CN212002514U - Prefabricated sandwich structure of data center machine room - Google Patents

Abstract

The utility model relates to a data center computer lab is with prefabricated sandwich structure. Wherein, this prefabricated sandwich structure includes: the device comprises a cabinet structure, wherein a channel sealing assembly and a bridge frame assembly are prefabricated above the cabinet structure to form a pillar, and the channel sealing assembly and the bridge frame assembly are connected through a cabinet combining piece; the vertical keel is formed by connecting the top ends of the closed channel assemblies of a plurality of vertically arranged cabinets; the equipment cabinet structure comprises equipment cabinets and/or frame sectional materials of the equipment cabinets, and the equipment cabinets or the frame sectional materials of the equipment cabinets are transversely interconnected through connecting pieces at intervals according to a preset number of the equipment cabinets so as to form the transverse keel of the prefabricated interlayer of the data center machine room; and the wall side keel is connected with the vertical keel and the transverse keel through the cabinet structure to construct a prefabricated sandwich structure of a data center machine room. The utility model discloses prefabricated intermediate layer is built in the standardized concatenation of support based on data center rack is done, has extended data center construction scope, has shortened construction cycle by a wide margin.

Description

Prefabricated sandwich structure of data center machine room

Technical Field

The utility model relates to a data center IDC field particularly, relates to a prefabricated interbedded structure of data center computer lab.

Background

The application requirements for data storage, exchange, calculation and the like are continuously increased due to the vigorous development of industries such as 5G, Internet of things, AR/VR, big data and cloud computing, and the construction of a data center can provide basic equipment support for large-scale data calculation, storage, exchange and application requirements, so that the increase of the data center requirements is promoted.

However, the newly-built data center cannot meet the existing service requirements in real time in a long construction period, and the old design of the existing data center has the defects of great transformation risk, smaller transformation space and incapability of matching new service requirements from the technical perspective. When being the computer lab in the single-storey building, when prior art founds the return air intermediate layer, it is long consuming time and influential to the computer lab security.

It is to be noted that the information disclosed in the above background section is only for enhancement of understanding of the background of the present invention and therefore may include information that does not constitute prior art known to a person of ordinary skill in the art.

Disclosure of Invention

An object of the utility model is to provide a prefabricated interbedded structure of data center computer lab, and then overcome one or more problems that lead to because the restriction of correlation technique and defect to a certain extent at least.

According to the utility model discloses an aspect provides a prefabricated sandwich structure of data center computer lab, and the prefabricated sandwich structure of computer lab includes:

the device comprises a cabinet structure, wherein a channel sealing assembly and a bridge frame assembly are prefabricated above the cabinet structure to form a pillar, and the channel sealing assembly and the bridge frame assembly are connected through a cabinet combining part;

the vertical keel is formed by connecting the top ends of the closed channel assemblies of the cabinet structures which are vertically arranged;

the equipment cabinet structure comprises equipment cabinets and/or frame sectional materials of the equipment cabinets, and the equipment cabinets or the frame sectional materials of the equipment cabinets are transversely interconnected through connecting pieces according to a preset number of equipment cabinet intervals in vertical arrangement to form the transverse keel of the prefabricated interlayer of the data center machine room;

and the wall side keel is connected with the vertical keel and the transverse keel through a cabinet structure to construct a cabinet structure with a prefabricated interlayer structure of a data center machine room.

Furthermore, heat insulation plates are laid on the transverse keels, the vertical keels and the wall-side keels to serve as sandwich plates of the prefabricated interlayer of the data center machine room, so that the prefabricated interlayer of the data center machine room is sealed.

Further, the prefabricated sandwich structure of computer lab for data center still includes:

the manger plate bank, vertical keel close the passageway subassembly and connect the sandwich panel, just vertical keel close the passageway subassembly and set up to be higher than the sandwich panel, form waterproof cutting.

And further, prefabricating a bridge frame assembly in the closed channel assembly of the vertical keel, wherein the lower end of the bridge frame assembly is connected with each cabinet structure, and the upper end of the bridge frame assembly is connected with the sandwich plate through a prefabricated hole opening device.

Further, the prefabricated hole opening device is a prefabricated right-angle or return-bending hole opening device.

Furthermore, the wall keel connects the cabinet structure with the triangular support member prefabricated along the wall of the data center, and serves as the wall keel of the prefabricated interlayer of the data center machine room.

Furthermore, the cabinet structures are connected in a cabinet combining mode through cabinet combining pieces.

