KR200477689Y1 - Managing system of datacenter - Google Patents

Abstract

A management system for a data center according to the present invention is a management server for managing a data center having a plurality of servers and includes a control unit for controlling the temperature inside the data center by forming a path of air by sealing the data center, And an opening / closing unit for selectively opening and closing at least a part of the data center. With this configuration, maintenance and maintenance of the data center can be improved, and the efficiency of the data center by the temperature control can be improved.

Description

[0002] MANAGING SYSTEM OF DATACENTER [0003]

The present invention relates to a data center management system, and more particularly, to a data center management system that is advantageous for temperature management while improving maintenance and maintainability of the data center.

In a typical data center, a plurality of servers to which predetermined data is input and output are managed. The plurality of servers are supported by predetermined supporting means such as a rack. Meanwhile, the data center is classified into a cold zone having a relatively low temperature and a hot zone having a relatively high temperature as compared to a cold zone, and manages the server.

On the other hand, since the server reacts very sensitively by heat, a constant temperature control is required for stable use of the server provided in the cold zone and the hot zone. Since the temperature control of the cold zone and the hot zone is generally controlled by supplying air corresponding to the desired temperature, a problem of energy wastage arises. In addition, since both the cold zone and the hot zone are provided in an open state, there is a problem that the supplied air leaks unnecessarily. If the cold zone and the hot zone are provided in a sealed state, there arises another problem because the maintenance and repair work such as the cable replacement is restricted.

The object of the present invention is to provide a data center management system which is advantageous for temperature management while improving maintenance and maintainability.

According to an aspect of the present invention, there is provided a data center management system for managing a data center having a plurality of servers, wherein the data center is closed to form an air path, And an opening and closing unit for selectively opening and closing at least a part of the data center.

According to one aspect, the opening / closing unit includes at least one opening / closing member that is slidably or rotatably coupled to the data center to open / close at least a part of the data center.

According to one aspect, the at least one opening and closing member includes a handle.

According to one aspect of the present invention, the control unit supplies air to the data center to form a first temperature region, and then, through the first temperature region, a second temperature region partitioned from the first temperature region by a heated temperature And the opening and closing unit selectively opens and closes at least one of the first and second temperature regions.

According to one aspect of the present invention, the control unit includes a supply unit for supplying air for temperature control into the data center, a first control unit for forming a first temperature region in the data center by the air supplied from the supply unit, A second controller communicating with the first temperature region to form a second temperature region within the data center at a temperature of the air passing through the first temperature region; And a recovery unit for recovering the air having the second temperature region formed therein.

 According to one aspect of the present invention, the opening / closing unit includes at least one opening / closing member selectively opening / closing by sliding or rotating operation with respect to the first temperature region of the data center, Wherein the sealing member communicates between the one side of the second temperature region facing the recovery unit and the recovery unit to guide the air to the recovery unit.

According to one aspect of the present invention, each of the first and second support grooves, into which the rim of each of the opening and closing member and the sealing member is inserted, is provided in a state of being protected by the first and second cushioning materials of elastic material, And a plurality of first and second protective members respectively formed on the first and second support grooves, respectively, and the plurality of first and second protective members are respectively connected to the first and second support grooves by first and second connecting members Respectively.

According to one aspect of the present invention, a plurality of supports having sides opened to support the plurality of servers are provided adjacent to each other within the data center, and the first adjuster includes a pair of mutually opposing pairs of the mutually spaced supports Forming a first temperature region in a space between the supports of the first temperature region and the second temperature region and forming a second temperature region in a space between the pair of supports forming the first temperature region and the neighboring support .

According to one aspect of the present invention, the recovery unit includes a recovery duct for recovering the air passing through the second temperature region, and a cooling unit connected to the recovery duct to re-cool the regulated air and provide the cooling air to the supply unit.

According to the present invention having the above-described configuration, first, the inside of the data center can be selectively opened and closed, and maintenance and repair such as replacement of the cable can be easily performed.

Second, it is possible to control the internal temperature of the data center in a closed state, thereby improving the management efficiency of the data center.

