CN217160360U - Novel electromagnetic interference shielding equipment of computer lab - Google Patents

Abstract

The utility model provides a novel electromagnetic interference shielding device for a machine room, which comprises an air delivery pipe body; the air delivery pipe body comprises a first air delivery pipe, a second air delivery pipe and a third air delivery pipe, the second air delivery pipe is connected to the air outlet end of the first air delivery pipe, the third air delivery pipe is connected to the air outlet end of the second air delivery pipe, a first electromagnetic shielding net and a second electromagnetic shielding net are respectively installed on two sides of the inside of the first air delivery pipe, and a first photocatalytic base net and a second photocatalytic base net are respectively installed between the first electromagnetic shielding net and the second electromagnetic shielding net on two sides of the inside of the first air delivery pipe. Through the cooperation of electromagnetic shield net one and electromagnetic shield net two, can shield external electromagnetic interference, and through the cooperation of photocatalysis base net one and photocatalysis base net two with ultraviolet tube, can play the effect of photocatalysis air-purifying, then through the filter screen, then the dust in the filterable air has improved the air quality in the input IDC computer lab like this, and through setting up the blow off pipe, the water discharge outside in being convenient for will wasing defeated tuber pipe two moreover.

Description

Novel electromagnetic interference shielding equipment of computer lab

Technical Field

The utility model relates to an electromagnetic interference shielding technical field specifically is a novel electromagnetic interference shielding equipment of computer lab.

Background

An internet data center is abbreviated as IDC, namely a telecommunication department utilizes the existing internet communication line and bandwidth resources to establish a standardized telecommunication professional computer room environment, and an electromagnetic shielding net is generally arranged at an air inlet and an air outlet of the IDC computer room to play a role in shielding electromagnetic interference.

An electromagnetic interference shielding apparatus is provided in utility model No. 201620005475.4, including: the electromagnetic shielding net is arranged in a shielding area formed by enclosing the frame and is connected with the frame; the electromagnetic shielding net is used for shielding the interference of an electromagnetic source, and the frame is used for being connected with the air inlet and the air outlet of the power station. Because electromagnetic source interference can be shielded to the electromagnetic shield net, consequently, set up this electromagnetic shield net in power station shielding electromagnetic interference's weak link air intake and air outlet department through the frame, the stability of power station voltage in various complex environment, electric current etc. has been ensured effectively, the normal work of having avoided the power station receives external electromagnetic interference's influence, the utility model provides a power station internal environment is unanimous with IDC computer lab internal environment, and all need carry out electromagnetic interference shielding, and this electromagnetic interference shield assembly, the function is comparatively single, install and can only play electromagnetic interference shielding's effect in air intake and air outlet department, can't filter and purify the air in the room of inputing.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art's defect, provide a novel electromagnetic interference shielding equipment of computer lab, solved the problem of proposing in the above-mentioned background art.

The utility model provides a technical scheme that its technical problem adopted is: a novel electromagnetic interference shielding device for a machine room comprises an air delivery pipe body;

the air delivery pipe body comprises a first air delivery pipe, a second air delivery pipe and a third air delivery pipe, the second air delivery pipe is connected to an air outlet end of the first air delivery pipe, the third air delivery pipe is connected to an air outlet end of the second air delivery pipe, a first electromagnetic shielding net and a second electromagnetic shielding net are respectively installed on two sides of the inside of the first air delivery pipe, a first photocatalytic base net and a second photocatalytic base net are respectively installed on two sides of the inside of the first air delivery pipe and between the first electromagnetic shielding net and the second electromagnetic shielding net, an ultraviolet lamp tube is installed inside the first air delivery pipe and between the first photocatalytic base net and the second photocatalytic base net, and a filter screen is installed inside the third air delivery pipe.

Preferably, a power supply box is fixed at the upper end of the air delivery pipe, a power supply is installed in the power supply box, and the upper part of the ultraviolet lamp tube penetrates into the power supply box and is connected with the power supply.

Preferably, a fixing frame is fixed on the surface of the upper part of the ultraviolet lamp tube, and the other end of the fixing frame is fixed with the inner wall of the power box.

