CN219042344U - Server cabinet - Google Patents

Abstract

The utility model provides a server cabinet, which relates to the technical field of server cabinets and comprises a cabinet body, a shell at the top of the cabinet body, a cold-hot partition isolation device, an air guide circulating assembly and detection equipment; an air guide duct is arranged on the inner side of the front cabinet door of the cabinet body; the air guide circulating assembly is positioned at the top of the cabinet body and is placed in the shell; the inside of the cabinet body is provided with mounting upright posts of the server, and the mounting upright posts are positioned at two sides of the cabinet body and are vertical to the top plate of the cabinet body; the cold and hot partition isolating device is arranged in the cabinet body, one side of the cold and hot partition isolating device is fixed at the position of the mounting upright post, and the other side of the cold and hot partition isolating device is folded with the side plate of the cabinet body on the same side as the mounting upright post. The server cabinet is used for solving the problem that the server cabinet cannot meet the operation requirement of a server in a high-quality environment, so that the service life of the server is shortened.

Description

Server cabinet

Technical Field

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

Background

The high-performance data computing and storing equipment has high rated power and high heat generation, almost all the equipment adopts a forced air cooling mode to cool the equipment, and has high requirements on the temperature and cleanliness of the operation environment, so that the equipment needs to be built according to the professional standard of a data machine room. By means of the external ventilation type server cabinet, the operation stability and the service life of the high-value super-computing storage equipment are affected to different degrees due to the open operation environment.

In addition, the data machine room is required to be configured with independent area spaces such as power supply and distribution equipment, a precise air conditioning system, a cold and heat exchange channel and the like, and meanwhile, the overall cost of early design, equipment purchase and installation, later maintenance and the like of the system is very high.

The existing server cabinet has single function, cannot meet the heat dissipation requirement of high-power server equipment, simultaneously lacks a real-time state monitoring function and a physical protection function on high-value equipment, and cannot meet the running requirement of the server in a high-quality environment, so that the service life of the server is shortened.

Disclosure of Invention

The purpose of the application is to provide a server cabinet to solve the problem that the server cabinet in the prior art can not meet the operation requirement of a server in a high-quality environment, thereby reducing the service life of the server.

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

the server cabinet comprises a cabinet body, a shell at the top of the cabinet body, a cold-hot partition isolation device, an air guide circulating assembly and detection equipment;

an air guide duct is arranged on the inner side of the front cabinet door of the cabinet body;

the air guide circulating assembly is positioned at the top of the cabinet body and is placed in the shell;

the inside of the cabinet body is provided with mounting upright posts of the server, and the mounting upright posts are positioned at two sides of the cabinet body and are vertical to the top plate of the cabinet body;

a cold-hot partition isolation device is arranged in the cabinet body, one side of the cold-hot partition isolation device is fixed at the position of the mounting upright post, and the other side of the cold-hot partition isolation device is folded with a side plate of the cabinet body on the same side as the mounting upright post;

at least one detection device is located outside the cabinet and inside the housing, and at least two detection devices are located inside the cabinet.

Further, the front cabinet door of the cabinet body comprises a metal plate structure;

the metal plate structure is positioned at one side of the front cabinet door; the metal plate structure is provided with an air guide connecting cover, an air guide duct and an air guide assembly.

Further, the air guide circulating assembly comprises a front circulating fan, a rear circulating fan and a cooling device;

the air outlet of the front circulating fan is matched with the air inlet of the air guide connecting cover;

the cooling device is positioned between the front circulating fan and the rear circulating fan.

Further, the air guide assembly comprises a first air guide fan and a second air guide fan;

the first guide fan is arranged at an air outlet of the air guide connecting cover;

the second diversion fan is arranged on the air guide duct.

Further, the wind guide connecting cover is positioned at the top of the metal plate structure;

the air outlet of the air guide connecting cover is communicated with the air guide duct.

Further, the air guide duct, the front cabinet door and the vertical distribution;

the side face of the air guide duct is provided with a cold air outlet corresponding to the air inlet of the front panel of the server.

Further, the detection equipment is located at the air inlet of the front-mounted circulating fan, the air outlet of the cooling device, the air outlet of the rear-mounted circulating fan, one side of a radiating hole of the server and one side of a cold air outlet.