Thirdly, since the temperature of the second temperature region can be controlled by the air heated by the heat of the server via the first temperature region, the energy efficiency can be improved.

Fourth, by recovering the heated regulated air, unnecessary heating space formation due to the heated regulated air can be minimized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram schematically showing a data center management system according to a preferred embodiment of the present invention;
FIG. 2 is a perspective view schematically showing a data center management system shown in FIG. 1;
3 is a cross-sectional view schematically showing a state taken along line III-III in FIG. 2,
4 and 5 are sectional views schematically showing the sliding operation of the opening and closing unit along the line IV-IV in FIG. 2,
6 is a sectional view schematically showing a modified example of the opening / closing unit,
7 is a plan view schematically showing a state in which the opening and closing member is protected by the first protecting member,
8 is a cross-sectional view schematically showing a state taken along the line VIII-VIII in FIG. 7,
FIG. 9 is an enlarged view schematically showing the IX region of FIG. 7,
10 is a plan view schematically showing a state in which the sealing member is protected by the second protecting member, and
11 is a cross-sectional view schematically showing a state taken along a line XI-XI in Fig.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1, a data center management system 1 according to a preferred embodiment of the present invention includes a data center 100 (including a plurality of servers S) 100 including an adjustment unit 10 and an opening / ).

The adjustment unit 10 closes the data center 100 to form the path of the air A to thereby adjust the interior of the data center 100 to a plurality of temperature regions T1 and T2. To this end, the control unit 10 includes a supply unit 20, a first control unit 30, a second control unit 40, and a recovery unit 50.

The supply unit 20 supplies air (A), which is a control medium for temperature control, to the inside of the data center 100. The supply section 20 employs an air cooling type cooling means to supply cooled air (A). For reference, the technology of the air cooling type cooling means can be understood from a known technology, and thus a detailed description thereof will be omitted. In addition, arrows shown in Fig. 1 show the flow of air A. Fig. For reference, the supply unit 20 is exemplified as an air cooling type cooling means, but the present invention is not limited thereto. That is, it goes without saying that any one of various cooling means capable of cooling the air A, such as the water supply-cooling type, the cold water type, etc.,

The first regulating unit 30 is connected to the supply unit 20 to form the first temperature region T1 in the data center 100 with the supplied air A. The temperature of the first temperature region T1 is cooled to a certain temperature as the first regulating portion 30 receives the air A from the supply portion 20 employing the air cooling type cooling means.

The second controller 40 communicates with the first temperature region T1 to set the second temperature region T2 within the data center 100 to the temperature of the air A passing through the first temperature region T1 . Here, the air A is supplied to the second temperature region T2 in a state that the air A is heated by the heat generated from the server S in the first temperature region T1, The temperature of the second temperature region T2 rises higher. Accordingly, the first temperature region T1 may be referred to as a cold zone, and the second temperature region T2 may be referred to as a hot zone.

For reference, a plurality of servers S disposed in the inside of the data center 100 are supported by a plurality of supports R. The plurality of supports R are spaced apart from each other by a predetermined distance to form first and second temperature regions T1 and T2. Specifically, a first temperature region T1 is formed in a pair of spaced apart spaces among the plurality of supports R and a second temperature region T1 is formed in a space between the first temperature region T1 and the adjacent support body R. [ Thereby forming a region T2. As shown in FIG. 2, the support R has a shape similar to that of a shelf, and both side portions are open, so that the air A forming the first temperature region T1 is heated to a second temperature Can be introduced into the region T2.

The front and rear portions of the first and second temperature regions T1 and T2 defined by the first and second adjusting portions 30 and 40 are provided with a door D as shown in FIG. The worker is closed to allow access. The upper portion of the first temperature region T1 is closed by the opening and closing unit 60 and the upper portion of the second temperature region T2 is closed by the sealing member 41. [ Due to the first and second temperature regions T1 and T2 thus closed, unnecessary leakage of the air A can be prevented and the flow of the control air A can be controlled.