Preferably, the surfaces of the first photocatalytic base net and the second photocatalytic base net are both provided with a nano titanium dioxide layer.

Preferably, the filter screen is a primary filter screen.

Preferably, the filter screen is a medium efficiency filter screen.

Preferably, the filter screen is a high-efficiency filter screen.

Preferably, the bottom end of the inner part of the second air delivery pipe is provided with a concave cavity, the bottom end of the second air delivery pipe is fixedly penetrated with a blow-off pipe, a blow-off valve is arranged outside the blow-off pipe, and the blow-off pipe is communicated with the concave cavity.

Has the advantages that: through the cooperation of electromagnetic shield net one and electromagnetic shield net two, can shield external electromagnetic interference, and through the cooperation of photocatalysis base net one and photocatalysis base net two with ultraviolet tube, can play the effect of photocatalysis air-purifying, then through the filter screen, then the dust in the filterable air has improved the air quality in the input IDC computer lab like this, and through setting up the blow off pipe, the water discharge outside in being convenient for will wasing defeated tuber pipe two moreover.

Drawings

FIG. 1 is a general schematic view of the present invention;

FIG. 2 is a schematic overall sectional view of the present invention;

fig. 3 is a schematic view of the air delivery pipe according to the present invention.

In the figure: 1-a first air delivery pipe, 2-a second air delivery pipe, 3-a third air delivery pipe, 4-a power supply box, 5-a blow-down pipe, 6-a blow-down valve, 7-a first electromagnetic shielding net, 8-a first photocatalytic base net, 9-a power supply, 10-an ultraviolet lamp tube, 11-a fixed frame, 12-a second photocatalytic base net, 13-a second electromagnetic shielding net, 14-a filter screen and 15-a concave cavity.

Detailed Description

The present invention will be described in detail with reference to the drawings and specific embodiments, which are used to explain the present invention without limiting the invention.

As shown in fig. 1 to 3, a novel electromagnetic interference shielding apparatus for a machine room includes a wind pipe body;

the air delivery pipe body comprises an air delivery pipe I1, an air delivery pipe II 2 and an air delivery pipe III 3, the air delivery pipe II 2 is connected to the air outlet end of the air delivery pipe I1, the air delivery pipe III 3 is connected to the air outlet end of the air delivery pipe II 2, an electromagnetic shielding net I7 and an electromagnetic shielding net II 13 are respectively installed on two sides inside the air delivery pipe I1, and when the air delivery pipe I1 is installed at an air inlet or an air outlet of an IDC machine room, external electromagnetic interference can be shielded through the matching of the electromagnetic shielding net I7 and the electromagnetic shielding net II 13;

a first photocatalytic base net 8 and a second photocatalytic base net 12 are respectively arranged on two sides inside the first air delivery pipe 1 and between the first electromagnetic shielding net 7 and the second electromagnetic shielding net 13, an ultraviolet lamp tube 10 is arranged inside the first air delivery pipe 1 and between the first photocatalytic base net 8 and the second photocatalytic base net 12, a power supply box 4 is fixed at the upper end of the first air delivery pipe 1, a power supply 9 is arranged inside the power supply box 4, the upper part of the ultraviolet lamp tube 10 penetrates into the power supply box 4 and is connected with the power supply 9, a fixing frame 11 is fixed on the surface of the upper part of the ultraviolet lamp tube 10, the other end of the fixing frame 11 is fixed with the inner wall of the power supply box 4, and because the surfaces of the first photocatalytic base net 8 and the second photocatalytic base net 12 are both provided with a nano titanium dioxide layer, when air enters between the first photocatalytic base net 8 and the second photocatalytic base net 12 through the first electromagnetic shielding net 7, the ultraviolet lamp tube 10 emits ultraviolet rays to irradiate the nano titanium dioxide layer, can produce photocatalysis reaction similar to photosynthesis, produce free hydroxyl and active oxygen with extremely strong oxidizing power, have very strong photooxidation-reduction function, can oxidize and decompose various organic compounds and partial inorganic matters, can destroy cell membranes of bacteria and protein for solidifying viruses, can kill bacteria and decompose organic pollutants, and has the effect of purifying air.

