JP6549662B2 - Rack row feed system - Google Patents

Description

  The present invention relates to a rack power feeding system that supplies power to a rack row housing electronic devices such as servers.

For example, in a data center in which a large number of racks containing servers are arranged in a row, the floor is doubled to form a free access floor to accommodate communication lines and power cables, or each row of racks arranged. The form utilized as a cooling duct for cooling is widely adopted.
However, considering more effective use as a cooling duct as a usage pattern of the free access floor, it is preferable that the space be as wide as possible, and a configuration in which heat sources are not mixed is desirable.
Therefore, the power supply line, which is usually arranged in two systems, requires a large installation space and is accompanied by heat generation, so it is separated from the free access floor and arranged on the ceiling or rack to supply power to individual servers. A mode is proposed (see, for example, Patent Document 1).

JP, 2012-104008, A

In the configuration in which the power supply line is disposed above the rack, the area in which the free access floor can be used as a cooling duct can be expanded, so efficient cooling is possible.
However, with regard to the arrangement of the power supply lines, the work of arranging the power supply lines on the rack is at a high place, and the wiring route is also longer, so it takes more time than the construction in the free access floor There was a problem that the burden on the contractor increased.

  Therefore, in view of such problems, the present invention provides a rack row power feeding system that can easily carry out the work of arranging the power supply lines including the installation of the rack even if the power supply lines are disposed above the rack. The purpose is to

In order to solve the above-mentioned problems, the invention according to claim 1 relates to a rack row in which racks accommodating electronic devices are arranged laterally adjacent to each other in a row, and power supply lines disposed at the top of the racks A rack row feeding system for supplying power to each electronic device, wherein the power supply line comprises a plate-like conductor bar, and a plurality of conductor bars are parallel to a cylindrical duct disposed laterally on the rack top plate. The duct is disposed and accommodated, and the duct has an opening at a portion corresponding to the entrance hole for introducing a lead-in wire provided on the top plate, and the duct is connected to the moving body bar through the opening. The wires supply power to the electronic devices in the rack, and the duct containing the conductor bar has a length straddling a plurality of racks and is fixed to the rack.
According to this configuration, the power supply line is accommodated in the duct and disposed on the rack, and feeding is performed only by introducing a lead-in line drawn from the duct opening in the vicinity of the inlet hole provided at the top in each rack Power wiring can be done by simple work.
Further, the power supply lines can be provided at one time to a plurality of racks arranged in a row, and the arrangement of the power supply lines can be easily implemented. In addition, since the ducts act as a connecting member of adjacent racks, the connection at the top of the racks is robust.

In addition, since the power supply line disposed in the duct is formed of the conductor bars, the polarity of each conductor bar can be easily understood and connection errors can be prevented.

The invention according to claim 2 is that, in the configuration according to claim 1 , the opening of the duct is also a branch breaker attachment, and the lead-in wire is connected to the power supply line through the branch breaker installed in the opening. It features.
According to this configuration, since the branch breaker can be attached to the duct, it is not necessary to provide the branch breaker attachment portion in the rack, and the drawing-in work becomes easy. And since a branch breaker can be attached to a duct for every lead-in line, it is not necessary to install separately a distribution board for accommodating a breaker, and routing of a lead-in line is minimal.

According to the invention of claim 3 , in the configuration according to claim 2 , the branch breaker is accommodated in a branch box fixed to the duct, and the branch box is inserted into the conductor bar in the duct through an opening. A power supply connection terminal to be connected is provided, and the power supply connection terminal of the branch breaker is connected to the power supply line by attaching the branch box to the opening.
According to this configuration, since the power supply side terminals of the branch breaker are connected only by inserting the branch box into the opening, the branch work can be easily performed.

  According to the present invention, the power supply line is accommodated in the duct and disposed on the rack, and feeding is performed only by pulling out and introducing the lead-in line from the duct opening adjacent to the input line hole disposed at the top in each rack. Power wiring can be done by simple work.

It is perspective explanatory drawing of the rack row which shows an example of the rack row electric power feeding system which concerns on this invention. The rail member is shown, (a) is a perspective view, (b) is a front view. It is an A section enlarged view. It is perspective explanatory drawing of the rack row which shows the state in the middle of arrange | positioning a duct. It is a partial side view of a rack. It is explanatory drawing of the rack row which does not mount | wear a rail member.

  Hereinafter, embodiments embodying the present invention will be described in detail with reference to the drawings. FIG. 1 is a perspective view of a rack row showing an example of a rack row power feeding system according to the present invention, 1 is a rack for storing electronic devices such as a server, 2 is a duct for storing and arranging a power supply line, 3 5 is a rail member for fixing the duct 2 and 4 is a branch box accommodating the branch breaker 7 (shown in FIG. 5), and shows a state in which three racks 1 are arranged in the lateral direction.

  Note that FIG. 1 shows a state in which two ducts 2 are provided and two power supplies are disposed, and disposition of communication lines connected to electronic devices housed in the rack 1 and cooling air in the rack The blower uses a free access floor (not shown) under the floor. Each rack 1 is configured to be openable by providing a door 1a on the front surface, and is closed by providing a top plate 1b, left and right side plates 1c, and a back plate 1d.

