JP6031891B2 - Grill with air volume adjustment mechanism and air volume adjustment system - Google Patents

Description

  The present invention relates to a grill with an air volume adjusting mechanism and an air volume adjusting system.

  In recent years, with the arrival of an advanced information society, computers (servers) handle a large amount of data, and many computers are installed in the same room and managed collectively. For example, in a data center, a large number of racks (server racks) are installed in a computer room, and a plurality of computers are stored in each rack. Then, jobs are distributed organically to those computers, and a large number of jobs are processed efficiently.

  In the data center, a large amount of heat is generated from computers as jobs are processed. For this reason, a means for cooling the computer is required to avoid a failure or malfunction of the computer due to heat.

  The interior of a typical data center is separated into an equipment installation area where racks are installed and a free access floor (underfloor space) that is installed under the floor of the equipment installation area and where power cables, communication cables, etc. are placed . Low-temperature air is supplied from the air conditioner to the free access floor, and this low-temperature air is sent to the equipment installation area via a grill (vent) provided on the floor of the equipment installation area.

  A large number of racks are arranged in the equipment installation area. In general racks, low-temperature air is introduced from the front (intake surface) side of the rack to cool the computer, and thereby the air whose temperature has risen is discharged from the back or top surface (exhaust surface). .

JP 07-243665 A

  Providing a grill with an air volume adjustment mechanism and an air volume adjustment system that can adjust the air volume of air passing through the grill without overloading the air conditioner and reduce the power consumption of the air conditioning equipment in facilities such as data centers. The purpose is to do.

According to one aspect of the disclosed technology, a grill plate ventilation hole provided, movable arranged is formed by a plurality of split plates coupled bendable on one side of the grill plate by a hinge A plate, a first shaft and a second shaft disposed on two opposite sides of the movable plate, and a first shaft and the second shaft disposed on one side of the grill plate. A first shaft receiving portion that removably supports the shaft, and a first shaft receiving portion that is disposed on the other side facing the one side of the grill plate and detachably supports the first shaft and the second shaft. There is provided a grill with an air volume adjusting function having a second shaft receiving portion .

According to another aspect of the disclosed technology, a grill disposed between a first space and a second space through which air moves from the first space to the second space, and an electronic device And a control device that adjusts the amount of air passing through the grill according to the operating state of the electronic device, and the grill has a ventilation hole. A movable plate disposed on the first space side of the grill plate, and two opposite sides of the movable plate , each of which is formed by a grill plate provided and a plurality of divided plates that are flexibly connected by a hinge; The first shaft and the second shaft arranged on the side and the one side of the grill plate are controlled by the control device so that the first shaft and the second shaft are detachable. A first shaft receiving portion for supporting the grill plate; A second shaft receiving portion disposed on the other side opposite to the one side and controlled by the control device to removably support the first shaft and the second shaft; and A guide rail disposed between the shaft receiving portion and the second shaft receiving portion and movably supporting the first shaft and the second shaft, and the movable plate controlled by the control device An air volume adjustment system having a drive mechanism for driving the motor is provided.

  According to the grill with an air volume adjusting function and the air volume adjusting system according to the above aspect, the air volume of the air passing through the grill can be adjusted without applying an excessive load to the air conditioner. Thereby, the operating state of the air conditioner in the facility such as the data center can be optimized according to the operating state of the electronic device, and the power consumption of the air conditioning equipment is reduced.

