CN220570870U - Cooling equipment for machine room - Google Patents

Abstract

The utility model provides cooling equipment for a machine room, which relates to the technical field of cooling equipment and comprises a cooling equipment body, wherein one side of the cooling equipment body is connected with a display screen, one side of the cooling equipment body is connected with a button, one side of the cooling equipment body is connected with a first air pipe, one side of the cooling equipment body is connected with a second air pipe, both one side of the first air pipe and one side of the second air pipe are provided with sliding grooves, both one side of the first air pipe and one side of the second air pipe are connected with a filter frame, the inner wall of the filter frame is connected with a sliding block, and one side of the filter frame is connected with an ear plate. The utility model aligns the groove with the outer wall of the filter frame, aligns the slide block with the slide groove, embeds the slide block into the slide groove to slide, drives the two filter frames to slide on the outer wall of the air pipe I and the air pipe II respectively, sleeves the two filter frames on the outer wall of the air pipe I and the air pipe II respectively, passes the bolt through the thread groove I on the lug plate, and tightens the nut on the outer wall of the bolt, so that the two filter frames are installed on the outer wall of the air pipe I and the air pipe II respectively.

Description

Cooling equipment for machine room

Technical Field

The utility model relates to the technical field of cooling equipment, in particular to cooling equipment for a machine room.

Background

Machine rooms are commonly referred to as telecommunications, network access, mobility, two-wire, electricity, government or business, etc., where servers are stored to provide IT services to users and employees. Because equipment in the computer lab can produce a large amount of heats in the course of working, leads to the computer lab temperature to rise, and equipment when under high temperature environment, its normal operating can receive the influence, and the present solution is that the equipment of cooling down is ventilated in the building, provides ventilation and cooling down for in the computer lab.

In order to guarantee the cleanliness factor of air in the computer lab, current aeration cooling equipment can install filter equipment additional in equipment, filters the dust in the air, avoids external dust to enter into inside the computer lab, reduces the dust simultaneously and enters into inside the cooling equipment to avoid the dust to influence the normal work of cooling equipment. Cooling equipment can pile up a large amount of dust on the filter screen after long-term use, but general filtration equipment is located cooling equipment inside, and the operation of dismantlement and installation is all comparatively loaded down with trivial details, and inconvenient dismantlement filtration results in can not in time clear up the dust, and the dust piles up too much and can influence ventilation, still can increase the dust and get into cooling equipment and indoor prevention probability, therefore need frequent clearance. Therefore, the machine room cooling equipment is convenient for installing and disassembling the filtering structure for cleaning.

Disclosure of Invention

The utility model aims to solve the defects in the technical field of cooling equipment. The general filtration equipment is located cooling equipment inside, and the operation of dismantlement and installation is all comparatively loaded down with trivial details, and inconvenient dismantlement filtration results in time not clearing up the dust.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a computer lab cooling equipment, includes the cooling equipment body, cooling equipment body one side is connected with the display screen, cooling equipment body one side is connected with the button, cooling equipment body one side is connected with tuber pipe one, cooling equipment body one side is connected with tuber pipe two, the spout has all been seted up to tuber pipe one and tuber pipe two one sides, tuber pipe one and tuber pipe two one sides all are connected with the filter frame, filter frame inner wall connection has the slider, filter frame one side is connected with the otic placode, the otic placode has two otic placode symmetry sets up, two thread groove one has all been seted up to otic placode one side, two otic placode one side is connected with the bolt, the nut has been cup jointed to the bolt outer wall, tuber pipe one and tuber pipe two inner wall are connected with the pivot, tuber pipe one and tuber pipe two inner wall pivot swivelling joint.

As a preferred embodiment, the cross section of the sliding groove is of a T shape, the cross section of the sliding block is of a T shape, and the sliding groove is in sliding connection with the sliding block.

As a preferred embodiment, a groove is formed on one side of the filter frame, and the groove is located between the two ear plates.

As a preferred embodiment, the trough height and the duct-height are the same.

