CN207836042U - The Intelligent server cabinet that a kind of liquid cooling, wind-cooling heat dissipating combine - Google Patents

Abstract

The utility model relates to an intelligent server cabinet combined with liquid cooling and air cooling and heat dissipation, which comprises an outer cabinet and an inner cabinet. The inner cabinet is located inside the outer cabinet. Several servers are arranged in the inner cabinet. Each liquid cooling device is respectively equipped with a liquid inlet and a liquid outlet, and a main liquid supply pipeline and a main liquid return pipeline are arranged between the inner cabinet and the outer cabinet. All liquid inlets are respectively connected to the main liquid supply pipeline, and all liquid outlets are respectively connected to the main liquid return pipeline. There is a water pump on the main liquid supply pipeline, and one end of the main liquid supply pipeline and the main liquid return pipeline It extends out of the outer cabinet and connects to the external pipeline; by setting the air-cooled channel and liquid-cooled pipeline inside the cabinet, it can solve the problem that most data centers currently have no standard cabinet when liquid cooling is used for heat dissipation. There are air-cooling channels, which can leave enough design space for many liquid cooling solutions.

Description

An intelligent server cabinet combining liquid cooling and air cooling

technical field

The utility model relates to the field of server heat dissipation, in particular to an intelligent server cabinet combining liquid cooling and air cooling for heat dissipation.

Background technique

With the increasing integration of semiconductors and the increasing performance of chips, heat dissipation has become a new bottleneck for electronic equipment. Especially for the data center, the so-called data center refers to the place where computer equipment, server equipment, network equipment, storage equipment and other equipment are stored. Its function is to realize the centralized processing, storage, transmission, exchange and management of information. The energy consumption is huge, and nearly half of the energy consumption of the current data center is heat dissipation. Therefore, realizing energy saving and reducing consumption is one of the problems faced by the data center.

In addition, traditional data centers mostly use precision air-conditioning cooling, which not only consumes a lot of energy, but also has inconsistent air intake temperatures in the upper, middle, and lower parts of most cabinets, resulting in the "heat island" phenomenon of servers in the cabinets. The server is in danger of going down.

Liquid cooling has become the research direction of major server manufacturers due to its high heat dissipation efficiency, large specific heat capacity of liquid, and low energy consumption.

Patent 201620103751.0 proposes a water-cooling system for server cabinets. By setting a water-cooling wall between the fan wall at the rear of the server cabinet and the cabinet, it can dissipate heat from other components other than the server CPU and cool down the water-cooling wall at the same time. However, in this solution The cabinet is a non-standard part, and it is only another form of air cooling, which does not provide liquid cooling channels.

Patent 201510144755.3 proposes a server combining a door-type heat exchange device and a liquid cooling device. This invention includes a liquid-cooled server cabinet. The cooling device performs direct liquid cooling and heat dissipation on the liquid-cooled server, and a door-type heat exchange device is also provided for auxiliary heat dissipation. There is no clear air channel and intelligent control system in this invention, and at the same time, it cannot be uniformly processed for most liquid cooling solutions.

Patent 201410357779.2 proposes a liquid-cooled and heat-dissipating server cabinet, including a casing, a server board, a heat sink, a heat pipe, a heat pipe, a heat exchanger, and a micro-liquid pump. Each of the server boards is installed with a corresponding The heat dissipation plate described above, the heat dissipation pipe is installed on the heat dissipation plate, the liquid pump and the heat exchanger are connected through the heat dissipation pipe, the heat exchange liquid flows in the heat dissipation pipe and the heat dissipation pipe, and the cabinet is only For cabinets that use similar water-cooled panels, it is not possible to use external circulation block air cooling, and there is no intelligent control system for single cabinets.

Contents of the invention

Aiming at the technical problems existing in the prior art, the purpose of this utility model is to provide an intelligent server cabinet combining liquid cooling and air cooling to dissipate heat from the server, and the liquid cooling tube and Air cooling is equipped with a separate channel to maximize the efficiency of both liquid cooling and air cooling, improve heat dissipation efficiency, and reduce energy consumption.