Further, the front cabinet door also comprises an observation structure;

the observation structure is positioned on the other side of the front cabinet door.

The application adopts the technical scheme, possesses following beneficial effect at least: according to the cooling and heating system, the cold and hot partition device is arranged in the cabinet body to divide the running environment of the server into cold and hot double areas, meanwhile, the air guide circulating assembly arranged at the top of the cabinet body is combined with the air guide duct arranged on the inner side of the front cabinet door of the cabinet body, the high-temperature area generated by running the server is conveyed to the air guide circulating assembly at the top of the cabinet body to be cooled to form low-temperature cold air, and the cold air is conveyed to the server through the air guide duct of the front cabinet door to cool the server; the detection equipment inside the cabinet body and inside the top shell can detect the environmental parameters inside the cabinet and inside the top shell in real time, so that the operation of the server in a fully-closed space with accurate temperature control is realized, a high-quality operation environment is provided for the operation of the server, and the service life of the server is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a server enclosure, according to an example embodiment;

FIG. 2 is a schematic diagram of an air-directing circulation assembly, according to an exemplary embodiment;

FIG. 3 is a schematic view of the structure of a cabinet front door according to an exemplary embodiment;

fig. 4 is a schematic view of an air guide connection cover according to an exemplary embodiment.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail below. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, based on the examples herein, which are within the scope of the protection sought by those of ordinary skill in the art without undue effort, are intended to be encompassed by the present application.

Example 1

The utility model provides a cold and hot subregion isolating device 4 in with cabinet body 2's inside partition low temperature district and high temperature district, inside at cabinet body 2 is installed to server 1, the heat that simultaneously server 1 gives off in the operation in-process passes through the air guide circulation formula subassembly 5 at cabinet body 2 top and the air duct 212 that preceding cabinet door 21 inboard set up, accomplish the cooling and carry server 1 once more, the air current circulation of high temperature district and low temperature district has been realized, air guide circulation formula subassembly 5 is placed in the inside of the shell 3 at cabinet body 2 top simultaneously, make air guide circulation formula subassembly 5 and external environment isolated. The cabinet body 1 and the shell 3 at the top of the cabinet body 1 form a full-closed space, so that the server 1 can operate in a constant environment, and meanwhile, external dust is isolated, the server 1 can operate in a high-quality environment, and the service life of the server is prolonged.

The utility model provides a server cabinet, as shown in fig. 1 and 2, wherein the server 1 cabinet comprises a cabinet body 2, a shell 3 at the top of the cabinet body, a cold-hot partition isolation device 4, an air guide circulating assembly 5 and detection equipment 6.

An air guide duct 212 is arranged on the inner side of the front cabinet door 21 of the server cabinet body; the air guide circulating assembly 5 is positioned at the top of the cabinet body 2 and is placed in the shell 3; the inside of the cabinet body 2 is provided with mounting upright posts 22 of the server 1, and the mounting upright posts 22 are positioned at two sides of the cabinet body 2 and are vertical to the top plate of the cabinet body 2; a cold-hot partition isolation device 4 is arranged in the cabinet body 2, one side of the cold-hot partition isolation device 4 is fixed at the position of the mounting upright post 22, and the other side is folded with the side plate of the cabinet body 2 on the same side as the mounting upright post 22; the cold-hot partition isolating device 4 divides the interior of the cabinet body 2 into a low-temperature area and a high-temperature area, is arranged between the mounting upright post 22 and the side plate of the cabinet body 2, and prevents air in the low-temperature area from entering the high-temperature area through a gap between the mounting upright post 22 and the side plate of the cabinet body 2. The air in the high-temperature area enters the outer shell 3 at the top of the cabinet body from the cabinet body 2 through the air guide circulating assembly 5 to be cooled and changed into cold air, and then the cold air is conveyed to the low-temperature area of the cabinet body 2 through the air guide duct 212 to be provided for the server 1 to cool and dissipate heat.

