CN218831037U - Unit and micromodule data center are assembled to rack - Google Patents

Abstract

The utility model discloses a unit and micromodule data center are assembled to rack for solve the current data center construction cycle length, the construction speed is slow, the relatively poor technical problem of flexibility. The utility model comprises a plurality of steel structure prefabricated members which are spliced to form an assembled frame; a plurality of mounting brackets for fixing equipment of the cabinet are fixedly arranged in the assembling frame, and the assembling frame is divided into a plurality of equipment mounting spaces by the mounting brackets; inside assembling the frame, be provided with the top cross the line unit that is used for the wiring in the top in a plurality of equipment fixing space to and, be provided with the base unit that is used for ventilating and/or installation pipeline in a plurality of equipment fixing space's below. By the design, the cabinet assembling units can be assembled as required, so that flexible, standardized and modularized rapid deployment of a data center is facilitated; and the construction difficulty is lower, and the work load significantly reduces, is favorable to improving work efficiency.

Description

Unit and micromodule data center are assembled to rack

Technical Field

The utility model relates to a micromodule technical field especially relates to a unit and micromodule data center are assembled to rack.

Background

The micro-module data center comprises a cabinet system, a power supply system, a power distribution system, an air conditioning system, a comprehensive wiring system, a fire fighting system, a monitoring management system and the like, and can realize standardized functional units of factory production, field assembly and modular deployment.

At present, a data center adopts a steel structure, and because the frame structure of a large data center is large in size, the large data center cannot be prefabricated in a factory completely and is not beneficial to transportation, generally, after frame parts are machined in the factory, the parts are assembled and welded on a construction site, and then various cabinets and equipment are installed in an assembled frame. Therefore, the method brings large engineering quantity, is complex in installation and operation, prolongs the construction period, consumes time and labor, and cannot meet the requirements of green, energy-saving, rapid assembly, flexibility and reliability of a new generation of data center.

Therefore, it is an important subject of research by those skilled in the art to find a rack assembly unit and a micro-module data center that can solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a unit and micromodule data center are assembled to rack for solve the current data center construction cycle length, work load great, the relatively poor technical problem of flexibility.

To achieve the purpose, the utility model adopts the following technical proposal:

a cabinet assembling unit comprises a plurality of steel structure prefabricated members which are spliced to form an assembling frame;

a plurality of mounting brackets for fixing cabinet equipment are fixedly arranged in the assembling frame, and the assembling frame is divided into a plurality of equipment mounting spaces by the mounting brackets;

inside the assembly frame, a top wire passing unit for wiring is arranged above the equipment installation spaces.

Optionally, a base unit for ventilating and/or installing a pipeline is provided below the plurality of equipment installation spaces.

Optionally, the cabinet assembly unit further comprises a plurality of connecting pieces for fixedly connecting the mounting bracket, and the connecting pieces are fixedly connected to the steel structure prefabricated member in the equipment mounting space.

Optionally, cabinet doors are mounted on two opposite sides of the assembled frame;

the mounting bracket comprises a groove piece, and one side of the groove piece, facing the cabinet door, is provided with a plurality of equipment mounting holes penetrating into the groove of the groove piece; the other side of the groove piece extends to the direction far away from the groove edge of the groove piece to form a guide rail mounting part; the guide rail mounting part is provided with a plurality of guide rail mounting holes for mounting a guide rail or a tray.

Optionally, the assembled frame comprises four upright columns, and the upright columns are four longitudinally arranged steel structure prefabricated members or square tube steel pipes which are positioned at the outermost periphery of the assembled frame;

connecting pieces are arranged at the top end and the bottom end of the upright post; the plurality of the splicing frames can be assembled in a stacked manner through the connecting sheets to form a multi-layer splicing unit.

Optionally, the splicing part of the steel structure prefabricated member is provided with a mounting hole.

A micro-module data center comprises a plurality of cabinet assembling units as described above, wherein one end of each cabinet assembling unit is provided with a temperature control device;

the cooling channel and the hot channel are alternately arranged in the data center and are respectively arranged on two opposite sides of the cabinet assembling unit;

an air supply outlet of the temperature control equipment is connected with the cold channel; the input end of the hot channel is communicated with the top wire passing unit, and the output end of the hot channel is connected with the air return opening of the temperature control device.

