CN114786429B - Server and server cabinet - Google Patents

Abstract

The application relates to a server and a server cabinet. The server cabinet is used for installing a server, an air inlet is formed in one side of the server cabinet, an air outlet is formed in one side of the air inlet, a refrigerator, an air distributor and the server are sequentially arranged between the air inlet and the air outlet, a first air channel is formed in the top of the air distributor, a second air channel is formed in the server, air of the air inlet enters the refrigerator, and the air passes through the first air channel and the second air channel sequentially to reach the air outlet to form a heat dissipation flow channel. The heat dissipation device has the beneficial effects of being simple in structure, and capable of directly and rapidly achieving heat dissipation of the server cabinet.

Description

Server and server cabinet

Technical Field

The present disclosure relates to the field of server cabinets, and in particular, to a server and a server cabinet.

Background

And the server cabinet is used for combining and installing the panel, the plug-in unit, the plug-in box, the electronic element, the device and the mechanical parts and components to form an integral installation box. The server cabinet consists of a frame and a cover plate (door), and generally has a cuboid shape and is placed on the floor. It provides the environment and safety protection for the normal operation of the electronic equipment. This is a level assembly next to the system level. The cabinet without the closed structure becomes a rack. The server cabinet has good technical performance. The mechanism of the cabinet has good rigidity and strength and good electromagnetic isolation, grounding, noise isolation, ventilation, heat dissipation and other performances. In addition, the server cabinet should have vibration resistance, impact resistance, corrosion resistance, dust resistance, water resistance, radiation resistance, etc. in order to ensure stable and reliable operation of the apparatus.

The existing server cabinet can not directly and rapidly cool and dissipate heat, so that the service life of the server cabinet is shortened, and the working performance of a server is reduced. Therefore, it is highly desirable to provide a server and a server cabinet with simple structures, which can directly and rapidly realize heat dissipation of the server cabinet.

Disclosure of Invention

Accordingly, it is necessary to provide a server and a server cabinet with simple structures, which can directly and rapidly realize heat dissipation of the server cabinet.

In one aspect, a server is provided, including a server body, a second air duct and a power male head, where the server body includes a server back cover plate, and the second air duct is arranged in the server body in a penetrating manner; the power male head is arranged on the rear cover plate of the server.

In still another aspect, a server cabinet is provided, configured to mount a server, an air inlet is provided on one side of the server cabinet, an air outlet is provided on a corresponding side of the air inlet, a refrigerator, an air distributor and the server are sequentially provided between the air inlet and the air outlet, a first air channel is provided at the top of the air distributor, air from the air inlet enters the refrigerator, and air cooled by the refrigerator sequentially passes through the first air channel and the second air channel to reach the air outlet to form a heat dissipation flow channel.

In one embodiment, an air inlet is formed in the bottom of the server cabinet, and an air outlet is formed in the top of the server cabinet.

In one embodiment, the method further comprises: the top of the wind distributor is provided with a guide groove for guiding and installing the server.

In one embodiment, a beam is fixed on the inner wall of the server cabinet; and a power supply female head matched with the power supply male head is fixed on the cross beam.

In one embodiment, a guide rail is fixed on the inner wall of the server cabinet; the guide rail is connected with a power supply female head matched with the power supply male head in a sliding way; and a limiter is arranged on the guide rail.

In one embodiment, after the positioning and installation of the server are completed, the axis of the first air duct and the axis of the second air duct are in the same straight line, and the power male head is electrically connected with the power female head.

In one embodiment, the server cabinet is provided with a rate controller connected with the refrigerator, so as to adjust the working rate of the refrigerator; a temperature sensor is arranged at the air outlet and used for monitoring the temperature in the server cabinet; the server cabinet is provided with a control unit, a signal input end of the control unit is connected with the temperature sensor and used for acquiring the temperature in the server cabinet, and a signal output end of the control unit is connected with the speed controller and used for adjusting the working speed of the refrigerator.

