KR101533008B1 - Server rack with flexible cooling duct coupled to assembly type cooling air discharge port - Google Patents

Abstract

The present invention relates to a server rack having a flexible duct to which a prefabricated cold air discharge port is coupled, comprising: a body case having a vertically formed vertical plate connecting a plurality of horizontal plates and a plurality of horizontal plates; And at least one of the inner surfaces of the vertical plate and the horizontal plate extended from the cooling module and made of a flexible material so as to expand in accordance with the internal air pressure by the cold air supplied from the cooling module, And a duct connected to the outer surface of the duct so that one end of the duct is surrounded by the duct and the other end of the duct is spaced apart from the other in the direction of the computer equipment And a cool air discharge port in the form of a hollow channel formed through the hole in the direction of the computer equipment is formed And at least one protrusion made of a flexible material so as to expand into a tube shape in accordance with the internal air pressure generated by the cold air supplied from the duct through the holes, and through which the ducts It is possible to efficiently cool various kinds of computer equipment having various sizes by forming holes in the outer surface and attaching protrusions for guiding cool air to the outer surfaces of the holes by computer equipment.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a server rack having flexible ducts,

The present invention relates to a server rack, and more particularly, to a server rack, more specifically, a prefabricated cold air discharge opening capable of performing a cooling function by connecting a prefabricated cold air discharge opening to a duct made of a flexible material so that the computer equipment mounted therein can smoothly operate To a server rack having a combined flexible duct.

Usually, a company or a research institute has a server rack on which a server, a repeater, an exchange, and various network devices are mounted. However, the computer equipment such as a server installed in the server rack generates heat during operation and raises the temperature inside the server rack. Such a computer equipment operates smoothly at a certain temperature range, whereas when the temperature is too high, There is a risk of losing life or causing malfunctions.

Accordingly, the server rack is provided with a cooling device for keeping the internal temperature within a predetermined range, and performs cooling operation by supplying cool air from the cooling device to the inside of the server rack. However, the cold air from the air conditioner is difficult to be uniformly transmitted to each computer equipment, and a method for transmitting the cold air near the air intake fan of the computer equipment is necessary. In this case, a pipe for guiding the cold air from the air conditioner to the computer equipment A separate space is needed.

For example, referring to U.S. Patent No. 7074123, which is a prior art document, a rectangular column-shaped duct is employed on both sides of the inside of the server rack, and the server is mounted in a space between both ducts, Causing the width to increase. At this time, if the space between both ducts is adjusted as narrow as possible according to the horizontal width of the server, there is a risk that the server may be damaged by collision with the duct outer wall when the server is mounted.

Also, referring to the prior art document US 6882531, a server is cooled using a conduit extending from both sides of the server rack, and a duct for supplying cool air to the conduit is provided on both sides of the server rack Thereby increasing the horizontal width of the server rack. In addition, there is a risk that the server may be damaged due to the collision.

US Patent No. 7074123 entitled " CABINET FOR COMPUTER DEVICES WITH AIR DISTRIBUTION DEVICE "(registered July 11, 2006) US Patent No. 6882531 entitled " METHOD AND RACK FOR EXCHANGING AIR WITH MODULAR BRICKS IN A COMPUTER SYSTEM "(registered April 19, 2005)

In order to solve the above problems, it is an object of the present invention to provide an air conditioner in which a hole is formed in a duct made of a flexible material so as to expand in accordance with an internal air pressure to form a tube shape, A server rack having a prefabricated flexible cooling duct capable of efficiently performing cooling operation while minimizing a volume increase of a server rack is provided by supplying cool air to each computer device mounted on a server rack using the duct and the protruding portion .

In order to accomplish the above object, the present invention provides a server rack having a flexible duct coupled to a plurality of horizontal plates, a body case having a vertical plate formed by connecting the plurality of horizontal plates to each other, A cooling module which is located in the main body case and performs a cooling function inside the main body case by constituting a refrigeration cycle, and a flexible material which is expanded to form a tube shape according to the internal air pressure by the cooling air supplied from the cooling module, A duct extending from the cooling module and attached to at least one of the inner surface of the vertical plate and the horizontal plate, at least one hole formed through the outer surface in the direction of the computer equipment mounted in the inner case, And the other ends of the ducts are spaced apart from each other in the direction of the computer equipment A cooling air discharge port formed in a hollow channel shape extending from the hole in the direction of the computer equipment and a flexible material which expands according to the internal air pressure generated by the cold air supplied through the hole from the duct, And at least one projecting portion formed of a plurality of projections.

