CN212753072U - Container data center water mist-proof air inlet duct device - Google Patents

Abstract

The utility model discloses a container data center water mist-proof air inlet duct device, which comprises a separation wall for separating a container into a data center machine room area and an air inlet duct area, a separation plate for separating the air inlet duct area into a dry duct area and a wet duct area, and an air inlet heat radiation fan for communicating the data center machine room area and the dry duct area; the air inlet heat dissipation fan supplies air to the data center machine room area; the dry air duct area and the wet air duct area are communicated through a water-vapor separation device arranged on the partition plate; the dry air duct area and the wet air duct area are both provided with air inlets.

Description

Container data center water mist-proof air inlet duct device

Technical Field

The utility model relates to a data center environmental management technical field, concretely relates to container data center waterproof fog wind channel device that admits air.

Background

The equipment in the container data center is responsible for data exchange, storage and transmission, and a large number of precision instrument equipment such as servers, switches, routers, disk arrays and the like stored in the equipment have higher requirements on indoor environment; therefore, control of the ambient humidity is essential to ensure proper operation and safety of the equipment in the room. Especially under the rainwater weather condition, because the opening of new trend cooling system for ambient humidity is more difficult to control.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a container data center water smoke prevention wind channel device that admits air, under rainwater weather and the fog day condition, control container data center heat dissipation wind channel humidity of admitting air.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a container data center water mist-proof air inlet channel device comprises a partition wall for dividing a container into a data center machine room area and an air inlet channel area, a partition plate for dividing the air inlet channel area into a dry air channel area and a wet air channel area, and an air inlet heat dissipation fan for communicating the data center machine room area and the dry air channel area; the air inlet heat dissipation fan supplies air to the data center machine room area; the dry air duct area and the wet air duct area are communicated through a water-vapor separation device arranged on the partition plate; the dry air duct area and the wet air duct area are both provided with air inlets.

As a preferred technical scheme, the air inlet of the dry air duct area is an electric control air inlet.

As a preferred technical scheme, the system also comprises an air return fan which is communicated with the data center machine room area and the air inlet duct area; the return air fan discharges hot air in the data center machine room zone to the air inlet duct zone.

As a preferred technical scheme, the return air fan is communicated with the data center machine room area and the dry air duct area.

As a preferred technical scheme, the air inlet of the wet air duct area is a waterproof air inlet.

As a preferred technical scheme, a filtering device is arranged in the dry air duct area to filter air entering the dry air duct.

As a preferred technical scheme, the filtering device is made of filtering cotton, and the air inlet area of the dry air duct opening and/or the water-vapor separation device are/is provided with the filtering cotton.

As a preferred technical scheme, the air inlet is of a shutter structure.

As an optimal technical scheme, the wet air duct area is provided with a water retaining wall, the water retaining wall is positioned between the air inlet of the wet air duct area and the water-vapor separation device, and rainwater entering along with the air inlet of the wet air duct area is blocked from blowing to the water-vapor separation device.

As a preferred technical scheme, a floor drain is arranged in the wet air duct area.

Compared with the prior art, the utility model beneficial effect lie in:

the utility model discloses in, through establishhing dry and wet wind channel district respectively, even make the super large air inlet volume demand that satisfies the heat dissipation wind channel and also avoided the too big problem of wind channel humidity that brings under the rainwater greasy weather condition simultaneously.

The utility model discloses in, through water-stop wall and steam separator multilayer separation with the rainwater separation inside wet district wind channel district, form the water droplet outside the dry air duct through the ground hourglass outflow case with moisture and fog separation through steam separator.

The utility model discloses in, be equipped with return air fan, with the inside circulation that forms of computer lab of inputing the hot air in the computer lab once more after through to use when external ambient temperature is lower, in order to satisfy the computer lab temperature requirement.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Wherein the reference numerals are as follows:

the water-retaining wall comprises a water-retaining wall 1, an S-shaped waterproof shutter 2, a water-retaining wall 3, a Z-shaped waterproof shutter 4, a partition wall 5, an air return fan 6, a data center cabinet 7, an air return air duct 8, an air return electric shutter 9, an air inlet heat dissipation fan 10, a partition plate 11, a floor drain 12, a water-vapor separation device 13, filter cotton 14 and an air inlet electric shutter 15.