Optionally, the cabinet assembling units are arranged in at least two rows, and two adjacent rows of the cabinet assembling units can share the temperature control device.

Optionally, the ends of the cold channel and the hot channel are provided with channel doors;

the top of the cold channel is provided with a fire-fighting skylight, and the bottom of the cold channel and the bottom of the hot channel are both provided with anti-static floors.

Optionally, the cabinet device includes a power distribution device, a power supply device, a communication service device, a monitoring management device, and a fire fighting device.

According to the technical solution provided by the utility model, the embodiment of the utility model has following advantage:

the prefabricated steel structure component is spliced and assembled according to actual needs, an assembled frame with a plurality of equipment installation spaces inside is formed, and cabinet equipment is fixed on the mounting support, so that the construction difficulty is reduced, the flexibility is high, and the cabinet equipment can be assembled according to actual needs of a data center.

Compared with the prior art, the cabinet assembling units can be assembled as required, the cabinet and the assembling frame are prefabricated and integrally processed, assembling processes such as cutting and welding are not required to be carried out on a construction site, cabinet equipment can be directly installed, the construction difficulty of a data center is reduced, the workload is greatly reduced, and flexible, standardized and modular rapid deployment is facilitated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a front view of a cabinet assembly unit;

FIG. 2 is an internal structure view of a cabinet assembly unit;

FIG. 3 is a side view of a cabinet assembly unit;

FIG. 4 is a detail view of a cabinet assembly unit;

FIG. 5 is a schematic view of a mounting bracket;

FIG. 6 is a top view of a micro-module data center;

illustration of the drawings: the structure comprises a spliced frame 100, a steel structure prefabricated member 101, a mounting bracket 102, a connecting piece 103, an equipment mounting hole 105, a guide rail mounting hole 106, a cabinet door 107, a vertical column 108, a connecting piece 109, a top threading unit 201, a base unit 202, a cold channel 301, a hot channel 302, a temperature control device 303, a fixing part 3 and a protruding part 4.

Detailed Description

The utility model discloses a unit and micromodule data center are assembled to rack for solve the current data center construction cycle length, the construction speed is slow, the relatively poor technical problem of flexibility.

In order to make the technical field better understand the solution of the present invention, the following detailed description of the present invention is provided with reference to the accompanying drawings and the detailed description. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, a cabinet assembling unit includes a plurality of steel structure prefabricated members 101, and an assembling frame 100 is formed by splicing the plurality of steel structure prefabricated members 101; a plurality of mounting brackets 102 for fixing equipment of the cabinet are fixedly arranged in the assembling frame 100, and the assembling frame 100 is divided into a plurality of equipment mounting spaces by the mounting brackets 102;

inside the assembly frame 100, a top wire passing unit 201 for wiring is disposed above the plurality of equipment installation spaces. Specifically, a plurality of steel structure prefabricated members 101 can be assembled to form an assembled frame 100 according to actual needs, a plurality of mounting brackets 102 are fixed inside the assembled frame 100, and the number of the mounting brackets 102 can be increased or decreased according to the number of cabinet equipment required to be mounted in a data center, so that flexible, standardized and modular rapid deployment can be realized. The cabinet equipment can be directly installed on the installation support 102, and compared with a mode that an independent cabinet is installed in a steel structure frame and then the cabinet equipment is installed in the independent cabinet, a partition plate between the independent cabinets is omitted, so that the whole size of the assembled frame 100 is smaller, the installation space of the cabinet equipment is larger under the same floor area, the utilization rate of unit area is improved, fewer consumables are consumed, and the construction cost is reduced; and the steel structure prefabricated member 101 and the assembled frame 100 do not need to be cut on the construction site, so that the workload is reduced, the construction difficulty is reduced, the working efficiency is effectively improved, and the construction period is greatly shortened.

Specifically, the top wire passing unit 201 is disposed above the equipment installation space, and a chute may be installed inside the top wire passing unit 201 to summarize and arrange the connection wires of the cabinet equipment.

