CN220326081U - Modularized data center cabinet - Google Patents

Abstract

The utility model discloses a modularized data center cabinet, which comprises a cabinet body, a rack-mounted modularized refrigerating unit, a rack-mounted modularized battery pack, a rack-mounted modularized uninterrupted power supply, a rack-mounted modularized distribution box, a rack-mounted modularized movable ring box, a monitoring integrated machine display screen, a temperature and humidity sensor, a smoke sensor, an air pressure push rod, a door magnetic switch, a micro switch, an illuminating lamp and cabinet equipment of an atmosphere lamp, wherein the rack-mounted modularized movable ring box is arranged on the cabinet body; the front part in the cabinet body is a cold zone, and the rear part is a hot zone; the utility model integrates the rack-mounted modularized refrigerating unit, the rack-mounted modularized battery pack, the rack-mounted modularized uninterrupted power supply UPS and the rack-mounted modularized distribution box in the enclosed space of the cabinet body, has smaller occupied area than the traditional data center, has high prefabrication efficiency, shortens the site construction period, is safe to use and convenient to maintain, ensures the normal working temperature in the cabinet, reduces the energy consumption of the refrigerating unit and achieves the effect of energy conservation.

Description

Modularized data center cabinet

Technical Field

The utility model relates to the field of data center infrastructures, in particular to a modularized data center cabinet.

Background

With the rapid popularity of current mobile devices, the widespread use of countless applications in home, office, and other environments has led to the growing consumption of digital services changing the deployment of enterprise data centers. As these services have increased in demand for data centers, data has required longer to reach the destination. In general, the farther from the data center, the longer it takes to provide digital services, and the higher the bandwidth cost.

The existing data center mostly adopts schemes such as a server machine room and a traditional data center, and the infrastructure of the traditional data center mainly comprises a machine room, a cabinet system, a power distribution system, an energy storage system, a refrigeration system, a power environment monitoring system and the like, wherein materials of all systems need to be purchased scattered, and the purchasing period is inevitably long; the infrastructure of the traditional data center machine room is different in each component system, the unified planning and design cost is high, and the design time is long. At present, most traditional data center machine rooms need to be manually maintained and regularly inspected, so that labor cost is increased, and if equipment in the data center machine room malfunctions, the manual reaction speed is low, so that certain economic loss can be caused. The traditional data center machine room generally adopts a central air conditioner and a civil air conditioner for refrigeration, with the advent of an informatization age, the IT business volume is increased continuously, the power consumption of a server is increased, a large amount of heat is generated by the server, the refrigerating capacity of the air conditioner is increased continuously finally, and the electric charge is increased with the water fluctuation.

Disclosure of Invention

The utility model aims at providing a modularization data center rack, with each system modularized design of data center, with all systems integration in a rack, mill prefabrication production, unified management shortens data center construction cycle, intelligent fortune dimension, reduces data center fortune dimension cost to reduce data center's energy consumption, play energy saving and emission reduction's effect.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a modularized data center cabinet which comprises a cabinet assembly, a monitoring integrated machine display screen, a rack-type modularized refrigerating unit, a rack-type modularized battery pack, a rack-type modularized uninterruptible power supply, a rack-type modularized distribution box, quick-opening sealing plates, air pressure push rods, electromagnetic locks, door magnetic switches, micro switches, illuminating lamps, temperature and humidity sensors, smoke sensors, two-color atmosphere lamps, electromagnetic lock locking blocks and a rack-type modularized movable ring box. .

Preferably, the rack subassembly includes frame, side door plant, preceding door subassembly, back door subassembly, supporting legs, universal wheel and preceding lock, the pneumatic push rod includes preceding door pneumatic push rod and back door pneumatic push rod, preceding door pneumatic push rod and back door pneumatic push rod install the top at the frame respectively, the electromagnetic lock includes preceding door electromagnetic lock and back door electromagnetic lock, preceding door electromagnetic lock and back door electromagnetic lock set up respectively on the frame, door magnetic switch includes preceding door magnetic switch and back door magnetic switch, preceding door magnetic switch and back door magnetic switch set up respectively on the frame, the light includes anterior light and back door light, anterior light and back door light set up respectively at the frame inner chamber, temperature and humidity sensor includes cold zone temperature and humidity sensor and hot zone temperature and humidity sensor, cold zone temperature and humidity sensor and hot zone temperature and humidity sensor set up respectively at the inner chamber top of frame.