Detailed Description

An object of the utility model is to overcome prior art's defect, provide a container data center waterproof fog wind channel device that admits air, it is right to combine the embodiment below the utility model discloses do further detailed description.

Example 1

As shown in fig. 1, a container data center water mist-proof air inlet duct device comprises a partition wall 5 and a partition plate 11. Specifically, the partition wall 5 is located in the container and connected with two corresponding inner walls of the container, so that the container is divided into a data center machine room area and an air inlet duct area.

The data center cabinets 7 are placed in a data center room area. One end of the isolation plate 11 is connected with the isolation wall 5, and the other end is connected with the inner wall of the container door. The division board 11 is perpendicular to the division wall 5, and the air inlet duct district separates into wet wind channel district and dry wind channel district.

Further, an air inlet heat dissipation fan 10 is arranged in the dry air duct area, the air inlet heat dissipation fan 10 is communicated with the data center machine room, the communication position is located on one side of the data center cabinet 7, and the air inlet heat dissipation fan 10 supplies air to the data center machine room area. And a return air fan 6 is arranged in the data center machine room area, the return air fan 6 is positioned on the other side of the data center cabinet 7, and the return air fan 6 exhausts air from the data center machine room. The return air fan 6 is communicated with the dry air channel area through a return air channel 8. Specifically, the partition 11 is provided with a return air electric louver 9. The return air electric shutter 9 is communicated with the return air fan 6 through a return air duct 8.

An air inlet electric shutter 15 is arranged on the inner wall of the container door side corresponding to the dry air duct area, and external air enters the dry air duct area through the air inlet electric shutter 15. And an air inlet heat radiation fan 10 is also arranged in the dry air duct area and opposite to the position of the air inlet electric shutter 15. The side of the air inlet electric shutter 15 facing the inside of the container is provided with filter cotton 14 for filtering dust in the air to meet the requirement of suspended particles in the air of the machine room.

Due to the layout, the return air duct 8 is located in the wet air duct area, but is not directly communicated with the wet air duct area, and only occupies the space of the wet air duct area. A water-vapor separation device 13 is arranged on the isolation plate 11, so that the wet air duct area is communicated with the dry air duct area. And one surface of the water-vapor separation device 13 facing the dry air channel area is provided with filter cotton 14 for filtering dust.

And an S-shaped waterproof shutter 2 and a Z-shaped waterproof shutter 4 which are positioned on the same side are arranged on the inner wall of the container corresponding to the wet air duct area. The position of the S-shaped waterproof shutter 2 is opposite to the position of the water-vapor separation device 13. A water-stop wall 3 is arranged in the wet air duct area, the water-stop wall 3 is parallel to a water-stop wall 5, one end of the water-stop wall 3 is connected to the inner wall of the container between the S-shaped waterproof shutter 2 and the Z-shaped waterproof shutter 4, and a space is reserved between the other end of the water-stop wall 3 and the partition plate 11. And a water retaining wall 1 parallel to the partition plate 11 is further arranged in the wet air duct area, one end of the water retaining wall 1 is positioned on the inner wall of the side of the container gate, and a space is reserved between the other end of the water retaining wall 1 and the water-stop wall 3. The water retaining wall 1 is positioned between the S-shaped waterproof shutter 2 and the water-vapor separation device 13. A floor drain 12 is arranged in the wet air duct area for draining accumulated water or water condensed from water vapor and moisture.

In this embodiment, the water-stop wall 3 is used for stopping rainwater entering the Z-shaped waterproof louver 4 and preventing the rainwater entering the water-stop wall from being blown to the water-vapor separation device 13 by wind; the water retaining wall 1 is used for retaining rainwater entering the S-shaped waterproof shutter 2 and preventing the rainwater entering the S-shaped waterproof shutter from being blown to the water-vapor separation device 13 by wind.

In this embodiment, still be equipped with humidity transducer and control system, humidity transducer sets up in data center computer lab district, sends the control system with the interior humidity of computer lab, and control system controls each electronic shutter and fan work.

The working process of this embodiment is as follows:

(1) under non-fog weather and the rainy weather condition, and when container data center computer lab district humidity satisfied data center computer lab humidity requirement: the control system controls the dry air duct area to be started, namely, the air inlet electric shutter 15 is opened to meet the requirement of the ultra-large air inlet amount of the air inlet heat dissipation air duct, and then the filter cotton 14 isolates dust in the air outside the dry air duct area to meet the requirement of suspended particles in the air of the container data center machine room area.