Further, a base unit 202 for ventilating and/or installing a duct is provided below the plurality of equipment installation spaces.

Specifically, the base unit 202 is disposed below the equipment installation space, and can be selected according to the actual use requirement of the data center. For example, the base unit 202 may be installed to meet the installation requirement of the overhead anti-static floor, and may also be compatible with a conventional refrigeration method of directly sending cold air to a cold channel in the data center through the inter-column air conditioner, and various pipeline components or air conditioner condensed water trays may be installed inside the base unit 202 to meet the use requirements of various cooling methods in different data centers.

Referring to fig. 4 and 5, the cabinet assembling unit further includes a plurality of connecting members 103 for fixedly connecting the mounting brackets 102, and the connecting members 103 are fixedly connected to the steel structure prefabricated member 101 of the equipment mounting space.

Specifically, the mounting bracket 102 is fixed on the steel structure prefabricated member 101 through the connecting member 103, so as to achieve the purpose of more stably mounting the cabinet equipment in the corresponding equipment mounting space. The connecting piece 103 is an L-shaped structure, the fixing portion 3 of the L-shaped structure can be fixed on the steel structure prefabricated member 101 of the equipment installation space, and the protrusion portion 4 of the L-shaped structure is used for fixedly connecting the installation support 102, it should be noted that, in actual use, if the installation support 102 is not needed, the connecting piece 103 of the L-shaped structure and the installation support 102 can be removed together, so as to meet the requirement of directly installing an individual cabinet with standard size in the corresponding installation space.

For example, the connecting element 103 may also be a structure in the shape of a Chinese character ji, a protruding structure of the structure in the shape of a Chinese character ji is used to fixedly connect the mounting brackets 102, it should be noted that two sides of the protruding structure may be respectively connected to the mounting brackets 102 of two adjacent device mounting spaces, that is, two adjacent mounting brackets 102 may share the same connecting element 103, so as to achieve the purpose of reducing the number of parts, and facilitate the implementation of standardized assembly.

Further, cabinet doors 107 are mounted on two opposite sides of the assembly frame 100, the mounting bracket 102 includes a groove member, and one side of the groove member facing the cabinet doors 107 is provided with a plurality of equipment mounting holes 105 penetrating into the groove of the groove member; the other side of the groove piece extends to form a guide rail mounting part at the groove edge of the groove piece in the direction far away from the groove; the rail mounting portion is provided with a plurality of rail mounting holes 106 for mounting a rail or a tray.

Specifically, the equipment mounting hole 105 is used for fixedly mounting the cabinet equipment, and may be fixed in the equipment mounting hole 105 through a screw, or may be clamped in the equipment mounting hole 105, which is not specifically limited in this embodiment. The guide rail mounting holes 106 can be used for mounting guide rails, so that the cabinet equipment is more labor-saving to mount, trays can be mounted, and diversity selection is performed when the equipment is assembled inside the cabinet.

Further, the splicing part of the steel structure prefabricated member 101 is provided with a mounting hole.

Specifically, the steel structure prefabricated members 101 are all formed by bending metal plates to form a C-shaped cross section structure, and mounting holes are formed in splicing positions, so that the assembly of the assembled frame 100 is facilitated, a large number of cutting and welding machining procedures are reduced, the frame strength is considered, and the steel structure prefabricated members are easier to machine; on the other hand, the opening of the C-shaped section structure is convenient for extending into tools such as a wrench, so that the steel structure prefabricated member 101 is more convenient to splice and assemble. It should be noted that the steel structure prefabricated members 101 can be assembled and locked by countersunk screws or bolts, and the heads of the screws or bolts are hidden in the C-shaped cross-section structure, so that subsequent surface treatment for rust prevention and corrosion prevention is facilitated, the risk of surface scratching caused by protrusions in the transportation process is avoided, and the effect of no screw leakage on the surface of the frame can be achieved.

Further, the assembly frame 100 comprises four upright posts 108, and the upright posts 108 are four longitudinally arranged steel structure prefabricated members 101 or square tube steel pipes which are positioned at the outermost periphery of the assembly frame 100; connecting pieces 109 are arranged at the top end and the bottom end of the upright column 108; a plurality of the built-up frames 100 can be assembled in layers by the connecting pieces 109 to form a multi-layered built-up unit.