FIG. 1 is a schematic diagram illustrating an example of a data center. Fig.2 (a) is a top view which shows the grille with an air volume adjustment function which concerns on 1st Embodiment, FIG.2 (b) is the bottom view similarly. 3A is a bottom view of the grill plate of the grill, and FIG. 3B is a bottom view of the movable plate of the grill. FIG. 4 is a diagram showing the relationship between the state of the movable plate and the amount of air moving from the free access floor to the equipment installation area. FIG. 5 is a diagram showing a model of the data center used for calculating the flow rate of air blown from the grill. FIG. 6 is a diagram showing the result of calculating the flow rate of air blown from the grill using the model of FIG. FIGS. 7A and 7B are cross-sectional views showing the movable plate of the grill with an air volume adjusting function according to the second embodiment. FIG. 8 is a side view (schematic diagram) showing a grill with an air volume adjusting mechanism according to a third embodiment. FIG. 9 is a block diagram showing an air volume adjusting system using a grill with an air volume adjusting mechanism according to the third embodiment. FIG. 10 is a schematic diagram (part 1) illustrating an operation of the grill with an air volume adjusting mechanism according to the third embodiment. FIG. 11: is a schematic diagram (the 2) which shows operation | movement of the grill with an air volume adjustment mechanism which concerns on 3rd Embodiment. FIG. 12 is a side view (schematic diagram) of a grill with an air volume adjusting mechanism showing a modification of the third embodiment. FIG. 13 is a bottom view (schematic diagram) of the grill with the air volume adjusting mechanism of the modified example. FIG. 14 is an enlarged view showing the large gear and the shaft receiving portion. FIGS. 15A to 15C are views showing the operation of the grill with an air volume adjusting function according to a modification of the third embodiment.

  Hereinafter, before describing the embodiment, a preliminary matter for facilitating understanding of the embodiment will be described.

  In the data center, the number of computers stored in the rack is changed as necessary. Also, the types of these computers are not uniform. Furthermore, the amount of heat generated varies depending on the operating state of these computers, and the amount of air required for cooling also changes.

In order to always sufficiently cool all the computers in the data center, for example, it is conceivable to install an air conditioner having a large cooling capacity and operate the air conditioner at the maximum capacity at all times. However, this method cools the computer more than necessary, which not only increases the running cost, but is also not preferable from the viewpoint of energy saving and CO ₂ reduction. Therefore, a method for efficiently cooling the computers in the data center is desired.

  Therefore, it is considered that the flow rate of air supplied from the free access floor to the equipment installation area is adjusted for each grill in accordance with the calorific value of the computer in the rack or other electronic equipment (hereinafter simply referred to as “computer”). It is done.

  As one of such methods, it is conceivable to arrange a blower fan under each grill and to control the rotation speed of each blower fan for each grill. This makes it possible to supply an amount of air corresponding to the amount of heat generated by the computers in each rack from the free access floor to the front (intake surface) side of each rack. Can be optimized according to As a result, the power consumed by the air conditioner can be reduced.

  However, since a large number of grills are arranged in the data center, the above method requires a large number of blower fans, and the power consumed in the data center cannot be reduced sufficiently.

  As another method, it is conceivable that a shutter is provided on the grill to make the aperture ratio variable so that the flow rate of air passing through the grill can be adjusted for each grill. However, in this method, in order to increase the air volume of a specific grill, it is necessary to reduce the aperture ratio of other grilles. For this reason, the pressure in the free access floor becomes high, an excessive load is applied to the air conditioner, and problems such as an increase in power consumption occur.

  In the following embodiments, a grill with an air volume adjustment mechanism that can adjust the air volume of air passing through the grill without applying an excessive load to the air conditioner and can reduce the power consumption of the air conditioning equipment in a facility such as a data center. Will be described.

(First embodiment)
FIG. 1 is a schematic diagram illustrating an example of a data center.

  In the data center shown in FIG. 1, the room is separated into an equipment installation area 10a and a free access floor 10b. A plurality of racks (server racks) 11 are arranged in the equipment installation area 10a, and each rack 11 stores a plurality of computers. The equipment installation area 10a is provided with a management space necessary for management of a passage and a computer for the administrator to pass.

  The free access floor 10b is an example of a first space, and the device installation area 10a is an example of a second space. The rack 11 is an example of a housing.

  The free access floor 10b is provided under the floor of the equipment installation area 10a. On the free access floor 10b, power cables and communication cables connected to the racks 11 are arranged.

  The temperature of the free access floor 10 b is maintained almost constant by the cold air supplied from the air conditioner 19. A grill 12 with an air volume adjusting function, which will be described later, is installed on the floor of the equipment installation area 10a, and cool air is supplied from the free access floor 10b to the front side (intake surface side) of the rack 11 through the grill 12 with an air volume adjusting function. The computer in the rack 11 is cooled.