In one embodiment, the exhaust outlet is provided with a plurality of exhaust fans; the server cabinet is provided with a liquid inlet pipe and a liquid outlet pipe which are communicated with the refrigerator.

In one embodiment, the first air channel and the second air channel are curved, and/or linear.

In another aspect, a method for using a server cabinet is provided, the method comprising:

positioning and installing the server in the server cabinet along a guide groove arranged at the top of the wind distributor; air enters the refrigerator from the air inlet; the refrigerator cools the air; the air distributor sequentially sends the cooled air of the refrigerator into the first air channel and the second air channel, and finally reaches the air outlet to form a heat dissipation flow channel.

In one embodiment, the method comprises: the server is positioned and installed behind the server cabinet along a guide groove arranged at the top of the wind distributor, the power supply female head is electrically connected with the power supply male head, and the server is electrified.

The server and the server cabinet have the following beneficial effects:

(1) Air enters from the air inlet, then sequentially passes through the refrigerator, the air distributor and the server, the refrigerator cools the control entering the air inlet, the air distributor distributes the cooled air, the cooled air is directly introduced into a second air duct arranged on the server to absorb heat generated in the operation process of the server, and finally the heat in the server cabinet is brought out through the air outlet to reduce the temperature in the server cabinet so as to ensure that the server arranged in the server cabinet can normally operate. The air distributor distributes the cooled air, and the cooled air is directly introduced into a second air duct arranged on the server, so that a flow path of the cooled air is limited, and on one hand, the cooling efficiency of the server is improved; on the other hand, the loss of cold air is reduced, the energy consumption of the refrigerator is reduced, and the beneficial effects of energy conservation and emission reduction are achieved;

(2) The top of the wind distributor is provided with a guide groove for guiding and installing the server; the server is provided with a power male head, and a power female head matched with the power male head is arranged in the server cabinet; when the server is positioned and installed, the axis of the first air duct and the axis of the second air duct are positioned on the same straight line, and the power male head is electrically connected with the power female head. On one hand, the power male head and the power female head directly electrify the server up and down, so that the defect of messy cables caused by the traditional need of power cable connection is overcome, and the server is convenient for technicians to maintain; on the other hand, the server is positioned and installed in the server cabinet along the guide groove, and the power on and off of the server is powered on and off in a pushing power on and power off mode, so that the power on and off efficiency of the server is improved; on the other hand, the server is directly powered on and powered off based on the power male connector and the power female connector, so that the contact point between the power cable and the power socket is reduced, the power loss is reduced, and the energy-saving and emission-reducing beneficial effect is achieved.

Drawings

FIG. 1 is a schematic diagram of a server in one embodiment;

FIG. 2 is a front view of a server enclosure in one embodiment;

FIG. 3 is a rear view of a server enclosure in one embodiment;

FIG. 4 is a top view of a server enclosure in one embodiment;

FIG. 5 is a schematic diagram of the mounting structure of a fan and a refrigerator in one embodiment;

FIG. 6 is a schematic diagram of the mounting structure of the male and female power supplies in one embodiment;

FIG. 7 is a schematic diagram of the power male and female in one embodiment

FIG. 8 is a flow chart of a method of server enclosure usage in one embodiment;

FIG. 9 is a flow chart of a method for using a server rack in one embodiment.

Description of the specification reference numerals:

1. a server; 2. an air inlet; 3. an air outlet; 4. a refrigerator; 5. an air separator; 6. a first air duct; 7. a second air duct; 8. a guide groove; 9. a power male; 10. a cross beam; 11. a power supply female; 12. an exhaust fan; 13. a cabinet door; 14. a liquid inlet pipe; 15. air outlet pipe

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

Example 1

The server provided by the present application, as shown in fig. 1, the server includes: the server comprises a server body, a second air duct 7 and a power male head 9, wherein the server body comprises a server back cover plate (not shown in the figure), and the second air duct 7 is arranged on the server body in a penetrating way; the power male 9 is arranged on the server back cover plate. It should be understood that the server cover plate is a member that is coated outside the server body and is used for protecting the server, and a person skilled in the art can set the power male connector 9 at any position of the server cover plate according to actual operation requirements, so long as the power male connector 9 and the power female connector 11 can be electrically connected after the positioning and installation of the server 1 are completed.

