CN217116756U - Data center air conditioner spacer - Google Patents

Abstract

The application provides a data center air conditioner spacer assembly. The data center air conditioner spacing device is characterized by comprising a frame module (1) and a keel (2), wherein the frame module (1) comprises a stand column (3) and a cross beam (4), the cross beam (4) is fixedly connected with the stand column (3), the height of the cross beam (4) positioned at the bottommost part is higher than or equal to the height of the top of an air supply opening (5), the height of the cross beam (4) positioned at the topmost part is lower than or equal to the height of the bottom of an air return opening (6), the keel (2) is assembled on the frame module (1), and the keel (2) is positioned in a region between the cross beam (4) positioned at the bottommost part and the cross beam (4) positioned at the topmost part. The utility model provides a data center air conditioner spacer can avoid fossil fragments to reduce the air supply sectional area, influences the air supply wind speed.

Description

Air-conditioning spacing device of data center

Technical Field

The application relates to the technical field of data center construction, in particular to a data center air conditioner spacing device.

Background

With the continuous development of internet technology, servers tend to develop towards high power. In order to adapt to a high-power cabinet, the power of a data center precision air conditioner tends to be the limit, and in order to improve the service efficiency of the air conditioner and maximize the utilization of the sectional area of air supply, the air supply of the air conditioner needs to be prevented from being influenced by resistance as much as possible.

Mainly adopt 100 type light gauge steel + two-sided gypsum board to cut off in the current construction, because light gauge steel interval and location position can make light gauge steel be located and send back wind gap department to reduced and sent back the wind sectional area, thereby influenced and sent back wind speed.

SUMMERY OF THE UTILITY MODEL

Therefore, the technical problem that this application will be solved lies in providing a data center air conditioner spacer assembly, can avoid fossil fragments to reduce the air supply sectional area, influences the air supply wind speed.

In order to solve the above problems, the present application provides a data center air conditioner spacer, which is characterized in that the data center air conditioner spacer comprises a frame module and a keel, the frame module comprises a vertical column and a cross beam, the cross beam is fixedly connected to the vertical column, the height of the cross beam positioned at the bottommost part is higher than or equal to the height of the top of an air supply outlet, the height of the cross beam positioned at the topmost part is lower than or equal to the height of the bottom of an air return inlet, the keel is assembled on the frame module, and the keel is positioned in an area between the cross beam positioned at the bottommost part and the cross beam positioned at the topmost part.

Preferably, a ventilation opening is formed below the cross beam at the bottommost part, and an antistatic movable floor is arranged at the top of the ventilation opening.

Preferably, the ventilation openings are formed above the topmost beam, and the height of the topmost beam is the same as the height of the partition wall.

Preferably, a filter screen is arranged at the air return opening.

Preferably, gypsum boards are mounted on both sides of the keel.

Preferably, the width between two adjacent columns is the width of the air conditioner in the direction.

Preferably, the frame module is a plurality of frame modules, and the plurality of frame modules are spliced and fixed together.

Preferably, the frame module is sprayed with an anti-corrosion and anti-rust layer.

Preferably, the upright posts and the cross beams are square steel tubes.

Preferably, the top of the frame module is fixedly connected with the top of the floor slab through expansion bolts, the bottom of the frame module is fixedly connected with the embedded part, and the air supply outlet is positioned between the embedded part and the cross beam positioned at the bottommost part.

The application provides a data center air conditioner spacer, including frame module and fossil fragments, the frame module includes stand and crossbeam, crossbeam and stand fixed connection, and the height that is located the crossbeam of bottommost is higher than or equal to supply-air outlet top height, and the height that is located the crossbeam of topmost is less than or equal to return air inlet bottom height, and the fossil fragments are assembled on the frame module, and the fossil fragments are located the crossbeam of bottommost and the region between the crossbeam of topmost. This data center air conditioner spacer sets up the fossil fragments in the region between the crossbeam of the bottommost crossbeam of frame module and the crossbeam at top, thereby can get rid of and be located the fossil fragments of sending back wind gap department, make fossil fragments can not occupy the space of sending back wind gap department, avoid reducing and send back the wind sectional area, guarantee to send back wind speed, can also make the supply-air outlet and the air conditioner supply-air outlet size of partition wall keep unanimous, satisfy the bearing requirement simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of a frame module according to an embodiment of the present application;

FIG. 2 is a schematic view of a split configuration of a frame module according to an embodiment of the present application;

figure 3 is a block diagram of the assembly of the frame module and keel according to one embodiment of the present application;

fig. 4 is a schematic structural diagram of a data center air conditioning spacer according to an embodiment of the present application.