  Fig.2 (a) is a top view which shows the grill 12 with an air volume adjustment function which concerns on this embodiment, FIG.2 (b) is the bottom view similarly. FIG. 3A is a bottom view of the grill plate of the grill 12, and FIG. 3B is a bottom view of the movable plate of the grill 12.

  The grill 12 with the air volume adjusting function includes a grill plate 21 provided with a plurality of ventilation holes 21 a through which air passes, and a movable plate 22 disposed below the grill plate 21. The grill plate 21 is disposed on a hole provided in the floor of the device installation area 10a.

  The movable plate 22 is disposed on two opposing sides of the movable plate 22 with the hinge 24 sandwiched between the two divided plates 23a and 23b, a hinge 24 that foldably connects the divided plates 23a and 23b. Shafts 25a and 25b. The dividing plates 23 a and 23 b are provided with ventilation holes 22 a having substantially the same size as the ventilation holes 21 a of the grill plate 21.

  Shaft receiving portions 26 a and 26 b are provided at the four corners of the lower surface of the grill plate 21. These shaft receiving portions 26a and 26b are curved members having elasticity, and one end side thereof is fixed to the edge portion of the grill plate 21, and detachably supports the shafts 25a and 25b.

  When the shaft 25a is supported by the shaft receiving portion 26a and the shaft 25b is supported by the shaft receiving portion 26b, the grill plate 21 and the movable plate 22 are overlapped as shown in FIG. The ventilation hole 22a of the board 22 overlaps.

  A slide plate 27 that slides along the edge of the dividing plate 23a is provided at both edges of the dividing plate 23a. When the slide plate 27 is disposed across the divided plates 23a and 23b, the divided plates 23a and 23b are integrated, and the movable plate 22 becomes a single flat plate. Further, when the slide plate 27 is shifted from the connection position of the divided plates 23a and 23b, the movable plate 22 can be folded at the hinge 24 portion.

  The movable plate 22 rotates around the shaft 25a supported by the shaft receiving portion 26a. However, the grill plate 21 is provided with a stopper 28 for restricting the rotation of the movable plate 22 so that the movable plate 22 cannot be rotated by 90 ° or more.

  4A to 4E are diagrams showing the relationship between the state of the movable plate 22 and the amount of air moving from the free access floor 10b to the device installation area 10a. 4A to 4E, an arrow A indicates air that passes under the grill 12, and an arrow B indicates air that has passed through the grill 12.

  4A shows a state in which the shaft 25a is supported by the shaft receiving portion 26a, the shaft 25b is supported by the shaft receiving portion 26b, and the movable plate 22 is arranged below the grill plate 21 in parallel with the grill plate 21. FIG. Show. In this case, part of the air flowing under the grill 12 moves from the free access floor 10b to the equipment installation area 10a via the grill plate 21 and the ventilation holes 21a and 22a of the movable plate 22.

  FIG. 4B shows a state in which the shafts 25 a and 25 b are supported by the shaft receiving portion 26 a, the movable plate 22 is folded at the hinge 24, and hung down the leeward side of the grill plate 21. In this case, since the air contacted with the movable plate 22 moves onto the grill plate 21, the amount of air moving from the free access floor 10b to the device installation area 10a is increased as compared with the case of FIG.

  FIG. 4C shows a state in which the shafts 25 a and 25 b are supported by the shaft receiving portion 26 a and the movable plate 22 is folded at the hinge 24 and hung on the windward side of the grill plate 21. In this case, since the amount of air flowing under the grill plate 21 by the movable plate 22 is reduced, the amount of air moving from the free access floor 10b to the device installation area 10a is reduced as compared with the case of FIG.

  FIG. 4D shows a state in which the movable plate 22 in which the shaft 25 a is supported by the shaft receiving portion 26 a and the divided plates 23 a and 23 b are integrated by the slide plate 27 is hung down on the leeward side of the grill plate 21. . In this case, the amount of air that contacts the movable plate 22 is larger than that in FIG. 4B, so the amount of air that moves from the free access floor 10b to the equipment installation area 10a than in FIG. 4B. Will increase.