Preferably, the double-colored atmosphere lamp includes first double-colored atmosphere lamp and second double-colored atmosphere lamp, first double-colored atmosphere lamp and second double-colored atmosphere lamp set up the inside wall at the frame respectively, the electromagnetic lock locking piece includes preceding door first electromagnetic lock locking piece and preceding door second electromagnetic lock locking piece, preceding door first electromagnetic lock locking piece and preceding door second electromagnetic lock locking piece set up respectively in the both sides of frame, the upper and lower both sides of frame are provided with back door first electromagnetic lock locking piece and back door second electromagnetic lock locking piece respectively, the sealed interval that preceding door subassembly and quick-opening shrouding formed is the cold zone.

Preferably, a closed region formed by the rear door assembly and the quick-opening sealing plate is a hot region, and the cabinet assembly is sequentially provided with a rack-type modularized refrigerating unit, a rack-type modularized battery pack, a rack-type modularized uninterruptible power supply, a rack-type modularized distribution box and the quick-opening sealing plate from bottom to top along the height direction of the frame; an air outlet of the rack-mounted modularized refrigerating unit is communicated with the cold area, and an air suction inlet is communicated with the hot area; the rack-mounted modularized distribution box is connected with the rack-mounted modularized refrigerating unit.

Preferably, a front door magnetic switch is arranged on the front surface of the cabinet assembly, and a front lighting lamp is also arranged in the cold area; the front door magnetic switch is connected with the frame type modularized movable ring box, and the output end of the front door magnetic switch is connected with the front illuminating lamp; the front door magnetic switch is used for conducting connection of a front illuminating lamp and the frame type modularized movable ring box when the door is opened.

Preferably, the hot area is arranged at the back of the cabinet body, a rear door magnetic switch is arranged at the back of the cabinet assembly, and a rear illuminating lamp is also arranged in the hot area; the input end of the rear door magnetic switch is connected with the frame type modularized movable ring box, the output end of the rear door magnetic switch is connected with a rear illuminating lamp, and the rear illuminating lamp is used for conducting connection of the input end of the rear door magnetic switch and the frame type modularized movable ring box when the door is opened.

Preferably, at least one front door air pressure push rod of the spring-open assembly is further arranged in the cold area, and the front door air pressure push rod is used for keeping the front door assembly in an open state when the front door electromagnetic lock is powered down; and at least one back door air pressure push rod of the spring opening assembly is further arranged in the hot area and used for keeping the back door assembly in an open state when the back door electromagnetic lock is powered down.

Preferably, a cold area temperature and humidity sensor electrically connected with the front door electromagnetic lock and a smoke sensor in the hot area are further arranged in the cold area, and the cold area temperature and humidity sensor is used for detecting whether the temperature and humidity in the cold area are in a preset range.

Preferably, a hot zone temperature and humidity sensor and a smoke sensor connected with the rear door electromagnetic lock are further arranged in the hot zone, the hot zone temperature and humidity sensor is used for detecting whether the temperature and humidity in the hot zone is in a preset range, and the first bicolor atmosphere lamp and the second bicolor atmosphere lamp are connected with a display screen of the monitoring all-in-one machine.

Preferably, the front door component is a transparent front door, the rear door component is a totally-enclosed metal plate door, the output end of the rack-mounted modularized distribution box is electrically connected with the input end of the electric equipment, the output end of the rack-mounted modularized uninterrupted power supply is connected with the output end of the rack-mounted modularized uninterrupted power supply, and the input end of the rack-mounted modularized distribution box is connected with an external power supply; the power supply comprises a rack type modularized uninterrupted power supply, electric equipment, a rack type modularized battery pack, a rack type modularized movable ring box, a rack type modularized refrigerating unit and a rack type modularized uninterrupted power supply, wherein the rack type modularized uninterrupted power supply outputs electric energy conveyed by the rack type modularized power distribution box to the electric equipment, the rack type modularized battery pack is connected with the rack type modularized uninterrupted power supply, communication lines of the rack type modularized movable ring box, the rack type modularized refrigerating unit and the rack type modularized uninterrupted power supply are connected with a monitoring integrated machine display screen, and the monitoring integrated machine display screen monitors operation data of the rack type modularized movable ring box, the rack type modularized refrigerating unit and the rack type modularized uninterrupted power supply.