Specifically, a plurality of the sectional frames 100 can be fastened by bolting adjacent two vertical posts 108 to flexibly extend the length of the cabinet sectional unit as required. The upright posts 108 can be steel structure prefabricated members 101 bent by sheet metal, and are also preferably square tube steel pipes, so that higher strength is provided, the assembled frame 100 is more stable, and the anti-seismic performance is better.

In order to meet the use requirements of a large-scale data center, the two assembled frames 100 of the embodiment can be assembled in an up-and-down stacking manner through the connecting sheets 109 to form a double-layer cabinet assembled unit, wherein the section of the connecting sheet 109 at the bottom end of the upper assembled frame 100 and the section of the connecting sheet 109 at the top end of the lower assembled frame 100 are larger than the section of the upright post 108, and the two connecting sheets 109 can be fixed and locked through a plurality of large-diameter bolts to provide larger splicing strength and shearing stress for the upper assembled frame 100 and the lower assembled frame 100 in the vertical direction; in addition, the connecting pieces 109 at the top end of the upper deck frame 100 are provided in a structure not protruding from the columns 108, so that the roof of the data center can be installed.

It should be noted that the connecting sheet 109 can be fully welded to the end face of the pillar 108 to increase the welding strength; the connecting piece 109 may be fixed by screwing the connecting piece onto the end surface of the upright 108 through a bolt by providing a threaded structure or a flange structure on the end surface of the upright 108, and two specific embodiments are provided herein, which is not limited thereto.

Example two

Referring to fig. 6, a micro-module data center includes a plurality of cabinet assembling units according to any one of the embodiments, one end of the cabinet assembling unit is provided with a temperature control device 303; the temperature control device 303 is independent of the cabinet assembling unit, so that no water can enter the device installation space completely, and particularly, the condensed water generated by the temperature control device 303 is little but has safety risk; meanwhile, the defects of pipeline leakage, insufficient power and overlarge power consumption caused by too long pipelines of the temperature control device 303 for connecting the indoor unit and the outdoor unit are avoided;

the cooling and heating system further comprises a cooling channel 301 and a heating channel 302 which are alternately arranged in the data center, wherein the cooling channel 301 and the heating channel 302 are respectively arranged on two opposite sides of the cabinet assembling unit; an air supply outlet of the temperature control device 303 is connected with the cold channel 301; the output end of the hot channel 302 is connected with the air return opening of the temperature control device 303, and the input end of the hot channel 302 is communicated with the top wire passing unit 201.

Specifically, the unit is assembled to the rack and is set up in the data center, and cold passageway 301 and hot passageway 302 arrange in the relative both sides of unit is assembled to the rack in turn, make the cold and hot gas mutual noninterference in the data center, and can flow regularly, effectively reduce the data center energy consumption to reach green energy-conserving effect.

When the cabinet assembling unit is provided with the base unit 202, the base unit 202 is communicated with the cold channel 301, and the air supply outlet of the temperature control device 303 can convey cold air flow to the cold channel 301 through the base unit 202 so as to cool the heating device in the data center; the input end of the hot channel 302 is communicated with the top wire passing unit 201, and hot air in the data center can be pumped out through the output end of the hot channel 302 and sent into the air return opening of the temperature control device 303, so that the purpose of air circulation heat dissipation in the data center is achieved. In the design, the top of the temperature control equipment 303 can also be used as an air return inlet, so that the air return area in the data center is larger, the air return temperature is more uniform, the unit heat exchange power of the temperature control equipment 303 is larger, and the energy efficiency is higher; in a similar way, the air supply outlet of the temperature control device 303 can be directly communicated with the cold channel 301, air supply airflow is conveyed in parallel with the cold channel 301, a farther air supply distance can be realized under the same fan power, and the energy consumption is lower.