  FIG. 4E shows a state in which the movable plate 22 in which the shaft 25 a is supported by the shaft receiving portion 26 a and the divided plates 23 a and 23 b are integrated by the slide plate 27 is hung on the windward side of the grill plate 21. . In this case, since the amount of air flowing under the grill plate 21 is smaller than that in FIG. 4C, the air moving from the free access floor 10b to the equipment installation area 10a than in FIG. 4C. The amount of decreases.

  That is, according to the grill 12 with the air volume adjusting mechanism according to the present embodiment, the air volume of the cool air supplied from the grill 12 to the device installation area 10a can be changed by the movable plate 22 in five ways. Accordingly, by changing the state of the movable plate 22 of each grill 12 according to the position of the grill 12 in the data center and the operating state of the computer as shown in FIGS. The amount of cold air corresponding to the temperature can be supplied to each rack 11.

  Further, as described above, in this embodiment, since the flow rate of the cold air supplied to the equipment installation area 10a can be adjusted for each grill 12, the operating state of the air conditioner 19 is optimized according to the operating state of the computers in the rack 11. Can be Thereby, the power consumed by the air conditioner 19 can be reduced.

  Furthermore, according to the grill 12 with the air volume adjusting mechanism according to the present embodiment, it is not necessary to excessively increase the pressure in the free access floor 10b, so that a large load on the air conditioner 19 is avoided.

  Hereinafter, the calculation result of the flow rate of the air blown out from the grill 12 with the air volume adjustment function of the present embodiment using the model of the data center shown in FIG. 5 will be described.

  As shown in FIG. 5, in the data center where the air conditioner 19 and the rack 11 are arranged, the flow rate of air blown out from the grill at the positions indicated by 12a, 12b, and 12c to the equipment installation area 10a was obtained by calculation. The results are summarized in FIG.

  In FIG. 6, Condition 1 indicates the amount of blown air from the grilles 12 a, 12 b, and 12 c when the movable plate 22 is disposed below the grill plate 21 in parallel with the grill plate 21 as shown in FIG. Generally, near the air conditioner 19, the flow velocity of air flowing under the grill is fast. Therefore, when the movable plates 22 of the grilles 12a, 12b, and 12c are arranged as shown in FIG. 4A, the grill 12c that is farther from the air conditioner 19 than the grills 12a and 12b that are closer to the air conditioner 19a. However, the amount of air blown out increases.

  Condition 2 indicates the amount of air blown from the grilles 12a, 12b, and 12c when the movable plate 22 is folded and hung on the leeward side of the grill plate 21 as shown in FIG. 4B. In this case, the amount of air blown from the grill 12c arranged at a location far from the air conditioner 19 is almost the same as that in the condition 1, but the amount of air blown from the grilles 12a and 12b arranged near the air conditioner 19 is More than at the time.

  Condition 3 is that the amount of air blown from the grilles 12a, 12b and 12c when the movable plate 22 in which the divided plates 23a and 23b are integrated by the slide plate 27 is hung down on the leeward side of the grill plate 21 as shown in FIG. Show. In this case as well, the blown air volume of the grill 12c is almost the same as that in the condition 1, but the blown air volume of the grills 12a and 12b is further increased than that in the condition 2.

  Condition 4 is the same as condition 3 for the grills 12a and 12b. For the grill 12c, the movable plate 22 in which the divided plates 23a and 23b are integrated by the slide plate 27 as shown in FIG. The blowing air volume of the grills 12a, 12b, and 12c when hung upward is shown. In this case, the amount of air blown from the grilles 12a and 12b is slightly increased as compared to the condition 3, but the amount of air blown from the grill 12c is significantly reduced compared to the conditions 1, 2 and 3, and the grills 12a and 12b , 12c has a small difference in the blown air volume.

  From FIG. 6, it can be seen that by changing the state of the movable plate 22 of the grills 12a, 12b, 12c, the amount of air blown from the grilles 12a, 12b, 12c can be increased or decreased. The operating state of the air conditioner 19 can be optimized by changing the state of the movable plate 22 in accordance with the distance from the air conditioner 19 and the operating state of the computer or other electronic device in the rack 11. is there.