As a preferred implementation mode, the first air pipe and the second air pipe are connected with ash blocking plates.

As a preferred implementation mode, a rotating groove is formed in one side of the ash blocking plate, and the rotating shaft is fixedly connected with the rotating groove.

Compared with the prior art, the utility model has the advantages and positive effects that:

the utility model aligns the groove with the outer wall of the filter frame, aligns the slide block with the slide groove, embeds the slide block into the slide groove to slide, drives the two filter frames to slide on the outer wall of the air pipe I and the air pipe II respectively, sleeves the two filter frames on the outer wall of the air pipe I and the air pipe II respectively, passes the bolt through the thread groove I on the lug plate, and tightens the nut on the outer wall of the bolt, so that the two filter frames are installed on the outer wall of the air pipe I and the air pipe II respectively.

Drawings

Fig. 1 is a schematic structural diagram of a cooling device for a machine room.

Fig. 2 is a cross-sectional view of an air duct one of a cooling device for a machine room.

Fig. 3 is a schematic structural diagram of a filter frame of a cooling device for a machine room.

Fig. 4 is a schematic structural diagram of the cooling device for a machine room in fig. 2 at a position a.

Legend description:

1. a cooling device body; 11. a display screen; 12. a button;

2. an air pipe I;

3. an air pipe II;

4. a filter frame; 41. a slide block; 42. ear plates; 43. a first thread groove; 44. a bolt; 45. a nut; 46. letting the groove;

5. a chute;

6. a support plate; 61. A thread groove II;

7. an ash blocking plate; 71. A rotary groove;

8. a rotating shaft.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1 to 4, the present utility model provides a technical solution: the utility model provides a computer lab cooling equipment, including cooling equipment body 1, cooling equipment body 1 one side is connected with display screen 11, cooling equipment body 1 one side is connected with button 12, cooling equipment body 1 one side is connected with tuber pipe one 2, cooling equipment body 1 one side is connected with tuber pipe two 3, spout 5 has all been seted up to tuber pipe one 2 and tuber pipe two 3 one sides, tuber pipe one 2 and tuber pipe two 3 one sides all are connected with filter frame 4, filter frame 4 inner wall is connected with slider 41, the spout 5 cross-section is the T type, slider 41 cross-section is the T type, spout 5 and slider 41 sliding connection, filter frame 4 one side is connected with otic placode 42, otic placode 42 has two, two otic placode 42 symmetry sets up, threaded groove one 43 has all been seted up on two otic placode 42 one sides, two otic placode 42 one sides are connected with bolt 44, the nut 45 has been cup jointed to the outer wall of bolt 44, let groove 46 has been seted up on one side of filter frame 4, let groove 46 be located between two otic placode 42, let groove 46 height and tuber pipe one 2 height the same, tuber pipe one 2 and tuber pipe two 3 inner walls all are connected with ash blocking plate 7, ash blocking plate 7 one side is equipped with the ash blocking plate 71, ash blocking plate 7 one side is equipped with 2 rotating groove 2 and two inner walls 8 rotating shaft 8, 8 and two inner walls are connected with the tuber pipe 8, 8 rotating shaft and 8.

In this embodiment, two filter frames 4 are respectively sleeved on the outer walls of the first air duct 2 and the second air duct 3 through the sliding block 41 and the sliding groove 5, the bolt 44 passes through the first thread groove 43 on the ear plate 42, and the nut 45 is screwed on the outer wall of the bolt 44, so that the two filter frames 4 are respectively mounted on the outer walls of the first air duct 2 and the second air duct 3.

Example 2

As shown in fig. 2, one side of the air duct 1 and one side of the air duct 2 and one side of the air duct 3 are respectively connected with two groups of support plates 6, six support plates 6 are respectively arranged in a linear array, two threaded grooves 61 are respectively formed in one side of each of the six support plates 6, the six support plates 6 are respectively located between the two lug plates 42, and the two threaded grooves 61 are matched with the bolts 44.