The recovery unit 50 communicates with the second temperature region T2 to recover the air A that has passed through the first and second temperature regions T1 and T2. The recovery unit 50 includes a recovery duct 51 and a cooling unit 52 connected to the recovery duct 51 to re-cool the air A. The cooling unit 52 is connected to the supply unit 20 so that the recovered air A is cooled and re-supplied to the first temperature region T1.

1 and 2, the sealing member 41 is disposed between the upper portion of the pair of supports R forming the second temperature region T2 and the return duct 51 So that the air A is guided to the recovery duct 51 while blocking the leakage of the air A.

The opening / closing unit 60 selectively opens and closes at least a part of the data center 100. To this end, the opening / closing unit 60 is slidably coupled to the data center 100 to open / close at least a part of the data center 100. In this embodiment, as shown in FIGS. 1 and 2, the opening / closing unit 60 opens and closes the first temperature region T1 formed by the first adjusting unit 30 in accordance with the sliding movement, do. The opening and closing unit 60 includes a sliding rail 62 for guiding sliding movement of the opening and closing member 61 and the slidable opening and closing member 61 as shown in FIG.

At least one of the opening and closing members 61 is provided to open the upper region between the pair of supports R forming the first temperature region T1 for maintenance / maintenance or to close the temperature for maintenance. The opening and closing member 61 is made of transparent acrylic material so that the first temperature region T1 can be visually recognized from the outside, and has a polygonal plate shape. In this embodiment, as shown in FIGS. 4 and 5, the pair of open / close members 61 are respectively slid so as to open or close the first temperature region T1 of the data center 100. At this time, each of the pair of the opening and closing members 61 has a handle 61a. The sliding operation when the pair of the opening and closing members 61 are slid is guided by the sliding rail 62 shown in Fig.

On the other hand, the number of opening and closing members 61 of the opening and closing unit 60 and the opening and closing operation thereof are not limited to those shown in Figs. For example, three or more open / close members 61 may be provided and slide in multi-steps. Alternatively, as shown in FIG. 6, the pair of support bodies R may be formed in the first temperature region T1, The first temperature region T1 can be selectively opened and closed by being coupled with the hinge H with respect to the first temperature region T1. In addition, another modification in which a pair of the opening / closing units 60 'are provided and the hinge H is coupled to the pair of supports R is also possible.

7, the rim of the opening and closing member 61 is preferably protected by the first protecting member 63. [ The first protector 63 has a plurality of rod shapes having a rectangular cross section and is provided at the edge of the plate-shaped opening and closing member 61. At this time, as shown in FIG. 8, the first support grooves 63a drawn in the four surfaces of the first protective member 63 are formed in the longitudinal direction, respectively. Here, one of the four first support grooves 63a formed on the four surfaces of the first protector 63 is provided with one side edge of the opening / closing member 61 protected by the first cushion 61b As shown in Fig. The first cushion member 61b is made of a resilient material such as a kind of rubber pad to compensate the clearance of the opening and closing member 61 in the first support groove 63a. 3, the first protector 63 is not mounted on one side of the opening and closing member 61 inserted into the sliding rail 62. However, as shown in FIG. 7, It is natural that the front edge of the first protector 63 can be inserted into the sliding rail 62 in a state of being protected by the first protector 63.

On the other hand, as shown in FIG. 9, the plurality of first protector bodies 63 are interconnected by the first connector body 64. In FIG. 7, four first protector bodies 63 are provided by cutting the first protector bodies 63 to match the length of each side of the open / close member 61 having a square plate shape. Accordingly, the first connector 64 has the "A" shape and is connected to the first support grooves 63a of each of the neighboring first connectors 64 among the four first protectors 63 Thereby mutually connecting the two first protecting members 63, which are adjacent to each other. At this time, the first linking member 64 includes three first support grooves 63a that do not support the opening / closing member 61 among four first support grooves 63a formed in the first protector 63, So that they are mutually connected and fixed by the first connector 64 adjacent to each other. The first link body 64 is fixed by a bolt B after connecting neighboring first protector bodies 63 to each other.

On the other hand, when the first protecting member 63 protects one side of the opening and closing member 61 in a plurality of directions, the first connecting member 64 is provided with a first protecting member It is of course also possible to mutually connect the first electrode 63 and the second electrode 63.