In the server rack having the flexible duct to which the assembled cool air discharge port of the present invention is coupled, the protruding portion is formed to extend from the hole toward the computer equipment, passes through the longitudinal direction, And an engaging portion that is bent around the end of the body adjacent to the hole and is coupled to the outer surface of the duct surrounding the hole.

In the server rack having the flexible duct to which the assembled cool air discharge port of the present invention is coupled, the coupling portion is coupled to the outer surface of the duct through a tape, an adhesive, a velcro, a socket or a bolt connection.

The duct is formed in a vertical direction along the inner surface of the vertical plate, or formed in a horizontal direction along the inner surface of the horizontal plate, in the server rack having the flexible duct to which the assembled cool air discharge port of the present invention is coupled .

In the server rack having the flexible duct to which the assembled cool air discharge port of the present invention is coupled, the duct is formed into a cylindrical shape, an elliptical column or a prismatic shape according to the internal air pressure.

In the server rack having the flexible duct to which the assembled cool air discharge port of the present invention is coupled, the duct or the protrusion is made of a material including cloth, rubber, synthetic resin, or silicone.

According to the server rack having the flexible duct to which the assembled cool air discharge port of the present invention is coupled, the following effects can be expected.

First, a hole is formed on the outer surface of the duct according to the position of each computer equipment installed in the server rack, and a protrusion for guiding cool air is connected to the outer surface of the hole by computer equipment, thereby efficiently cooling various computer equipment having various sizes can do.

Second, it is possible to secure a space for mounting the computer equipment by using ducts and protrusions in a contracted state before supplying cold air, and when the cold air is supplied, ducts and protrusions expand to a certain shape, So that the space required for the duct and the protrusion can be minimized and the miniaturization of the server rack can be achieved.

Third, in the case of breakage such as tearing of a specific protrusion, it is possible to repair only by replacing the specific protrusion, thereby reducing the cost of repairing the duct and protrusion and improving durability.

1 is a perspective view showing a configuration of a server rack according to an embodiment of the present invention.
FIG. 2 is a front view showing a state of ducts and protrusions before supplying cold air according to an embodiment of the present invention. FIG.
FIG. 3 is a front view showing a duct and a protruded portion expanded by cold air according to an embodiment of the present invention. FIG.
FIG. 4 is a partially enlarged view of a duct and protrusions before and after cold air supply according to an embodiment of the present invention; FIG.
FIG. 5 and FIG. 6 are views illustrating the coupling of a duct and a protrusion according to an embodiment of the present invention.

In the following description, only parts necessary for understanding the embodiments of the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

The present invention relates to a server rack for mounting a computer equipment such as a server therein. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a configuration of a server rack 100 according to an embodiment of the present invention. FIG. 2 is a perspective view showing a state of a duct 30 and a protrusion 31 before supplying cool air according to the embodiment of FIG. FIG. 3 is a frontal view showing a state of the duct 30 and the protruding portion 31 expanded by the supply of cold air according to the embodiment of FIG. 1, and FIG. 4 is a frontal view of the embodiment of FIG. FIGS. 5 and 6 are views showing a state in which the duct 30 and the protruding portion 31 are engaged with each other according to an embodiment of the present invention. FIG. 5 is a partially enlarged view of the duct 30 and the protruding portion 31, Fig.

1 to 6, the server rack 100 of the present embodiment includes a main body case 10, a cooling module 20, a duct 30, and a protrusion 31.

The main body case 10 includes a plurality of horizontal boards 11 positioned vertically and a plurality of vertical boards 12 formed vertically by connecting the horizontal boards 11 to form an appearance of the server rack 100 . The horizontal plate (11) and the vertical plate (12) of the body case (10) may be made of a rigid material such as a metal.

A plurality of horizontal shelves 1 are located inside the main body case 10 and a computer 2 such as a server is mounted on the shelf 1. At this time, the size (vertical thickness, etc.) of the computer 2 may be different from each other, so that the position of the center of the computer 2 between the plurality of shelves 1 may also vary. The shelf 1 may be configured to be movable up and down to adjust the distance between the shelves 1 according to the size of the computer equipment 2. [

A door 3 is closed to mount the computer 2 on the front surface of the main body case 10. The door 3 is connected to the main body case 10 through a connection mechanism such as a hinge, Is attached to the straight plate (12).

