CN219612358U - Cabinet is placed to cloud computing server - Google Patents

Abstract

The cloud computing server placing cabinet comprises a cabinet body, wherein the cabinet body is provided with an accommodating cavity with an opening at one side, a first through groove communicated with the accommodating cavity is formed in the outer surface of the cabinet body, a partition plate is arranged in the accommodating cavity, the accommodating cavity is divided into an accommodating groove and an installing groove by the partition plate, and a second through groove communicated with the accommodating groove and the installing groove is formed in the partition plate; the radiating component is detachably arranged in the mounting groove; the cabinet door, cabinet door and cabinet body rotate to be connected, and the cabinet door can rotate on the cabinet body and open or cover and close the holding tank opening, should place the cabinet and independently set up through with server and radiator unit, and radiator unit can dismantle from the mounting groove for should place the cabinet when carrying out the deashing to one side radiator unit, the radiator unit of server and opposite side can continue to work, guarantees the radiating effect, effectively avoids the deposition, and should place the cabinet heat dissipation good, and the deashing is convenient, is fit for extensive popularization and application.

Description

Cabinet is placed to cloud computing server

Technical Field

The utility model relates to the technical field of placing cabinets, in particular to a cloud computing server placing cabinet.

Background

The server placing cabinet is used for combining and installing the panel, the plug-in unit, the plug-in box, the electronic element, the device, the mechanical part and the component to form an integral installing box, the server placing cabinet is generally provided with a cuboid shape, is placed on the ground, and provides the environment and the safety protection which are suitable for the normal operation of the electronic equipment.

Currently, servers are typically placed in a machine room, and the servers in the machine room typically use an air conditioning system to perform air-cooled cooling.

The dust-free condition is not provided in some small machine rooms, and the cost of the air conditioning system is too high, so that a placing cabinet is needed, a server can be cooled, and accumulated dust is convenient to clean.

Disclosure of Invention

(one) solving the technical problems

In order to solve the problems, the utility model provides a cloud computing server placement cabinet for solving the problems set forth in the background art.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the cloud computing server placing cabinet comprises a cabinet body, wherein the cabinet body is provided with an accommodating cavity with an opening at one side, a first through groove communicated with the accommodating cavity is formed in the outer surface of the cabinet body, a partition plate is arranged in the accommodating cavity, the accommodating cavity is divided into an accommodating groove and an installing groove by the partition plate, and a second through groove communicated with the accommodating groove and the installing groove is formed in the partition plate; the radiating component is detachably arranged in the mounting groove; the cabinet door is rotationally connected with the cabinet body, and the cabinet door can be rotated on the cabinet body to open or cover the opening of the accommodating groove.

Preferably, the heat dissipation assembly comprises a mounting member slidably mounted in the receiving groove; a plurality of fans mounted on the mounting member.

Preferably, the second through slot is of an inclined design, i.e. the end near the receiving slot is higher than the end near the mounting slot.

Preferably, a plurality of limiting protrusions are arranged on the groove wall of the mounting groove, and the mounting piece can be placed on the limiting protrusions.

Preferably, the placing cabinet further comprises a side door rotatably mounted on the cabinet body and capable of rotatably opening or covering the mounting groove opening.

Preferably, the side surface of the cabinet body is provided with a wire passing groove communicated with the mounting groove, and when the side door covers the mounting groove, the wire passing groove is communicated with the outside with the mounting groove.

Preferably, a plurality of laminate plates are provided in the accommodating groove.

(III) beneficial effects

Compared with the prior art, the cloud computing server placement cabinet is used in the following manner, the server is installed in the accommodating groove, the radiating component is installed in the installing groove, the cabinet door covers the accommodating groove to protect the server, the radiating component is started during operation, external cold air passes through the first through groove of the side face of the cabinet body and flows into the accommodating groove through the installing groove and the second through groove, the server is radiated, the cooling air is discharged through the first through groove at the top and the back of the cabinet body after passing through the server, the cold air circulation is realized, when the radiating component is required to be cleaned, the radiating component which is required to be cleaned is firstly closed, the radiating component is taken out from the installing groove to be cleaned, the radiating component is reinstalled in the installing groove after the cleaning is completed, and the radiating component can be detached from the installing groove.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate and together with the embodiments of the utility model and do not constitute a limitation to the utility model, and in which:

FIG. 1 shows a schematic overall structure of an embodiment of the present utility model;

FIG. 2 shows a second overall schematic of an embodiment of the present utility model;

FIG. 3 shows an enlarged view of portion A of FIG. 1 in accordance with an embodiment of the present utility model;

fig. 4 shows a partial part cross-sectional view of an embodiment of the utility model.

