CN212164014U - Little data center of integral type air conditioner - Google Patents

Abstract

The utility model provides an integral type air conditioner little data center belongs to micromodule data center integrated frame system technical field, include: the refrigerator comprises a cabinet and a refrigerating chamber, wherein a hot air channel and a cold air channel are arranged in the comprehensive chamber, a front door body and a rear door body are respectively arranged on the front side and the rear side of the comprehensive chamber, and a closed space is enclosed by the comprehensive chamber, the front door body and the rear door body; the integrated air conditioner is detachably installed in the refrigeration cabin, the integrated air conditioner comprises a refrigeration chamber and a heat dissipation chamber, an internal circulation inlet and an internal circulation outlet are formed in the refrigeration chamber, the internal circulation inlet is connected with a hot air channel, and the internal circulation outlet is connected with a cold air channel. The utility model has the advantages that: the integrated air conditioner is adopted, and an air conditioner external unit is not required to be installed, so that the installation and the disassembly are convenient, the modularization degree of the data center is greatly improved, and the packaging and post-assembly are facilitated.

Description

Little data center of integral type air conditioner

Technical Field

The utility model belongs to the technical field of micromodule data center integrated frame system, a little data center of integral type air conditioner is related to.

Background

The modular data center is a new generation of data center deployment form based on cloud computing, and in order to cope with the development trend of servers such as cloud computing, virtualization, centralization and high-density, the modular data center adopts a modular design concept, reduces the coupling of infrastructure to the machine room environment to the greatest extent, integrates subsystems such as power supply and distribution, refrigeration, cabinets, airflow containment, comprehensive wiring, dynamic loop monitoring and the like, improves the overall operation efficiency of the data center, and realizes quick deployment, elastic expansion and green energy conservation.

From the configuration form, the data center can be divided into a micro-module product MDC and a container data center product CDC, the modular data center can meet the urgent requirements of an IT business department on the infrastructure construction of a future data center, such as standardized design, assembly factory prefabrication, rapid online deployment, effective reduction of initial investment, modular internal energy pooling management, high utilization rate of dynamic IT infrastructure resources, intelligent operation and maintenance management, guarantee of important business continuity, provision of shared IT services (such as cross-business infrastructures, information, application sharing and the like), rapid response of business requirement change, green energy-saving data centers and the like.

The existing data center all-in-one machine consists of a cabinet, a distribution box, a UPS, a split air conditioner (including an indoor unit and an outdoor unit) and a monitoring system. The installation process of the air conditioner outdoor unit is complex, and copper pipe sleeve heat insulation cotton and wiring are additionally welded on the site, refrigerant is filled, refrigeration oil is added, and pressure is maintained, so that the installation process is very troublesome.

Disclosure of Invention

The utility model aims at the above-mentioned problem that prior art exists, provide a little data center of integral type air conditioner.

The purpose of the utility model can be realized by the following technical proposal: an integrated air conditioning micro data center comprising:

the refrigerator comprises a cabinet and a refrigerating chamber, wherein a hot air channel and a cold air channel are arranged in the comprehensive chamber, a front door body and a rear door body are respectively arranged on the front side and the rear side of the comprehensive chamber, and a closed space is enclosed by the comprehensive chamber, the front door body and the rear door body;

the integrated air conditioner is detachably installed in the refrigeration cabin, the integrated air conditioner comprises a refrigeration chamber and a heat dissipation chamber, an internal circulation inlet and an internal circulation outlet are formed in the refrigeration chamber, the internal circulation inlet is connected with a hot air channel, and the internal circulation outlet is connected with a cold air channel.

Preferably, the heat dissipation chamber is provided with an external circulation inlet and an external circulation outlet, the external circulation inlet is communicated with the refrigeration cabin, the external circulation outlet is connected with a heat dissipation pipe, and the heat dissipation pipe penetrates out of the refrigeration cabin.

