JP4633407B2 - Air conditioning system for computer room - Google Patents

Description

  The present invention relates to a computer room air conditioner and a system exhaust induction device.

  OA equipment and communication devices tend to be highly integrated and heat generating. Since the operating temperature of these devices is set relatively low, inhaling hot air may cause problems such as system shutdown. Therefore, these devices are housed in a rack installed in the computer room, and a system is adopted in which cold air is efficiently sent to the devices by blowing out from the double floor. In the case of a double-floor blow-out type computer, the rack on which the equipment is mounted is roughly divided into one that supplies air from the front and exhausts it to the back and top, and one that supplies air from the bottom and exhausts to the back and top There are two types of things. (For example, Patent Documents 1 and 2)

An example of an air conditioning system for a computer room that supplies air from the front is shown in FIG.
This figure is inside a building and is surrounded by a floor 1, a wall (not shown) and a ceiling. A double floor 2 is provided spaced apart upward from the floor 1, and a plurality of racks 3, 3,... Are installed on the double floor 2.
A passage 4 is located between these three groups of racks. A space (hereinafter referred to as an internal space of the double floor 2) 5 is secured under the double floor 2, and electrical wiring (not shown) of each rack 3 and the like are accommodated therein. An air conditioner 6 is installed on the double floor 2 outside the passage 4. The air conditioner 6 sucks indoor air from the suction port 6a and cools it, and sends the cooled air as cooling air from a blower outlet 6b provided on the bottom surface. The electrical wiring of the air conditioner 6 is also accommodated in the internal space 5 of the double floor 2. A portion of the double floor 2 is located in the passage 4 and is provided with a perforated panel 7, and cooling air sent from the air conditioner 6 is supplied onto the double floor 2 through the perforated panel 7. It is like that. Each rack 3 takes in cooling air from the entire front surface (air supply surface 3b) of the housing 3a and exhausts it upward or rearward from a fan 3c provided on the upper or rear surface.
JP-A-8-303815 Japanese Patent Laid-Open No. 10-47747

  In recent years, the amount of heat generated by devices used in computer rooms and the like has become extremely large, and this has caused a thermal problem that exceeds conventional assumptions. That is, when the heat generating device is vertically mounted on the front suction type rack 3 as in the example of FIG. 36, the cold air from the double floor does not reach the upper part as indicated by the reference symbol A. As shown by the symbol B, there is a phenomenon that the temperature discharged from the upper and rear surfaces of the rack goes around the air supply surface 3b and the upper portion is warmed.

  The present invention has been made in consideration of such circumstances, and an object thereof is to provide an equipment storage rack and a computer room air conditioning system that can sufficiently cool equipment and contribute to energy saving. To do.

The present invention employs the following means in order to solve the above problems.
That is, the present invention includes an equipment accommodation rack group that is installed on both sides of a passage having an internal space under the floor, supplies air from the front surface, and exhausts heat from the top surface or the back surface, and an air conditioner. The cooling air blown out from the air conditioner flows through the internal space and is exhausted from the hole provided in the floor surface of the passage to the floor of the passage, and the cooling air is accommodated in the rack. In an air conditioning system for a computer room that flows through the space above the rack and is again sucked into the air conditioner after the equipment is cooled, a guide for guiding the air discharged from the rack to the air conditioner It has the part.
By configuring in this way, the air discharged from the rack group is naturally guided to the air conditioner without flowing out to the front side.

The invention according to claim 2 is characterized in that, in the invention according to claim 1, a shielding wall is provided at one end of the passage far from the air conditioner or at both ends of the passage.
By comprising in this way, it can suppress that the air heated to the outflow to the supply side of each rack from the open end of a channel | path, especially a position far from an air conditioning apparatus.

According to a third aspect of the present invention, in the first or second aspect of the present invention, the guide portion and the intake side of the air conditioner are directly connected via a duct.
With this configuration, the air exhausted from the rack group flows in the guide portion without leaking to the outside and is reliably introduced into the air conditioner.

The invention according to claim 4 is the invention according to any one of claims 1 to 3, wherein a fan is provided at one end of the guide portion or the passage.
With this configuration, the air discharged from the rack can be forcibly sent out sequentially to the air conditioner by the fan without staying or flowing back into the rack.

The invention according to claim 5 is the invention according to any one of claims 1 to 4, wherein the rack or each rack group is provided individually.
With this configuration, a compact guide portion can be provided for each rack group regardless of the arrangement location and the number of rows of the rack group. Moreover, the front side and the back side of the rack group are not completely covered from above.

The invention according to a sixth aspect is the invention according to any one of the first to fourth aspects, wherein the guide portion includes the passage so as to include each exhaust port of the rack group that is installed to face each other. It is characterized by being provided across.
By configuring in this way, the exhaust ports of the rack groups arranged opposite to each other can be covered at a time, and a space that connects the exhaust sides to each other is formed.