(Second Embodiment)
FIGS. 7A and 7B are cross-sectional views showing the movable plate of the grill with an air volume adjusting function according to the second embodiment. Note that this embodiment differs from the first embodiment in that a shutter plate 31 is provided on the movable plate 22, and the other configuration is basically the same as that of the first embodiment. Then, the description of the overlapping part is omitted. Also in the present embodiment, description will be made with reference to FIGS. 2 and 3 as appropriate.

  As shown in FIGS. 7A and 7B, shutter plates for adjusting the aperture ratio of the ventilation holes 22a are provided on the divided plates 23a and 23b of the movable plate 22 of the grill with air volume adjusting function according to the present embodiment. 31 is provided. The shutter plate 31 is provided with ventilation holes 31a. When the shutter plate 31 is moved along the surfaces of the dividing plates 23a and 23b, the ventilation holes 31a of the shutter plate 31 and the ventilation holes 22a of the dividing plates 23a and 23b As a result, the opening ratio of the ventilation holes 22a changes.

  When the shutter plate 31 is arranged so that the ventilation hole 31a of the shutter plate 31 and the ventilation hole 22a of the movable plate 22 coincide with each other as shown in FIG. 7A, the aperture ratio of the movable plate 22 is maximized. If the shutter plate 31 is arranged so that the ventilation hole 31a of the shutter plate 31 and the ventilation hole 22a of the movable plate 22 do not overlap as shown in FIG. 7B, the aperture ratio of the movable plate 22 becomes zero. Then, by adjusting the amount of deviation between the shutter plate 31 and the movable plate 22, the aperture ratio of the movable plate 22 can be arbitrarily adjusted.

  As described above, in this embodiment, the aperture ratio of the movable plate 22 can be changed by the shutter plate 31. Therefore, as shown in FIGS. 4A to 4E, the flow rate of the air passing through the grill 12 is further finely adjusted by changing the aperture ratio of the movable plate 22 in a state where the movable plate 22 is disposed. be able to.

(Third embodiment)
FIG. 8 is a side view (schematic diagram) showing a grill with an air volume adjusting mechanism according to a third embodiment. In FIG. 8, the same components as those in FIG. 2 are denoted by the same reference numerals, and detailed description thereof is omitted.

  The grill 40 with an air volume adjusting mechanism according to the present embodiment includes a grill plate 21 and a movable plate 22 disposed below the grill plate 21. Similar to the first embodiment, the movable plate 22 includes two divided plates 23a and 23b connected by a hinge 24, and a shaft 25a is provided on one of two sides facing each other with the hinge 24 interposed therebetween. The shaft 25b is disposed on the other side.

  A shaft receiving portion 41a is disposed on one side (right side in FIG. 8) of the grill plate 21, and a shaft receiving portion 41b is disposed on the other side (left side in FIG. 8). A guide rail 42 is arranged between the shaft receiving portion 41a and the shaft receiving portion 41b.

  The shaft receiving portions 41a and 41b are members that support the ends of the shafts 25a and 25b, and are opened and closed by being driven by signals from a control device 50 described later. In the present embodiment, the state in which the shaft receiving portions 41a and 41b are arranged horizontally and there is almost no gap between the guide rails 42 as shown in FIG. 8 is referred to as the closed state of the shaft receiving portions 41a and 41b. . Further, a state in which the shaft receiving portions 41a and 41b are inclined by the signal from the control device 50 and a large gap is formed between the guide rails 42 is referred to as an open state of the shaft receiving portions 41a and 41b.

  Winding devices 44a and 46a are disposed on one side (right side in FIG. 8) of the grill plate 21, and winding devices 44b and 46b are disposed on the other side (left side in FIG. 8). A wire 45 is attached to the shaft 25a. One end of the wire 45 is connected to the winding device 46a, and the other end is connected to the winding device 46b.

  Similarly, a wire 43 is attached to the shaft 25b. One end of the wire 43 is connected to the winding device 44a, and the other end is connected to the winding device 44b. .

  These winding devices 44a, 44b, 46a, 46b are also driven and controlled by signals from the control device 50 described later.