In order to achieve the above object, the utility model adopts the following technical solutions:

An intelligent server cabinet combining liquid cooling and air cooling, including an outer cabinet and an inner cabinet, the inner cabinet is located inside the outer cabinet, and several servers are arranged in the inner cabinet, and each server has Liquid-cooled heat dissipation device, each liquid-cooled heat dissipation device is equipped with a liquid inlet and a liquid outlet, the main liquid supply pipeline and the main liquid return pipeline are set between the inner cabinet and the outer cabinet, and all the liquid inlets They are respectively connected to the main liquid supply pipeline, and all the liquid outlets are respectively connected to the main liquid return pipeline. There is a water pump on the main liquid supply pipeline, and one end of the main liquid supply pipeline and the main liquid return pipeline extends out of the outer cabinet External, and connected with external piping;

The inner cabinet is equipped with a fan wall. The fan wall includes several fans. The fan wall is located on the side away from the main liquid supply pipeline and the main liquid return pipeline. The cold channel is equipped with a water-cooled heat exchanger, a fan and several temperature measuring devices, and the water-cooled radiator is provided with a liquid supply pipeline and a liquid return pipeline;

The main liquid supply pipeline and the main liquid return pipeline are equipped with monitoring devices respectively, and the monitoring devices include temperature monitoring devices, flow monitoring devices, pressure monitoring devices and conductivity monitoring devices;

The server is provided with a CPU load rate measuring device, a GPU load rate measuring device and a memory occupancy rate measuring device;

The outer cabinet is equipped with an intelligent control system, which is electrically connected to the water pump, monitoring device, temperature measuring device, fan, CPU load rate measuring device, GPU load rate measuring device and memory occupancy rate measuring device.

Among them, the other ends of the main liquid supply pipeline and the main liquid return pipeline are respectively provided with exhaust valves, and the end with the exhaust valve is located on the upper part of the outer cabinet, and the position of the exhaust valve is higher than the liquid cooling device of the server .

Wherein, the main liquid supply pipeline and the main liquid return pipeline are respectively provided with drain valves, and the drain valves are arranged at the lower part of the outer cabinet, and the position of the drain valves is lower than the liquid cooling device of the server.

Wherein, the main liquid supply pipeline and the main liquid return pipeline are respectively provided with water stop valves.

Wherein, the inner cabinet is provided with baffles along the fan wall to the two sides of the main liquid supply pipeline and the main liquid return pipeline, and the fan and the water-cooled heat exchanger are arranged on the top of the inner cabinet.

Wherein, a baffle is arranged on the top of the inner cabinet, and a fan and a water-cooled heat exchanger are arranged on the side of the inner cabinet.

Wherein, the liquid supply pipeline of the water-cooled radiator is connected to the main liquid supply pipeline, and the liquid return pipeline of the water-cooled radiator is connected to the main liquid return pipeline.

Wherein, the liquid supply pipeline and the liquid return pipeline of the water cooling radiator are connected with the external pipeline.

Wherein, a liquid leakage alarm device is provided at the bottom of the outer cabinet, and the liquid leakage alarm device is located under the main liquid supply pipeline and the main liquid return pipeline.

An intelligent server cabinet that combines liquid cooling and air cooling. The intelligent control system adjusts the temperature of the fan by reading the temperature of the temperature measuring device, the CPU load rate of the server, the occupancy rate of the memory, and the temperature of the supply and return liquid, and adopts a neural network algorithm. The rotation speed and the rotation speed of the water pump realize heat dissipation and energy saving.

In general, the utility model has the following advantages:

An intelligent server cabinet that combines liquid cooling and air cooling heat dissipation. By setting air cooling channels and liquid cooling pipelines inside the cabinet, it can solve the problem that most data centers currently have no standard cabinets when liquid cooling is used for heat dissipation. There is an air cooling channel, which can leave enough design space for many liquid cooling solutions. In particular, the design of the air-cooled channel fixes the air circulation in a certain space area, prevents some dead ends of the air circulation in the prior art, and overheats due to poor air circulation, reduces the space for air circulation, and improves the efficiency of air flow and heat exchange efficiency; in addition, the intelligent control system can automatically optimize and match various parameters of refrigeration through the neural network algorithm, and the energy saving and heat dissipation effects are good.

