CN114071904A - Data center flexible micro-module closed system - Google Patents

Abstract

The invention discloses a data center flexible micro-module sealing system which comprises a frame assembly, a top assembly and a height gap filling assembly. The frame assembly comprises a length beam with adjustable length and end frames arranged at two ends of the length beam, the space between the end frames at two ends of the length beam is used for placing the equipment cabinet, the length beam is connected to the upper part of the end frame and can move up and down along the end frame, and the lower part of the end frame is used for being arranged on the ground or other supporting bases; the top assembly is arranged on the length beam and used for closing the top of the frame assembly or forming an airflow channel on the top of the frame assembly; the height of the height filling-in assembly is adjustable, and the height filling-in assembly is used for connecting the closed length beam and the top of the equipment cabinet. The flexible micro-module closed system for the data center is independent of an equipment cabinet as a deployment basis, is adjustable in length, height and width, is high in deployment flexibility, can meet various application requirements, and improves the deployment efficiency of the data center.

Description

Data center flexible micro-module closed system

Technical Field

The invention relates to the technical field of data center sealing, in particular to a flexible micromodule sealing system of a data center.

Background

The modular data center is a mainstream data center construction form at present, and with the continuous increase of the power density of a single equipment cabinet of the data center, it is obviously not an optimal scheme to deploy the equipment cabinet with increasingly high thermal load in the traditional open hot and cold areas. The current modularized data center mainly adopts a closed channel micro-module form, separates cold and hot channels, organizes airflow circulation, and has the advantages of energy conservation, high efficiency, convenient management, simple deployment and the like.

However, the currently mainstream micro-module deployment mode of the closed channel of the data center is non-independent, that is, the closed channel is deployed on the basis of the equipment cabinet, the requirement on the specification of the equipment cabinet is high, the position of the equipment cabinet cannot be adjusted after deployment is completed, the size of the closed channel can be adjusted only in one direction, the adjustment and expansion capabilities are poor, the micro-module deployment mode cannot be applied to scenes such as the height, the width and the depth of different equipment cabinets, and a plurality of complex application requirements are difficult to meet.

Disclosure of Invention

The embodiment of the invention provides a data center flexible micro-module sealing system, which aims to solve the problem of poor adjusting capability of a data center closed channel micro-module.

The embodiment of the invention provides a data center flexible micro-module sealing system which comprises a frame assembly, a top assembly and a height gap filling assembly, wherein the frame assembly comprises a frame, a top assembly and a height gap filling assembly; the frame assembly comprises a length beam with adjustable length and end frames with adjustable width, the end frames are arranged at two ends of the length beam, a space between the end frames at two ends of the length beam is used for placing an equipment cabinet, the length beam is connected to the upper part of the end frame and can move up and down along the end frame, and the lower part of the end frame is used for being arranged on the ground or other supporting bases; the top assembly is arranged on the length beam and is used for closing the top of the frame assembly or forming an airflow channel on the top of the frame assembly; the height of the height filling-up assembly is adjustable, and the height filling-up assembly is used for connecting and sealing the top of the length beam and the top of the equipment cabinet.

According to an aspect of the embodiment of the present invention, the length beam includes an outer beam and an inner beam sleeved inside the outer beam, and the outer beam and the inner beam move relatively in an axial direction to adjust the length of the length beam.

According to one aspect of the embodiment of the invention, the end frame comprises at least two support columns which are vertically arranged, and a cross rod which is connected with the at least two support columns and has adjustable length, wherein a plurality of positioning holes are formed in the support columns, and the length beams are connected to the support columns through the positioning holes.

According to an aspect of the embodiment of the present invention, the top assembly includes a plurality of top closing plates connected in series, the plurality of top closing plates are connected to the length beam, and the plurality of top closing plates are laid along an extending direction of the length beam to be connected to end frames at both ends of the length beam to close a top of the frame assembly.