Preferably, the integral type air conditioner still includes compressor, evaporimeter and condenser, the evaporimeter sets up in the refrigeration chamber and with the inner loop import and the inner loop exit linkage, the condenser sets up in the heat dissipation chamber and with the outer loop import and the outer loop exit linkage, the compressor with the evaporimeter and the condenser is connected, the evaporimeter with the condenser is connected.

Preferably, the cold air channel and the hot air channel are respectively located at the front part and the rear part of the comprehensive cabin, and a fan facing the hot air channel is arranged at the top of the comprehensive cabin.

Preferably, the refrigeration cabin is located below the comprehensive cabin, and a heat preservation partition plate is arranged between the refrigeration cabin and the comprehensive cabin.

Preferably, still be provided with power supply module in synthesizing the cabin, power supply module includes distribution module, UPS power and battery package, the UPS power with the distribution module electricity is connected, the battery package with the UPS power electricity is connected, the integral type air conditioner with the distribution module electricity is connected.

The preferred, synthesize the under-deck and still be provided with the control alarm subassembly, the control alarm subassembly is including monitoring host computer, movable ring monitoring box, RGB lamp area, input/output control module, movable ring monitoring box with the electricity of UPS power is connected, the monitoring host computer RGB lamp area input/output control module all with movable ring monitoring box connects.

Preferably, the monitoring alarm assembly further comprises a smoke alarm, the smoke alarm is connected with the monitoring host, and when smoke is generated in the cabinet, the smoke alarm gives an alarm.

Preferably, a drain pipe is arranged in the refrigeration cabin, the monitoring alarm assembly further comprises a water immersion host and a water immersion rope for detecting water leakage, the water immersion rope is connected with the water immersion host, and the water immersion rope is arranged at the bottom of the refrigeration cabin.

Preferably, the rear part of the comprehensive cabin is provided with a plurality of vertically arranged wiring grooves close to the hot air channel.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the integrated air conditioner is adopted, and an air conditioner external unit is not required to be installed, so that the installation and the disassembly are convenient, the modularization degree of the data center is greatly improved, and the packaging and post-assembly are facilitated.

2. The monitoring host can display various parameters of power distribution, refrigeration and equipment and record the parameters in real time, and has the function of high-temperature and low-temperature alarm.

3. Through the isolated design of the closed cold air channel and the closed hot air channel, gas mixed flow is avoided, and the return air temperature is greatly improved.

4. The integrated air conditioner with the structure is ingenious in structure, is very suitable for refrigeration of a data center, and adopts the integrated air conditioner, so that the whole data center is modularized, and can be installed without a professional, and the installation is very convenient.

5. The fan plays the effect of emergent cooling, and in case the air conditioner goes wrong or the temperature in the rack is too high, the fan discharges the hot-air from the rack.

Drawings

Fig. 1 is a schematic position diagram of the cabinet and the integrated air conditioner of the present invention.

Fig. 2 is a schematic view of the working principle of the integrated air conditioner of the present invention.

Fig. 3 is a schematic structural diagram of the integrated air conditioner micro data center of the present invention.

Fig. 4 is a schematic structural diagram of the cabinet of the present invention.

In the figure, 100, a cabinet; 110. a comprehensive cabin; 111. a power distribution module; 112. a UPS power supply; 113. a battery pack; 114. monitoring the host; 115. a moving loop monitoring box; 116. an RGB lamp band; 117. an input/output control module; 118. a smoke alarm; 120. a refrigeration compartment; 130. a hot air passage; 140. a cold air passage; 200. an integrated air conditioner; 210. a refrigeration compartment; 220. a heat dissipation chamber; 230. an internal circulation inlet; 240. an internal circulation outlet; 250. an external circulation inlet; 260. an external circulation outlet; 270. a compressor; 280. an evaporator; 290. a condenser; 300. a fan; 400. a drain pipe; 500. water leaching the host machine; 600. soaking a rope in water; 700. a wiring groove.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2, 3 and 4, an integrated air-conditioning micro data center is a micro module data center, which is suitable for being applied to edge computing access layers of various industries, and the area of the data center is less than 200m²The scene (2). Is mainly applied to governmentThe system adopts an All-in-Rack design and integrates an integrated cabinet (comprising subsystems such as a cold and hot ventilation smoke alarm and the like) for education, telecommunication, medical treatment, traffic, energy, finance, medium resources, branch institutions of small and medium-sized enterprises and large-sized enterprises and the like.