The invention according to claim 7 is provided with a plurality of guide plates whose one ends are supported on an upper surface of the rack group or a ceiling surface in the computer room, and the guide portion is constituted by the ceiling surface and a pair of guide plates. In the rack group, a guide space is formed on the side where the exhaust port is opened.
With this configuration, the ceiling surface can be used for forming the guide space.

The invention according to claim 8 is the invention according to any one of claims 1 to 4 and 6, wherein the guide portion is a tilted plate provided in a rack or a group of racks provided to face each other. It is characterized by crossing each other.
With this configuration, it is possible to configure the guide portion regardless of the height of the opposing rack group. Furthermore, it is not necessary to previously form an inclined plate and its fixture having different shapes and dimensions.

The invention according to claim 9 is an equipment housing rack or equipment housing which is installed on both sides with a passage having an internal space under the floor and which supplies air from the front surface and exhausts heated air from the top surface or the back surface. An exhaust induction device provided in a rack group, wherein a slanting plate for guiding air exhausted from the rack or the rack group in a predetermined direction is extended so as to extend and contract toward the exhaust side. To do.
By configuring in this way, one or both of the obliquely inclined racks or rack groups installed opposite to each other is extended toward the other, and both obliquely inclined plates are obliquely crossed with each other. The guide portion can be configured regardless of the height. Furthermore, it is not necessary to previously form an inclined plate and its fixture having different shapes and dimensions.

According to the first aspect of the present invention, by suppressing the outflow of the air discharged from the upper surface or the rear surface of the rack to the supply side, the short circuit phenomenon of the heated air is less likely to occur, Temperature rise is suppressed. Therefore, the equipment in the rack can be sufficiently cooled.
According to the second aspect of the present invention, since one end or both ends of the passage are not kept open but are blocked by the wall body, the air exhausted from the rack wraps around from the open end to the supply side. Inflow is suppressed. Therefore, the rack can be sufficiently cooled.

According to the third aspect of the present invention, since all of the heated air exhausted from the rack is cooled by the air conditioner, it is possible to always supply sufficiently cooled air indoors. It becomes possible.
According to the fourth aspect of the present invention, it is possible to prevent the internal pressure in the guide portion from increasing and prevent the exhausted air from flowing back to the rack, thereby preventing the temperature in the rack from rising. be able to.

According to the fifth aspect of the present invention, since the guide portion is provided for each rack or rack group (hereinafter simply referred to as “rack”), it is possible to cope with the case where racks are added or removed. Becomes easier. Moreover, since it is the size which covers each exhaust port, the intensity | strength is not required so much and it can construct | assemble cheaply. Further, since the front side or the back side of the rack is not completely covered from above, the front and back sides of the rack are unlikely to become blind spots for indoor lighting.
According to the sixth aspect of the present invention, since the guide space for guiding the air exhausted from the rack to the air conditioner can be widely formed, an increase in pressure in the rack is suppressed and the air is exhausted from the rack. It is possible to prevent the air from flowing back into the rack. In addition, since the exhaust side of the rack group placed opposite to each other can be covered at a time, it is possible to shorten the time required for the mounting operation.

According to the seventh aspect of the present invention, since the ceiling surface can be used for forming the guide space, it is not necessary to provide a guide plate between the upper surfaces of the opposing rack groups. Therefore, it is useful when the distance between the rack and the ceiling is narrow or when the distance between the opposing rack groups is long.
According to the eighth and ninth aspects of the invention, the guide portion can be configured to correspond to racks of any height, leading to a reduction in equipment costs. In addition, it is not necessary to previously form an inclined plate and its fixture having different shapes and dimensions.

  Embodiments of the present invention will be described below with reference to the drawings. In addition, about the structure same as the past, the same code | symbol is used and the description is abbreviate | omitted.

In the computer room air conditioning system of the first embodiment, as shown in FIG. 2, a plurality of groups of racks 3 are provided on both sides of a passage 4 having an internal space 5 under the floor. The rack 3 is of a type that supplies air from the front surface (also referred to as air supply surface) 3b and exhausts air from the upper surface 3a, and is installed on both sides of the passage 4 with the back surface 3c facing each other. And the guide part 1 which spans between the upper surface 3a of the rack 3 installed facing and forms the guide space 2 is provided inside so that the upper side of the rack 3 and the back surface 3c side of the rack 3 may be surrounded.
As shown in FIG. 1, the guide portion 1 includes a pair of side plates 10 that are vertically provided with a fixing member 11 at one end, and a guide plate (hereinafter referred to as a ceiling plate) that is fixed to the upper ends of the side plates 10 and extends horizontally. 8) and is formed in a U-shaped cross section. And this guide part 1 is being fixed to the side edge part located in the said air supply surface 3b side from the exhaust port 3A in the said upper surface 3a with the fixing volt | bolt (not shown). The dimension (height) in the vertical direction of the side plate 10 is such a length that a predetermined interval (space) can be secured between the upper surface 3 a and the top plate 8.