At least one check out test set 6 is located the outside of cabinet body 2 and is located the inside of shell 3 for detect the inside temperature of shell 3 at cabinet body 2 top, at least two check out test set 6 are located the inside of cabinet body 2, and wherein at least one check out test set 6 is located the high temperature zone of cabinet body 2, and another check out test set 6 is located the low temperature zone of cabinet body 2, carries out real-time supervision to the inside temperature of cabinet body 2, guarantees that the ambient temperature of server 1 operation is in the constant temperature range interval.

The empty space installation blind plate, where the server 1 is not installed, serves to prevent cold air from directly flowing into the rear high temperature zone.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an air-guiding circulation assembly of a server cabinet, the air-guiding circulation assembly 5 includes a front circulation fan 51, a rear circulation fan 52 and a cooling device 53, an air outlet of the front circulation fan 51 is matched with an air inlet 2111 of an air-guiding connection cover 211, and the cooling device 53 is located between the front circulation fan 51 and the rear circulation fan 52. Air in the high-temperature area of the cabinet body 1 is conducted into the shell 2 at the top of the cabinet body 1 through the air inlet of the rear circulating fan 52, is cooled through the cooling device 53 and becomes low-temperature cold air, and the low-temperature cold air enters the low-temperature area of the cabinet body 1 through the front circulating fan 51 through the air guide connecting cover 211 and the air guide duct 212, so that air circulation of the high-temperature area and the low-temperature area is realized.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a front cabinet door of a server cabinet, a front cabinet door 21 of a cabinet body 2 includes a metal plate structure and an observation structure, a right half portion of the front cabinet door 21 is a metal plate structure, a top air guiding connection cover 211 is installed on the metal plate structure, an air outlet 2112 of the air guiding connection cover 211 is communicated with an air inlet of an air guiding duct 212, the air inlet 2111 of the air guiding connection cover 211 is communicated with an air outlet of a front circulating fan 51 of an air guiding circulating assembly 5 when the front cabinet door 21 is closed, the air guiding duct 212 is vertically distributed with the front cabinet door 1, and meanwhile, an air outlet of the air guiding duct 212 corresponds to an air inlet of a front panel of the server 1. Through the cold wind of cooling, get into wind-guiding passageway 212 through wind-guiding connection cover 211, then through the conduction of wind-guiding wind channel 212, finally carry out cold wind through the air outlet 2122 of wind-guiding wind channel 212, afterwards cold wind reaches server 1 through the front panel air intake of server 1, the cooling device of server 1 body setting carries out inside cooling, and then reach the purpose of server 1 cooling, in addition, the metal sheet structure still sets up wind-guiding subassembly 213, wind-guiding subassembly 213 contains first air guide fan 2131 and second air guide fan 2132, first air guide fan 2131 sets up the air outlet 2112 at wind-guiding connection cover 211, second air guide fan 2131 sets up in wind-guiding wind channel 212.

The observation structure on the front cabinet door 21 of the cabinet body 2 can be, but is not limited to, a glass transparent structure, so that the running state of the server can be conveniently checked

Referring to fig. 4, fig. 4 is a structural diagram of an air guiding connection cover, the air guiding connection cover 211 is in an irregular shape, the air guiding connection cover 211 is provided with an air inlet 2111 and an air outlet 2112, the cross-sectional area of the air outlet 2112 of the air guiding connection cover 211 is smaller than the interface area of the air inlet 2111 of the air guiding connection cover 211, and the air guiding connection cover 211 is combined with the first air guiding fan 2131 to improve the cold air flow rate when cold air enters the air guiding duct 212. The second air guiding fan 2132 is disposed at the middle lower portion of the air guiding duct 212, which can further enhance the ability of the air guiding duct 212 to deliver cold air to the end of the air guiding duct 212.

Specifically, the air guide duct 212 and the air guide connection cover 211 are adhered with, but not limited to, a thermal insulation material, so as to further maintain a stable temperature.