In one embodiment, the server is a vertical server, the second air channels 7 are disposed vertically through the server 1, and the number of the second air channels 7 may be 1 or more.

Example two

The server cabinet provided by the application, as shown in fig. 2-7, is used for installing the server shown in fig. 1.

In one embodiment, an air inlet 2 is arranged on one side of the server cabinet, an air outlet 3 is arranged on the corresponding side of the air inlet 2, a refrigerator 4, an air distributor 5 and the server 1 are sequentially arranged between the air inlet 2 and the air outlet 3, a first air channel 6 is arranged at the top of the air distributor 5, a second air channel 7 is arranged on the server 1, and air of the air inlet 2 enters the refrigerator 4 and sequentially passes through the first air channel 6 and the second air channel 7 to reach the air outlet 3 to form a heat dissipation flow channel. .

In one embodiment, the air splitter 5 is provided with a plurality of first air channels 6 in an array, and the number of the first air channels 6 is consistent with the number of the second air channels 7 on a single server in the installation direction of the server, and the number of the first air channels 6 and the second air channels 7 is not limited. Based on the server cabinet described in the above embodiment, air enters from the air inlet 2, then sequentially passes through the refrigerator 4, the air distributor 5 and the server 1, the refrigerator 4 cools the air entering the air inlet 2, the air distributor 5 distributes the cooled air, the cooled air is directly introduced into the second air duct 7 arranged on the server 1 to absorb heat generated in the operation process of the server 1, and finally the heat in the server cabinet is carried out through the air outlet 3 to reduce the temperature inside the server cabinet, so as to ensure that the server 1 arranged in the server cabinet can normally operate. The air distributor 5 distributes the cooled air, and the cooled air is directly introduced into the second air duct 7 arranged on the server 1, so that a flow path of the cooled air is limited, and on one hand, the cooling efficiency of the server 1 is improved; on the other hand, the loss of cold air is reduced, the energy consumption of the refrigerator 4 is reduced, and the beneficial effects of energy conservation and emission reduction are achieved.

In one embodiment, as shown in fig. 1 and 2, the air inlet 2 is disposed at the bottom of the server cabinet, and the air outlet 3 is disposed at the top of the server cabinet; the servers 1 are mounted longitudinally in a server cabinet.

In one embodiment, the air inlet 2 is disposed at the left side of the server cabinet, the air outlet 3 is disposed at the right side of the server cabinet, and the server 1 is transversely mounted in the server cabinet. The air entering the server cabinet from the air inlet 2 is used for absorbing heat generated in the operation process of the server 1 so as to achieve the beneficial effects of reducing the internal temperature of the server cabinet and ensuring that the server 1 can work normally, and the air inlet 2 and the air outlet 3 are correspondingly arranged, so that the heat in the server cabinet can be discharged quickly and efficiently.

In one embodiment, the top of the wind separator 5 is provided with a guiding groove 8 for guiding the installation of the server 1. The guide groove 8 is formed in the top of the air distributor 5, so that the server 1 can be positioned and installed on one hand, and the stability of the server 1 in the working process can be improved on the other hand.

In one embodiment, the cross beam 10 is fixed on the inner wall of the server cabinet; and a power supply female head 11 matched with the power supply male head 9 is fixed on the cross beam 10. In the prior art, a plurality of servers 1 are usually arranged in a server cabinet, and power cables are usually adopted to realize the power on and off of the servers 1, on one hand, the power cables with a large number can cause the increase of mess in the server cabinet, the power connection phenomenon is easy to generate, and the safe operation of the servers 1 is not facilitated; on the other hand, when the server 1 fails, the technician cannot quickly and accurately power down the server 1. The power supply male head 9 and the power supply female head 11 are used for realizing the power supply and the power supply of the server 1, so that on one hand, the loss of a power supply cable is saved, on the other hand, the complexity of power supply and power supply of the server 1 is reduced, on the other hand, the maintenance is convenient, and when the server 1 breaks down, the server 1 can be quickly and accurately powered down.