By configuring in this way, the exhaust port 3A of each rack 3 is located in the guide part 1, so that the heated air exhausted from the rack 3 is blown out into the guide part 1. become. Furthermore, a flow path to the air conditioner 6 is formed by the guide space 2 formed by each guide portion 1, and the exhaust heat discharged from the rack 3 flows in the guide space 2 while flowing in the guide space 2. And is sucked into the suction port 6 a of the air conditioner 6. Further, by ensuring a predetermined interval between the upper surface 3a and the top plate 8, it is possible to suppress the pressure in the guide portion 1 from being increased by the air exhausted from the rack 3.
Therefore, the exhaust heat discharged from each rack 3 is effectively suppressed from flowing out to the air supply surface 3 b side of the rack 3, and the exhaust heat is taken into the rack 3 again while reaching the air conditioner 6. Therefore, even the equipment accommodated in the upper part of the rack 3 can be sufficiently cooled. In addition, since the heated air is easily sucked into the air conditioner 6, the air conditioning effect can be improved.

  In addition, although the said guide part 1 shall be fixed to the rack 3, means, such as a volt | bolt, a magnet, a suction cup, a clamp mechanism, can be employ | adopted for this fixing means. Further, instead of being fixed, it may be simply placed on the upper surface 3a of the rack 3.

In the computer room air conditioning system according to the first embodiment, as shown in FIG. 3, a shield door 12 that can be opened and closed is provided between the racks 3 farthest from the air conditioner 6, and the rack A shielding wall 13 may also be provided at one end of the guide portion 1 provided on the upper portion of 3. As a result, the opened passage 4 and one end of the guide portion 1 are closed, and the exhaust heat exhausted from the rack 3 away from the air conditioner 6 passes through the end of the passage 4 to the air supply surface 3b side of the rack 3. And can be prevented from flowing out.
Therefore, it is possible to prevent the exhaust heat from being sucked from the air supply surface 3b of the rack 3, and thus it is possible to prevent the temperature inside the rack 3 from rising.

Moreover, as shown in FIG. 4, the shielding door 12 may be provided between the other ends of the passage 4 according to the embodiment, that is, between the racks 3 on the side close to the air conditioner 6. Since both end sides of 4 are shielded, it is possible to prevent the exhausted exhaust heat from flowing out to the air supply surface 3 b side of the rack 3. At this time, by opening the guide part 1 on the air conditioner 6 side without providing the shielding wall 13, the exhaust heat in the guide part 1 is introduced into the intake port 6 a formed on the upper surface of the air conditioner 6. It will be discharged towards.
By comprising in this way, the outflow of the exhaust from the one end side of the channel | path 4 far from the air conditioning apparatus 6 can be suppressed.
Further, by using the door as the shielding means, it is possible to shield the passage 4 and to enter and exit the passage 4, so that maintenance work can be performed.

Furthermore, as shown in FIG. 5, you may provide the shielding wall 13 also in the other end of the guide part 1 by the side of the air conditioning apparatus 6 which concerns on the said embodiment. In this case, a guide duct 14 may be provided on the shielding wall 13 and connected to the air conditioner side duct 15 covering the air inlet 6 a of the air conditioner 6.
With this configuration, the guide space 2 is directly connected to the suction port 6a of the air conditioner 6 via the guide duct 14. Therefore, the exhaust heat is completely prevented from flowing out, so that the exhaust heat can be efficiently cooled. Furthermore, since all the heated air exhausted from the rack 3 is cooled by the air conditioner 6, it is possible to always supply sufficiently cooled air, which contributes to energy saving. can do.

  Further, as shown in FIG. 6, fans 16 and 16 ′ may be provided at one end of the passage 4 or the guide unit 1 according to the embodiment on the air conditioner 6 side. When provided at one end of the passage 4, for example, a floor-standing fan 16 is used. Further, when the guide portion 1 is provided at one end, for example, a fan 16 ′ including a fan and a panel that supports the fan may be fitted. Thereby, the exhaust heat exhausted into the guide space 2 is forcibly sent out sequentially to the air conditioner 6 by the fans 16 and 16 ′. Therefore, even if the heated air is discharged from the rack 3 one after another, it can be quickly sent out to the air conditioner 6, so that it is possible to suppress an increase in the internal pressure in the guide portion 1. The possibility that the exhausted air flows back into the rack 3 can be eliminated.

In addition, although the installation position of the fans 16 and 16 'is the one end side on the air conditioner 6 side in FIG. 6, it may be the other end side. Thereby, the air discharged | emitted from the rack 3 located far from the air conditioning apparatus 6 can be rapidly supplied to the air conditioning apparatus 6.
Therefore, for example, air exhausted from the rack 3 located far enough so that the suction force of the fans 16, 16 ′ provided at one end of the air conditioner 6 side does not act can flow out to the air supply side 3 b of the rack 3. Therefore, it is possible to prevent the temperature inside the rack 3 from rising.
In the embodiment described above, the openable / closable shielding door 12 and the shielding wall 13 may be provided integrally.