Compared with the prior art, the utility model has the beneficial effects that: the refrigerating unit, the modularized battery pack, the uninterruptible power supply and the modularized distribution box are integrated in the closed space of the cabinet main body, so that the occupied area of the cabinet main body is smaller than that of a traditional data center, the cabinet main body is convenient and quick to install and arrange, and the cabinet main body is safe to use and convenient to maintain; meanwhile, heat generated in the cabinet main body is converted into cold air through the heat channel through the treatment of the refrigerating unit, the cold air is discharged into the cold channel, and then the rack area in the cabinet main body is cooled by the cold air, so that the circulation of heat release and cooling in the cabinet is completed, the normal working temperature in the cabinet is ensured, the energy consumption of the refrigerating unit is reduced, and the energy-saving effect is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a rear view of the present utility model.

Fig. 3 is a side view of the present utility model.

Fig. 4 is a front view of the present utility model.

Fig. 5 is a schematic view of a rack-mounted modular battery pack of the present utility model.

FIG. 6 is a schematic diagram of a rack-mounted modular refrigeration unit according to the present utility model.

Fig. 7 is a schematic diagram of a micro switch according to the present utility model.

FIG. 8 is a schematic diagram of a cold zone temperature and humidity sensor according to the present utility model.

Fig. 9 is a schematic view of a smoke sensor according to the present utility model.

Fig. 10 is a schematic view of a first bicolor ambient lamp according to the present utility model.

Fig. 11 is a schematic view of the front door and rear of the cabinet of the present utility model.

Fig. 12 is a schematic view of the rear door of the cabinet of the present utility model.

FIG. 13 is a schematic view of a rack-mounted modular ring case of the present utility model.

FIG. 14 is a schematic view of a rear door air pressure pushrod according to the present utility model.

Fig. 15 is a circuit diagram of an atmosphere lamp control program according to the present utility model.

Fig. 16 is a circuit diagram of a lighting lamp control program according to the present utility model.

Fig. 17 is a circuit diagram of a door magnetic switch according to the present utility model.

Fig. 18 is a diagram illustrating operation of the micro switch and electromagnetic lock of the present utility model.

Fig. 19 is a wiring diagram of a main cabinet of the present utility model.

Fig. 20 is a circuit diagram of a rack-mounted modular distribution box of the present utility model.

The main corresponding reference designations in the drawings are as follows:

1. a cabinet assembly; 1-1, a frame; 1-2, side door panels; 1-3, a front door assembly; 1-4, a back door assembly; 1-5, supporting legs; 1-6, universal wheels; 1-7, front door lock; 2. monitoring a display screen of the all-in-one machine; 3. a rack-mounted modular refrigeration unit; 4. a rack-mounted modular battery pack; 5. a rack-mounted modular uninterruptible power supply; 6. a rack-mounted modular distribution box; 7. quick-opening sealing plates; 8-1, a front door air pressure push rod; 8-2, a rear door air pressure push rod; 9-1, a front door electromagnetic lock; 9-2, a rear door electromagnetic lock; 10-1, a front door magnetic switch; 10-2, a rear door magnetic switch; 11. a micro-switch; 12-1, a front lighting lamp; 12-2, a rear lighting lamp; 13-1, a cold area temperature and humidity sensor; 13-2, a hot zone temperature and humidity sensor; 14. a smoke sensor; 15-1, a first bicolor atmosphere lamp; 15-2, a second bicolour atmosphere lamp; 16-1, a first electromagnetic lock block of the front door; 16-2, a second electromagnetic lock locking piece of the front door; 17-1, a first electromagnetic lock block of the rear door; 17-2, a second electromagnetic lock locking piece of the rear door; 18. a frame-type modularized movable ring box; 19. a cold zone; 20. and (3) a hot zone.

Description of the embodiments

The utility model will now be further described with reference to fig. 1-20, embodiments of the utility model including, but not limited to, the following examples.