It is worth explaining here that, because of the installation of the air conditioner outdoor unit, the existing data center needs to additionally weld the copper pipe sleeve heat insulation cotton, wire connection, fill the refrigerant, add the refrigeration oil, and maintain the pressure on site, and the air conditioner indoor unit is fixed with the cabinet together, so the weight of the single cabinet is large, the transportation is inconvenient, and the copper pipe is difficult to lay, the copper pipe welding generates open fire in the machine room, the leakage is easy to break, the copper pipe maintains the pressure for 24 hours, vacuumizes, and checks whether the copper pipe breaks and leaks, in addition, professional staff are needed to fill the refrigerant and the refrigeration oil, and the installation environment of the high-rise air conditioner outdoor unit is difficult or the pipeline is not good to penetrate.

In order to overcome the above disadvantages, the present embodiment includes: the cabinet 100 comprises a comprehensive cabin 110 and a refrigerating cabin 120, a hot air channel 130 and a cold air channel 140 are arranged in the comprehensive cabin 110, and the integrated air conditioner 200 is installed in the refrigerating cabin 120.

The front side and the rear side of the integrated cabin 110 are respectively provided with a front door body (not shown in the figure) and a rear door body (not shown in the figure), and the integrated cabin 110, the front door body and the rear door body enclose a closed space.

It should be noted here that the front door body and the rear door body can be automatically bounced open, and when the temperature in the integrated cabin 110 is too high, the front door body and the rear door body are bounced open, so as to achieve the purpose of automatic heat dissipation, and after the front door body and the rear door body are closed, the integrated cabin 110 can form a closed structure.

Preferably, the hot air channel 130 is used for allowing air inside the integrated air conditioner 200 to flow into the integrated air conditioner 110, and the cold air channel 140 is used for allowing cold air blown by the integrated air conditioner 200 to flow into the integrated air conditioner 110, so as to form an internal air circulation, which can effectively reduce energy consumption and improve refrigeration effect.

Preferably, based on the above disadvantages, a data center of the integrated air conditioner 200 is designed, wherein the cabinet 100 adopts a cabin-dividing and cabinet-dividing structure, the integrated machine cabinet 100 is divided into an upper cabin and a lower cabin which are respectively the integrated cabin 110 and the refrigeration cabin 120, and the refrigeration cabin 120 can be drawn out for independent packaging and delivery; and after the structure of having adopted integral type air conditioner 200, need not to set up the outer machine of air conditioner, reduced the installation environment requirement, avoid processes such as air conditioner pipeline lays installation, reduce cost, save the manual work, when using, integral type air conditioner 200 fills in advance and annotates good refrigerant, and power and communication adopt plug-in structure, convenient to use.

Preferably, the hot air channel 130 and the cold air channel 140 are both communicated with the inside of the integrated cabin 110, in an actual structure, the hot air channel 130 and the cold air channel 140 are respectively located at two sides of the integrated cabin 110, air in the integrated cabin 110 can enter the integrated air conditioner 200 through the hot air channel 130 for cooling, and low-temperature air can enter the integrated cabin 110 through the cold air channel 140.