In one embodiment, a guide rail is fixed on the inner wall of the server cabinet; the guide rail is connected with a power supply female head 11 matched with the power supply male head 9 in a sliding way; and a limiter is arranged on the guide rail. Wherein the limiter is arranged corresponding to the guide groove 8. The power supply female head 11 is connected to the guide rail in a sliding way, so that the position of the power supply female head 11 along with the position of the power supply male head 9 can be adjusted at will; a stopper is provided on the guide rail to secure the power supply female 11 in place. The reason why the stopper is arranged corresponding to the guide groove 8 is that the server 1 is positioned and installed in the server cabinet along the guide groove 8, and the stopper is arranged corresponding to the guide groove 8, namely, the connection stability of the power male 9 and the power female 11 is ensured.

In one embodiment, a rate controller (not shown) is provided on the server cabinet and connected to the refrigerator 4 for adjusting the operating rate of the refrigerator 4; a temperature sensor (not shown in the figure) is arranged at the air outlet 3 for monitoring the temperature in the server cabinet; the server cabinet is provided with a control unit (not shown in the figure), a signal input end of the control unit is connected with the temperature sensor and used for acquiring the temperature in the server cabinet, and a signal output end of the control unit is connected with the rate controller and used for adjusting the working rate of the refrigerator 4. It is known that, since the air at the air outlet 3 is the air taking away the heat in the server cabinet, the temperature of the air discharged through the air outlet 3 should be higher than the temperature in the server cabinet. Therefore, the working speed of the refrigerator 4 is regulated and controlled based on the air temperature value at the air outlet 3, so that the server 1 can be ensured to normally work and run in the server cabinet, and the beneficial effects of energy conservation and emission reduction can be achieved.

In one embodiment, after the positioning and installing of the server 1 are completed, the axis of the first air duct 6 and the axis of the second air duct 7 are on the same line, and the power male connector 9 is electrically connected with the power female connector 11. When the server 1 is positioned and installed in the server cabinet along the guide groove 8, the first air channel 6 is communicated with the second air channel 7, air cooled by the refrigerator 4 can directly enter the second air channel 7 through the first air channel 6, and heat generated in the working process of the server 1 is discharged out of the server cabinet through the second air channel 7.

In one embodiment, the power male 9 includes an ac live male and an ac neutral male; the power supply female head 11 comprises an alternating current live wire female head and an alternating current zero line female head. After the server 1 is positioned and installed along the guide groove 8, the alternating current live wire male head is connected with the alternating current live wire female head, and the alternating current zero line male head is connected with the alternating current zero line female head.

In one embodiment, the exhaust outlet 3 is provided with a plurality of exhaust fans 12, and the number of the exhaust fans 12 is plural; the server cabinet is provided with a liquid inlet pipe 14 and a liquid outlet pipe 15 which are communicated with the refrigerator 4. So as to realize cooling of the air entering through the air inlet 2.

In one embodiment, the liquid refrigerant is fed into the refrigerator through the liquid inlet pipe 14, and after freon is regasified, a great amount of heat is absorbed, the temperature of the air entering from the air inlet is reduced, a great amount of heat is absorbed by the air inlet, and hot air is generated and discharged from the air outlet pipe 15. The condenser may be freon compressed by a compressor.

In one embodiment, the first air duct 6 and the second air duct 7 are curved, and/or linear. It should be understood that the specific shapes of the first air duct 6 and the second air duct 7 are not limited, and only the first air duct 6 is communicated with the second air duct 7 after the positioning of the server 1 is completed, and the air cooled by the refrigerator 4 can directly enter the second air duct 7 through the first air duct 6.

In one embodiment, the front and rear sides of the server cabinet are respectively provided with a cabinet door 13, and the cabinet door 13 is arranged so that after the server 1 is installed and the cabinet door 13 is closed, the server cabinet becomes a closed body to isolate dust and pollution.