The embodiment of the utility model provides a modularized data center cabinet, wherein a unit of the modularized data center cabinet is integrated with a cabinet component 1 and monitoring

The intelligent cabinet temperature and humidity monitoring system comprises a machine display screen 2, a machine frame type modularized refrigerating unit 3, a machine frame type modularized battery pack 4, a machine frame type modularized uninterruptible power supply 5, a machine frame type modularized distribution box 6, a quick-opening plate 7, an air pressure push rod, electromagnetic locks, door magnetic switches, micro switches 11, illuminating lamps, temperature and humidity sensors-, smoke sensors 14, two-color atmosphere lamps, electromagnetic lock locking blocks, a machine frame type modularized movable ring box 18 and the like, wherein the monitoring integrated machine display screen 2 is positioned on the outer side wall of a cabinet assembly 1, the machine frame type modularized refrigerating unit 3, the machine frame type modularized battery pack 4, the machine frame type modularized uninterruptible power supply 5, the machine frame type modularized distribution box 6 and the quick-opening plate 7 are arranged in the inner cavity of a cabinet body assembly 1 from bottom to top, the air pressure push rod is connected to the top of the cabinet assembly 1, the electromagnetic locks and the door magnetic switches are connected to the two sides of the cabinet assembly 1, the micro switches 11 are arranged in the inner cavity of the cabinet assembly 1, the illuminating lamps, the temperature and humidity sensors, the smoke sensors 14 are positioned on the inner cavity top of the cabinet assembly 1, and the two-color atmosphere lamps, the electromagnetic lock locking blocks and the machine frame type modularized movable ring box 18 are positioned on the inner cavity of the cabinet assembly 1.

Specifically, the front part of the cabinet assembly 1 is provided with a cold area 19, the middle part is provided with a rack area, the rear part is provided with a hot area 20, and the cold area 19 and the hot area 20 are isolated by a quick-opening sealing plate 7 arranged at the front part of the cabinet assembly 1; the frame-type modularized refrigerating unit 3, the frame-type modularized battery pack 4, the frame-type modularized uninterruptible power supply 5 and the frame-type distribution box 6 are all arranged in the frame area.

Thus, in the embodiment, the rack-mounted modularized refrigerating unit 3, the rack-mounted modularized battery pack 4, the rack-mounted modularized uninterruptible power supply 5 and the rack-mounted power distribution box 6 are integrated in the closed space of the cabinet assembly 1, so that the occupied area is smaller than that of the traditional data center, the installation and the arrangement are convenient and quick, the use is safe, and the maintenance is convenient; the air suction port of the rack-mounted modular refrigeration unit 3 is communicated with the hot zone 20, the cold air outlet is communicated with the cold zone 19, heat generated in the cabinet assembly 1 is converted into cold air through the hot zone 20 and is discharged into the cold zone 20 through the rack-mounted modular refrigeration unit 3, and the cold air cools equipment in the rack zone in the cabinet assembly 1, so that the circulation of heat release and cooling in the cabinet is completed, the normal working temperature of the cabinet equipment is ensured, the energy consumption of the rack-mounted modular refrigeration unit 3 is reduced, and the energy-saving effect is achieved.

In this embodiment, the rack-mounted modular refrigeration unit 3 is preferably a rack-mounted variable-frequency air conditioner, and absorbs heat to generate cold air, so that the inside of the cabinet assembly 1 maintains a normal working temperature. The rack-mounted modularized battery pack 4 is preferably a rack-mounted battery box and can store electric energy, and the rack-mounted modularized uninterruptible power supply 5 provides electricity for equipment in the cabinet main body; when the power is input into the rack-mounted modularized uninterruptible power supply 5 and is lost, the battery in the battery box is discharged, and the battery is converted into stable alternating current through the internal conversion of the rack-mounted modularized uninterruptible power supply 5 to supply power to IT equipment, so that the IT equipment can be ensured to normally operate under the condition that the mains supply is in power failure, and the rack-mounted power distribution box 6 is preferably a rack-mounted power distribution box and is used for receiving the input and output of the mains supply and playing a role in distributing electric energy and protecting.