It should be noted here that some existing data centers may employ self-evaporation type air conditioners, but such data centers mount air conditioners outside the data centers, and in an actual structure, such existing data centers mount air conditioners on the side walls of cabinets or on the cabinet doors, strictly speaking, they are not mounted in cabinets, but are externally mounted air conditioners, so that they occupy a very large space, are not beneficial to packaging and shipping, and cannot split the hot and cold air into internal circulation, so that there is a disadvantage of mixed flow, and more importantly, they still have inconvenience in mounting, and manufacturers cannot separately package and send them to customers.

Integral type air conditioner 200 includes refrigeration room 210 and heat dissipation room 220, be provided with inner loop import 230 and inner loop export 240 on the refrigeration room 210, be provided with extrinsic cycle import 250 and extrinsic cycle export 260 on the heat dissipation room 220, inner loop import 230 with hot air duct 130 intercommunication, inner loop export 240 with cold wind passageway 140 intercommunication, extrinsic cycle import 250 with refrigeration cabin 120 intercommunication, be connected with the cooling tube on the extrinsic cycle export 260.

Preferably, the internal circulation inlet 230 and the external circulation outlet 260 form an internal circulation which is relatively close to the integrated cabin 110, and the internal circulation is used for cooling the air in the integrated cabin 110 in a circulating manner, that is, the air in the integrated cabin 110 enters the internal circulation through the hot air channel 130, and is circulated into the integrated cabin 110 through the cold air channel 140 after being cooled, and the external circulation inlet 250 and the external circulation outlet 260 form an external circulation which is used for heat dissipation of refrigerant, and the external circulation is used for sucking the air in the refrigeration cabin 120 into the heat dissipation chamber 220 and then discharging the air out of the cabinet 100 through the external circulation outlet 260.

Preferably, the integrated air conditioner 200 is a dedicated air conditioner, and in this embodiment, in order to make the integrated air conditioner 200 more reasonably match with the whole cabinet 100, the integrated air conditioner 200 is especially configured to have a structure of a refrigeration chamber 210 and a heat dissipation chamber 220, wherein hot air is sucked into the refrigeration chamber 210 from the hot air channel 130 along the internal circulation inlet 230 and enters the integrated cabin 110 from the internal circulation outlet 240 through the cold air channel 140, so that air in the integrated cabin 110 forms an internal circulation, which can greatly improve the cooling efficiency of the integrated cabin 110, avoid overheating of equipment in the integrated cabin 110, and avoid mixed air flow and greatly improve the return air temperature through the isolated design of the closed cold air channel 140 and the hot air channel 130.

Preferably, the heat dissipation chamber 220 is a place where the refrigerant dissipates heat, wherein the external air is introduced from the external circulation inlet 250 and enters the heat dissipation chamber 220, and after the refrigerant dissipates heat, the air with increased temperature is discharged from the external circulation outlet 260 through the heat dissipation pipe.

As shown in fig. 1, 2, 3 and 4, based on the above embodiment, the integrated air conditioner 200 further includes a compressor 270, an evaporator 280 and a condenser 290, the evaporator 280 is disposed in the cooling chamber 210, the condenser 290 is disposed in the heat radiating chamber 220, the compressor 270 is connected to the evaporator 280 and the condenser 290, and the evaporator 280 is connected to the condenser 290.

Preferably, the operation principle of the integrated air conditioner 200 is similar to that of the conventional air conditioner, and the refrigeration is performed by the refrigerant, specifically, the refrigerant absorbs heat of air entering from the hot air channel 130 in the evaporator 280, and then low-temperature air flows out from the cold air channel 140, so as to form an internal circulation, thereby greatly improving the refrigeration efficiency and the effect, the refrigerant in the evaporator 280 is compressed by the compressor 270, enters the condenser 290, transfers heat to air in the external circulation, and then is cooled into liquid, and then enters the evaporator 280, thereby performing a circulation operation.