10, the sealing member 41 for sealing the second temperature region T2 can be protected by the second protecting member 42 in the same manner as the opening and closing member 61. Further, as shown in Fig. The second protector 42 also includes four second retaining grooves 42a to support the closure member 41 with the second cushion 41a interposed therebetween. A plurality of second protective members 42 are also provided and are connected to each other by a second connection member (not shown), but the configuration of the second connection member (not shown) is the same as that of the first connection member 64 So that the illustration is omitted.

The management operation of the data center management system 1 according to the present invention having the above-described configuration is as follows.

As shown in FIG. 1, when maintenance such as replacement of a cable (not shown) is required in the data center 100, the opening / closing member 61 of the opening / closing unit 60 is slid as shown in FIGS. The inside of the center 100 is opened. Then, the operator enters the open data center 100 and can easily perform the maintenance / repair operation.

The internal temperature of the data center 100 is controlled by the temperature of the second control unit 40 after the air A supplied from the supply unit 20 forms the first temperature region T1 by the first control unit 30, So that the second temperature region T2 is formed at the heated temperature in the first temperature region T1. At this time, the air A passed through the first and second temperature zones T2 is recovered by the recovery unit 50, then re-cooled and reused through the supply unit 20, thereby circulating.

In the present embodiment, the opening and closing unit 60 is illustrated as being opened and closed only in the first temperature zone T1, but the present invention is not limited thereto. The first and second temperature zones T1 and T2 or It is needless to say that a modification may be provided in the second temperature region T2.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It can be understood that

1: Data center management system 10: Control unit
20: supply part 30:
40: second adjusting section 50:
60: opening / closing unit

Claims (9)

The present invention relates to a data center management system for managing a data center having a plurality of servers,
A control unit for controlling the temperature inside the data center by sealing the data center to form an air path; And
An opening / closing unit for selectively opening and closing at least a part of the data center;
/ RTI >
Wherein the control unit supplies air to the data center to form a first temperature region and then forms a second temperature region that is separated from the first temperature region by the heated temperature via the first temperature region,
Wherein the opening and closing unit selectively opens and closes at least one of the first and second temperature regions,
Wherein a plurality of supports, which are open to support the plurality of servers, are provided adjacent to each other inside the data center,
Wherein the first temperature region is formed in a space between a pair of mutually opposing supports among the plurality of mutually spaced supports, and the first temperature region is spaced apart from the pair of supports forming the first temperature region, A second temperature region is formed in the space,
The adjustment unit includes:
A supply unit for supplying air to the inside of the data center for temperature control;
A first conditioning unit connected to the supply unit to form a first temperature zone in the data center with the supplied air;
A second regulator communicating with the first temperature region to form a second temperature region in the data center at a temperature of the air passed through the first temperature region; And
A recovery unit for recovering the air that has formed the first and second temperature regions in communication with the second temperature region;
The data center management system comprising:
The method according to claim 1,
Wherein the opening / closing unit includes at least one opening / closing member that is slidably or rotatably coupled to the data center to open / close at least a part of the data center.
3. The method of claim 2,
Wherein the at least one opening and closing member includes a handle.
delete delete The method according to claim 1,
Wherein the opening / closing unit includes at least one opening / closing member selectively opening / closing by sliding or rotating operation with respect to the first temperature region of the data center,
Wherein the second adjusting portion includes at least one sealing member for sealing the second temperature region, wherein the sealing member communicates between the one side of the second temperature region facing the recovery portion and the recovery portion, And to the collection unit.
The method according to claim 6,
The first and second support grooves, in which the rim of each of the opening and closing members and the sealing member are inserted, are formed on the respective surfaces, respectively, while being protected by the first and second cushioning materials of elastic material, And a plurality of first and second protective members,
Wherein the plurality of first and second protectors are connected by first and second connectors inserted into the first and second support grooves, respectively.
delete The method according to claim 1,
Wherein the recovery unit includes a recovery duct for recovering the air passing through the second temperature region and a cooling unit connected to the recovery duct to re-cool the recovered air and provide the recovered air to the supply unit.

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