shows 3rd Embodiment of the air conditioning system for computer rooms which concerns on this invention. It is a perspective view which shows the other structure of the edge part shielding body of the air conditioning system for computer rooms which concerns on this invention. It is a perspective view which shows the other structure of the edge part shielding body of the air conditioning system for computer rooms which concerns on this invention. It is explanatory drawing which shows the other structure of the blind part applied to the computer room air conditioning system which concerns on this invention.

Explanation of symbols

100, 200, 300 Computer room air conditioning system 101 Computer room 10, 310 Upper shield 11 First gas introduction part (gas introduction part)
12 Second gas introduction part (gas introduction part)
13 Third gas introduction part (gas introduction part)
20,320 Top plate portion 22, 232, 322 Roll screen 28, 38 Control portion 29, 39 Pressure sensor 30, 230 Side wall portion 32, 43, 732 Blind portion 33, 44, 733 Blade plate 40, 440, 540 End shield body

Claims (9)

In the computer room, installed on both sides across the passage having an internal space under the floor, equipped with an equipment accommodation rack for supplying air from the front surface and blowing out heated air from the upper surface or the back surface, and an air conditioner, The cooling air blown out from the air conditioner flows through the internal space, and further flows from the hole provided in the passage to the floor of the passage, and the cooling air is stored in the rack. After cooling, an air conditioning system for a computer room that flows through the space above the rack and is sucked back into the air conditioner,
An upper shield disposed between the upper surfaces of the racks on both sides of the passage; and an end shield provided at an end of the passage; and the passage by the upper shield and the end shield. A space is defined,
At least a part of these upper shield and end shield is provided with a gas introduction part that can be opened and closed, and is configured to introduce external gas into the passage space from this gas introduction part ,
An air conditioning system for a computer room, comprising a control unit that senses the blow-out pressure of the external gas and the pressure inside the passage space and opens the gas introduction unit. In the computer room, installed on both sides across the passage having an internal space under the floor, equipped with an equipment accommodation rack for supplying air from the front surface and blowing out heated air from the upper surface or the back surface, and an air conditioner, The cooling air blown out from the air conditioner flows through the internal space, and further flows from the hole provided in the passage to the floor of the passage, and the cooling air is stored in the rack. After cooling, an air conditioning system for a computer room that flows through the space above the rack and is sucked back into the air conditioner,
An upper shield disposed between the upper surfaces of the racks on both sides of the passage; and an end shield provided at an end of the passage; and the passage by the upper shield and the end shield. A space is defined,
At least a part of these upper shield and end shield is provided with a gas introduction part that can be opened and closed, and is configured to introduce external gas into the passage space from this gas introduction part ,
A plurality of strip-shaped blades are slidably arranged in parallel in the gas introduction unit, and the gas introduction unit is configured to be opened and closed by the plurality of blade plates. Air conditioning system for machine rooms. In the computer room, installed on both sides across the passage having an internal space under the floor, equipped with an equipment accommodation rack for supplying air from the front surface and blowing out heated air from the upper surface or the back surface, and an air conditioner, The cooling air blown out from the air conditioner flows through the internal space, and further flows from the hole provided in the passage to the floor of the passage, and the cooling air is stored in the rack. After cooling, an air conditioning system for a computer room that flows through the space above the rack and is sucked back into the air conditioner,
An upper shield disposed between the upper surfaces of the racks on both sides of the passage; and an end shield provided at an end of the passage; and the passage by the upper shield and the end shield. A space is defined,
At least a part of these upper shield and end shield is provided with a gas introduction part that can be opened and closed, and is configured to introduce external gas into the passage space from this gas introduction part ,
A control unit for opening the gas introduction unit by sensing the external gas blowing pressure and the pressure in the passage space;
A plurality of strip-shaped blades are slidably arranged in parallel in the gas introduction unit, and the gas introduction unit is configured to be opened and closed by the plurality of blade plates. Air conditioning system for machine rooms. The vane plate is configured to open the gas introduction portion when swinging toward the inside of the passage space and to close the gas introduction portion when swinging toward the outside of the passage space. The computer room air conditioning system according to claim 2 , wherein the computer room air conditioning system is provided. The computer room air conditioning system according to any one of claims 2 to 4, wherein the blades are configured to swing by a blowing pressure of the external gas. The gas introduction part is configured to be opened and closed by a roll screen having a storage part and a sheet part wound inside the storage part and arranged so as to be able to protrude and retract from the storage part. The air conditioning system for a computer room according to claim 1 . The upper shield has a side wall portion extending upward from an upper surface of the rack, from claim 1, characterized in that it comprises a top plate portion which is passed into the upper portion of the side wall portions The computer room air conditioning system according to claim 6 . The computer indoor air conditioning system according to claim 7, wherein the gas introduction part is provided in a part of the side wall part. The computer room air conditioning system according to any one of claims 1 to 8, wherein the gas introduction part is provided in a part of the end shield.

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