It should be noted here that this kind of integrated air conditioner 200 is actually a rack air conditioner structure, it can install in refrigeration cabin 120, be located the bottom of rack 100 promptly, it is not outer hanging structure, wherein, refrigeration room 210 is located the top of heat dissipation room 220, can form the effect of cold and hot reposition of redundant personnel like this, so overall structure is very ingenious, the effect of cold and hot reposition of redundant personnel has greatly been improved, avoid heat dissipation room 220 to influence comprehensive cabin 110, and need not to set up the off-premises station, make data center can have the effect of modularization equipment when the equipment, greatly reduced data center's the installation degree of difficulty.

As shown in fig. 1, 3 and 4, in the above embodiment, the cold air channel 140 and the hot air channel 130 are respectively located at the front and the rear of the integrated cabin 110, and a fan 300 facing the hot air channel 130 is disposed at the top of the integrated cabin 110.

Preferably, the front part and the rear part of the integrated cabin 110 correspond to a front door and a rear door respectively, and all equipment in the integrated cabin 110 is generally positioned between the cold air channel 140 and the hot air channel 130, so that cold air in the cold air channel 140 can fully contact the equipment in the integrated cabin 110 to play a role in cooling, and hot air is circularly cooled from the hot air channel 130.

Preferably, a fan 300 is disposed at the top of the hot air duct 130, and the fan 300 plays a role of emergency cooling, so that the fan 300 discharges hot air from the cabinet in case of a problem of the air conditioner or an excessive temperature in the cabinet 100.

As shown in fig. 1, 3 and 4, the refrigeration compartment 120 is located below the integrated compartment 110, and a thermal insulation partition (not shown) is disposed between the refrigeration compartment 120 and the integrated compartment 110.

Preferably, the heat-insulating partition board can separate the refrigeration compartment 120 from the comprehensive compartment 110, so as to prevent cold air in the comprehensive compartment from leaking, thereby achieving a heat-insulating effect, so that the comprehensive compartment 110 and the refrigeration compartment 120 form two relatively independent compartment structures, and avoiding mixed flow.

As shown in fig. 3 and 4, on the basis of the above embodiments, a power supply assembly is further disposed in the integrated cabin 110, the power supply assembly includes a power distribution module 111, a UPS power supply 112 and a battery pack 113, the UPS power supply 112 is electrically connected to the power distribution module 111, the battery pack 113 is electrically connected to the UPS power supply 112, and the integrated air conditioner 200 is electrically connected to the power distribution module 111.

The power distribution module 111 is used for supplying external power for access, the UPS 112 can be a high-frequency UPS 112S power supply or a rack type modularized UPS 112, efficient operation of the micro-module data center is guaranteed, and the power supply assembly is used for supplying power or the power distribution module 111 is used for supplying power for an air conditioner.

As shown in fig. 3 and 4, on the basis of the above embodiments, a monitoring alarm component is further disposed in the integrated cabin 110, the monitoring alarm component includes a monitoring host 114, a moving loop monitoring box 115, an RGB light strip 116, and an input/output control module 117, the moving loop monitoring box 115 is electrically connected to the UPS power supply 112, and the monitoring host 114, the RGB light strip 116, and the input/output control module 117 are all connected to the moving loop monitoring box 115.

Preferably, the monitoring host 114, the moving loop monitoring box 115, the RGB lamp strip 116, and the input/output control module 117 are all elements in the prior art, and are used for monitoring and alarming.

The cabinet 100 further comprises a 10-inch large-screen display, a man-machine interface, a friendly interface and a function module, wherein each function module is easily managed locally, the man-machine interface adopts a B/S or C/S framework, supports a WEB interface to browse real-time and historical information, configures a mobile phone APP function, can display an all-around alarm information interface, can support short message sending, can master abnormal conditions of equipment at any time, is accurately managed in energy efficiency, displays the PUE in real time, and is clear in power utilization conditions; when a plurality of network points are available, unified monitoring, remote access and centralized operation and maintenance management can be selected and allocated, and the remote cloud operation and maintenance management platform can provide 7 multiplied by 24 hour all-round service. The user will electrically connect into rack-mounted distribution module 111 through rack 100 top entrance hole, UPS 112 (UPS 112 is rack-mounted UPS uninterrupted power source), the air conditioner gets the electricity from distribution module 111, PDU unit, move ring monitoring box 115 gets the electricity from UPS 112 output, battery package 113 and UPS 112 interconnect, monitoring host 114, RGB lamp area 116, temperature and humidity sensor, smoke alarm 118, water logging host 500, input/output control module 117 get the electricity from ring monitoring box 115, water logging rope 600 is connected with water logging host 500, the user uses L type support erection equipment, equipment gets the electricity from the PDU power.