  FIG. 9 is a block diagram showing an air volume adjusting system using the grill 40 with an air volume adjusting mechanism according to the present embodiment. As shown in FIG. 9, the air volume adjusting system includes temperature sensors 51 and 52 that detect the temperatures of the intake surface and the exhaust surface of the rack 11 in addition to the grill 40 with the air volume adjusting function, and the wind speed of the cold air passing through the grill 40. And a wind speed sensor 53 for detecting. Note that reference numeral 11 a in FIG. 9 is a computer stored in the rack 11.

  The control device 50 inputs signals from the temperature sensors 51 and 52 and the wind speed sensor 53, and drives and controls the shaft receiving portions 41a and 41b and the winding devices 44a, 44b, 46a and 46b of each grill 40 based on these signals. To do.

  FIGS. 10-11 is a schematic diagram which shows operation | movement of the grill with an air volume adjustment mechanism which concerns on this embodiment.

  FIG. 10A shows that the wires 43 and 45 are wound on the winding devices 44a, 44b, 46a, and 46b so that the shaft 25a is disposed on the shaft receiving portion 41a and the shaft 25b is disposed on the shaft receiving portion 41b. The wound state is shown. Thus, the movable plate 22 is disposed under the grill plate 21 in parallel with the grill plate 21 by arranging the shaft 25a on the shaft receiving portion 41a and the shaft 25b on the shaft receiving portion 41b.

  When the wire 43 is wound by the winding device 44a from the state shown in FIG. 10A, the movable plate 22 bends at the hinge 24 as shown in FIG. 10B, and the shaft 25b moves on the guide rail 42. To do. Then, as shown in FIG. 10C, when the shaft 25b is moved over the shaft receiving portion 41a, the state shown in FIG. 4B is obtained.

  When the movable plate 22 is deployed, the shaft receiving portion 41a is opened as shown in FIG. At this time, the shaft 25 a is disposed on the shaft receiving portion 41 a due to the tension of the wire 45.

  Thereafter, when the wire 43 is unwound from the winding devices 44a and 44b, the shaft 25b moves downward through the gap between the guide rail 42 and the shaft receiving portion 41a, and the movable plate 22 is moved as shown in FIG. It hangs down below the guide plate 21 in a state where is opened. At this time, the shaft receiving portion 41a is closed. The state shown in FIG. 11A is equivalent to the state shown in FIG.

  When the wire 43 is wound up by the winding device 44b from the state shown in FIG. 11A, the shaft 25b moves toward the shaft receiving portion 41b as shown in FIG. 11B. When the shaft receiving portion 41b is opened and the shaft 41b is disposed on the shaft receiving portion 41b and then the shaft receiving portion 41b is closed, the state shown in FIG.

  Here, the operation when the movable plate 22 is moved to the shaft receiving portion 41a side by the winding devices 44a and 44b has been described. However, the movable plate 22 is moved to the shaft receiving portion 41b side by operating the winding devices 46a and 46b. Can be moved to.

  In the present embodiment, the control device 50 changes the state of the movable plate 22 according to the temperature of the intake surface and the exhaust surface of the rack 11 and the flow velocity of the cold air passing through the grill 12. Thereby, the flow rate of the cold air supplied from the grill 12 to the equipment installation area 10a can be adjusted almost in real time according to the operating state of the computer 11a in the rack 11. Therefore, even if the calorific value of the computer 11a in the rack 11 changes greatly with the passage of time, it is possible to avoid malfunction and failure due to the heat of the computer 11a.

  Also in this embodiment, since the operating state of the air conditioner can be optimized according to the operating state of the computer 11a in the rack 11, the power consumed by the air conditioner can be reduced. Furthermore, in this embodiment, it is not necessary to increase the pressure in the free access floor excessively, so that a large load is avoided on the air conditioner.

  In the third embodiment described above, the control device 50 controls the shaft receiving portions 41a and 41b and the winding devices 44a44b according to the temperature of the intake surface and the exhaust surface of the rack 11 and the flow velocity of the cold air passing through the grill 12. The case where 46a and 46c are controlled was demonstrated. However, for example, the control device 50 controls the shaft receiving portions 41a, 41b and the winding devices 44a, 44b, 46a, 46c according to the difference between the flow rate of the cold air passing through the grill 12 and the flow rate of the air taken into the rack 11. You may make it do. The method for detecting (or estimating) the operating state of the computer 11a is not limited to the method described above.