Air delivery pipe three 3 internally mounted has filter screen 14, and when filter screen 14 was the primary filter screen, along with the air through photocatalysis purification sees through the primary filter screen, can play the effect of dust in the filtered air.

Air delivery pipe three 3 internally mounted has filter screen 14, and when filter screen 14 was the medium efficiency filter screen, along with the air that passes through photocatalytic purification sees through the medium efficiency filter screen, can play the effect of dust in the filtered air to the filter effect is better for the primary filter screen.

Air delivery pipe three 3 internally mounted has filter screen 14, and when filter screen 14 was high-efficient filter screen, along with the air through photocatalysis purification sees through high-efficient filter screen, can play the effect of dust in the filtered air to the filter effect is better for well-being filter screen, has improved the air quality in the input IDC computer lab like this.

The inside bottom of defeated tuber pipe two 2 is equipped with cavity 15, defeated tuber pipe two 2 bottoms run through and are fixed with blow off pipe 5, blow off pipe 5 externally mounted has blowoff valve 6, blow off pipe 5 communicates with each other with cavity 15, and when there is the dust more to wash when defeated tuber pipe two 2 inner walls, the water of wasing the production can drop inside cavity 15, opens blowoff valve 6 like this, just can make sewage down discharge along blow off pipe 5, and the bucket that will adorn sewage like this is put just can collect sewage in blow off pipe 5 below to be convenient for can collect the discharge outside with wasing the water in defeated tuber pipe two 2.

Claims (8)

1. The utility model provides a novel electromagnetic interference shielding equipment of computer lab, includes the defeated wind body, its characterized in that:

the utility model discloses a light-catalyzed air transmission pipe, including defeated tuber pipe one (1), defeated tuber pipe two (2) and defeated tuber pipe three (3), the air-out end at defeated tuber pipe one (1) is connected to defeated tuber pipe two (2), the air-out end at defeated tuber pipe two (2) is connected, defeated tuber pipe one (1) inside both sides are installed electromagnetic shield net one (7) and electromagnetic shield net two (13) respectively, defeated tuber pipe one (1) inside both sides just are located and install photocatalysis base net one (8) and photocatalysis base net two (12) between electromagnetic shield net one (7) and electromagnetic shield net two (13) respectively, inside and being located of defeated tuber pipe one (1) and installing ultraviolet tube (10) between photocatalysis base net one (8) and photocatalysis base net two (12), defeated tuber pipe three (3) internally mounted has filter screen (14).

2. The novel emi shielding apparatus for a machine room as set forth in claim 1, wherein: the upper end of the first air delivery pipe (1) is fixed with a power supply box (4), a power supply (9) is arranged inside the power supply box (4), and the upper part of the ultraviolet lamp tube (10) penetrates through the inside of the power supply box (4) and is connected with the power supply (9).

3. The novel EMI shielding apparatus for a machine room of claim 2, wherein: and a fixing frame (11) is fixed on the surface of the upper part of the ultraviolet lamp tube (10), and the other end of the fixing frame (11) is fixed with the inner wall of the power supply box (4).

4. The novel EMI shielding apparatus for a machine room of claim 1, wherein: and the surfaces of the first photocatalytic base net (8) and the second photocatalytic base net (12) are both provided with a nano titanium dioxide layer.

5. The novel emi shielding apparatus for a machine room as set forth in claim 1, wherein: the filter screen (14) is a primary filter screen.

6. The novel EMI shielding apparatus for a machine room of claim 1, wherein: the filter screen (14) is a medium efficiency filter screen.

7. The novel EMI shielding apparatus for a machine room of claim 1, wherein: the filter screen (14) is a high-efficiency filter screen.

8. The novel EMI shielding apparatus for a machine room of claim 1, wherein: the bottom end in the air delivery pipe II (2) is provided with a concave cavity (15), the bottom end of the air delivery pipe II (2) is fixedly provided with a blow-off pipe (5) in a penetrating mode, a blow-off valve (6) is installed on the outer portion of the blow-off pipe (5), and the blow-off pipe (5) is communicated with the concave cavity (15).

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