Description of the reference numerals: 1. a frame module; 2. a keel; 3. a column; 4. a cross beam; 5. an air supply outlet; 6. An air return opening; 7. antistatic raised floor; 8. a filter screen; 9. a gypsum board; 10. a transverse connecting frame; 11. an embedded part.

Detailed Description

Referring to fig. 1 to 4 in combination, according to an embodiment of the present application, a data center air conditioner spacer includes a frame module 1 and a keel 2, the frame module 1 includes a column 3 and a beam 4, the beam 4 is fixedly connected to the column 3, the height of the beam 4 located at the bottommost is higher than or equal to the height of the top of an air supply opening 5, the height of the beam 4 located at the topmost is lower than or equal to the height of the bottom of an air return opening 6, the keel 2 is assembled on the frame module 1, and the keel 2 is located in an area between the beam 4 located at the bottommost and the beam 4 located at the topmost.

This data center air conditioner spacer sets up the fossil fragments in the region between crossbeam 4 of the bottommost crossbeam 4 and the crossbeam 4 at top of frame module 1, thereby can get rid of and lie in the fossil fragments that send back wind gap department, make fossil fragments 2 can not occupy the space of sending back wind gap department, avoid reducing and send back the wind sectional area, guarantee to send back wind speed, can also make the supply-air outlet and the air conditioner supply-air outlet size of partition wall keep unanimous, satisfy the bearing requirement simultaneously.

In one embodiment, a vent is formed below the bottommost cross beam 4, an antistatic movable floor 7 is arranged at the vent, and the height of the vent is matched with that of the antistatic movable floor 7, so that the antistatic movable floor 7 can be conveniently installed and assembled at the top of the vent, and the assembly is guaranteed to be completed smoothly. In the establishment of the city, the antistatic movable floor 7 is arranged on the ground, so that the adverse effect of the generation of static electricity on the data center can be effectively prevented. In one embodiment, the ventilation opening is formed above the topmost crossbeam 4, the height of the topmost crossbeam 4 is the same as that of the partition wall, the keel 2 on the lower side of the topmost crossbeam 4 can be prevented from reaching the return air opening 6, the return air section is blocked, and the return air volume and the return air speed are guaranteed.

In one embodiment, the filter screen 8 is arranged at the air return inlet 6, so that return air can be filtered, dust or other impurities in the return air are prevented from entering the air conditioner together with air, the cleanliness of the air inside the air conditioner is guaranteed, the cleanliness of the air blown out from the air conditioner is guaranteed, and the user experience is improved.

In one embodiment, gypsum boards 9 are mounted on both sides of the keel 2.

In one embodiment, the width between two adjacent stands 3 is the width of air conditioner in this orientation, can make the interval between two adjacent stands 3 suitable, conveniently carries out laying of air conditioner, can avoid stand 3 to lead to the fact the wind of sending back of air conditioner to block simultaneously, improves and send back the wind area.

In one embodiment, the number of the frame modules 1 is multiple, the frame modules 1 are spliced and fixed together, and the number of the frame modules 1 can be selected according to needs, so that the data center air conditioner spacing device formed by combining the frame modules 1 is more consistent with the data center air conditioner, the use is more flexible and convenient, and the applicability is better.

In one embodiment, the frame module 1 is coated with an anti-corrosion and anti-rust layer, which can effectively protect the frame module 1.

In one embodiment, the columns 3 and the beams 4 are both square steel tubes.

In one embodiment, the top of the frame module 1 is fixedly connected with the top of the floor slab 10 through expansion bolts, the bottom of the frame module 1 is fixedly connected with the embedded part 11, the air supply opening 5 is located between the embedded part 11 and the cross beam 4 located at the bottommost part, and the cross connecting frame 10 is an angle steel, so that the frame module 1 can be conveniently and fixedly connected, and the frame module 1 can be effectively fixed. Meanwhile, the transverse connecting frame 10 adopts angle steel, so that the antistatic movable floor 7 is conveniently and fixedly arranged on the transverse connecting frame.