(Modification)
FIG. 12 is a side view (schematic diagram) of a grill with an air volume adjusting mechanism showing a modification of the third embodiment, and FIG. 13 is a bottom view (schematic diagram) of the grill with an air volume adjusting mechanism. 12 and 13, the same components as those in FIG. 8 are denoted by the same reference numerals. Although not shown in FIGS. 12 and 13, the hinge 24 is provided with a stopper that limits the bending angle of the movable plate 22 (the angle formed by the divided plate 23 a and the divided plate 23 b) to 180 ° or less. Yes.

  In the grill 60 with an air volume adjusting mechanism according to this modification, a large gear 61 and a small gear 62 to which a rotational force is applied by a motor (not shown) are arranged at the ends of the shafts 25a and 25b.

  The large gear 61 and the shafts 25a and 25b are fixed without loosening, and when the large gear 61 rotates, the movable plate 22 also rotates. On the other hand, there is a gap between the small gear 62 and the shafts 25a and 25b, and the rotation of the small gear 62 and the rotation of the movable plate 22 are not interlocked.

  A shaft receiving portion 64a is disposed on one side of the lower surface of the grill plate 21, and a shaft receiving portion 64b is disposed on the other side. As shown in FIG. 14, the shaft receiving portions 64 a and 64 b are provided with unevenness that meshes with the large gear 61. Further, the guide rail 63 disposed between the shaft receiving portions 64a and 64b is provided with irregularities for meshing with the small gear 61.

  FIG. 15 is a diagram illustrating the operation of the grill 60 with an air volume adjusting function according to a modification.

  FIG. 15A shows a state in which the large gear 61 on the shaft 25a side meshes with the unevenness of the shaft receiving portion 64a, and the large gear 61 on the shaft 25b side meshes with the unevenness of the shaft receiving portion 64b. When the shaft 25a is thus arranged on the shaft receiving portion 64a side and the shaft 25b is arranged on the shaft receiving portion 64b side, the movable plate 22 is arranged below the grill plate 21 in parallel with the grill plate 21.

  When the small gear 62 on the shaft 25a side is rotated in the state of FIG. 15A, the shaft 25a moves to the shaft receiving portion 64b side along the guide rail 63 as shown in FIG. Is bent at the hinge 24 portion. When the shaft 25a is moved to the vicinity of the shaft 25b, the state shown in FIG.

  On the other hand, when the shaft receiving portion 64a is opened as shown in FIG. 15C in the state shown in FIG. 15A and a rotational force is applied to the large gear 61 on the shaft 25b side, the movable plate 22 is centered on the shaft 25b. Rotate to. When the movable plate 22 is rotated until it becomes vertical, the state shown in FIG.

  Similarly, the movable plate 22 can be moved to the left side of the grill 60 by driving the small gear 62 on the shaft 25b side, the shaft receiving portion 64b, and the large gear 61 on the shaft 25a side.

  In the third embodiment, the state of the movable plate 22 is controlled by the wires 43 and 45. However, as exemplified in this modification, the state of the movable plate 22 is controlled without using the wires 43 and 45. You can also.

  The following additional notes are disclosed with respect to the above embodiments.

(Appendix 1) A grill plate provided with ventilation holes;
A grill with an air volume adjusting function, comprising: a movable plate disposed on one surface side of the grill plate and rotatable about an axis parallel to the surface of the grill plate.

  (Supplementary note 2) The grill with an air volume adjusting function according to supplementary note 1, wherein the movable plate is provided with a ventilation hole at a position corresponding to the ventilation hole of the grill plate.

  (Supplementary note 3) The grill with an air volume adjusting function according to supplementary note 1 or 2, wherein the movable plate is formed of a plurality of divided plates connected to bendable by a hinge.

  (Supplementary note 4) In the supplementary note 2 or 3, wherein the movable plate is provided with a slide plate that slides along the surface of the movable plate and adjusts the aperture ratio of the ventilation holes of the movable plate. The grill with the air volume adjustment function described.