In the figure: 10 cabinet bodies, 11 cabinet doors, 12 partition boards, 20 heat dissipation components, 21 mounting pieces, 22 fans, 30 limiting protrusions, 31 side doors, 32 laminate boards, 40 accommodating cavities, 41 accommodating grooves, 42 mounting grooves, 43 first through grooves, 44 second through grooves and 45 wire passing grooves.

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.

Referring to fig. 1-4, an embodiment of the utility model discloses a cloud computing server placement cabinet, which comprises a cabinet body 10, wherein the cabinet body 10 is provided with a containing cavity 40 with one side open, the outer surface of the cabinet body 10 is provided with a first through groove 43 communicated with the containing cavity 40, a partition board 12 is arranged in the containing cavity 40, the partition board 12 divides the containing cavity 40 into a containing groove 41 and a mounting groove 42, and a second through groove 44 communicated with the containing groove 41 and the mounting groove 42 is arranged on the partition board 12; the heat dissipation assembly 20, the heat dissipation assembly 20 is detachably installed in the installation groove 42; the cabinet door 11, the cabinet door 11 and the cabinet body 10 are rotatably connected, and the cabinet door 11 can be rotated on the cabinet body 10 to open or cover the opening of the accommodating groove 41.

It should be noted that, baffle 12 is equipped with two, and the symmetry sets up in holding chamber 40 both sides, hold chamber 40 both sides promptly and be mounting groove 42, the middle part is holding groove 41 for the server both sides all have radiator unit 20 to dispel the heat to it, improve the radiating effect, first logical groove 43 sets up at three side and the top surface of cabinet body 10, with the exhaust passage that increases the interior air current of holding chamber 40, the convenience dispels the heat, in this embodiment, cabinet door 11 is equipped with two, and the symmetry sets up on cabinet body 10, two cabinet doors 11 are opened and shut about for, it shelters from holding groove 41 opening to avoid opening about opening and shutting, influence the taking of server and place, it is inconvenient to bring for the deposition in the user clearance server.

Based on the above scheme, this cloud computing server places cabinet's mode of use is as follows, the server is installed in holding tank 41, radiator unit 20 installs in mounting groove 42, cabinet door 11 lid closes the holding tank 41 opening and protects the server, during operation, radiator unit 20 starts, cool wind with the external world through the first logical groove 43 in cabinet body 10 side of side, flow to holding tank 41 through mounting groove 42 and second logical groove 44, dispel the heat to the server, pass through the server after again by cabinet body 10 top and the first logical groove 43 in back discharge, realize cold wind circulation, when the need carries out the deashing to radiator unit 20, firstly close the radiator unit 20 that needs to clear up, take out the clearance from mounting groove 42 can, install back in the mounting groove 42 after the clearance is accomplished, resume the heat dissipation to the server, in general terms, this places cabinet through independently setting up server and radiator unit 20, and radiator unit 20 can dismantle from in mounting groove 42, make this place cabinet when carrying out the deashing to one side radiator unit 20, server and the radiator unit 20 of opposite side can continue to work, guarantee that the radiator unit 20 can continue to work, the radiating effect, this radiator unit is effective, the large scale of the radiating cabinet is avoided, the radiating effect is convenient is suitable for large scale to be placed, the fine and easy to use.

Referring to fig. 4, the heat dissipating assembly 20 includes a mounting member 21, and the mounting member 21 is slidably mounted in a receiving groove 41; a plurality of fans 22, the plurality of fans 22 being mounted on the mount 21.

Specifically, the sliding mounting piece 21 can be mounted or dismounted from the mounting groove 42, so that a user can conveniently clean the fan 22, when the fan 22 rotates during operation, external cold air sequentially passes through the first through groove 43, the mounting groove 42 and the second through groove 44 on the side face and enters the accommodating groove 41, the server is cooled, and the cold air is discharged from the first through groove 43 on the back and the top of the server after passing through the server.

Further, the second through groove 44 is inclined in design, that is, one end near the receiving groove 41 is higher than one end near the mounting groove 42.

Specifically, the inclined second through slot 44 enables the cold air blown into the accommodating slot 41 by the fan 22 to face the top of the cabinet 10, so that the cold air flows out of the top of the cabinet 10 after passing through the server, and the heat dissipation efficiency is improved.