Description of drawings

Fig. 1 is a schematic diagram of the overall structure of a liquid-cooled, air-cooled and heat-dissipating intelligent server cabinet according to the utility model;

Fig. 2 is a schematic diagram of the wind wall structure of a smart server cabinet that combines liquid cooling and air cooling and heat dissipation according to the utility model;

Fig. 3 is a structural schematic diagram of a server in a smart server cabinet combining liquid cooling and air cooling according to the present invention;

Fig. 4 is a structural schematic diagram of the connection between the main liquid supply pipeline and the main liquid return pipeline of a smart server cabinet with liquid cooling, air cooling and heat dissipation described in the present invention;

Fig. 5 is a structural schematic diagram of another angle of an intelligent server cabinet combining liquid cooling and air cooling according to the present invention;

Fig. 6 is a schematic diagram of an intelligent control system of an intelligent server cabinet combining liquid cooling and air cooling according to the present invention;

Fig. 7 is a schematic structural diagram of an air-cooled channel of an intelligent server cabinet that combines liquid cooling and air-cooling heat dissipation according to the present invention;

Fig. 8 is a structural schematic diagram of the pipeline of the water-cooled radiator and the pipeline of the server in a smart server cabinet that combines liquid cooling and air cooling and heat dissipation according to the present invention;

Fig. 9 is a structural schematic diagram of another water-cooled radiator pipeline and server pipeline part of a smart server cabinet that combines liquid cooling and air cooling and heat dissipation according to the utility model;

Fig. 10 is a structural schematic diagram of another air-cooled channel of a smart server cabinet combining liquid cooling and air-cooling heat dissipation according to the present invention;

Fig. 11 is a structural schematic diagram of another angle of another air-cooled channel of a smart server cabinet combining liquid cooling and air cooling and heat dissipation described in the present invention;

Among them, Figures 1 to 11 include:

1—the outer cabinet, 111—the front area of the inner cabinet, 112—the area above the inner cabinet, 113—the rear area of the inner cabinet, 114—the side area of the inner cabinet;

2—server, 201—liquid cooling device, 202—quick connector for liquid inlet, 203—quick connector for liquid outlet;

3 - fan;

4——water-cooled heat exchanger, 41——temperature measuring device before heat exchange, 42——temperature measuring device after heat exchange, 401——liquid supply pipeline, 402——liquid return pipeline;

5—fan wall, 51—first temperature measuring device, 52—second temperature measuring device, 53—third temperature measuring device, 54—fan;

6——inner cabinet;

7——main liquid supply pipeline, 71——liquid supply and discharge valve, 72——liquid supply monitoring device, 73——liquid supply and water stop valve;

8——main liquid return pipeline, 81——liquid return and drain valve, 82——liquid return monitoring device, 83——liquid return stop valve;

9——exhaust valve;

10 - water pump;

11—liquid leakage alarm device;

12——intelligent control system;

13—the first baffle, 14—the second baffle, 15—the top baffle.

Detailed ways

The utility model is described in further detail below.

Embodiment 1,

As shown in Figures 1 to 7, an intelligent server cabinet that combines liquid cooling and air cooling with heat dissipation includes an outer cabinet 1 and an inner cabinet 6, the inner cabinet 6 is located inside the outer cabinet 1, and the inner cabinet 6 There are several servers 2, and each server 2 is provided with a liquid cooling device 201, and each liquid cooling device 201 is respectively provided with a liquid inlet and a liquid outlet, and the inner cabinet 6 and the outer cabinet 1 There is a main liquid supply pipeline 7 and a main liquid return pipeline 8 between them. All the liquid inlets are respectively connected to the main liquid supply pipeline 7, and all liquid outlets are respectively connected to the main liquid return pipeline 8. The main supply The liquid pipeline 7 is provided with a water pump 10, and one end of the main liquid supply pipeline 7 and the main liquid return pipeline 8 extends out of the outer cabinet 1 and is connected with the external pipeline; the inner cabinet 6 is provided with a fan wall 5, and the fan wall 5 The wall 5 includes several fans 54 , and the fan wall 5 is located on a side away from the main liquid supply pipeline 7 and the main liquid return pipeline 8 . As shown in Figure 2, the fan wall 5 is fixed together by a plurality of fans 54 to form a plurality of fans 54 arranged in an array, and the arrangement of the fans 54 in the height direction of the cabinet corresponds to the arrangement of the server 2, so that the fan wall 5 When working, the wind can be accurately blown into the corresponding server group 2 in the inner cabinet 6 to play the role of drainage and heat dissipation. An air-cooled passage is formed between the outer cabinet 1 and the inner cabinet 6, and a water-cooled heat exchanger 4, a fan 3 and several temperature measuring devices are arranged in the air-cooled passage, and the front part of the water-cooled heat exchanger 4 is provided with a heat exchange The front temperature measuring device 41 and the rear part of the water-cooled heat exchanger 4 are provided with a temperature measuring device 42 after heat exchange. The water-cooled heat exchanger 4 may be a plate heat exchanger, a plate-fin heat exchanger, a finned tube heat exchanger or a fan coil heat exchanger.