The frame-type modularized refrigerating unit 3 is arranged at the bottom of the frame area, the frame-type modularized battery pack 4 is located above the frame-type modularized refrigerating unit 3, the frame-type modularized uninterruptible power supply 5 is located above the frame-type modularized battery pack 4, and the frame-type distribution box 6 is located above the frame-type modularized uninterruptible power supply 5. Thus, the space utilization rate of the interior of the cabinet assembly 1 can be improved, and the volume and the occupied area of the cabinet assembly are reduced.

As shown in the illustration, the intelligent control system further comprises a frame type modularized movable ring box 18, a front door air pressure push rod 8-1, a rear door air pressure push rod 8-2, a front door electromagnetic lock 9-1, a rear door electromagnetic lock 9-2, a front door magnetic switch 10-1, a rear door magnetic switch 10-2 and a micro switch 11, wherein a movable ring control unit is arranged above the rear part of the cabinet assembly 1 and used for controlling weak current control in the cabinet assembly 1; the front door air pressure push rod 8-1 is arranged above the front door assembly 1-3, the rear door air pressure push rod 8-2 is arranged above the rear door assembly 1-4, the front door electromagnetic lock 9-1 is arranged above the front of the cabinet body assembly 1, the rear door electromagnetic lock 9-2 is arranged above the rear of the cabinet body assembly 1, and the frame type modularized movable ring box 18 is electrically connected with the front door electromagnetic lock 9-1 and the rear door electromagnetic lock 9-2. When the internal temperature of the cabinet assembly 1 exceeds a specified range, the rack-mounted modularized movable ring box 18 controls the front door electromagnetic lock 9-1 and the rear door electromagnetic lock 9-2 to be powered down, and the front door air pressure push rod 8-1 and the rear door air pressure push rod 8-2 respectively open the front door assembly 1-3 and the rear door assembly 1-4 for cooling treatment, so that the temperature is maintained within a normal and safe range.

Further, the intelligent cabinet temperature control system further comprises a monitoring integrated machine display screen 2, wherein the monitoring integrated machine display screen 2 is arranged on the front door cabinet piece 1-3 of the cabinet assembly 1, and the monitoring integrated machine display screen 2 is electrically connected with the rack-type modularized movable ring box 18. When the internal temperature of the cabinet assembly 1 exceeds a specified range, the monitoring integrated machine display screen 2 sends an instruction signal to the rack-type modularized movable ring box 18, and the rack-type modularized movable ring box 18 receives the instruction signal to control the front door electromagnetic lock 9-1 and the rear door electromagnetic lock 9-2 to be powered down, and the front door air pressure push rod 8-1 and the rear door air pressure push rod 8-2 respectively open the front door assembly 1-3 and the rear door assembly 1-4.

As shown in the illustration, the embodiment further comprises a temperature and humidity detection unit comprising a cold area temperature and humidity sensor 13-1 and a hot area temperature and humidity sensor 13-2, wherein the cold area temperature and humidity sensor 13-1 and the hot area temperature and humidity sensor 13-2 are respectively arranged above the front part and above the rear part in the cabinet assembly 1, and the cold area temperature and humidity sensor 13-1 and the hot area temperature and humidity sensor 13-2 are electrically connected with the display screen 2 of the monitoring all-in-one machine;

in this way, the cold area temperature and humidity sensor 13-1 detects the temperature and humidity of the cold area 19, the hot area temperature and humidity sensor 13-2 detects the temperature and humidity of the hot area 20, and when the detected humidity and humidity reach the set upper limit or lower limit value, the monitoring all-in-one display screen 2 sends out an alarm prompt; and when the detection value reaches the set upper limit value, the rack-mounted modular movable ring box 18 controls the front door assembly 1-3 and the rear door assembly 1-4 to be opened for heat dissipation and temperature reduction according to instruction information of the monitoring integrated machine display screen 2.