The monitoring host 114 can display various parameters of power distribution, refrigeration and equipment and record the parameters in real time, has a high-low temperature alarm function, and can change the color of the RGB lamp strip 116 according to the temperature change, and the RGB lamp strip 116 is bright blue when the temperature is lower than a set low temperature value; between the set low temperature value and the set high temperature value, the RGB light strip 116 is bright green; above the set high temperature value, the RGB light band 116 is bright red.

As shown in fig. 3 and 4, on the basis of the above embodiment, the monitoring alarm assembly further includes a smoke alarm 118, the smoke alarm 118 is connected to the monitoring host 114, and when smoke is generated in the cabinet, the smoke alarm 118 alarms.

If smoke is generated, the smoke alarm 118 will generate an alarm; if the air conditioner leaks, the water immersion rope 600 transmits a signal to the water immersion host 500 after detecting, and the water immersion host 500 transmits the signal to the monitoring host 114. All information and alarms can be uploaded to the management platform and can be checked through the mobile phone APP.

As shown in fig. 1, 3 and 4, based on the above embodiment, the integrated air conditioner 200 is detachably connected to the refrigerating compartment 120, and the integrated air conditioner 200 is electrically connected to the monitoring host 114.

Before leaving the factory, the rack-mounted power distribution module 111, the monitoring host 114, the moving ring monitoring box 115, the entrance guard unit, the rack-mounted UPS, the rack-mounted battery pack 113, the rack-mounted air conditioner, the RGB lamp area 116, the magnetic lock, the humiture, smoke alarm 118, all install in synthesizing the cabinet, and burn the packing of moving ring monitoring box 115 and deliver goods to the scene, the customer pushes the air conditioner into the refrigeration cabin 120, the connecting terminal is pegged graft, between here, management platform and cell-phone APP have been installed. Then, the commercial power is led into the rack type power distribution module 111, after the test, the power can be turned on, the power is put into use, low-temperature and high-temperature alarm values are set according to customer requirements, then IT equipment can be added, the IT equipment is supported by the L-shaped support, and the PDU is connected into a power supply. The line can be put on one day, and is convenient and quick.

As shown in fig. 1, 3 and 4, on the basis of the above embodiment, a drain pipe 400 is arranged in the refrigeration compartment 120, and the monitoring alarm assembly further includes a water immersion host 500 and a water immersion string 600 for detecting water leakage, the water immersion string 600 is connected to the water immersion host 500, and the water immersion string 600 is arranged at the bottom of the refrigeration compartment 120.

Preferably, the refrigeration compartment 120 is provided with the evaporator 280, so that condensed water is generated, at this time, the condensed water needs to be guided out of the refrigeration chamber 210 through the drain pipe 400, and once an accident occurs in the process of draining the condensed water, the condensed water is accumulated in the refrigeration compartment 120, so that the data center is damaged, at this time, the detection needs to be performed through the water immersion host 500 and the water immersion rope 600, so as to ensure that no water leakage occurs in the refrigeration compartment 120.

The water immersion rope 600 is an existing sensing element, and can detect whether the air conditioner leaks water by matching with the water immersion host 500, once the bottom of the refrigeration cabin 120 is accumulated with water, the water immersion rope 600 transmits a signal to the water immersion host 500 after detecting the water immersion rope, the water immersion host 500 transmits the signal to the monitoring host 114, and the monitoring host 114 performs corresponding air conditioner water leakage alarm prompt.