According to one aspect of an embodiment of the invention, the top assembly includes a channel structure open at both ends, one end of the channel structure being connected to the length beam and engaging with the end frames at both ends of the length beam, the other end of the channel structure extending vertically upwards to form an air flow channel at the top of the frame assembly.

According to an aspect of the embodiment of the present invention, the channel structure includes a plurality of channel fixing panels, the channel fixing panels are sequentially connected end to enclose the channel structure, and a channel sliding panel is slidably disposed on the channel fixing panels.

According to one aspect of the embodiment of the invention, the height filling-up assembly comprises a height filling-up plate and a flexible plugging piece which are sequentially connected, wherein the height of the height filling-up plate is adjustable, the height filling-up plate is used for being connected with the length beam, and the flexible plugging piece is used for being abutted against the top of the equipment cabinet.

According to one aspect of the embodiment of the invention, the equipment cabinet further comprises a length supplement piece, the height of the length supplement piece is adjustable, the length supplement piece is used for connecting the end frame and the side face of the equipment cabinet, and the top of the length supplement piece is connected with the length beam.

According to an aspect of an embodiment of the invention, further comprising a flexible seal for providing a gap between the length supplement and the end frame.

According to one aspect of the embodiment of the invention, the air conditioner further comprises a cantilever support member, wherein the cantilever support member is arranged on the length beam and is used for installing cables, power supply equipment and an air conditioner outdoor unit.

According to one aspect of the embodiment of the invention, the frame assembly is provided with a lighting device and a sensor, and the sensor is used for controlling the lighting device to be switched on and switched off.

In the data center flexible micro-module sealing system provided by the embodiment of the invention, the end frames are arranged at the two ends of the length beam to form the frame assembly for sealing the channel, the top assembly seals the top of the frame assembly or forms the airflow channel at the top of the frame assembly, after the equipment cabinet is pushed into the designated position between the end frames at the two ends of the length beam, the adjacent equipment cabinets are sealed, the height gap-filling component is connected with the length beam and the top of the equipment cabinets, thereby forming a sealed closed channel, the length and the height of the length beam can be adjusted, the width of the end frame can be adjusted, therefore, the length, the height and the width of the closed channel are all adjustable, the closed channel is independent of an equipment cabinet as a deployment basis, is more independent and has higher deployment flexibility, the adjustability is stronger, has solved the poor problem of the adjustment ability of data center closed channel micromodule.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments of the present invention will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a data center flexible micro-module sealing system according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a length beam of a data center flexible micro-module containment system according to an embodiment of the invention.

Fig. 3 is a schematic structural diagram of an end frame of a data center flexible micro-module containment system according to an embodiment of the invention.

Fig. 4 is a schematic structural diagram of a data center flexible micro-module sealing system according to another embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a channel structure of a data center flexible micro-module sealing system according to another embodiment of the invention.

Fig. 6 is a schematic structural diagram of a highly-supplemented component of a data center flexible micromodule enclosure system according to an embodiment of the invention.

Fig. 7 is a schematic structural diagram of a length supplement of a data center flexible micromodule sealing system according to an embodiment of the invention.

Fig. 8 is a schematic structural diagram of a length supplement of a data center flexible micromodule closure system according to an embodiment of the invention.

Fig. 9 is a schematic structural diagram of a flexible seal of a data center flexible micromodule closure system according to an embodiment of the invention.

Fig. 10 is a schematic structural diagram of an end frame of a data center flexible micro-module containment system according to yet another embodiment of the invention.

Fig. 11 is a schematic structural diagram of a data center flexible micro-module sealing system according to another embodiment of the invention.

Fig. 12 is a schematic distribution diagram of the lighting devices of the data center flexible micro-module closed system according to the embodiment of the invention.

Fig. 13 is a schematic view of the airflow direction of the data center flexible micro-module enclosure system according to the embodiment of the invention.