The utility model provides a data center air conditioner spacer, adopt prefabricated shaped steel to make frame module 1, the shaped steel model is 100mm 5m, height (length) air conditioner length (width) size is the frame stand according to the building layer, the shaped steel model is 100mm 50mm 5mm, design frame crossbeam according to built on stilts floor height and partition wall height, frame module 1 is basic unit, lay according to the accurate air conditioner interval, the interval size can be according to the position determination of on-the-spot unwrapping wire. The light steel keel is fixed in the region where the gypsum board is arranged in the frame.

The frame module 1 and the underground embedded part 11 are fixed through bolts, preferably expansion bolts. The cross beam 4 comprises angle steel which is positioned at the frame transverse support of the cross beam 4, and the antistatic movable floor 7 is laid on the angle steel at the frame transverse support of the cross beam 4.

The data center air conditioning spacer device is manufactured as follows:

1. and blanking the prefabricated section steel according to the design size, wherein the model of the upright column section steel is 100mm x 5mm, and the model of the cross beam section steel is 100mm x 50mm x 5 mm.

2. The frame assembles the basic frame according to the mode of the pillar and crossbeam, the pillar size is according to building floor height (length) air conditioner length (width) size as the frame pillar; the type of the beam section steel is 100mm by 50mm by 5mm, and the height of the antistatic movable floor and the height of the partition wall are the height of the frame beam.

3. One frame module is a basic unit and is arranged at intervals according to the precision air conditioner, and the interval size can be determined according to the site paying-off position.

4. The prefabricated section steel is welded according to a factory with a designed size, the splicing part is completed by adopting a welding process, and the fixed height size of the bottom cross beam meets the height matching of the antistatic movable floor.

5. And after the frame module is welded, performing zinc plating, corrosion prevention, rust prevention and treatment on the profile steel in a spraying workshop according to batches.

6. And after the frame is sprayed, assembling light steel keels between the upright columns and the cross beams according to the standard requirements.

7. And after the frame modules are assembled, mounting gypsum boards at the light steel keels.

It is readily understood by a person skilled in the art that the advantageous ways described above can be freely combined, superimposed without conflict.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed. The foregoing is only a preferred embodiment of the present application, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present application, and these modifications and variations should also be considered as the protection scope of the present application.

Claims (10)

1. The utility model provides a data center air conditioner spacer, characterized in that, includes frame module (1) and fossil fragments (2), frame module (1) includes stand (3) and crossbeam (4), crossbeam (4) with stand (3) fixed connection, be located the bottommost the height of crossbeam (4) is higher than or equal to supply-air outlet (5) top height, is located the topmost the height of crossbeam (4) is less than or equal to return air inlet (6) bottom height, fossil fragments (2) assemble on frame module (1), just fossil fragments (2) are located the bottommost crossbeam (4) and topmost the region between crossbeam (4).

2. The data center air-conditioning spacer device as claimed in claim 1, characterized in that a ventilation opening is formed below the cross beam (4) at the bottommost, and an antistatic raised floor (7) is arranged on the top of the ventilation opening.

3. The data center air conditioning spacer according to claim 1, wherein a ventilation opening is formed above the cross member (4) located at the topmost portion, and the height of the cross member (4) located at the topmost portion is the same as the height of the partition wall.

4. The data center air conditioner spacer device according to claim 3, wherein a filter screen (8) is arranged at the air return opening (6).

5. The data center air conditioning spacer of claim 1, characterized in that gypsum boards (9) are mounted on both sides of the keel (2).

6. The data center air conditioning spacer according to claim 1, characterized in that the width between two adjacent columns (3) is the width of the air conditioner in the direction.

7. The data center air conditioning spacer of claim 1, characterized in that the frame module (1) is in plurality, and a plurality of the frame modules (1) are spliced and fixed together.

8. The data center air conditioning spacer of claim 1, wherein the frame module (1) is coated with an anti-corrosion and anti-rust layer.

9. The data center air conditioning spacer of claim 1, wherein the columns (3) and the beams (4) are square steel tubes.

10. The data center air conditioner spacing device according to claim 2, wherein the top of the frame module (1) is fixedly connected with the top of the floor (10) through expansion bolts, the bottom of the frame module (1) is fixedly connected with an embedded part (11), and the air supply opening (5) is positioned between the embedded part (11) and the cross beam (4) positioned at the bottommost part.

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