The upper, middle and lower parts of the fan wall 5 are respectively provided with a first temperature measuring device 51, a second temperature measuring device 52 and a third temperature measuring device 53, which are used to measure the temperature of different positions on the air-cooled passage, and the measured value Feedback intelligent control system 12 . The water-cooled radiator is provided with a liquid supply pipeline 401 and a liquid return pipeline 402; the main liquid supply pipeline 7 and the main liquid return pipeline 8 are respectively equipped with monitoring devices, which are respectively: a liquid supply monitoring device 72 and a liquid return monitoring device Device 82. The monitoring device includes a temperature monitoring device, a flow monitoring device, a pressure monitoring device and a conductivity monitoring device. The device can monitor the physical parameters of the liquid entering the cabinet, such as the flow rate, pressure, temperature, conductivity, etc. of the liquid. The server 2 is equipped with a CPU load rate measuring device, a GPU load rate measuring device, and a memory occupancy rate measuring device; the outer cabinet 1 is provided with an intelligent control system 12, and the intelligent control system 12 is electrically connected to the water pump 10, the monitoring device, and the temperature measuring device , a fan 54, a CPU load rate measuring device, a GPU load rate measuring device and a memory occupancy rate measuring device. The other ends of the main liquid supply pipeline 7 and the main liquid return pipeline 8 are respectively provided with an exhaust valve 9, and the end with the exhaust valve 9 is located on the upper part of the outer cabinet 1, and the position of the exhaust valve 9 is higher than that of the server 2 The liquid cooling heat sink 201. The gas in the pipeline can be eliminated by adjusting the exhaust valve 9, so as to prevent the gas in the pipeline from reducing the cooling effect of the cabinet. Both the main liquid supply pipeline 7 and the main liquid return pipeline 8 are respectively provided with liquid discharge valves, which are liquid supply liquid discharge valve 71 and liquid return liquid discharge valve 81 respectively. The drain valve is arranged at the lower part of the outer cabinet 1 , and the position of the drain valve is lower than the liquid cooling device 201 of the server 2 . When liquid needs to be removed from the pipeline, the liquid in the liquid cooling device can be released by opening the liquid supply and liquid discharge valve 71 and the liquid return liquid discharge valve 81 . Both the main liquid supply pipeline 7 and the main liquid return pipeline 8 are respectively provided with water stop valves, which are respectively a liquid supply water stop valve 73 and a liquid return water stop valve 83 . It can prevent the backflow of liquid in the cabinet. In addition, as shown in FIG. 2 or FIG. 4 , there is a liquid cooling radiator 201 inside the server 2 , and the liquid cooling radiator 201 is closely attached to the heating chip in the server 2 , and there is a liquid channel in the liquid cooling radiator 201 . At the same time, the liquid cooling radiator 201 is equipped with a liquid inlet quick connector 202 and a liquid outlet quick connector 203, and is connected to the main liquid supply pipeline 7 through the liquid inlet quick connector 202, and is connected to the main liquid return pipe through the liquid outlet quick connector 203. Corresponding quick coupler docking in way 8. After docking, the liquid flows in from the main liquid supply pipeline 7 , then passes through the liquid cooling radiator 201 , and finally flows into the main liquid return pipeline 8 .

As shown in Figure 7, the inner cabinet 6 is provided with baffles along both sides of the fan wall 5 to the main liquid supply pipeline 7 and the main liquid return pipeline 8, and the fan 3 and the water-cooled heat exchanger 4 are arranged on the inner cabinet 6 the top of. As shown in Figures 5 and 7, the sides of the outer cabinet 1 and the inner cabinet 6 are sealed by the first baffle 13 and the second baffle 14, so that the front area 111 of the inner cabinet and the inner cabinet can be formed. The upper area 112, the rear area 113 of the inner cabinet and the air-cooled passage formed inside the inner cabinet 6, when the hot air is driven by the fan 3, it flows through the heat exchanger 4 from the air-cooled passage, and the temperature is cooled to the required temperature, and enters In the air-cooled channel, through the action of the fan wall 5, the cold air enters the server 2 group in the inner cabinet 6, takes away the heat of some chips in the server 2 group that need air cooling, and then passes through the inner cabinet 6 The air is discharged through the front door, and then passes through the air-cooling channel again, and so on.