FIG. 7 shows a second embodiment of a computer room air conditioning system according to the present invention.
Hereinafter, the same components as those in the first embodiment will be denoted by the same reference numerals, description thereof will be omitted, and differences will be mainly described.
As shown in FIG. 7, the computer room air conditioning system of the second embodiment is provided with a plurality of racks 3 ′ on both sides of the passage 4. The rack 3 'is of a type that supplies air from the front surface (air supply surface) 3b' and exhausts air from the back surface 3c ', and is installed on both sides of the passage 4 with the back surfaces (exhaust surface) 3c' facing each other. Yes. And the guide part 20 spanned between upper surface 3a 'of the opposing rack 3' is provided.

  As shown in FIG. 8, the guide portion 20 includes a pair of side plates 10 ′ that are vertically provided with a fixing member 11 ′ at one end, and a top plate 8 that is fixed to the upper ends of the side plates 10 ′ and extends horizontally. 'And is formed in a U-shaped cross section. And this guide part 20 is being fixed to the side edge part located in the air supply surface 3b 'side from the exhaust port 3A' in the said upper surface 3a 'with the fixing volt | bolt 11a. The length of the side plate 10 'in the vertical direction is shorter than that of the side plate 10 of the first embodiment. However, the length is such that an interval (space) can be secured between the upper surface 3a ′ of the rack 3 and the top plate 8 ′ so that the work of fixing the guide portion 20 to the rack 3 can be performed from the passage 4 side. ing.

With this configuration, the guide space 2 ′ formed by each guide portion 20 forms a flow path to the air conditioner 6, so that exhaust heat exhausted from the rack 3 ′ Since it is guided by 20 and sucked into the suction port 6a of the air conditioner 6, the rack 3 'can be sufficiently cooled.
Further, since the heated air is discharged to the side of the passage 4, it is not necessary to form a wide guide space 2 ′ above the rack 3 ′. Therefore, it is not necessary for the guide portion 20 to have a length on the side plate 10 'as in the first embodiment, as long as the guide space 2' can be formed on the back surface 3c side of the rack 3 group. good. Alternatively, the top plate 8 ′ may be provided directly on the rack 3 ′.
In the said embodiment, since the said guide part 20 does not require the height to a ceiling so much, it becomes possible to reduce in size rather than the guide part 1 of 1st Embodiment.
In addition, you may make it provide the top plate 8 'directly between upper surface 3a' of the rack 3 'which opposes. As a result, the number of parts can be reduced, so that the cost can be reduced.

Furthermore, the computer room air conditioning system according to the second embodiment includes an openable / closable shielding door 17 that closes the passage 4 and the guide portion 20 far from the air conditioner 6, as shown in FIG. Also good.
Thereby, exhaust heat can be prevented from flowing out to the air supply surface 3b ′ side of the rack 3 ′. Therefore, the rack 3 ′ can be sufficiently cooled, and a high cooling effect can be obtained.
The shielding door 17 may be a wall that can cover the passage 4 and the guide portion 20 at a time.

Further, as shown in FIG. 10, a shielding door 17 ′ may be provided also in the passage 4 on the air conditioner 6 side. At this time, one end of the guide portion 20 on the air conditioner 6 side is opened without providing a shielding wall (not shown), and the air exhausted from there into the guide space 2 ′ enters the air conditioner 6. Discharged.
Thus, by closing both ends of the passage 4, it is possible to prevent the exhaust in the guide space 2 ′ from flowing out from the passage 4.
The passage 4 is shielded, and the passage 4 can be moved in and out, so that maintenance work can be performed.

Furthermore, as shown in FIG. 11, the opening side of the guide part 20 according to the above embodiment is completely covered with a guide part duct 18, and the guide part duct 18 and the air conditioner side duct 15 are used for the guide. It may be directly connected by the duct 14.
By connecting the guide space 2 ′ directly to the air conditioner 6 through the guide duct 14 in this way, the exhaust heat is completely prevented from flowing out. Thereby, since only the heated air can be cooled, the cooling efficiency of the rack 3 ′ can be improved.

  Further, as shown in FIG. 12, a fan 16 may be provided at one end of the passage 4 on the air conditioner 6 side. The height position of the fan 16 from the floor can be changed as appropriate, and the exhausted air can be prevented from staying above the passage 4.

As shown in FIG. 13, a guide part duct 18 is provided on the upper surface 3a 'of the pair of racks 3' located at the center of the rack 3 'group, and the guide part duct 18 and the air conditioner side duct 15 are provided. However, the guide duct 14 may be directly connected.
Alternatively, as shown in FIG. 14, a guide duct 14 ′ may be provided vertically on the upper surface of the guide portion duct 18 ′ so as to be directly connected to the ceiling surface 80, and the exhaust of the rack 3 ′ may be discharged to the back of the ceiling. Good. At this time, the duct 15 ′ on the air conditioner side is also directly connected to the ceiling surface 80. With this configuration, the air discharged from the rack 3 'flows through the back of the ceiling and is sucked into the air conditioner 6 from the duct 15' on the air conditioner side.
Moreover, you may provide the shielding door 12, the shielding wall 13, or the fan 16 in the edge part of these channel | paths 4. FIG. In that case, the fan 16 is directed to the guide duct 18 or 18 'side. Furthermore, it is good also as providing a fan in a duct.