The rail member 3 is formed by bending a steel plate and has a length matched to the depth of the rack 1. FIG. 2 shows the rail member 3, (a) is a perspective view, and (b) is a front view, for fixing to the rail main body 3a and the top plate 1b of the rack 1 arranged upright as shown in FIG. And the fixed piece 3b.
The rail main body 3a is formed in a box shape and has a thickness, and screw insertion holes 11 for connecting with the adjacent rail members 3 are respectively provided at the front and rear end portions, and the duct 2 is accommodated and held in the upper portion A plurality of recesses 12 are formed. The recess 12 is formed to conform to the width of the duct 2 and is formed so as to sink the duct 2 by about a half and sandwich it from the front and back.
The fixing piece 3b is formed to have a uniform width by expanding the bottom of the rail main body 3a to one side, and a screw insertion hole 13 for connecting to the top plate 1b of the rack 1 is bored.

On the other hand, the duct 2 is a metal rectangular cylinder and has a uniform space for inserting a power supply line inside, and the power supply line consisting of four copper bars (conductor bars) 15 is accommodated . Further, the duct 2 is formed to be sufficiently longer than the width of the rack 1, and in FIG. 1, has a length approximately three times the width of the rack.
The length of the duct 2 is arbitrary, and if it is shorter than the entire width of the racks 1 arranged in a row, another duct may be prepared and connected. The portions of the copper bars 15 housed inside the duct 2 are appropriately supported and fixed by the insulating member.

  Then, on one side of the duct 2 on the front side or the rear side with respect to the rack 1, a lead-in wire 20 to the rack 1 (shown in FIG. 1) at a predetermined site corresponding to the rack 1 to be mounted An opening 16 for connecting the copper bar 15 to the copper bar 15 is provided to expose the copper bar 15. On the other hand, in the top plate 1b of the rack 1, as shown in FIG. 1, an inlet hole 18 for introducing the lead-in wire 20 is bored.

  Specifically, the inlet holes 18 are formed at two positions respectively on the front side and the rear side of the rack 1 and are provided to correspond to the two power supply lines, and the openings 16 of the corresponding two ducts 2 and 2 are provided , And are disposed above the respective inlet holes 18. As a result, the lead-in wire 20 is connected to the copper bar 15 from the incoming hole 18 via the branch box 4 at the shortest distance.

The opening 16 which is not used is closed by a closing plate (not shown), and the end of the duct 2 shown at the left end in FIG. However, a power supply line introducing portion is provided at this end, for example, a not-shown power supply line disposed from the lower side along the side surface of the rack 1 is introduced from the lower side into the duct 2 and connected to the internal copper bar 15 Be done. Alternatively, the power supply line is dropped from the ceiling and introduced into the duct 2 from the top of the duct 2.
Further, in FIG. 1, the right end of the duct 2 is not covered with a cover for the purpose of illustration and is shown in a bare state, but when the racks 1 are further arranged in a row, a new duct 2 is connected to this end.

The assembly of the rack row power supply system configured as described above is performed as follows. First, the rail members 3 are assembled to the individual racks 1. The rail member 3 is bolted to the top plate 1 b of the rack 1 using the screw insertion holes 13.
FIG. 3 is an enlarged view of a portion A of FIG. 1. The fixing piece 3b of the rail member 3 is fixed to the top plate 1b at two places in the front and rear direction by bolts 22. Thus, the racks 1 having the rail members 3 attached to the left and right end portions of the upper part of the rack 1 are arranged side by side so as to be in close contact.

Next, the adjacent rail members 3 are connected. Specifically, by arranging the racks 1 in a row, the rail members 3 of the adjacent racks 1 are arranged back to back as shown in FIG.
As shown in FIG. 2, screw insertion holes 11 for connection are bored at the front and rear end portions of the rail main body 3a, and the back-to-back rail members 3 can be easily connected. The bolt 23 is inserted into the hole 11 and connected and fixed using a nut or the like.

  FIG. 6 is an explanatory view in which the racks 1 are arranged in a row without attaching the rail members 3. As shown in FIG. 6, even if the racks 1 are disposed in close contact with each other, distortion of the racks 1 or floor distortion occurs. A gap W is likely to occur at the top, and installation of the duct 2 is difficult when not connected. Therefore, installation of the duct 2 becomes easy by connecting rail member 3 comrades. Further, by connecting the rail members 3 to each other between the adjacent racks 1, it is possible to prevent the overturning of the rack without separately using a connection means, and it is possible to provide earthquake resistance. In addition, when laying the duct 2, it is usually installed on the roof of the building ceiling, but by installing it on the upper part of the rack 1, the duct laying work can also be reduced.

After the rail members 3 are connected to each other, the duct 2 is assembled. FIG. 4 shows a state in which one duct 2 is inserted into the recess 12 of the rail member 3. The duct 2 can be held and positioned by being inserted into the recess 12 of the rail member 3. In this state, the rail member 3 is screwed and fixed to the rail member 3 by the fixing member 6.
The fixing member 6 is formed of a metal plate bent in a U-shape, and holes 6a (shown in FIG. 3) for screwing are provided at both ends. Two types of fixing members 6 are used, and the fixing members 6 for fixing by straddling a pair of connected rail members 3, 3 are fixed to one rail member 3 disposed at both ends of the rack row The fixing member 6 has a width twice that of the fixing member 6.