The cooling module 20 supplies cooling air to the duct 30 through a cooling cycle to perform a cooling operation inside the body case 10. [ At this time, the cooling module 20 includes an evaporator that functions to absorb external heat while evaporating the enclosed refrigerant, a compressor that compresses the evaporated or expanded refrigerant, and a heat exchanger A condenser, and an expansion valve for expanding the condensed refrigerant and supplying it to the condenser.

In this embodiment, the cooling module 20 is located at the lower portion of the main body case 10, but the cooling module 20 may be located anywhere inside or outside the main body case 10 according to the embodiment.

One end of the duct 30 is connected to the cooling module 20 side and the other end of the duct 30 is connected to the cooling module 20, The cool air drawn into the module 20 from the module 20 is transferred to the elongated protrusion 31 toward the computer 31.

The duct 30 of the present embodiment is extended from the cooling module 20 and mounted vertically on the inner surface of the vertical plate 12 of the body case 10. The duct 30 is connected to the vertical plate 12 and the inner surface of the horizontal plate 11, as shown in Fig. For example, the duct 30 may be formed in the vertical direction along the inner surface of the horizontal horizontal plate 11, and may be formed in the horizontal direction along the inner surface of the upper vertical plate 12. The duct 30 may be attached to the vertical plate 12 or the horizontal plate 11 by using an adhesive, a socket structure or a bolt. At this time, the duct 30 may be attached to the vertical plate 12 or the horizontal plate 11 A separate coupling member for coupling may be employed.

The duct 30 is made of a flexible material such as cloth, rubber, synthetic resin, or silicone which forms a certain shape according to the internal air pressure. When the cooling air from the cooling module 20 is supplied, To form a tube shape. For example, the duct 30 may have a cylindrical shape, an elliptical column or a prismatic shape depending on the internal air pressure. In this case, the shape of the tubular shape in which the connection portion with the vertical plate 12 or the horizontal plate 11 is flat .

At this time, a hole 34 is formed through the outer surface of the duct 30 corresponding to the position of the computer 2 mounted on the shelf 1. In this case, at least one hole 34 may be formed by cutting the outer surface of the tube-shaped duct 30 in accordance with the position of the computer 2 having a center position depending on the size. In this case, the cool air supplied from the cooling module 20 is transferred to the protrusion 31 through the hole 34.

The projecting portion 31 is coupled to the outer surface of the duct 30 so as to surround the hole 34 formed through the outer surface of the duct 30 so that the cool air supplied through the hole 34 from the duct 30 can be transferred to the computer equipment 2) direction.

One end of the protrusion 31 is coupled to the outer surface of the duct 30 corresponding to the position of the hole and the other end of the protrusion 31 is protruded toward the computer 2. At this time, the projecting portion 31 includes a hollow-shaped cool air discharge opening 33 formed through the inside of the hole 34 in the direction of the computer 2.

One end of the protrusion 31 is coupled to the outer surface of the duct 30 so as to surround the hole 34. The outer surface of the duct 30 around the hole 34 and the end of the protrusion 31, Alternatively, one end of the protrusion 31 may be coupled to the outer surface of the duct 30 around the hole 34 by a socket or a bolt, and if the bolt is used, the bolt may be fixed A partial fixing member may be employed.

The protrusion 31 is made of a flexible material such as cloth, rubber, synthetic resin or silicone and forms a certain shape according to the internal air pressure. When the cool air is supplied from the duct 30 through the hole 34, Thereby expanding to form a specific tube shape. For example, the protruding portion 31 may have a cylindrical shape, an elliptical column or a prismatic shape depending on the internal air pressure. In this case, the expanded protruding portion 31 has a shape that is relatively shorter in length than the duct 30, Shaped tube shape.

2 and 4 show a state in which cool air is not supplied to the duct 30. In this case, each of the duct 30 and the protruding portion 31 has a volume corresponding to a relatively low internal air pressure It is shrunk and contracted. As the duct 30 and the protrusion 31 are contracted, the shelf 1 is not obstructed and a space for mounting the computer 2 is provided. In this state, when the computer 2 is mounted on the shelf 1, the computer 2 is not caught by the duct 30 and the protrusion 31, and the duct 30 and the protrusion 31, The breakage of the computer 2 can be prevented.

3 and 4 show a state in which cool air is supplied to the duct 30. In this case, as the internal air pressure of the duct 30 and the protrusion 31 becomes relatively high, the volume of the duct 30 and the protrusion 31 increases, . In this case, as the duct 30 and the protruding portion 31 are inflated, only a portion of the shelf 1 is covered and the cool air is supplied through the cool air discharge port 33 of the protruding portion 31 formed near the computer 2 do.

