JP2018169115A - Server room structure - Google Patents

Abstract

To provide a server room structure capable of securing sufficient air quantity without increasing a construction cost.SOLUTION: A server room structure includes an air conditioning duct 10 configured to guide air blown out from a blowout port 7B to an upper side of a cold aisle, and supply the air from the upper side to the cold aisle. Then, the air conditioning duct 10 communicates with the blowout port 7B from an opposite side to a server rack 3, and extends a cold aisle 5 side through an upper side of an air conditioner 7. Consequently, cold air can be supplied to the cold aisle constituting the cold aisle through an air conditioning duct 10, without employing a double floor structure. Thus, sufficient air quantity of the cold air can be supplied to a server room SR without increasing a construction cost.SELECTED DRAWING: Figure 1

Description

  The present application relates to the structure of a server room in which a server rack on which a plurality of information communication technology devices can be mounted.

  For example, in the server room structure described in Patent Document 1, the server room in which the server rack is installed has a double floor structure. That is, a cold air passage is provided under the floor where the server rack is directly installed, and cold air is supplied to the server room from the cold air outlet provided on the floor.

Japanese Unexamined Patent Publication No. 2016-14489

  In the double floor structure, a space for forming a cold air passage is provided under the floor, so that there is a risk of increasing the construction cost in order to ensure sufficient floor strength. Furthermore, in order to sufficiently cool the server room, a sufficient amount of cold air is required. However, in order to secure the air volume, it is necessary to enlarge the cold air passage, and there is a risk that the construction cost will further increase.

  In view of the above points, the present application provides a server room structure capable of securing a sufficient air volume while suppressing an increase in construction costs.

  In the server room structure according to the present application, an air conditioner (7) installed at a position facing the server rack (3) in the server room (SR), and an intake port (7A) for sucking air upward is provided. And an air conditioner (7) having a blowout opening (7B) for blowing out the cooled air on the lower side, and a cold air passage (5) adjacent to the server rack (3) for blowing the air blown out from the blowout opening (7B) And an air conditioning duct (10) for supplying the air from the upper side to the cold air passage (5). The air conditioning duct (10) communicates with the air outlet (7B) from the opposite side of the server rack (3), passes through the upper side of the air conditioner (7), and extends toward the cold air passage (5). Yes.

  Thereby, cold air can be supplied to the cold air path (5) which comprises a cold aisle via an air-conditioning duct (10), without employ | adopting a double floor structure. Therefore, it is possible to supply cold air with a sufficient air volume to the server room (SR) while suppressing an increase in construction costs.

  Incidentally, the reference numerals in the above parentheses are examples showing the correspondence with the specific configurations described in the embodiments described later, and the present invention is limited to the specific configurations indicated by the reference numerals in the parentheses. It is not something.

It is explanatory drawing of the server room structure which concerns on embodiment of this invention. It is a top view of the server room structure concerning the embodiment of the present invention. It is explanatory drawing of the server room structure which concerns on embodiment of this invention.

  The “embodiment of the invention” described below shows an example of an embodiment belonging to the technical scope of the present invention. In other words, the invention specific items described in the claims are not limited to the specific configurations and structures shown in the following embodiments.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In addition, the arrow etc. which show the direction attached | subjected to each figure are described in order to make it easy to understand the relationship between each figure. The present invention is not limited to the directions given in the drawings.

  At least one member or part described with at least a reference numeral is provided, except where “one” or the like is omitted. That is, when there is no notice such as “one”, two or more members may be provided.

(First embodiment)
1. Outline of Server Room In this embodiment, the server room structure according to the present invention is applied to an air conditioning system for air conditioning a server room. As shown in FIG. 1, the server room SR stores a plurality of information communication technology devices (hereinafter referred to as ICT devices 1).

  Each ICT device 1 is mounted on a server rack 3. The server rack 3 is a shelf on which a plurality of ICT devices 1 can be mounted. As shown in FIG. 2, at least one server rack 3 is installed in the server room SR.

  A single server rack 3 can be equipped with a plurality of ICT devices 1 in the vertical and horizontal directions. Each server rack 3 extends in the horizontal direction. A cold aisle 5 is provided adjacent to each server rack 3.