When the fixing of the duct 2 is completed, the branch box 4 is attached. FIG. 5 shows a partial side view of the rack 1 of FIG. 1 and 7 shows a branch breaker housed in the branch box 4.
As shown in FIG. 5, the branch box 4 has power supply connection terminals 4 a connected to the respective copper bars 15 accommodated in the duct 2. The power supply connection terminal 4a is formed so as to project rearward from the back of the branch box 4 and is formed as a so-called quick connection terminal for sandwiching and connecting the respective copper bars 15 and branching so as to be pushed from the opening 16 of the duct 2. By attaching the box, the power connection terminal 4 a is connected to the copper bar 15.
The power supply connection terminal 4a of the branch box 4 is connected to the power supply side terminal of the accommodated branch breaker 7, and the connection to the branch breaker 7 is also implemented by this operation.

  On the other hand, the power supply line disposed from the trunk branch board or the like is introduced to the above-described power supply line introduction part of the duct 2 and is connected to the copper bar 15. Thus, the copper bar 15 in the duct 2 is charged, the branch breaker 7 in the branch box 4 is energized, and the lead-in wire 20 connected to the secondary side terminal of the branch breaker 7 supplies power to each device in the rack 1 Is supplied.

As described above, the copper bar 15 serving as the power supply line is accommodated in the duct 2 and disposed in the upper part of the rack 1, and the duct 2 formed in the vicinity of the inlet 18 provided in the top plate 1 b in each rack 1 Power can be supplied only by introducing the lead-in wire 20 drawn out from the opening 16 of the above, and the wiring of the power supply line can be performed by a simple operation. Further, since the branch box 4 housing the branch breaker 7 can be attached to the duct 2, there is no need to provide the branch breaker mounting portion in the rack 1, and the drawing work becomes easy.
Further, since the branch breaker 7 can be attached to the duct 2 for each lead-in wire 20, there is no need to separately install a distribution board for accommodating the branch breaker 7, and the routing of the lead-in wire 20 can be minimized.
In addition, since the disposed duct 2 can be positioned because it is accommodated in the recess 12, the fixing operation can be easily performed, and the power supply line disposed in the duct 2 is formed of the copper bar 15, so that individual copper The polarity of the bar 15 can be easily understood and connection errors can be prevented.
Furthermore, since the power supply connection terminal 4a of the branch box 4 is connected to the copper bar 15 simply by mounting the branch box 4 in the opening 16, the connection of the power supply side terminal of the branch breaker 7 is also made. It can be easily implemented.
Further, since the duct 2 has a length extending over the plurality of racks 1, the power supply lines can be disposed at one time for the plurality of racks 1 arranged in a row, and the arrangement of the power supply lines can be easily implemented. Further, since the ducts 2 act as a connecting member of the adjacent racks 1, the connection of the upper part of the racks 1 becomes robust.

In the above embodiment, the five concave portions 12 are provided in the rail member 3 to fix the maximum five ducts 2. However, it is sufficient if at least two power supply lines can be arranged. Should be fixed. In addition, although the openings 16 are provided at two places with respect to the rack 1, only one place may be provided, or three or more places may be provided.
In addition, although the length of the duct 2 is three times the length of the rack 1, the single duct 2 can cope with the rack 1 provided in a row, but the length of the duct 2 is arbitrary. The racks may be connected each time the racks are arranged in the same length as the width of the rack.

  1 · · Rack 1b · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · 4 · · · power connection terminal, 7 · · · · · · · · · · · · recessed portion, 15 · · copper Bars (conductor bars), 16 · · · openings, 18 · · inlet holes, 20 · · lead-in wires.

Claims (3)

A rack row power feeding system for supplying power to each electronic device in a rack by a power supply wire disposed at the top of the rack, with respect to a rack row in which racks containing electronic devices are arranged horizontally adjacent to each other in the rack.
The power supply line is formed of a plate-like conductor bar, and a plurality of the conductor bars are disposed in parallel and accommodated in a cylindrical duct disposed laterally on the rack top plate, and the duct is It has an opening in the part corresponding to the entrance hole for introducing the lead-in wire provided in the top plate,
Power is supplied to the electronic device in the rack by a lead-in line connected to the moving bar via the opening.
The rack row power feeding system, wherein the duct containing the conductor bar has a length straddling a plurality of racks and is fixed to the racks. Opening of the duct is also a branch breakers mounting portion, the pull wire rack row feeder according to claim 1, characterized in that it is connected to the power line via the branch breakers installed in the opening system. The branch breaker is housed in a branch box fixed to the duct,
The branch box includes a power connection terminal connected to the conductor bar in the duct by an insertion operation from the opening,
The rack row power feeding system according to claim 2 , wherein the power supply connection terminal of the branch breaker is connected to the power supply line by mounting the branch box at the opening.

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