As another embodiment, when the cabinet assembling unit is not provided with the base unit 202, the cold channel 301 is communicated with the mesh-shaped front cabinet door of the cabinet assembling unit, the air supply outlet of the temperature control device 303 delivers cold air to the cold channel 301, and the cold air in the cold channel 301 enters the device installation space through the mesh-shaped front cabinet door of the cabinet assembling unit, so that the heating device is cooled; the input end of the hot channel 302 is communicated with the top wire passing unit 201 and/or the mesh-shaped rear cabinet door, and hot air and air in the data center are pumped to the air return opening of the temperature control device 303 through the hot channel 302, so that the purpose of circularly radiating in the data center is achieved. The equipment mounting holes 105 of the mounting bracket 102 are provided with blocking plates to block the flow area of the cold and hot air in the data center, so that the cold and hot air in the data center can flow regularly.

It should be noted that the temperature control device 303 is used for adjusting the temperature of the data center, and is compatible with various cooling methods, and the temperature control device 303 is independently arranged at one end of the cabinet assembling unit and is completely isolated from the cabinet device, so that it is ensured that no water enters the cabinet device, and the operation safety of the data center is ensured. Exemplarily, when the air-cooled air conditioner is used for cooling, an air supply outlet of the air-cooled air conditioner is aligned to the cold channel 301, condensed water generated by the air-cooled air conditioner is discharged through the air conditioner, and the discharge process is completely free from passing through the space of the cabinet equipment, so that the operation safety of the equipment is ensured.

Preferably, the temperature control device 303 can also select an independent dual system or a compatible fluorine pump dual cold source circulation system and a fresh air system, so that the whole cabinet set is more efficient and energy-saving, and the energy consumption of the data center is lower.

Further, the cabinet assembling units are arranged into at least two rows, and two adjacent rows of cabinet assembling units can share the temperature control device 303.

Specifically, multiple rows of cabinet assembling units can be arranged in the data center as required, a cold channel 301 or a hot channel 302 is arranged between two adjacent rows of cabinet assembling units, the cold channel 301 is communicated with the base units 202 of the two adjacent rows of cabinet assembling units simultaneously, or the hot channel 302 is communicated with the top wire passing units 201 of the two adjacent rows of cabinet assembling units simultaneously, namely all the cold channels 301 in the data center are communicated through the base units 202, all the hot channels 302 in the data center are communicated through the top wire passing units 201, and airflow circulation heat dissipation can be performed between the two adjacent cabinet assembling units through the temperature control equipment 303.

As a preferable scheme, in this embodiment, a temperature control device 303 may be disposed at one end of each row of cabinet assembly units, and two adjacent temperature control devices 303 share the same cold channel 301 or hot channel 302. Specifically, the air supply outlets of two adjacent temperature control devices 303 are connected with a cold channel 301 between two cabinet assembling units; or, the return air inlets of two adjacent temperature control devices 303 are connected to the output end of the hot channel 302 between the two cabinet assembling units. It should be noted that, one end of each row of cabinet assembling units is provided with a temperature control device 303, which can further improve the air supply and return efficiency; meanwhile, all the cold channels 301 in the data center are communicated through the base unit 202, namely, a cold air flowing area in the data center is shared, and a hot air flowing area in the data center is also shared, so that the air flow circulating heat dissipation of the whole data center cannot be influenced due to the failure or fault of a certain temperature control device 303, the backup function among units can be achieved, the stable and safe operation of the data center is ensured, and the fault caused by overhigh temperature of equipment in a cabinet in the data center is avoided.

Furthermore, the ends of the cold channel 301 and the hot channel 302 are both provided with channel doors; the top of the cold channel 301 is provided with a fire skylight, and the bottom of the cold channel 301 and the bottom of the hot channel 302 are both provided with antistatic floors.

Specifically, the top of the cold channel 301 is provided with a fire-fighting skylight, so that fire fighting and extinguishing can be conveniently carried out when fire occurs in the data center, and the fire-fighting skylight is kept closed when the data center normally works. The bottom of the hot channel 302 and the bottom of the cold channel 301 are provided with antistatic floors, so that the operation safety of the data center is ensured. It should be noted that, when the cabinet assembly unit is provided with the base unit 202, the anti-static floor at the bottom of the cold channel 301 is an anti-static ventilation floor, and the anti-static ventilation floor is communicated with the base unit 202, so as to further improve the air flow circulation heat dissipation effect in the data center; the anti-static floor arranged at the bottom of the hot channel 302 is isolated from the base unit 202, so that the isolation between the cold channel 301 and the hot channel 302 is ensured, and disorder of cold and hot air flow in the data center is avoided.