  (Supplementary Note 5) The movable plate is rotatable about a first shaft arranged on one side of two sides facing each other of the movable plate, and a second arranged on the other side. The grill with an air volume adjusting function according to any one of appendices 1 to 3, wherein the grill is rotatable about a shaft of

  (Appendix 6) The grill with an air volume adjusting function according to any one of appendices 1 to 5, further comprising a drive mechanism for driving the movable plate.

(Supplementary Note 7) A grill disposed between the first space and the second space through which air moving from the first space to the second space passes,
A housing that houses electronic equipment and is disposed in the second space;
A control device that adjusts the amount of air passing through the grill according to the operating state of the electronic device;
The grill is
A grill plate provided with ventilation holes;
A movable plate disposed on one side of the grill plate and rotatable about an axis parallel to the surface of the grill plate;
An air volume adjustment system comprising: a drive mechanism that is controlled by the control device and drives the movable plate.

  (Supplementary Note 8) The movable plate is rotatable about a first shaft disposed on one side of two sides facing each other of the movable plate, and a second disposed on the other side. The air volume adjustment system according to appendix 9, wherein the air volume adjustment system is rotatable about a shaft of

  (Supplementary note 9) The air volume adjustment system according to supplementary note 7 or 8, wherein the movable plate is provided with a ventilation hole at a position corresponding to the ventilation hole of the grill plate.

  (Supplementary note 10) The air volume adjustment system according to any one of supplementary notes 7 to 9, wherein the movable plate is formed by a plurality of divided plates connected to bendable by a hinge.

  10a ... Equipment installation area, 10b ... Free access floor (underfloor space), 11 ... Rack, 11a ... Computer, 12, 40, 60 ... Grill, 19 ... Air conditioner, 21 ... Grill plate, 21a ... Ventilation hole, 22 ... Movable Plate, 22a ... Ventilation hole, 23a, 23b ... Dividing plate, 24 ... Hinge, 25a, 25b ... Shaft, 26a, 26b ... Shaft receiving portion, 27 ... Slide plate, 28 ... Stopper, 31 ... Shutter plate, 31a ... Ventilation hole , 41a, 41b ... shaft receiving part, 42 ... guide rail, 43, 45 ... wire, 44a, 44b, 46a, 46b ... winding device, 50 ... control device, 51, 51 ... temperature sensor, 53 ... wind speed sensor, 61 ... large gear, 62 ... small gear, 63 ... guide rail, 64a, 64b ... shaft receiving portion.

Claims (5)

A grill plate provided with ventilation holes;
A movable plate formed by a plurality of divided plates connected to bendable by a hinge and disposed on one surface side of the grill plate;
A first shaft and a second shaft disposed on two opposing sides of the movable plate;
A first shaft receiving portion disposed on one side of the grill plate and detachably supporting the first shaft and the second shaft;
And a second shaft receiving portion which is disposed on the other side of the grill plate facing the one side and detachably supports the first shaft and the second shaft. Grill with air volume adjustment function.   The grill with an air volume adjusting function according to claim 1, wherein the movable plate is provided with a ventilation hole at a position corresponding to the ventilation hole of the grill plate. The grill with an air volume adjusting function according to claim 1, further comprising a drive mechanism that drives the movable plate. A grill that is disposed between the first space and the second space and through which air moves from the first space to the second space;
A housing that houses electronic equipment and is disposed in the second space;
A control device that adjusts the amount of air passing through the grill according to the operating state of the electronic device;
The grill is
A grill plate provided with ventilation holes;
A movable plate formed by a plurality of divided plates connected to bendable by a hinge and disposed on the first space side of the grill plate;
A first shaft and a second shaft disposed on two opposing sides of the movable plate;
A first shaft receiving portion that is disposed on one side of the grill plate and is detachably supported by the control device to support the first shaft and the second shaft;
A second shaft receiving portion that is disposed on the other side of the grill plate opposite to the one side and that is controlled by the control device to removably support the first shaft and the second shaft; ,
A guide rail disposed between the first shaft receiving portion and the second shaft receiving portion and movably supporting the first shaft and the second shaft;
And a drive mechanism that drives the movable plate under the control of the control device. It said movable plate, air volume regulating system according to claim 4, characterized in that said first shaft as well as a rotatable shaft, it is possible to rotate the second shaft axis.

Images