(2) Under the rainwater weather or the fog weather condition, when the humidity does not satisfy data center computer lab humidity requirement in the container data center computer lab district: the control system controls the dry air channel area to be closed, namely the air inlet electric shutter 15 is closed, and the wet air channel area is automatically started, namely all external air inlet at the moment must enter the dry air channel area through the wet air channel area and then is sent to the data center machine room area for heat dissipation. After entering the wet air duct area, the air enters the dry air duct area through the water-vapor separation device 13, and the water-vapor separation device 13 separates mist and moisture inside the wet air duct area to form water drops which then flow out of the container through the floor drain 12.

Under the condition of strong wind and rain, most of rain water is blocked outside the container by the inlet air through the S-shaped waterproof louver 2 and the Z-shaped waterproof louver 4, a small amount of rain water blown into the container is blocked by the water retaining wall 1 and the water retaining wall 3 and then flows out of the container through the floor drain 12, and moisture generated by the rain water is separated in a wet air passage area by the water-vapor separation device 13 to form water drops which flow out of the container through the floor drain 12.

(3) When the outdoor temperature is too low to meet the temperature requirement of the container data center machine room area, the low-temperature return air duct 8 (namely, the return air fan 6 is started) is started, namely, the air inlet electric shutter 15 is closed, the return air fan 6 and the return air electric shutter 9 are opened, and the hot air in the container data center machine room area is sent back to the dry air duct area through the return air duct 8 by the return air fan 6 to be mixed with a part of cold air and then is blown into the container data center machine room area by the air inlet heat dissipation fan 10 to form circulation.

In this embodiment, the air intake heat dissipation fan 10 is kept in the start state under the above three working conditions. According to the above embodiment, alright realize the utility model discloses well. It is worth to say that, on the premise of the above structural design, in order to solve the same technical problem, even if some insubstantial changes or retouching are made in the utility model, the essence of the adopted technical scheme is still the same as the utility model, so it should be in the protection scope of the utility model.

Claims (10)

1. A container data center water mist-proof air inlet channel device is characterized by comprising a partition wall for dividing a container into a data center machine room area and an air inlet channel area, a partition plate for dividing the air inlet channel area into a dry air channel area and a wet air channel area, and an air inlet heat dissipation fan for communicating the data center machine room area and the dry air channel area; the air inlet heat dissipation fan supplies air to the data center machine room area; the dry air duct area and the wet air duct area are communicated through a water-vapor separation device arranged on the partition plate; the dry air duct area and the wet air duct area are both provided with air inlets.

2. The container data center water mist-proof air inlet duct device according to claim 1, wherein the air inlet of the dry duct area is an electric control air inlet.

3. The container data center water mist-proof air inlet duct device according to claim 1, further comprising a return air fan communicating the data center machine room area and the air inlet duct area; the return air fan discharges hot air in the data center machine room zone to the air inlet duct zone.

4. The container data center water mist-proof air inlet duct device as claimed in claim 3, wherein the return air fan is used for communicating the data center machine room area with the dry air duct area.

5. The container data center water mist-proof air intake duct device according to claim 1, wherein the air inlet of the wet duct area is a water-proof air inlet.

6. The container data center water mist-proof air intake duct device according to claim 1, wherein a filter device is provided in the dry duct area to filter air entering the dry duct.

7. The container data center water mist-proof air inlet duct device as claimed in claim 6, wherein the filtering device is a filter cotton, and the air inlet area of the dry air duct opening and/or the water-vapor separation device is/are provided with the filter cotton.

8. The container data center water mist-proof air inlet duct device as claimed in claim 1, wherein the air inlet is of a shutter structure.

9. The container data center water mist-proof air inlet duct device according to claim 1, wherein the wet air duct area is provided with a water retaining wall, the water retaining wall is located between the air inlet of the wet air duct area and the water-vapor separation device, and the water-vapor separation device is prevented from being blown by rainwater entering along with the air inlet of the wet air duct area.

10. The container data center water mist-proof air inlet duct device according to claim 1, wherein a floor drain is arranged in the wet air duct area.

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