Fig. 14 is a schematic view of the airflow direction of a data center flexible micro-module enclosure system according to another embodiment of the invention.

In the drawings:

1-door assembly, 2-end frame, 3-length beam, 4-height gap-filling assembly, 5-equipment cabinet, 6-top sealing plate, 7-cantilever support, 8-length gap-filling piece, 9-channel structure, 10-sealing fixing piece, 11-flexible sealing piece, 12-lighting device, 13-sensor, 14-manual switch, 15-supporting leg;

201-support column, 202-positioning hole;

301-inner beam, 302-inner beam connector, 303-outer beam, 304-outer beam connector, 305-mounting hole;

401-a height filling plate, 402-a flexible plugging piece;

801-length filling in fixed panel, 802-length filling in sliding panel;

901-channel fixed panel, 902-channel sliding panel.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following detailed description of the embodiments and the accompanying drawings are provided to illustrate the principles of the invention and are not intended to limit the scope of the invention, i.e., the invention is not limited to the described embodiments.

In the description of the present invention, it is to be noted that, unless otherwise specified, the terms "first" and "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; "plurality" means two or more; the terms "inner", "outer", "top", "bottom", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1, a flexible micro-module sealing system of a data center according to an embodiment of the present invention includes a frame assembly, a top assembly, and a height filling assembly 4; the frame assembly comprises a length beam 3 with adjustable length and end frames 2 with adjustable width arranged at two ends of the length beam 3, the space between the end frames 2 at two ends of the length beam 3 is used for placing an equipment cabinet 5, the length beam 3 is connected to the upper part of the end frame 2, the length beam 3 can move up and down along the end frame 2, and the lower part of the end frame 2 is used for being arranged on the ground or other supporting bases; a top assembly is arranged on the length beam 3, the top assembly is used for closing the top of the frame assembly or forming an airflow channel on the top of the frame assembly; the height of the height filling-up assembly 4 is adjustable, and the height filling-up assembly 4 is used for connecting the top of the closed length beam 3 and the equipment cabinet 5. In this embodiment, the end frames 2 are disposed at two ends of the length beam 3 to form a frame assembly of a closed channel, the top assembly closes the top of the frame assembly or forms an airflow channel at the top of the frame assembly, after the equipment cabinets 5 are pushed into the designated positions between the end frames 2 at two ends of the length beam 3, the adjacent equipment cabinets 5 are sealed, the height filling assembly 4 connects the length beam 3 and the top of the equipment cabinets 5, thereby forming a sealed closed channel, the length and height of the length beam 3 are adjustable, and the width of the end frame 2 is adjustable, so that the length, height and width of the closed channel are adjustable, and the closed channel does not depend on the equipment cabinets 5 as a deployment basis, and is more independent, the deployment flexibility is higher, the adjustability is stronger, the problem of poor adjustability of the data center closed channel micromodule can be solved, and the deployment time of the data center can be saved, the deployment efficiency of the data center is improved.

In the data center flexible micro-module closed system of the embodiment, the length of the closed channel can be lengthened or shortened according to the specific situation of the deployment site, the height can be increased or decreased according to the specific situation of the deployment site, the width can be increased or decreased according to the specific situation of the deployment site, equipment cabinets 5 with different heights can be deployed in the closed channel, and the height supplementing assembly 4 can be adjusted according to the height of the equipment cabinets 5, so that the closed channel is sealed, and the airflow flows more reasonably.

The flexible micromodule closed system of data center of this embodiment has the compatibility of preferred, can be applicable to newly-built computer lab, also can be applicable to and reform transform the computer lab, can be applicable to and seal cold passageway micromodule, also can be applicable to and seal hot channel micromodule, and the size and specification of sealing the passageway is adjustable, has the flexibility of preferred, can compatible different width, height and the equipment rack 5 of the degree of depth, can adapt to multiple deployment scene.