Referring to fig. 1, at least two detection devices 6 are disposed in the cabinet 1, at least one detection device 6 is disposed outside the cabinet 1 and in the casing 3 at the top of the cabinet 1, and the detection devices 6 are located at an air inlet of the front circulation fan 51, an air outlet of the cooling device 53, an air outlet of the rear circulation fan 52, a side of the heat dissipation hole 11 of the server 1, and an air outlet side of the air guide duct 212. The outside of the cabinet body 1 and the detection equipment 6 arranged in the shell 3 at the top of the cabinet body 1 are used for measuring temperature values for the adjustment of operation conditions of a refrigerating system and a circulating pipeline, and the detection equipment arranged on one side of the radiating hole 11 of the server 1 is used for measuring the temperature state of the high temperature area of the cabinet body 1. The detection device at the air outlet side of the air guide duct 212 is used for measuring the temperature state of the low temperature area of the cabinet 1.

The detection device 6 may be, but is not limited to, a temperature and humidity sensor.

Specifically, when the temperature exceeds the normal range by 24-30 ℃, the refrigerating system can increase or decrease the operating frequency according to the actual operating condition, and the refrigerating capacity of the compressor and the flow of the circulating pipeline are regulated, wherein a variable-frequency compressor is arranged in a host of the refrigerating system, and a variable-frequency circulating pump is arranged in the circulating pipeline. The refrigerating host and the circulating pipeline are automatically operated, and manual control is not needed except debugging and setting operation parameters.

When the operation temperature in the cabinet body 1 is 24-30 ℃, the refrigeration compressor and the circulating pump in the circulating pipeline automatically regulate and operate in the frequency range of 30-40 Hz; when the running temperature in the cabinet body 1 exceeds 30 degrees, the refrigerating compressor and the circulating pump in the circulating pipeline automatically regulate and run in the frequency range of 40-50 Hz, and when the running temperature in the cabinet body 1 reaches 35 degrees, the refrigerating compressor and the circulating pump in the circulating pipeline run at full speed in the frequency range of 50Hz, wherein the working principle of the refrigerating system is the prior art.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes and substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (8)

1. A server enclosure, comprising: the device comprises a cabinet body, a shell at the top of the cabinet body, a cold-hot partition isolation device, an air guide circulating assembly and detection equipment;

an air guide duct is arranged on the inner side of a front cabinet door of the cabinet body;

the air guide circulating assembly is positioned at the top of the cabinet body and is arranged in the shell;

the installation upright posts of the server are arranged in the cabinet body, are positioned on two sides of the cabinet body and are perpendicular to the top plate of the cabinet body;

a cold-hot partition isolation device is arranged in the cabinet body, one side of the cold-hot partition isolation device is fixed at the position of the mounting upright post, and the other side of the cold-hot partition isolation device is folded with the side plate of the cabinet body on the same side as the mounting upright post;

at least one detection device is located outside the cabinet body and inside the shell, and at least two detection devices are located inside the cabinet body.

2. The server cabinet of claim 1, wherein the front cabinet door of the cabinet body comprises a metal plate structure;

the metal plate structure is positioned on one side of the front cabinet door; the metal plate structure is provided with an air guide connecting cover, an air guide duct and an air guide assembly.

3. The server cabinet of claim 2, wherein the air-directing circulation assembly comprises a front circulation fan, a rear circulation fan, and a cooling device;

the air outlet of the front circulating fan is matched with the air inlet of the air guide connecting cover;

the cooling device is positioned between the front circulating fan and the rear circulating fan.

4. The server cabinet of claim 3, wherein the air guide assembly comprises a first air guide fan and a second air guide fan;

the first guide fan is arranged at an air outlet of the air guide connecting cover;

the second diversion fan is arranged on the air guide duct.

5. The server cabinet of claim 4, wherein the air-guiding connection housing is located on top of the metal plate structure;

the air outlet of the air guide connecting cover is communicated with the air guide channel.

6. The server cabinet of claim 5, wherein the air duct and the front cabinet door are vertically distributed;

and the side surface of the air guide duct is provided with a cold air outlet corresponding to the air inlet of the front panel of the server.

7. The server cabinet of claim 6, wherein the detection device is located at an air inlet of the front-mounted circulating fan, an air outlet of the cooling device, an air outlet of the rear-mounted circulating fan, a side of a heat sink of the server, and a side of the cool air outlet.

8. The server cabinet of claim 7, wherein the front cabinet door further comprises an observation structure;

the observation structure is located at the other side of the front cabinet door.

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