Referring to fig. 4, a plurality of limiting protrusions 30 are provided on the wall of the mounting groove 42, and the mounting member 21 may be placed on the limiting protrusions 30.

Specifically, the plurality of spacing protrusions 30 are symmetrically and equidistantly disposed within the mounting groove 42. Through setting up a plurality of spacing archs 30, make mounting groove 42 separated on the one hand to a plurality of radiator unit 20, the user can carry out the deashing to radiator unit 20 one by one, avoids influencing the radiating efficiency of server when the deashing because of setting up single radiator unit 20, on the other hand can place mounting 21, prevents that a plurality of mounting 21 from piling up, and the vibration that fan 22 work produced leads to the mounting 21 collision wearing and tearing of piling up, influences life.

Referring to fig. 1-2, the holding cabinet further includes a side door 31, wherein the side door 31 is rotatably mounted on the cabinet body 10 and can be rotated to open or close the opening of the mounting groove 42.

Specifically, through setting up side door 31, on the one hand can fix the position of mounting 21, place vibrations that fan 22 work produced and lead to mounting 21 to break away from in mounting groove 42, improve fan 22 to the radiating stability of server, on the other hand can mounting 21 protect, reduce the route that the dust got into in holding tank 41, and then reduce the dust that adheres to on the server.

Referring to fig. 3, the side of the cabinet 10 is provided with a wire passing groove 45 connected with the installation groove 42, and when the side door 31 covers the installation groove 42, the wire passing groove 45 connects the outside with the installation groove 42.

Specifically, the circuit of the heat dissipation assembly 20 can extend to the outside of the cabinet body 10 through the wire passing groove 45 to be connected with a power supply, and the wire passing groove 45 is arranged to enable the circuit of the server to be distinguished from the circuit of the heat dissipation assembly 20, so that the heat dissipation assembly 20 is convenient to install and detach on one hand, and the circuit of the server and the circuit of the heat dissipation assembly 20 is prevented from being mixed on the other hand, and the harvest of the circuit of the server is affected.

Further, a plurality of laminate plates 32 are provided in the accommodation groove 41.

Specifically, the laminate 32 is fixedly disposed in the accommodating groove 41, and the intervals between the plurality of laminates 32 can be set during production, so that a user can select a proper height according to the requirements to adapt to different types of servers.

It should be noted that while the embodiments of the present utility model have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made hereto without departing from the principles and spirit of the utility model, the scope of which is defined by the appended claims and their equivalents.

Claims (7)

1. A cloud computing server holding cabinet, comprising:

the novel multifunctional cabinet comprises a cabinet body (10), wherein the cabinet body (10) is provided with a containing cavity (40) with one side being opened, a first through groove (43) communicated with the containing cavity (40) is formed in the outer surface of the cabinet body (10), a partition board (12) is arranged in the containing cavity (40), the partition board (12) divides the containing cavity (40) into a containing groove (41) and a mounting groove (42), and a second through groove (44) communicated with the containing groove (41) and the mounting groove (42) is formed in the partition board (12);

a heat dissipating assembly (20), the heat dissipating assembly (20) being removably mounted within the mounting slot (42);

the cabinet door (11), cabinet door (11) with cabinet body (10) rotate and be connected, cabinet door (11) can rotate on cabinet body (10) and open or cover hold groove (41) opening.

2. The cloud computing server holding cabinet of claim 1, wherein said heat dissipating assembly (20) comprises

A mounting member (21), the mounting member (21) being slidably mounted within the receiving groove (41);

a plurality of fans (22), the plurality of fans (22) being mounted on the mounting (21).

3. A cloud computing server holding cabinet according to claim 2, characterized in that the second through slot (44) is of an inclined design, i.e. one end close to the receiving slot (41) is higher than one end close to the mounting slot (42).

4. A cloud computing server holding cabinet according to claim 2, wherein a plurality of limit projections (30) are provided on the wall of the mounting groove (42), and the mounting member (21) is placed on the limit projections (30).

5. The cloud computing server holding cabinet according to claim 1, further comprising a side door (31), wherein the side door (31) is rotatably mounted on the cabinet body (10) and can be rotated to open or close the mounting groove (42) opening.

6. The cloud computing server placement cabinet according to claim 5, wherein a wire passing groove (45) communicated with the installation groove (42) is formed in the side face of the cabinet body (10), and when the side door (31) covers the installation groove (42), the wire passing groove (45) is communicated with the outside with the installation groove (42).

7. A cloud computing server holding cabinet according to claim 1, wherein a plurality of laminate plates (32) are provided in the accommodation groove (41).