FIG. 15 shows a third embodiment of an air conditioning system for a computer room according to the present invention.
Hereinafter, the same components as those in the first embodiment will be denoted by the same reference numerals, description thereof will be omitted, and differences will be mainly described.
In the computer room air conditioning system according to the third embodiment, as shown in FIG. 15, a plurality of racks 3 including the guide portions 30 are provided on both sides of the opening panel 7. The rack 3 is of a type that supplies air from the front surface (air supply surface) 3b and exhausts air from the upper surface 3a, and is installed on both sides of the opening panel 7 with the air supply surface (front surface) 3b facing each other. And the guide part 30 is provided separately for every rack 3, and it installs so that the exhaust port 3A of the upper surface 3a of the rack 3 may be covered.

  As shown in FIG. 16, the guide portion 30 includes a pair of side plates 10 ″ provided vertically with a fixing member 11 ″ at one end, and a top plate 8 that is fixed to the upper ends of these side plates 10 ″ and extends horizontally. ”And a U-shaped cross section. The guide part 30 is fixed by fixing bolts so that the opening side is directed downward and the exhaust port 3A formed in the upper surface 3a is covered.

With this configuration, since the flow path to the air conditioner 6 is formed by the guide space 2 ″ formed for each rack 3, the exhaust heat exhausted from the rack 3 is guided by the guide portions 30. Then, it is sucked into the suction port 6a of the air conditioner 6.
Therefore, since the exhaust heat is guided to the air conditioner 6, it is possible to prevent the exhaust heat from being taken into the rack 3 again before reaching the air conditioner 6. Further, since the guide unit 30 is installed for each rack 3, it is not necessary to consider the relationship with the opposite rack 3, and the guide unit 30 can be provided regardless of the arrangement location and the number of rows of the racks 3 in the room. It becomes possible. In addition, it becomes easy to cope with the expansion and reduction of the rack 3. Furthermore, since the air supply surface 3b side or the back surface 3c side of the rack 3 group is not completely covered from above, both the air supply surface 3b and the back surface 3c of the rack 3 are unlikely to become blind spots for indoor lighting.

In the computer room air conditioning system according to the third embodiment, as shown in FIG. 17, a fan 16 ′ may be provided at one end of the guide portion 30 on the air conditioner 6 side. The fan 16 ′ is fitted in the air conditioning device 6 side of the guide part 30 in a state where the axial direction is horizontal.
By configuring in this way, the exhaust in the guide portion 30 can be forcibly exhausted by the fan 16 ′. Therefore, it is possible to suppress an increase in the internal pressure in the guide portion 30 and to prevent the exhausted air from flowing back to the rack 3, thereby preventing a temperature increase in the rack 3.
At this time, the fan 16 ′ provided in the guide portion 30 must be larger than the total air volume of the rack fan provided at the exhaust port 3 </ b> A of the rack 3.

Further, as shown in FIG. 18, the guide portion 30 according to the above embodiment and the duct 15 on the air conditioner 6 side may be directly connected by a guide duct 14.
By doing so, the exhausted exhaust heat is directly guided to the air conditioner 6. Therefore, the outflow of the rack 3 to the air supply surface 3b side is completely prevented, and only the heated air can be cooled, so that the cooling efficiency for cooling the rack 3 can be improved.

FIG. 19 shows a fourth embodiment of an air conditioning system for a computer room according to the present invention.
Hereinafter, the same components as those in the first embodiment will be denoted by the same reference numerals, description thereof will be omitted, and differences will be mainly described.
As shown in FIG. 19, the computer room air conditioning system of the fourth embodiment is provided with a plurality of racks 3 groups each provided with guide portions 40 on both sides of the opening panel 7. The rack 3 is of a type that supplies air from the air supply surface and exhausts it from the upper surface, and is installed on both sides of the opening panel 7 with the air supply surface 3b facing each other. And the guide part 40 is provided for every rack 3, and it installs so that the exhaust port 3A of the upper surface 3a of the rack 3 may be covered.
As shown in FIG. 20, the guide portion 40 is used in a rack 3 of a type that supplies air from the air supply surface 3b and exhausts it from the upper surface 3a. The air supply surface 3b side and the rear surface 3c of the upper surface 3a of the rack 3 are used. The side edge portions on the side are provided to face each other. The guide portion 40 includes a stretchable plate 44 that is vertically supported so as to be stretchable vertically. When the telescopic plate 44 is used (when it is shielded), it extends upward and reaches the ceiling surface (not shown).