In this embodiment, the deployment modes of the equipment cabinets 5 are directly pushed in or pushed out, the equipment cabinets 5 are pushed in or pushed out of the designated positions as required, and the positions of any two equipment cabinets 5 can be interchanged, so that the positions of the equipment cabinets 5 can be adjusted according to the power, the functions and the like of the equipment cabinets 5 and by combining the airflow conditions inside the system, the airflow organization inside the equipment cabinets 5, the cable deployment of closed channels and the like can achieve the best effect, and energy is saved. For example, if powerful equipment rack 5 deploys in the position far away from refrigeration air conditioner, then the refrigeration effect is relatively poor, and local overheat may appear in powerful equipment rack 5, and the air conditioning utilization ratio is lower, and during the system of this embodiment, can change powerful equipment rack 5 to the position nearer from refrigeration air conditioner, makes powerful equipment rack 5 obtain fully cooling, can improve the utilization ratio of air conditioning effectively.

The equipment cabinet 5 can be pushed in from one side of the closed channel, and the other side of the closed channel can be close to a wall, so that the erection of a closed system close to the wall is met. One side of the end frame 2 is used for connecting the length beam 3, and the other side of the end frame 2 can be provided with the door assembly 1 to play a role in positioning and protecting the closed channel.

Referring to fig. 2, as an alternative embodiment, the length beam 3 includes an outer beam 303 and an inner beam 301 sleeved inside the outer beam 303, and the outer beam 303 and the inner beam 301 move relatively in the axial direction to adjust the length of the length beam 3.

In this embodiment, the length of the system can be adjusted at the deployment site, and the length of the length beam 3 can be lengthened or shortened according to the requirements, so that the length of the closed channel is adjusted to adapt to different site deployment requirements, and the system does not need to be customized according to the requirements, thereby greatly improving the deployment efficiency.

Wherein, interior roof beam 301 and outer beam 303 can be "concave" font, "protruding" font or other shapes, can strengthen length roof beam 3's intensity, and length roof beam 3 structure is more stable itself, also is convenient for the fixed of other components, spacing.

Moreover, the outer beam 303 and the inner beam 301 are both provided with mounting holes 305 for facilitating mounting of other components, the mounting holes 305 on the outer beam 303 correspond to the mounting holes 305 on the inner beam 301, for example, the mounting holes 305 on the outer beam 303 are located on the top surface of the outer beam 303, the mounting holes 305 on the inner beam 301 are located on the top surface of the inner beam 301, the distance between the adjacent mounting holes 305 on the outer beam 303 is the same as the distance between the adjacent mounting holes 305 on the inner beam 301, meanwhile, the diameters of the mounting holes 305 on the outer beam 303 are changed in size, the diameters of the mounting holes 305 on the inner beam 301 are also changed in size, and thus, different components can be easily mounted at any position.

As an alternative embodiment, the end frame 2 includes at least two supporting columns 201 vertically disposed, and a cross bar with adjustable length connecting the at least two supporting columns 201, the supporting columns 201 are provided with a plurality of positioning holes 202, as shown in fig. 3, and the length beams 3 are connected to the supporting columns 201 through the positioning holes 202.

In this embodiment, the length of the cross bar is adjustable, so that the distance between the supporting columns 201 is adjustable, the width of the end frame 2 is adjustable, the width of the closed channel is adjustable, and the equipment cabinet 5 with different depths can be adapted. By being mounted on different positioning holes 202, the height of the length beam 3 can be adjusted, so that the height of the closed channel can be adjusted, and the device cabinet 5 with different heights can be adapted. When different high equipment rack 5 of adaptation, length roof beam 3 can be according to the equipment rack 5 setting of high the highest, and other equipment racks 5 are connected with length roof beam 3 through high gap filling subassembly 4, guarantee the sealed of enclosed passage.

Wherein the outline shape of the end frame 2 may be rectangular, square or other shape, provided with two or more support columns 201. The number of length beams 3 may be two and may be connected to two support columns 201 of the same end frame 2 in an edge position, respectively.