  The cold aisle 5 is an example of a cold air passage that supplies cold air to the opposite server rack 3. That is, the plurality of ICT devices 1 mounted on the server rack 3 are cooled by the cold air supplied from the cold aisle 5. In the present embodiment, a plurality of server racks 3 are provided in parallel with each other. The cold aisle 5 is formed in a gap between adjacent server racks 3.

  As shown in FIG. 1, air conditioners 7 are installed in both ends of the server room SR in the extending direction of the server rack 3. Each air conditioner 7 is installed at a position facing the server rack 3. And each air conditioner 7 has at least 1 each of the inlet port 7A and the blower outlet 7B.

  Each intake port 7 </ b> A is an opening opened on the upper side of the air conditioner 7, and is an opening for sucking air into the air conditioner 7. Each outlet 7 </ b> B is an opening that blows out air that has been opened and cooled on the lower side of the air conditioner 7. A filter 7C is provided on the upper side in each air conditioner 7 (in the present embodiment, the air inlet 7A).

  Each filter 7C captures dust in the air. Each air conditioner 7 also stores a heat exchanger (not shown) for cooling the air sucked from the intake port 7A, a blower fan (not shown), and the like.

  In FIG. 1, the server room structure on the left side of the page and the server room structure on the right side of the page are symmetric structures. Therefore, the details of the server room structure according to this embodiment will be described below by taking the server room structure on the right side of the page as an example. The number relates to the “server room structure on the right side of the page”.

2. Server Room Structure As shown in FIG. 1, at least one air conditioning duct 10 is connected to the air outlet 7 </ b> B of the air conditioner 7. The air conditioning duct 10 is a duct for guiding air blown from the outlet 7B (hereinafter referred to as cold air) to the upper side of the cold aisle 5 and supplying cold air to the cold aisle 5 from the upper side.

  The air conditioning duct 10 communicates with the air outlet 7B from the side opposite to the server rack 3, passes through the upper side of the air conditioner 7, and extends to the cold aisle 5 side. In other words, the air conditioning duct 10 extends toward the cold aisle 5 so as to surround the side opposite to the server rack 3 and the upper surface side of the air conditioner 7. The air conditioning duct 10 extends in parallel with the cold aisle 5 so as to close the upper side of the cold aisle 5.

  Specifically, the air conditioning duct 10 according to the present embodiment includes at least one first duct portion 11, a plurality of second duct portions 12, a distribution duct portion 13, and the like. The 1st duct part 11 is a duct extended to the upper side of the air conditioner 7 from the blower outlet 7B side.

  Each second duct portion 12 is a duct extending in the horizontal direction along the cold aisle 5 from the air conditioner 7 side. In addition, the several 2nd duct part 12 is located in the upper part of each cold aisle 5, and is extended along the cold aisle 5 (refer FIG. 2).

  The distribution duct portion 13 extends in a direction crossing the extending direction of the plurality of second duct portions 12 (see FIG. 2). The distribution duct portion 13 is connected to the upper side of each first duct portion 11 and the air conditioner 7 side of each second duct portion 12 (see FIG. 1).

That is, the cold air supplied from the plurality of first duct portions 11 is collected by the distribution duct portion 13 and then distributed and supplied to each of the plurality of second duct portions 12 by the distribution duct portion 13.
The portion of the air conditioning duct 10 that is routed above the air conditioner 7 is separated from the upper end of the air conditioner 7 by a predetermined dimension or more.

The “predetermined dimension” is a dimension that allows an operator who performs maintenance of the air conditioning system to replace the filter 7C or the like or perform maintenance / inspection.
As shown in FIG. 1, at least one damper 14 is provided in the air conditioning duct 10. The damper 14 is an example of a switching device for switching the air flow path. The damper 14 switches between a case where air is prohibited from flowing through any one of the plurality of second duct portions 12 and a case where air is allowed to flow.

  In the present embodiment, for example, as shown in FIG. 3, the first duct portion 11 and the distribution duct portion 13 are provided. Therefore, at least when the damper 14 in the distribution duct portion 13 is closed, cold air does not flow into the second duct portion 12 located downstream of the closed damper 14 in the air flow.