As shown in FIG. 9 , the liquid supply pipeline 401 and the liquid return pipeline 402 of the water cooling radiator are connected with external pipelines.

As shown in FIG. 1 , a liquid leakage alarm device 11 is provided at the bottom of the outer cabinet 1 , and the liquid leakage alarm device 11 is located below the main liquid supply pipeline 7 and the main liquid return pipeline 8 . When there is liquid leakage in the pipeline, the alarm device will be triggered, and the cabinet will sound an alarm, and the intelligent control system 12 on the cabinet will prompt an alarm simultaneously.

An intelligent server cabinet combining liquid cooling, air cooling and heat dissipation. The intelligent control system 12 adjusts the temperature by reading the temperature of the temperature measuring device, the CPU load rate of the server 2, the occupancy rate of the memory, and the temperature of the supply and return liquid, and adopts a neural network algorithm. The rotating speed of the fan 54 and the rotating speed of the water pump 10 realize heat dissipation and energy saving. As shown in Fig. 6, described intelligent control system 12, through the communication protocol, the temperature of the external pipeline of server 2, GPU load, CPU load, memory utilization rate, water-cooled heat exchanger 4 inlet air temperature and outlet air temperature Centralized storage and analysis of the data, through the neural network algorithm, optimal matching and calculation of the speed of the fan 54 on the fan wall 5, and the speed of the water pump 10, to achieve intelligent heat dissipation and energy saving. The server 2 cabinet for a data center that adopts liquid cooling and heat dissipation is provided with a liquid cooling channel and an air cooling channel inside, which can match most of the current server 2 liquid cooling solutions, and can meet most of the liquid cooling requirements. Cooling data center needs.

In general, the utility model has the following advantages:

An intelligent server cabinet that combines liquid cooling and air cooling heat dissipation. By setting air cooling channels and liquid cooling pipelines inside the cabinet, it can solve the problem that most data centers currently have no standard cabinets when liquid cooling is used for heat dissipation. There is an air cooling channel, which can leave enough design space for many liquid cooling solutions. In particular, the design of the air-cooled channel fixes the air circulation in a certain space area, prevents some dead ends of the air circulation in the prior art, and overheats due to poor air circulation, reduces the space for air circulation, and improves the efficiency of air flow and heat exchange efficiency; in addition, the intelligent control system 12 can automatically optimize and match various parameters of cooling through the neural network algorithm, and the energy saving and heat dissipation effects are good. The air-cooling channel is formed by the fan wall 5 passing through the inner cabinet 6, the inner cabinet 6 and the outer cabinet 1 are located on the side of the main liquid supply pipeline 7 and the main liquid return pipeline 8, and the air flows along the air-cooling channel. Between the inner layer cabinet 6 and the outer layer cabinet 1 is located on the top side of the inner layer cabinet 6 , and then enters the interior of the inner layer cabinet 6 through the fan wall 5 .

Embodiment 2,

The main structure of this embodiment is the same as that of Embodiment 1, and the similarities will not be repeated here. The difference is that: as shown in Fig. The heater 4 is arranged on the side of the inner cabinet 6 . The air-cooling passage is through the inner cabinet 6 through the fan wall 5, and the inner cabinet 6 and the outer cabinet 1 are located on the side of the liquid pipeline and the main liquid return pipeline 8, and the air flows to the inner cabinet 6 along the air-cooling passage. The two sides flow, and then flow from both sides of the inner cabinet 6 to the fan wall 5 and then enter the interior of the inner cabinet 6 . As shown in Figure 10 or Figure 11, the difference from Embodiment 1 is that the position of the hot air channel of the air-cooling channel is not the upper part of the inner cabinet 6, but the side area 114 of the inner cabinet, the top baffle 15 is sealed with the top of the inner layer cabinet 6 or a slightly lower place, so that air cannot enter the area above the top baffle plate 15.

As shown in FIG. 8 , the liquid supply pipeline 401 of the water-cooled radiator is connected to the main liquid supply pipeline 7 , and the liquid return pipeline 402 of the water-cooled radiator is connected to the main liquid return pipeline 8 . The water-cooled heat exchanger 4 is connected with the liquid supply pipeline 401, the main liquid supply pipeline 7 and the liquid return pipeline 402 and the main liquid return pipeline 8, and at the same time, the liquid supply pipeline 401 and the liquid return pipeline 402 exchange heat with the water cooling 4 are connected together. When the liquid enters the water-cooled heat exchanger 4, the fan 3 starts simultaneously, and the hot air in the cabinet is cooled by the water-cooled heat exchanger 4 to become cold air.