As shown in the drawing, the embodiment further includes a first bicolor atmosphere lamp 15-1, a second bicolor atmosphere lamp 15-2 and a smoke sensor 14, wherein the first bicolor atmosphere lamp 15-1 and the second bicolor atmosphere lamp 15-2 are arranged at the front part of the cabinet assembly 1 and are electrically connected with a rack-mounted modular movable ring box 18, and two visual status alarm lamps are arranged in the embodiment. The staff can control the display states of the first bicolor atmosphere lamp 15-1 and the second bicolor atmosphere lamp 15-2 through a remote switch, and a working circuit diagram is shown in the figure; when the monitoring all-in-one display screen 2 sends out alarm information, the first double-color atmosphere lamp 15-1 and the second double-color atmosphere lamp 15-2 display red light, and when no alarm information exists, blue light is displayed; the front door assembly 1-3 is made of glass material, so that the display states of the first bicolor atmosphere lamp 15-1 and the second bicolor atmosphere lamp 15-2 can be conveniently observed from the outside. The smoke sensor 14 is arranged at the rear part of the top plate of the hot zone 20 and is electrically connected with the monitoring integrated machine display screen 2; when the smoke sensor 14 detects the generation of smoke, the monitoring integrated machine display screen 2 sends out alarm information.

As shown in the drawing, the embodiment further comprises a front door magnetic switch 10-1 and a front lighting lamp 12-1, wherein the front door magnetic switch 10-1 and the front lighting lamp 12-1 are arranged above the front of the cabinet assembly 1, the front door magnetic switch 10-1 is electrically connected with the front lighting lamp 12-1, and when the front door assembly 1-3 is opened, the front door magnetic switch conducts a power supply to light the front lighting lamp 12-1, so that the front in the cabinet assembly 1 is convenient to overhaul.

As shown in the drawing, the embodiment further comprises a rear door magnetic switch 10-2 and a rear illumination lamp 12-2, wherein the rear door magnetic switch 10-2 and the rear illumination lamp 12-2 are arranged above the rear of the cabinet assembly 1, the rear door magnetic switch 10-2 is electrically connected with the rear illumination lamp 12-2, and when the rear door assembly 1-4 is opened, the rear door magnetic switch conducts a power supply to enable the rear illumination lamp 12-2 to be lightened, so that the rear in the cabinet assembly 1 is convenient for maintenance.

The cabinet assembly 1 of this embodiment includes four vertical columns, a plurality of cross bars, a top plate, a bottom plate, side plates, and front and rear cabinet doors, forming a cube structure.

The embodiment of the utility model integrates a rack-mounted modularized refrigerating unit 3, a rack-mounted modularized battery pack 4, a rack-mounted modularized uninterruptible power supply 5, a rack-mounted modularized distribution box 6 and a rack-mounted modularized movable ring box 18 into a cabinet assembly 1; the rack-mounted modularized refrigerating unit 3, the cold area 19 and the hot area 20 enable cold and hot air in the cabinet assembly 1 to circulate internally, so that the working temperature is maintained in a normal range, and the working energy consumption is reduced; the frame type modularized movable ring box 18 controls the front door electromagnetic lock 9-1 and the rear door electromagnetic lock 9-2 to perform emergency door opening and heat dissipation when the frame type modularized refrigerating unit 3 does not work according to instruction information of the monitoring integrated machine display screen 2; the temperature and humidity sensors 13-1 and 13-2 monitor the temperature and humidity in the cabinet assembly 1 in real time; the monitoring integrated machine display screen 2 is connected to and monitors state information and data of the rack-mounted modularized refrigerating unit 3, the rack-mounted modularized battery pack 4, the rack-mounted modularized uninterruptible power supply 5, the rack-mounted modularized distribution box 6, the smoke sensor 14, the cold area temperature and humidity sensor 13-1, the hot area temperature and humidity sensor 13-2, the front door magnetic switch 10-1 and the rear door magnetic switch 10-2, operators can remotely acquire the information through the monitoring integrated machine display screen 2, a monitoring communication principle diagram is shown in the diagram, and when the monitoring integrated machine display screen 2 receives abnormal states and data such as cabinet door opening, temperature and humidity exceeding a set value, smoke, water leakage, equipment faults and the like, alarm information can be sent out at first time to timely inform the operators to process.