Fig. 5 shows a state before the protrusion 31 is engaged with the duct 30, and Fig. 6 shows the state where the protrusion 31 is coupled to the duct 30. Fig.

5 and 6, the projecting portion 31 includes a body portion 35 and a coupling portion 36.

The body portion 35 is formed extending from the hole 34 formed in the outer surface of the duct 30 toward the computer 2 and has a cool air discharge port 33 formed therein through the longitudinal direction. At this time, the cold air discharge port 33 forms a hollow channel type space through the inside of the body portion 35.

The coupling portion 36 is bent around the hole 34 and the end of the body portion 35 and is coupled to the outer surface of the duct 30 surrounding the hole 34. 5 and 6, the engaging portion 36 is located at the end of the body portion 35 in the form of a ring. However, in some embodiments, the engaging portion 36 may have a partially cut ring shape. In this case, the cylindrical body portion 35 The engaging portion 36 can be formed by partially cutting and bending a part of the end of the engaging portion 36. [

The coupling portion 36 is coupled to the outer surface of the duct 30 using a tape, an adhesive or a velcro or is fixed to the outer surface of the duct 30 with a socket or bolt, The entirety of the protruding portion 31 can be coupled to the duct 30. If the coupling portion 36 is coupled to the outer surface of the duct 30 using a bolt, a separate coupling member for bolt coupling may be employed.

The cool air in the duct 30 is discharged through the cool air discharge port 33 of the protrusion 31 to the position closer to the computer 2 in the present embodiment and as a result the cooling efficiency of the computer 2 is improved .

The duct 30 and the protruding portion 31 that supply the cool air from the cooling module 20 to the computer 2 shrink and expand depending on whether cold air is supplied or not, so that a minimum space in the server rack 100 is utilized It is possible to install it. This contributes to miniaturization of the server rack 100. [

The repair of the duct 30 and the protrusion 31 can be performed by replacing only the specific protrusion 31 without replacing the duct 30 when the specific protrusion 31 breaks or the like breaks. And the durability is improved.

It should be noted that the embodiments disclosed in the present specification and drawings are only illustrative of specific examples for the purpose of understanding, and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein. Furthermore, although specific terms are used in this specification and the drawings, they are used in a generic sense only to facilitate the description of the invention and to facilitate understanding of the invention, and are not intended to limit the scope of the invention.

1: Shelf 2: Computing equipment
3: Door 10: Body case
11: horizontal plate 12: vertical plate
20: cooling module 30: duct
31: protruding portion 33: cold air outlet
34: hole 35:
36: Coupling section 100: Server rack

Claims (6)

A main body case having a vertical plate formed by connecting a plurality of horizontal plates and the plurality of horizontal plates;
A cooling module located in the main body case and constituting a refrigeration cycle to perform a cooling function inside the main body case;
Wherein the cooling module is made of a flexible material so as to form a tube shape by expanding according to an internal air pressure supplied by the cooling module and is attached to at least one of the inner surface of the vertical plate and the horizontal plate, A duct having at least one hole penetrating the outer surface in the direction of a computer equipment installed in the case body; And
And a cool air discharge port formed in a hollow channel shape extending from the hole in the direction of the computer equipment, the cool air discharge port being formed in a shape of a hollow channel, the cool air discharge port being connected to the outer surface of the duct so as to surround the hole, At least one protrusion made of a flexible material so as to be expanded into a tube shape according to the internal air pressure by the cool air supplied through the hole from the duct; Lt; / RTI >
The protrusion
A body portion extending from the hole in the direction of the computer equipment and passing through the longitudinal direction and having the cold air discharge opening in the form of a hollow channel; And
An engaging portion formed at an end of the body adjacent to the hole and coupled to an outer surface of the duct surrounding the hole;
And a flexible duct coupled to the assembled cool air discharge port. delete The method according to claim 1,
Wherein the coupling portion is coupled to the outer surface of the duct through a tape, an adhesive, a velcro, a socket or a bolt coupling. The method according to claim 1,
Wherein the duct is formed in a vertical direction along an inner surface of the vertical plate, or formed in a horizontal direction along an inner surface of the horizontal plate, wherein the duct is coupled to the flexible duct. The method according to claim 1,
Wherein the duct has a cylindrical shape, an elliptical column or a prismatic shape according to an internal air pressure, and a flexible duct to which the assembled cool air discharge port is coupled. The method according to claim 1,
Wherein the duct or the protrusion is made of a material including cloth, rubber, synthetic resin, or silicone.

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