Further, the cabinet equipment comprises power distribution equipment, power supply equipment, communication service equipment, monitoring management equipment and fire fighting equipment, and the equipment is fixedly installed on the installation support 102 of the cabinet assembling unit. It should be noted that, according to the actual use requirement of the data center, one or more of the above-mentioned devices may be selected for flexible assembly, or other devices may be added as needed.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the applied technical principles, and not limitations thereof. For those skilled in the art, various obvious changes, rearrangements and substitutions can be made to the technical solutions described in the foregoing embodiments without departing from the scope of the invention according to the ideas of the embodiments of the invention. Accordingly, the contents of this specification should not be construed as limiting the invention.

Claims (10)

1. The cabinet assembling unit is characterized by comprising a plurality of steel structure prefabricated members (101), wherein the steel structure prefabricated members (101) are spliced to form an assembling frame (100);

a plurality of mounting brackets (102) used for fixing cabinet equipment are fixedly arranged in the assembling frame (100), and the assembling frame (100) is divided into a plurality of equipment mounting spaces by the mounting brackets (102);

inside the assembly frame (100), a top wire passing unit (201) for wiring is arranged above the equipment installation spaces.

2. The cabinet assembly unit according to claim 1, wherein a base unit (202) for ventilation and/or installation of piping is provided below the plurality of equipment installation spaces.

3. The cabinet assembly unit of claim 1, further comprising a plurality of connectors (103) for fixedly connecting the mounting brackets (102), wherein the connectors (103) are fixedly connected to the steel structure prefabricated member (101) of the equipment mounting space.

4. The cabinet splicing unit of claim 1, wherein cabinet doors (107) are mounted to opposite sides of the splicing frame (100);

the mounting bracket (102) comprises a groove piece, and one side of the groove piece facing the cabinet door (107) is provided with a plurality of equipment mounting holes (105) penetrating into the groove of the groove piece; the other side of the groove piece extends to the direction far away from the groove edge of the groove piece to form a guide rail mounting part; the guide rail mounting part is provided with a plurality of guide rail mounting holes (106) for mounting a guide rail or a tray.

5. The cabinet splicing unit of claim 1, wherein the splicing frame (100) comprises four uprights (108), and the uprights (108) are four longitudinally arranged steel structural prefabricated members (101) or square tube steel pipes which are positioned at the outermost periphery of the splicing frame (100);

connecting pieces (109) are arranged at the top end and the bottom end of the upright post (108); a plurality of the built-up frames (100) can be assembled in a stacked manner through the connecting pieces (109) to form a multi-layered built-up unit.

6. The cabinet assembly unit of claim 1, wherein the steel structure prefabricated member (101) is provided with mounting holes at the splicing position.

7. A micro-module data center comprising a plurality of cabinet assembly units according to any one of claims 1 to 6, wherein one end of the cabinet assembly units is provided with a temperature control device (303);

the cooling channel (301) and the hot channel (302) are alternately arranged in the data center, and the cooling channel (301) and the hot channel (302) are respectively arranged at two opposite sides of the cabinet splicing unit;

the air supply outlet of the temperature control device (303) is connected with the cold channel (301); the input end of the hot channel (302) is communicated with the top wire passing unit (201), and the output end of the hot channel (302) is connected with the air return opening of the temperature control device (303).

8. The micro-module data center of claim 7, wherein the cabinet assembly units are arranged in at least two rows, and the temperature control device (303) can be shared by two adjacent rows of the cabinet assembly units.

9. The micro-module data center of claim 7, wherein the ends of the cold aisle (301) and the hot aisle (302) are each provided with an aisle door;

the top of the cold channel (301) is provided with a fire skylight, and the bottom of the cold channel (301) and the bottom of the hot channel (302) are both provided with anti-static floors.

10. The micro-module data center of claim 7, wherein the cabinet equipment includes power distribution equipment, power supply equipment, communication service equipment, monitoring management equipment, and fire fighting equipment.

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