The embodiment has the following beneficial effects:

the power supply use efficiency is high, the power supply use efficiency pue=total equipment energy consumption of the data center/IT equipment energy consumption, the PUE is a ratio, the reference is 2, and the closer to 1, the better the energy efficiency level is indicated; the value of the traditional data center machine room is PUE2.5, but the PUE value of the embodiment can be as low as below 1.4, and compared with the annual electric quantity of the traditional data center machine room, the electric quantity can be saved by more than 40%;

the equipment in the cabinet adopts a modularized design, is quickly and conveniently installed on site, and can greatly save the initial construction investment cost and the later maintenance cost of a data center machine room;

the occupied area is small, and the occupied area of the embodiment is 0.72m ² Left and right;

the operation noise of the rack-mounted variable-frequency air conditioner is less than 45dB, and the rack-mounted variable-frequency air conditioner can be used in the co-located environments of people and machines such as offices;

the cabinet main body 1 adopts a totally-enclosed structure, the protection level reaches the dustproof level of IP5X, and the cabinet main body can be used in indoor occasions with larger dust;

the intelligent automatic work supports unmanned on duty, can carry out remote monitoring, greatly reduced manpower fortune dimension cost.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims (10)

1. A modular data center cabinet, characterized by: including rack assembly (1), control all-in-one display screen (2), rack-type modularization refrigerating unit (3), rack-type modularization battery package (4), rack-type modularization uninterrupted power source (5), rack-type modularization block terminal (6), quick-opening board (7), air pressure push rod, electromagnetic lock, door magnetic switch, micro-gap switch (11), light, temperature and humidity sensor, smoke transducer (14), bicolor atmosphere lamp, electromagnetic lock locking piece and rack-type modularization movable ring case (18) are constituteed, control all-in-one display screen (2) are located the lateral wall of rack assembly (1), rack-type modularization refrigerating unit (3), rack-type modularization battery package (4), rack-type modularization uninterrupted power source (5), rack-type modularization block terminal (6), quick-opening board (7) follow down supreme setting at the inner chamber of cabinet body assembly (1), the top at rack assembly (1) is connected to the air pressure push rod, micro-gap switch (11) set up at rack assembly (1) inner chamber, temperature and humidity sensor, smoke transducer (14) are located the inner chamber of rack assembly (1), and electromagnetic lock assembly (18) are located the inner chamber of rack assembly (1).

2. A modular data center cabinet according to claim 1, wherein: the cabinet component (1) comprises a frame (1-1), a side door plate (1-2), a front door component (1-3), a rear door component (1-4), supporting legs (1-5), universal wheels (1-6) and a front door lock (1-7), wherein the air pressure push rod (8) comprises a front door air pressure push rod (8-1) and a rear door air pressure push rod (8-2), the front door air pressure push rod (8-1) and the rear door air pressure push rod (8-2) are respectively arranged at the top of the frame (1-1), the electromagnetic lock (9) comprises a front door electromagnetic lock (9-1) and a rear door electromagnetic lock (9-2), the front door electromagnetic lock (9-1) and the rear door electromagnetic lock (9-2) are respectively arranged on the frame (1-1), the door magnetic switch (10-1) comprises a front door magnetic switch (10-1) and a rear door magnetic switch (10-2), the front door magnetic switch (10-1) and the rear door magnetic switch (10-2) are respectively arranged on the frame (1-1) and the rear illuminating lamp (12-12), the front illuminating lamp (12-1) and the rear door illuminating lamp (12-2) are respectively arranged in the inner cavity of the frame (1-1), the temperature and humidity sensor comprises a cold area temperature and humidity sensor (13-1) and a hot area temperature and humidity sensor (13-2), and the cold area temperature and humidity sensor (13-1) and the hot area temperature and humidity sensor (13-2) are respectively arranged at the top of the inner cavity of the frame (1-1).

3. A modular data center cabinet according to claim 2, wherein: the double-colored atmosphere lamp includes first double-colored atmosphere lamp (15-1) and second double-colored atmosphere lamp (15-2), first double-colored atmosphere lamp (15-1) and second double-colored atmosphere lamp (15-2) set up respectively at the inside wall of frame (1-1), electromagnetic lock locking piece includes preceding door first electromagnetic lock locking piece (16-1) and preceding door second electromagnetic lock locking piece (16-2), preceding door first electromagnetic lock locking piece (16-1) and preceding door second electromagnetic lock locking piece (16-2) set up respectively in the both sides of frame (1-1), the upper and lower both sides of frame (1-1) are provided with back door first electromagnetic lock locking piece (17-1) and back door second electromagnetic lock locking piece (17-2) respectively, preceding door subassembly unsealing (1-3) and the enclosure section that quick-plate (7) formed are cold zone (19).