In this embodiment, the bolt 44 passes through the first thread groove 43 and passes through the second thread groove 61 on the support plate 6, so that the support plate 6 can uniformly support the bolt 44, and the connection of the bolt 44 to the ear plate 42 is more stable.

Working principle:

as shown in fig. 1-4, the groove 46 is aligned with the outer wall of the filter frame 4, the sliding block 41 is aligned with the sliding groove 5, the sliding block 41 is embedded into the sliding groove 5 to slide, the two filter frames 4 are driven to slide on the outer walls of the air duct one 2 and the air duct two 3 respectively, the two filter frames 4 are sleeved on the outer walls of the air duct one 2 and the air duct two 3 respectively, the bolt 44 passes through the thread groove one 43 on the lug plate 42, and the nut 45 is screwed on the outer wall of the bolt 44, so that the two filter frames 4 are installed on the outer walls of the air duct one 2 and the air duct two 3 respectively. The bolt 44 passes through the first thread groove 43 and simultaneously passes through the second thread groove 61 on the supporting plate 6, and the supporting plate 6 can uniformly support the bolt 44, so that the connection of the bolt 44 to the lug plate 42 is more stable. After the nuts 45 are unscrewed, the bolts 44 are detached from the lug plates 42, and the filter frame 4 can be slid out of the outer wall fans of the first branch pipe and the second air pipe 3 through the sliding blocks 41 and the sliding grooves 5, so that the filter frame 4 is detached, and dust on the filter frame 4 and the dust blocking plate 7 can be cleaned conveniently. Because the ash blocking plate 7 is fixedly connected with the rotating shaft 8, the rotating shaft 8 is rotationally connected with the inner wall of the air pipe I2 and the air pipe II 3, the rotating shaft 8 can be controlled to rotate on the inner wall of the air pipe I2 and the air pipe II 3 through the button 12, and the ash blocking plate 7 is simultaneously driven by the rotating shaft 8 to rotate, so that the angle of the ash blocking plate is changed, and the wind speed is changed.

The drawings of the present utility model are merely to show specific structural positions to aid understanding, and are not limited to scale dimensions, specifications, and the like.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (6)

1. The utility model provides a computer lab cooling equipment, includes cooling equipment body (1), its characterized in that, cooling equipment body (1) one side is connected with display screen (11), cooling equipment body (1) one side is connected with button (12), cooling equipment body (1) one side is connected with tuber pipe one (2), cooling equipment body (1) one side is connected with tuber pipe two (3), spout (5) have all been seted up on tuber pipe one (2) and tuber pipe two (3) one side, tuber pipe one (2) and tuber pipe two (3) one side all are connected with filter frame (4), filter frame (4) inner wall connection has slider (41), filter frame (4) one side is connected with otic placode (42), otic placode (42) have two, two otic placode (42) one side all has seted up thread groove one (43), two otic placode (42) one side is connected with bolt (44), bolt (44) outer wall has cup jointed nut (45), one (2) and two inner walls (3) are connected with tuber pipe (8) and two tuber pipes (8).

2. The machine room cooling apparatus of claim 1, wherein: the section of the sliding groove (5) is T-shaped, the section of the sliding block (41) is T-shaped, and the sliding groove (5) is in sliding connection with the sliding block (41).

3. The machine room cooling apparatus of claim 1, wherein: a yielding groove (46) is formed in one side of the filter frame (4), and the yielding groove (46) is located between the two lug plates (42).

4. A machine room cooling apparatus according to claim 3, wherein: the height of the letting groove (46) is the same as that of the wind pipe one (2).

5. The machine room cooling apparatus of claim 1, wherein: the inner walls of the first air pipe (2) and the second air pipe (3) are connected with ash blocking plates (7).

6. The machine room cooling apparatus of claim 5, wherein: a rotary groove (71) is formed in one side of the ash blocking plate (7), and the rotary shaft (8) is fixedly connected with the rotary groove (71).