Moreover, the outer beam 303 of the length beam 3 can be connected with the positioning hole 202 on the support column 201 through the outer beam connector 304, and the inner beam 301 can be connected with the positioning hole 202 on the support column 201 through the inner beam connector 302.

Furthermore, the bottom of the support column 201 may be provided with support feet 15 to accommodate the deployment of the raised floor, such as if deployed on ordinary ground, the support feet 15 may not be required.

As an alternative embodiment, the top assembly includes a plurality of top closing plates 6 connected in series, the plurality of top closing plates 6 are connected to the length beam 3, and the plurality of top closing plates 6 are laid along the extending direction of the length beam 3 to be connected to the end frames 2 at both ends of the length beam 3 to close the top of the frame assembly.

In this embodiment, a plurality of top closure plates 6 are connected in series to close the top of the frame assembly and thereby deploy as a closed tunnel, either as a closed cold tunnel or as a closed hot tunnel. When the heat exchanger is used as a closed cold channel, the airflow direction is as shown in fig. 13, and the airflow enters from the lower part of the closed channel and flows out from two sides of the equipment cabinet 5 to realize heat exchange. The equipment cabinets 5 may be deployed in a manner that the equipment cabinets 5 are directly pushed into the designated positions of the equipment cabinets 5 and then sealed with the adjacent equipment cabinets 5.

Referring to fig. 4, as an alternative embodiment, the top assembly includes a channel structure 9 with two open ends, one end of the channel structure 9 is connected to the length beam 3 and is engaged with the end frames 2 at both ends of the length beam 3, and the other end of the channel structure 9 extends vertically upward to form an air flow channel at the top of the frame assembly.

In this embodiment, the channel structure 9 forms an airflow channel at the top of the frame assembly, thereby being deployed as another closed channel, which can be used as a closed hot channel or a closed cold channel. When the heat exchanger is used as a closed hot channel, the airflow direction is as shown in fig. 14, and airflow enters from two sides of the equipment cabinet 5 and flows out from the airflow channel at the top to realize heat exchange. The equipment cabinets 5 are arranged in a manner that the equipment cabinets 5 are directly pushed into the designated positions of the equipment cabinets 5 and the adjacent equipment cabinets 5 are sealed.

Referring to fig. 5, as an alternative embodiment, the channel structure 9 includes a plurality of channel fixing panels 901, the channel fixing panels 901 are sequentially connected end to form the channel structure 9, and a channel sliding panel 902 is slidably disposed on the channel fixing panel 901.

The channel structure 9 of this embodiment is assembled by a plurality of channel fixing panels 901 and is formed, the height of the channel structure 9 can be adjusted by using the channel fixing panels 901 of different sizes and specifications, meanwhile, the channel sliding panel 902 can slide relative to the channel fixing panels 901, the height of the channel structure 9 can be further adjusted on the basis of the adjustment of the specification of the channel fixing panels 901, so that the channel structure 9 can be suitable for the height of the ceiling of most data center buildings, the work such as on-site cutting is not needed, and the on-site deployment efficiency is greatly improved.

With reference to fig. 6, as an alternative embodiment, the height supplementing assembly 4 includes a height supplementing plate 401 and a flexible blocking piece 402, which are sequentially connected, the height of the height supplementing plate 401 is adjustable, the height supplementing plate 401 is used for being connected with the length beam 3, and the flexible blocking piece 402 is used for being abutted against the top of the equipment cabinet 5, so as to achieve better sealing.

In this embodiment, when different high equipment rack 5 of adaptation, length roof beam 3 can be according to the highest equipment rack 5 setting of height, and the space between the top of other equipment rack 5 and length roof beam 3 is sealed by high vacancy filling subassembly 4, guarantees the closure of closed passage. The height of the height filling-up assembly 4 can be adjusted by using height filling-up plates 401 of different specifications, and the flexible plugging piece 402 has certain compressibility, so that the height of the height filling-up assembly 4 can be further adjusted, and a gap between the top of the equipment cabinet 5 and the length beam 3 of different heights can be sealed.