As shown in fig. 1, 3 and 4, on the basis of the above embodiment, a plurality of vertically arranged wiring slots 700 are provided at the rear of the integrated cabin 110 near the hot air channel 130.

Preferably, the wire trough 700 is used for wiring, and the wire trough 700 is relatively close to the hot air channel 130, so that the effect of facilitating heat dissipation can be achieved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides an integral type air conditioner little data center which characterized in that includes:

the refrigerator comprises a cabinet and a refrigerating chamber, wherein a hot air channel and a cold air channel are arranged in the comprehensive chamber, a front door body and a rear door body are respectively arranged on the front side and the rear side of the comprehensive chamber, and a closed space is enclosed by the comprehensive chamber, the front door body and the rear door body;

the integrated air conditioner is detachably installed in the refrigeration cabin, the integrated air conditioner comprises a refrigeration chamber and a heat dissipation chamber, an internal circulation inlet and an internal circulation outlet are formed in the refrigeration chamber, the internal circulation inlet is connected with a hot air channel, and the internal circulation outlet is connected with a cold air channel.

2. The integrated air conditioning micro data center of claim 1, wherein: the refrigerating chamber is provided with a heat dissipation chamber, and the heat dissipation chamber is provided with an external circulation inlet and an external circulation outlet, the external circulation inlet is communicated with the refrigerating chamber, the external circulation outlet is connected with a heat dissipation pipe, and the heat dissipation pipe penetrates out of the refrigerating chamber.

3. The integrated air conditioning micro data center of claim 2, wherein: the integral type air conditioner still includes compressor, evaporimeter and condenser, the evaporimeter sets up in the refrigeration chamber and with the inner loop import and the inner loop exit linkage, the condenser sets up in the heat dissipation chamber and with the outer loop import and the outer loop exit linkage, the compressor with the evaporimeter and the condenser is connected, the evaporimeter with the condenser is connected.

4. The integrated air conditioning micro data center of claim 1, wherein: the cold air channel and the hot air channel are respectively positioned at the front part and the rear part of the comprehensive cabin, and a fan facing the hot air channel is arranged at the top of the comprehensive cabin.

5. The integrated air conditioning micro data center of claim 1, wherein: the refrigeration cabin is positioned below the comprehensive cabin, and a heat-insulating partition plate is arranged between the refrigeration cabin and the comprehensive cabin.

6. The integrated air conditioning micro data center of claim 1, wherein: still be provided with power supply module in the synthesis cabin, power supply module includes distribution module, UPS power and battery package, the UPS power with the distribution module electricity is connected, the battery package with the UPS power electricity is connected, the integral type air conditioner with the distribution module electricity is connected.

7. The integrated air conditioning micro data center of claim 6, wherein: synthesize the under-deck and still be provided with control alarm component, control alarm component is including monitoring host computer, movable ring monitoring box, RGB lamp area, input/output control module, movable ring monitoring box with the electricity of UPS power is connected, the monitoring host computer RGB lamp area input/output control module all with movable ring monitoring box connects.

8. The integrated air conditioning micro data center of claim 7, wherein: the monitoring alarm assembly further comprises a smoke alarm, the smoke alarm is connected with the monitoring host, and when smoke is generated in the cabinet, the smoke alarm gives an alarm.

9. The integrated air conditioning micro data center of claim 7, wherein: the refrigeration cabin is internally provided with a drain pipe, the monitoring alarm assembly further comprises a water immersion host and a water immersion rope for detecting water leakage, the water immersion rope is connected with the water immersion host, and the water immersion rope is arranged at the bottom of the refrigeration cabin.

10. The integrated air conditioning micro data center of claim 4, wherein: and a plurality of vertically arranged wiring grooves close to the hot air channel are arranged at the rear part of the comprehensive cabin.

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