Server cabinet theory of operation:

after the server 1 is positioned and installed on a server cabinet, air enters the refrigerator 4 through the air inlet 2, the refrigerator 4 cools the air entering through the air inlet 2, the cooled air is sequentially sent into the first air duct 6 and the second air duct 7 through the air distributor 5, the cooled air takes away heat generated in the working and running process of the server 1 through the second air duct 7, and finally the cooled air is discharged out of the server cabinet through the air outlet 3. The temperature sensor arranged at the air outlet 3 measures the temperature of the air discharged through the air outlet 3, the temperature sensor sends the measured air temperature value at the air outlet 3 to the control unit in real time, and the control unit controls the speed controller in real time to adjust the working speed of the refrigerator 4 based on the air temperature value at the air outlet 3.

Example III

In one embodiment, as shown in fig. 9 and 8, the present application provides a server cabinet usage method, the method comprising: positioning and installing the server 1 in a server cabinet along a guide groove 8 arranged at the top of the wind distributor; air enters the refrigerator 4 from the air inlet 2; the refrigerator 4 cools the air; the air separator 5 sends the air cooled by the refrigerator 4 into the first air duct 6 and the second air duct 7 in sequence, and finally reaches the air outlet 3 to form a heat dissipation flow channel.

In one embodiment, the method comprises: the server 1 is positioned and installed in a server cabinet along a guide groove 8 arranged at the top of the wind distributor, a power female head 11 is electrically connected with a power male head 9, and the server 1 is electrified.

It should be understood that, although the steps in the flowcharts of fig. 8-9 are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in fig. 8-9 may include multiple sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, nor do the order in which the sub-steps or stages are performed necessarily occur sequentially, but may be performed alternately or alternately with at least a portion of the sub-steps or stages of other steps or steps.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (7)

1. The server cabinet is used for installing a server and is characterized by comprising a server body, a second air duct and a power male head, wherein the server body comprises a server back cover plate, and the second air duct is arranged on the server body in a penetrating way; the power male head is arranged on the rear cover plate of the server;

an air inlet is formed in one side of the server cabinet, an air outlet is formed in the corresponding side of the air inlet, a refrigerator, an air distributor and the server are sequentially arranged between the air inlet and the air outlet, a first air channel is formed in the top of the air distributor, air of the air inlet enters the refrigerator, and air cooled by the refrigerator sequentially passes through the first air channel and the second air channel to reach the air outlet to form a heat dissipation flow channel;

the top of the wind distributor is provided with a guide groove for guiding and installing the server;

the inner wall of the server cabinet is fixedly provided with a guide rail, after the server is positioned and installed, the axis of the first air duct and the axis of the second air duct are positioned on the same straight line, and the power male head is electrically connected with the power female head.

2. The server cabinet of claim 1, wherein the bottom of the server cabinet is provided with an air inlet and the top of the server cabinet is provided with an air outlet.

3. The server cabinet of claim 2, wherein a cross beam is fixed to an inner wall of the server cabinet; and a power supply female head matched with the power supply male head is fixed on the cross beam.

4. The server cabinet of claim 3, further comprising: the guide rail is connected with a power supply female head matched with the power supply male head in a sliding way; and a limiter is arranged on the guide rail.

5. The server cabinet of claim 1, wherein a rate controller is provided on the server cabinet in connection with the refrigerator for adjusting an operating rate of the refrigerator; a temperature sensor is arranged at the air outlet and used for monitoring the temperature in the server cabinet; the server cabinet is provided with a control unit, a signal input end of the control unit is connected with the temperature sensor and used for acquiring the temperature in the server cabinet, and a signal output end of the control unit is connected with the speed controller and used for adjusting the working speed of the refrigerator.

6. The server cabinet of claim 1, wherein the exhaust port is provided with a plurality of exhaust fans; the server cabinet is provided with a liquid inlet pipe and a liquid outlet pipe which are communicated with the refrigerator.

7. The server cabinet of claim 1, wherein the first air duct and the second air duct are curved, and/or linear.