The height supplementing plate 401 may also be formed by splicing one or more plate-shaped structures, and the height of the height supplementing plate 401 is adjusted by matching the number of the plate-shaped structures and different specifications, or the height supplementing plate 401 may be formed by slidably connecting more than two plate-shaped structures, so that the height is adjustable.

With reference to fig. 7 and 8, as an alternative embodiment, the rack further includes a length supplement piece 8, the height of the length supplement piece 8 is adjustable, the length supplement piece 8 is used for connecting the end frame 2 and the side surface of the equipment cabinet 5, and the top of the length supplement piece 8 is connected to the length beam 3.

In this embodiment, the length supplementing part 8 is used for temporarily not deploying the equipment cabinet 5 in a certain equipment cabinet position in the closed channel, but still needs to ensure the sealing effect, in the length direction of the closed channel, the size of the length supplementing part 8 is consistent with the size of the equipment cabinet 5 to be deployed, if the equipment cabinet position needs to deploy the equipment cabinet 5, the length supplementing part 8 is detached and then the equipment cabinet 5 is correspondingly installed, and if a gap is formed between the equipment cabinet 5 and the length beam 3, the equipment cabinet is sealed through the height supplementing part 4. The length supplement piece 8 can be installed at any position in the length direction of the closed channel and is used for replacing the equipment cabinet 5 at any position of the closed channel.

Wherein, length filling out spare 8 can include length filling out fixed panel 801 and length filling out sliding panel 802, and length filling out sliding panel 802 can be for the vertical slip of length filling out fixed panel 801, and the top and the length roof beam 3 of length filling out sliding panel 802 are connected, when will seal the passageway and seal in length direction, also seal in the direction of height.

Referring to fig. 9, as an alternative embodiment, a flexible sealing member 11 is further included, and the flexible sealing member 11 is used for setting a gap between the length supplement member 8 and the end frame 2 so as to seal the end of the closed channel.

The flexible sealing element 11 of this embodiment can be fixed on the sealing fixing element 10 through the clamping groove, the sealing fixing element 10 can be slidably connected to the supporting column 201 of the end frame 2, the sealing fixing element 10 can slide in a certain range, and the flexible sealing element 11 can generate elastic deformation to realize sealing of the end part of the closed channel.

As an alternative embodiment, the air conditioner further comprises a cantilever support 7, the cantilever support 7 is disposed on the length beam 3 and can extend to the outside of the enclosed channel perpendicular to the length beam 3, the number of the cantilever supports 7 can be multiple, the cantilever supports 7 can be disposed on both sides of the enclosed channel, and the cantilever supports 7 are used for mounting cables and other equipment, such as power supply equipment, air conditioner outdoor units and the like.

Referring to fig. 10 and 11, at least two rows of positioning holes 202 may be disposed on the end frame 2, one row of the positioning holes is used for connecting the length beams 3 to form a frame assembly, and the other row is used as a closed channel expansion reserved hole for connecting other length beams 3, that is, the system may be expanded to have a plurality of channel modules, and the length and height of each channel module in the plurality of channel modules may be deployed to different specifications, which may satisfy more complex field deployment conditions, and has stronger diversity and higher flexibility, and may further improve the deployment efficiency of the data center micromodules.

Referring to fig. 12, as an alternative embodiment, the frame assembly is provided with an illumination device 12 and a sensor 13, and the sensor 13 is used for controlling the illumination device 12 to be switched on and off.

In this embodiment, the lighting device 12 is arranged on the length beam 3, the sensor 13 and the manual switch 14 are fixed on the end portion frame 2, the sensor 13 is used for sensing signals such as external light, sound and action and controlling the lighting device 12, the manual switch 14 is a main switch, and the lighting device 12 in the closed channel is normally on after the manual switch 14 is opened, so that a complete intelligent lighting system is provided.