3. Features of the server room structure according to the present embodiment The air-conditioning duct 10 is provided that guides the air blown from the air outlet 7B to the upper side of the cold aisle 5 and supplies the air to the cold aisle 5 from the upper side. The air conditioning duct 10 communicates with the air outlet 7B from the side opposite to the server rack 3, passes through the upper side of the air conditioner 7, and extends to the cold aisle 5 side.

  Thereby, it is possible to supply cold air to the cold aisle 5 through the air conditioning duct 10 without adopting a double floor structure. Therefore, it is possible to supply a sufficient amount of cool air to the server room SR while suppressing an increase in construction costs.

  Since the air conditioning duct 10 communicates with the air outlet 7B from the opposite side to the server rack 3, it can be suppressed that the air conditioning duct 10 becomes an obstacle to the work when the ICT device 1 is maintained and inspected. .

The air conditioner 7 and the air conditioning duct 10 are separated by a predetermined dimension or more. Thus, the worker can easily perform maintenance and inspection of the air conditioner 7 such as replacement of the filter 7C.
The air conditioning duct 10 includes a first duct portion 11, a second duct portion 12, a distribution duct portion 13, and the like. Thereby, the contractor and the like can easily perform installation work, maintenance, inspection, and the like of the air conditioning duct 10.

A switching device 14 is provided for switching between the case where air is prohibited from flowing through one of the plurality of second duct portions 12 and the case where air is allowed to flow.
Thereby, the 2nd duct part 12 which distribute | circulates cold wind, ie, the cold aisle 5 which supplies cold wind, can be selected easily. Therefore, even if the number of mounted ICT devices 1 or the mounting position is changed, the cold aisle 5 for supplying cold air can be selected and changed quickly.

(Other embodiments)
The air conditioning duct 10 according to the above-described embodiment includes the first duct portion 11, the second duct portion 12, the distribution duct portion 13, and the like. However, the invention disclosed in this specification is not limited to this.

  In the above-described embodiment, the switching device 14 is provided. However, the invention disclosed in this specification is not limited to this. That is, for example, a structure in which the switching device 14 is eliminated may be used.

  In the above-described embodiment, the filter 7C is provided above the air conditioner 7, and the air conditioner 7 and the air conditioning duct 10 are separated by a predetermined dimension or more. However, the invention disclosed in this specification is not limited to this. That is, for example, the filter 7C may be provided on the outlet 7B side.

  Furthermore, the present invention is not limited to the above-described embodiment as long as it matches the gist of the invention described in the claims. Therefore, you may combine at least 2 embodiment among several embodiment mentioned above. Further, the number and arrangement of the air conditioners 7 are not limited to the configuration shown in FIG.

DESCRIPTION OF SYMBOLS 1 ... ICT apparatus 3 ... Server rack 5 ... Cold aisle 7 ... Air conditioner 7A ... Air inlet 7B ... Air outlet 7C ... Filter 10 ... Air conditioning duct 11 ... First duct part 12 ... Second duct part 13 ... Distribution duct part 14 ... Damper (switching device)

Claims (4)

In the structure of a server room where a server rack capable of mounting a plurality of information communication technology devices is installed,
An air conditioner installed at a position facing the server rack in the server room, having an air inlet for sucking air on the upper side and an air outlet for blowing out the cooled air on the lower side Machine,
An air duct that guides the air blown from the outlet to the upper side of the cold air passage adjacent to the server rack, and supplies the air from the upper side to the cold air passage;
The air conditioning duct communicates with the air outlet from the opposite side of the server rack and passes through the upper side of the air conditioner and extends to the cold air passage side. On the upper side of the air conditioner, a filter that captures dust in the air is provided,
The server room structure according to claim 1, wherein the air conditioner and the air conditioning duct are separated by a predetermined dimension or more. The air conditioning duct is
A first duct portion extending upward from the outlet side;
A plurality of second duct portions extending in a horizontal direction along the cold air passage from the air conditioner side; and a distribution duct portion extending in a direction intersecting with an extending direction of the plurality of second duct portions, the first duct The server room structure according to claim 1, further comprising a distribution duct portion to which an upper side of the portion and the air conditioner side of the plurality of second duct portions are connected.   4. The switching device according to claim 1, further comprising: a switching device for switching between prohibiting air from flowing through any one of the plurality of second duct portions and allowing air flow. 5. The server room structure according to claim 1.

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