With this configuration, the ceiling surface can be used to form the guide space 41, so that it is not necessary to provide a top plate between the upper surfaces 3a of the opposing rack 3 groups. Therefore, it is useful when the distance between the rack 3 and the ceiling is small. Since the top plate is unnecessary, it can be installed at a lower cost than the guide portion 30.
Further, the guide portion 40 may be provided on the upper surface 3a of the opposing rack 3, and a ceiling surface is provided instead of the top plate 8, 8 'in the guide portions 1 and 20 of the first and second embodiments. Since the guide space 41 can be formed by using, it is useful even when the distance from the opposing rack 3 group is long.
At this time, a fan 16 ′ may be provided at one end of the air conditioner 6 as shown in FIG.
Moreover, you may connect directly to the air conditioning apparatus 6 with the guide duct 14 (FIG. 22).
Further, by providing the guide portion 40 at one end far from the air conditioner 6, the guide portions 40 on both sides are connected, and the same action as in the third embodiment can be obtained.

FIG. 23 shows a fifth embodiment of an air conditioning system for a computer room according to the present invention.
Hereinafter, the same components as those in the first embodiment will be denoted by the same reference numerals, description thereof will be omitted, and differences will be mainly described.
In the computer room air conditioning system of the fifth embodiment, as shown in FIG. 23, the guide portion 50 is inclined toward the air supply surface 3 b side and the back surface 3 c side of the rack 3, and is far from the air conditioner 6. One end of the side is closed by a shielding plate 51.

As a modification of the guide portion 50, in order to avoid that the upper ends of the guide portions 50 respectively provided in the three groups of racks installed facing each other are in contact with each other and overlap, a pair of guide portions 50 as shown in FIG. It is good also as guide part 50 'provided with side plate 51'. The guide portion 50 'inclined toward the air supply surface 3b side and the back surface 3c side of the rack 3 has a tip bent vertically from a portion where the side plate 51' is present. Corresponding to this, the tip of the shielding plate 51a also extends vertically.
It should be noted that the upper ends of these guide portions 50 ′ may reach the ceiling surface, or a top plate may be provided. Moreover, you may provide a fan in the open end by the side of the air conditioning apparatus 6. FIG. Further, it can be directly connected to the air conditioner 6 by a duct.

FIG. 25 shows a sixth embodiment of an air conditioning system for a computer room according to the present invention.
Hereinafter, the same components as those in the first embodiment will be denoted by the same reference numerals, description thereof will be omitted, and differences will be mainly described.
In the computer room air conditioning system of the sixth embodiment, as shown in FIG. 25, the guide part 60 is formed by bending it into an L shape, and the ceiling surface above the rack 3 with the short part side as a fixed part 60a. And the front end on the long side is located at the side edge on the air supply surface 3b side and the back surface 3c side of the rack 3 so as to face the ceiling surface above the rack 3, respectively. An independent guide space 61 is formed above the rack 3 by the pair of guide portions 60 and the ceiling surface. The leading end on the long side may reach the upper surface 3a of the rack 3, or may be appropriately spaced from the upper surface 3a as shown in FIG.
With this configuration, since the ceiling surface is used to form each guide portion 60, it is not necessary to previously form guide portions having different top plate dimensions, and the width of the rack 3 and the shape of the rack fan or The guide portion can be formed in accordance with the installation position. Therefore, the guide space 61 can be formed in an arbitrary range.

Then, as shown in FIG. 26, the ceiling above the group of racks 3 so that the guide portions 60 are located opposite to the air supply surface 3b side and the back surface 3c side of the rack 3 at the edge of the upper surface 3a side of the racks 3 group. Provided on the surface. At this time, the front end of the guide part 60 is provided with an appropriate space from the upper surface 3a. This interval is determined by the amount of air exhausted from the rack 3 and the wind speed. And the guide part 60 is provided also in the end far from the air conditioning apparatus 6 of the guide part 60, and the guide part 60 installed facing is connected. At this time, one end of the guide unit 60 on the air conditioner 6 side is open, and the exhaust discharged into the guide space 61 from there is discharged to the air conditioner 6.
With this configuration, a guide space 61 is formed for each of the three racks and serves as a flow path to the air conditioner 6. The exhausted air is guided to the air conditioner 6 by this flow path. Therefore, the heated air can be efficiently cooled.

  In the above embodiment, the gap is provided between the upper surface 3a and the tip of the guide portion 60, but it is not always necessary to intentionally provide it. Even when some gaps are left when the rack 3 is provided at different heights, the heated air has a small specific gravity, so the air volume of the air discharged from the rack 3 and If the wind speed is appropriate for the gap, there is no worry of leaking through the gap. Therefore, it is not necessary to accurately reflect the distance between the rack 3 and the ceiling surface in the length dimension on the long side of the guide portion 60, so that it can be formed at low cost. Furthermore, since it can respond also to the rack 3 from which a height dimension differs, versatility can be improved.