The intelligent lighting system has two control modes of manual control and automatic control, wherein the manual control is that the manual switch 14 is manually turned on, and the lighting device 12 is always on, so that the intelligent lighting system is suitable for long-time maintenance; automatic control then need not open the master switch, and sensor 13 controls when sensing maintainer and starts lighting device 12, does not sense signals such as sound, action after predetermineeing for a long time, then explains that maintainer has left, and sensor 13 control closes lighting device 12 to practice thrift the electric energy, be applicable to the equipment of short time and look over or maintain.

It should be understood by those skilled in the art that the foregoing is only illustrative of the present invention, and the scope of the present invention is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (11)

1. A data center flexible micromodule containment system, comprising:

the frame assembly comprises a length beam with adjustable length and end frames with adjustable width, the end frames are arranged at two ends of the length beam, a space between the end frames at two ends of the length beam is used for placing an equipment cabinet, the length beam is connected to the upper part of the end frame and can move up and down along the end frame, and the lower part of the end frame is used for being arranged on the ground or other supporting bases;

a top assembly disposed on the length beam, the top assembly for closing off a top of the frame assembly or forming an airflow channel at the top of the frame assembly; and

the height of the height supplement assembly is adjustable, and the height supplement assembly is used for connecting and sealing the top of the length beam and the equipment cabinet.

2. The data center flexible micromodule closing system according to claim 1, wherein the length beam comprises an outer beam and an inner beam sleeved inside the outer beam, and the outer beam and the inner beam move relatively in the axial direction to adjust the length of the length beam.

3. The data center flexible micromodule closing system of claim 1, wherein the end frame comprises at least two support columns vertically arranged and a cross bar with adjustable length connecting the at least two support columns, the support columns are provided with a plurality of positioning holes, and the length beams are connected to the support columns through the positioning holes.

4. The data center flexible micromodule enclosure system of claim 1, wherein the top assembly comprises a plurality of top closure plates connected in series, the plurality of top closure plates each being connected to the length beam, the plurality of top closure plates being laid out in the direction of extension of the length beam to connect with the end frames at both ends of the length beam to enclose the top of the frame assembly.

5. The data center flexible micromodule enclosure system of claim 1, wherein the top assembly comprises a channel structure open at both ends, one end of the channel structure being attached to the length beam and engaging the end frames at both ends of the length beam, the other end of the channel structure extending vertically upward to form an airflow channel at the top of the frame assembly.

6. The data center flexible micromodule closing system according to claim 5, wherein the channel structure comprises a plurality of channel fixing panels, the channel fixing panels are sequentially connected end to enclose the channel structure, and a channel sliding panel is slidably disposed on the channel fixing panels.

7. The data center flexible micromodule closure system of claim 1, wherein the height supplement assembly comprises a height supplement plate and a flexible closure member connected in sequence, wherein the height of the height supplement plate is adjustable, the height supplement plate is used for being connected with the length beam, and the flexible closure member is used for being abutted against the top of an equipment cabinet.

8. The data center flexible micro-module containment system of claim 1, further comprising a length shim, the length shim having an adjustable height, the length shim being configured to connect the end frame to a side of an equipment cabinet, and a top of the length shim being connected to the length beam.

9. The data center flexible micromodule enclosure system of claim 8, further comprising a flexible seal for disposing in a gap between the length compensator and the end frame.

10. The data center flexible micromodule enclosure system of claim 1, further comprising a cantilever support disposed on the length beam, the cantilever support configured to mount a cable, a power supply device, and an outdoor unit of an air conditioner.

11. The data center flexible micromodule closure system according to any one of claims 1 to 10, wherein the frame assembly is provided with an illumination device and a sensor, and the sensor is used for controlling the illumination device to be switched on and off.

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