4. A modular data center cabinet according to claim 3, wherein: the sealed interval formed by the rear door component (1-4) and the quick opening plate (7) is a hot area (20), and the cabinet component (1) is sequentially provided with a rack-type modularized refrigerating unit (3), a rack-type modularized battery pack (4), a rack-type modularized uninterruptible power supply (5), a rack-type modularized distribution box (6) and the quick opening plate (7) from bottom to top along the height direction of the frame (1-1); an air outlet of the rack-mounted modularized refrigerating unit (3) is communicated with the cold area (19), and an air suction inlet is communicated with the hot area (20); the rack-mounted modularized distribution box (6) is connected with the rack-mounted modularized refrigerating unit (3).

5. A modular data center cabinet according to claim 2, wherein: the front of the cabinet assembly (1) is provided with a front door magnetic switch (10-1), and a front lighting lamp (12-1) is arranged in the cold area (19); the front door magnetic switch (10-1) is connected with the frame type modularized movable ring box (18), and the output end is connected with the front illuminating lamp (12-1); the front door magnetic switch (10-1) is used for connecting the front illuminating lamp (12-1) with the frame type modularized movable ring box (18) when the door is opened.

6. A modular data center cabinet according to claim 2, wherein: the hot zone (20) is arranged on the back of the cabinet body, a rear door magnetic switch (10-2) is arranged on the back of the cabinet assembly (1), and a rear illuminating lamp (12-2) is also arranged in the hot zone (20); the input end of the rear door magnetic switch (10-2) is connected with the frame type modularized movable ring box (18), the output end of the rear door magnetic switch is connected with the rear illuminating lamp (12-2), and the rear illuminating lamp (12-2) is used for conducting the connection of the input end of the rear door magnetic switch (10-2) and the frame type modularized movable ring box (18) when the door is opened.

7. A modular data center cabinet according to claim 2, wherein: at least one front door air pressure push rod (8-1) of an elastic opening assembly is further arranged in the cold area (19), and the front door air pressure push rod (8-1) is used for keeping the front door assembly (1-3) in an open state when the front door electromagnetic lock (9-1) is powered down; and at least one spring-open assembly rear door air pressure push rod (8-2) is further arranged in the hot zone (20), and the rear door air pressure push rod (8-2) is used for keeping the rear door assembly (1-4) in an open state when the rear door electromagnetic lock (9-2) is powered down.

8. A modular data center cabinet according to claim 7, wherein: the cold area (19) is internally provided with a cold area temperature and humidity sensor (13-1) electrically connected with the front door electromagnetic lock (9-1) and a smoke sensor (14) of the hot area (20), and the cold area temperature and humidity sensor (13-1) is used for detecting whether the temperature and humidity in the cold area (19) are in a preset range.

9. A modular data center cabinet according to claim 3, wherein: the intelligent monitoring system is characterized in that a hot zone temperature and humidity sensor (13-2) and a smoke sensor (14) which are connected with the rear door electromagnetic lock (9-2) are further arranged in the hot zone (20), the hot zone temperature and humidity sensor (13-2) is used for detecting whether the temperature and humidity in the hot zone (20) are in a preset range, and the first bicolor atmosphere lamp (15-1) and the second bicolor atmosphere lamp (15-2) are connected with a monitoring integrated machine display screen (2).

10. A modular data center cabinet according to claim 9, wherein: the front door assembly (1-3) is a transparent front door, the rear door assembly (1-4) is a totally-enclosed metal plate door, the output end of the rack-mounted modularized distribution box (6) is electrically connected with the input end of electric equipment, the output end of the rack-mounted modularized uninterrupted power supply (5) is connected with the output end of the rack-mounted modularized uninterrupted power supply (5), and the input end of the rack-mounted modularized distribution box (6) is connected with an external power supply; the utility model provides a power equipment is given in electric energy output that rack-mounted modularization uninterrupted power source (5) will rack-mounted modularization block terminal (6) carried, rack-mounted modularization battery package (4) with rack-mounted modularization uninterrupted power source (5) are connected, rack-mounted modularization movable ring case (18), rack-mounted modularization refrigerating unit (3), the communication line of rack-mounted modularization uninterrupted power source (5) all are connected with control all-in-one display screen (2), control all-in-one display screen (2) control their operation data.