In addition, as shown in FIG. 27, the guide portion 60 according to the above embodiment is positioned on the air supply surface 3b side at the upper surface 3a side edge of the group of racks 3 installed on both sides of the passage 4. It may be provided on the ceiling surface. Moreover, the shielding door 12 may be provided between the racks 3 installed far from the air conditioner 6, and the shielding wall 13 may be provided at one end of the guide portion 60 positioned above the shielding door 12. In addition, as shown in FIG. 28, between the racks 3 on the air conditioner 6 side and at one end of the guide portion 60, a shielding door 12 and a shielding wall 13 are provided to partition one end of the guide space 61, and the shielding wall 13 is guided. For example, the air duct 14 may be directly connected to the duct 15 on the air conditioner 6 side.
As a result, the same operation as in the first embodiment can be obtained, and the guide space 61 can be formed without using a top plate, so that the number of parts can be reduced as compared with the first embodiment.

FIG. 29 shows a seventh embodiment of an air conditioning system for a computer room according to the present invention.
Hereinafter, the same components as those in the first embodiment will be denoted by the same reference numerals, description thereof will be omitted, and differences will be mainly described.
As shown in FIG. 29, the computer room air conditioning system of the seventh embodiment includes a tilting tool (exhaust induction device) 71 that can be obliquely crossed between the rack 3 side and the space above the opening panel 7. A guide portion 70 is provided. The rack 3 is a type of rack 3 that supplies air from the front surface 3b and exhausts air from the upper surface 3a, and is installed on both sides of the opening panel 7 with the air supply surface (front surface) 3b facing each other. . The guide portions 70 are provided on the upper surface 3a of the rack 3 so as to face each other on the front surface (air supply surface) 3b side. At this time, a slanting plate (hereinafter referred to as a slide plate) 71a is installed toward the opening panel 7 and is adjusted by sliding so that the slide plates 71a cross each other. Then, the guide space 75 is formed inside by obliquely crossing each other and fixing at a predetermined position.

As shown in FIG. 30, the rack 3 according to the above embodiment is originally provided with a rack connecting bar 71c and a fixing bolt 11a for the rack connecting bar 71c. It fixes to the rack 3 using the volt | bolt 11a. Specifically, in FIG. 32, the tilting tool 71 includes a slide plate (slope plate) 71a and a side guide 71b that supports the slide plate 71a. This slide plate 71a can be slid (expanded / contracted) in the direction indicated by the arrow in FIG. 31. After positioning, the slide plate 71a is fixed by a fixing screw 73 (FIG. 32) provided on the lower surface of the upper plate 72. Can be fixed.
According to such a configuration, the guide portion 70 can be configured regardless of the rack height difference ΔH and the like, which leads to a reduction in equipment costs. Further, since it is not necessary to previously form the fixture 9 ′ and the shielding plate 71a having different shapes, it is possible to save labor.

In the computer room air conditioning system according to the seventh embodiment, as shown in FIGS. 33 to 35, the racks 3 and 3 ′ face each other on the back surfaces 3 c and 3 c ′ on both sides of the passage 4. The guide portions 70 may be provided on the side edges of the front surfaces (air supply surfaces) 3b and 3b ′ on the upper surfaces 3a and 3a ′ of the racks 3 and 3 ′.
At this time, the slide plate 71a is provided toward the back surface 3c, 3c ′ side, and is located between the slide plate 71a of the opposing guide portion 70, the upper surfaces 3a, 3a ′ of the racks 3, 3 ′, and the space above the passage 4. As a result, the guide space 76 is formed. Specifically, the lower surface 71A side of the slide plate 71a is positioned above the exhaust ports 3A and 3A ', and the tip of one slide plate 71a is made to reach the lower surface 71A side of the other slide plate 71a. The slide plate 71a is slid (indicated by an arrow in FIG. 34) and adjusted.

With this configuration, it can be used for the rack 3 that exhausts air from the upper surface 3a as shown by a broken line arrow in FIG. 33, and further exhausts from the back surface 3c ′ as shown by a two-dot chain line arrow in the same figure. It can also be used for the rack 3 '. Therefore, since it can be used for both racks 3 and 3 ′, it is not necessary to consider the arrangement of the racks 3 and 3 ′ and the arrangement of the guide portion 70 depending on the exhaust direction.
Note that the tilting tool 71 may change the tilting angle.

The present invention is not limited to the above-described embodiment. For example, the material of the guide portion 1 provided in the guide portion 1 is any material such as a metal plate, a net, a resin plate, or a glass plate. May be. If the guide portion 1 is made of a material that transmits light to some extent, the required illuminance can be secured in the passage 4 even with the guide portion 1 provided across the racks. Moreover, you may make it attach illumination in the guide part 1. FIG. Further, the fans 16 and 16 ′ are assumed to be larger than the total air volume of the rack fans provided in the rack 3.
Moreover, this invention may combine the structure of said each embodiment.