The above-mentioned embodiment is a preferred implementation mode of the present utility model, but the implementation mode of the present utility model is not limited by the above-mentioned embodiment, and any other changes, modifications and substitutions made without departing from the spirit and principle of the present utility model , combination, and simplification, all should be equivalent replacement methods, and are all included in the protection scope of the present utility model.

Claims (9)

1. A liquid-cooled, air-cooled and heat-dissipating intelligent server cabinet, characterized in that: it includes an outer cabinet and an inner cabinet, the inner cabinet is located inside the outer cabinet, and several servers are arranged in the inner cabinet, each Each server is equipped with a liquid cooling device, and each liquid cooling device is equipped with a liquid inlet and a liquid outlet, and a main liquid supply pipeline and a main liquid return pipe are provided between the inner cabinet and the outer cabinet. All liquid inlets are respectively connected to the main liquid supply pipeline, and all liquid outlets are respectively connected to the main liquid return pipeline. The main liquid supply pipeline is equipped with a water pump, the main liquid supply pipeline and the main liquid return pipeline. One end protrudes from the outside of the outer cabinet and is connected to the external pipeline; The inner cabinet is equipped with a fan wall. The fan wall includes several fans. The fan wall is located on the side away from the main liquid supply pipeline and the main liquid return pipeline. The cold channel is equipped with a water-cooled heat exchanger, a fan and several temperature measuring devices, and the water-cooled radiator is provided with a liquid supply pipeline and a liquid return pipeline; The main liquid supply pipeline and the main liquid return pipeline are equipped with monitoring devices respectively, and the monitoring devices include temperature monitoring devices, flow monitoring devices, pressure monitoring devices and conductivity monitoring devices; The server is provided with a CPU load rate measuring device, a GPU load rate measuring device and a memory occupancy rate measuring device; The outer cabinet is equipped with an intelligent control system, which is electrically connected to the water pump, monitoring device, temperature measuring device, fan, CPU load rate measuring device, GPU load rate measuring device and memory occupancy rate measuring device. 2. According to claim 1, an intelligent server cabinet combining liquid cooling and air cooling and heat dissipation is characterized in that: the other ends of the main liquid supply pipeline and the main liquid return pipeline are respectively provided with exhaust valves, and One end of the exhaust valve is located on the upper part of the outer cabinet, and the position of the exhaust valve is higher than the liquid cooling device of the server. 3. The intelligent server cabinet combining liquid cooling and air cooling and heat dissipation according to claim 2, characterized in that: the main liquid supply pipeline and the main liquid return pipeline are respectively equipped with drain valves, and the drain valves are set At the lower part of the outer cabinet, the position of the drain valve is lower than the liquid cooling device of the server. 4. The intelligent server cabinet combining liquid cooling and air cooling and heat dissipation according to claim 3, characterized in that: the main liquid supply pipeline and the main liquid return pipeline are respectively provided with water stop valves. 5. The intelligent server cabinet combining liquid cooling and air cooling and heat dissipation according to claim 1, characterized in that: the inner cabinet is provided with The baffle, the fan and the water-cooled heat exchanger are arranged on the top of the inner cabinet. 6. The intelligent server cabinet combining liquid cooling and air cooling and heat dissipation according to claim 1, characterized in that: a baffle is provided on the top of the inner cabinet, and the fan and water-cooling heat exchanger are arranged on the side of the inner cabinet. 7. The intelligent server cabinet combining liquid cooling and air cooling and heat dissipation according to claim 1, characterized in that: the liquid supply pipeline of the water-cooled radiator is connected to the main liquid supply pipeline, and the liquid return pipe of the water-cooled radiator connected to the main return line. 8. The intelligent server cabinet combining liquid cooling and air cooling and heat dissipation according to claim 1, wherein the liquid supply pipeline and the liquid return pipeline of the water-cooled radiator are connected to external pipelines. 9. An intelligent server cabinet combining liquid cooling and air cooling and heat dissipation according to claim 1, characterized in that: a liquid leakage alarm device is provided at the bottom of the outer cabinet, and the liquid leakage alarm device is located between the main liquid supply pipeline and the main Below the return line.