It is a figure which shows the principal part of the air conditioning system for computer rooms which concerns on 1st Embodiment in this invention. 1 is an overall view of an air conditioning system for a computer room according to a first embodiment of the present invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 1st Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 1st Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 1st Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 1st Embodiment in this invention. It is a general view of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a figure which shows the principal part of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 2nd Embodiment in this invention. It is a general view of the air conditioning system for computer rooms which concerns on 3rd Embodiment in this invention. It is a figure which shows the principal part of the air conditioning system for computer rooms which concerns on 3rd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 3rd Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 3rd Embodiment in this invention. It is a general view of the air conditioning system for computer rooms which concerns on 4th Embodiment in this invention. It is a figure which shows the principal part of the air conditioning system for computer rooms which concerns on 4th Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 4th Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 4th Embodiment in this invention. It is a general view of the air conditioning system for computer rooms which concerns on 5th Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 5th Embodiment in this invention. It is a figure which shows the principal part of the air conditioning system for computer rooms which concerns on 6th Embodiment in this invention. It is a general view of the air conditioning system for computer rooms which concerns on 6th Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 6th Embodiment in this invention. It is a figure which shows the modification of the air conditioning system for computer rooms which concerns on 6th Embodiment in this invention. It is a general view of the air conditioning system for computer rooms which concerns on 7th Embodiment in this invention. It is a principal part of the air conditioning system for computer rooms which concerns on 7th Embodiment in this invention, Comprising: It is a top view which shows the state before a tilting tool attachment. It is a top view which shows the principal part of the air conditioning system for computer rooms which concerns on 7th Embodiment in this invention. It is a side view which shows the principal part of the air conditioning system for computer rooms which concerns on 7th Embodiment in this invention. It is a general view of the modification of the air conditioning system for computer rooms which concerns on 7th Embodiment in this invention. It is a top view which shows the principal part of the modification of the air conditioning system for computer rooms which concerns on 7th Embodiment in this invention. It is a side view which shows the principal part of the modification of the air conditioning system for computer rooms which concerns on 7th Embodiment in this invention. It is the figure shown about the conventional computer room air conditioning system.

Explanation of symbols

1, 20, 30, 40, 50, 50 ′, 60, 70 Guide portion 3, 3 ′ rack 3a, 3a ′ upper surface 3c, 3c ′ rear surface (exhaust surface)
4 passage 5 internal space 6 air conditioner 12, 13, 17, 17 'shielding wall 14, 14' guide duct (duct)
15, 15 'Duct on the air conditioner side (duct)
18, 18 'Guide part duct (duct)
16, 16 'Fan 3A, 3A' Exhaust port 2, 2 ', 2 ", 61, 75, 76 Guide space 8, 8', 8" Top plate (guide plate)
71a Slide plate (slanting plate)
71 tilting tool (exhaust induction device)

Claims (6)

The cooling air blown out from the air conditioner flows through the internal space under the floor and is supplied to the floor from an opening panel constituting a part of the floor, and this cooling air is accommodated in the equipment accommodating rack on the floor. In the air conditioning system for the computer room that is sucked again by the air conditioner after cooling the equipment,
Installed with the back side facing both sides of the passage on the floor and with the front side facing both sides of the opening panel, air is supplied from the front side and heated air from the top or back side. A plurality of racks for housing equipment to be exhausted;
The air conditioner;
Guides for guiding the air discharged from the device housing rack groups to a pair of the device housing rack groups installed on opposite sides of the passage with the rear surfaces facing each other. A guide portion that forms a space,
The pair of equipment accommodation racks include the exhaust ports provided in the upper surface or the back surface of the equipment accommodation rack group installed with the back surface facing each other across the passage. Across the top of the group,
The guide space is composed of a space surrounded by the guide portion and at least the back surfaces of the pair of racks for accommodating equipment installed facing both sides across the passage, and the passage.
After the cooling air blown out from the opening panel onto the floor is supplied from the front side of the equipment housing rack group to cool the equipment, the top surface or the back surface of the equipment housing rack group is cooled. An air conditioning system for a computer room, wherein the air is discharged from the exhaust port into the guide space, and the air discharged from the exhaust port flows in the guide space and flows to the air conditioner. The guide portion includes a first side plate erected on the upper surface of one of the device housing racks opposed across the passage,
A second side plate erected on the upper surface of the other equipment storage rack;
The computer room air conditioning system according to claim 1, further comprising a horizontally extending guide plate fixed to upper ends of the first side plate and the second side plate.   The computer room air conditioner according to claim 1 or 2, wherein a fan for sending air discharged from the exhaust port of the equipment accommodating rack group to the air conditioner is provided in the guide space. system.   The computer according to any one of claims 1 to 3, wherein the guide portion is provided for each of the device-accommodating rack groups that are installed to face both sides of the passage. Room air conditioning system.   The computer room air conditioning system according to any one of claims 1 to 4, wherein the guide portion and the intake side of the air conditioner are directly connected via a duct. The guide portion is formed by obliquely inclining tilting tools provided respectively in the device housing rack group installed facing each other.
The computer room air conditioning system according to claim 1, wherein a length and an inclination angle of the tilting tool are configured to be adjustable according to a height of the equipment racks facing each other. .

Images