The utility model uses the self structure of the machine cabinet in the data center machine room as the support, and a closed channel component is respectively prefabricated and heightened above each machine cabinet structure in a row of machine cabinets and is connected in rows to be used as a vertical keel; transversely interconnecting the machine cabinet rows through a prefabricated machine cabinet structure according to a preset number of machine cabinet intervals to form transverse keels; the machine cabinet structure is connected with a triangular support piece prefabricated along the wall of the data center, the triangular support piece serves as a wall keel of a prefabricated interlayer of the data center machine room, and the wall keel is connected with the vertical keel and the transverse keel through the machine cabinet structure to complete construction of the prefabricated interlayer of the data center machine room. On one hand, the prefabricated interlayer is built through the vertical keels, the transverse keels and the wall edge keels, so that the problems that the existing old machine room is not easy to modify and the suspended ceiling is not heavy enough are solved, and the construction range of the data center is expanded; on the other hand, the standardized splicing construction prefabricated interlayer based on the data center cabinet as a support can greatly shorten the construction period.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention as claimed.

Drawings

The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings.

Fig. 1 shows a schematic diagram of a data center room prefabricated sandwich structure according to an exemplary embodiment of the present invention;

fig. 2 shows a flowchart of a method for prefabricating an interlayer in a data center room according to an exemplary embodiment of the present invention;

fig. 3 shows a cabinet structure keel splicing diagram of a data center room prefabricated sandwich according to an exemplary embodiment of the present invention;

figure 4 illustrates a cabinet structure keel plan view of a data center room prefabricated sandwich according to an exemplary embodiment of the present invention;

5A-5B illustrate cross-sectional views of a hot sandwich traveling bridge of a data center room prefabricated sandwich in accordance with an exemplary embodiment of the present invention;

6A-6B illustrate a room airflow organization diagram after a data center room build mezzanine according to an exemplary embodiment of the present disclosure;

figures 7A-7B illustrate cross-sectional views of a single-floor factory building keel sandwich of a data center room prefabricated sandwich according to an exemplary embodiment of the present invention.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The same reference numerals denote the same or similar parts in the drawings, and thus, a repetitive description thereof will be omitted.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the following description, numerous specific details are provided to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention may be practiced without one or more of the specific details, or with other methods, components, materials, devices, steps, and so forth. In other instances, well-known structures, methods, devices, implementations, materials, or operations are not shown or described in detail to avoid obscuring aspects of the invention.

In the embodiment of the present invention, firstly, a prefabricated sandwich structure of a data center machine room is provided; referring to fig. 1, the data center room prefabricated sandwich structure may include:

the device comprises a cabinet, a channel closing assembly and a bridge frame assembly are prefabricated above the cabinet to form a pillar, and the channel closing assembly and the bridge frame assembly are connected through a cabinet combining piece; when a plurality of cabinets are connected in parallel, the cabinets are connected in parallel through cabinet combination parts;

the vertical keel is formed by connecting the top ends of the closed channel assemblies of a plurality of vertically arranged cabinets;

the equipment cabinets comprise frame profiles, and the frame profiles of the equipment cabinets are transversely arranged at intervals according to a preset number of equipment cabinets through connecting pieces to form the transverse keel of the prefabricated interlayer of the data center machine room;

the wall limit fossil fragments, the wall limit fossil fragments pass through the rack structure with vertical fossil fragments, horizontal fossil fragments are connected, construct the prefabricated sandwich structure of data center computer lab. The wall keel connects the cabinet structure with the triangular support prefabricated along the wall of the data center, so that the prefabricated interlayer wall keel of the data center machine room is formed.

Furthermore, heat insulation plates are laid on the transverse keels, the vertical keels and the wall-side keels to serve as sandwich plates of the prefabricated interlayer of the data center machine room, so that the prefabricated interlayer of the data center machine room is sealed.

Further, the prefabricated sandwich structure of computer lab for data center still includes: the manger plate bank, vertical keel close the passageway subassembly and connect the sandwich panel, just vertical keel close the passageway subassembly and set up to be higher than the sandwich panel, form waterproof cutting.

And further, prefabricating a bridge frame assembly in the closed channel assembly of the vertical keel, wherein the lower end of the bridge frame assembly is connected with each cabinet, and the upper end of the bridge frame assembly is connected with the sandwich plate through a prefabricated hole opening device.

Further, the prefabricated hole opening device is a prefabricated right-angle or return-bending hole opening device.

Furthermore, the wall keel connects the cabinet structure with the triangular support member prefabricated along the wall of the data center, and serves as the wall keel of the prefabricated interlayer of the data center machine room.

The utility model uses the cabinet structure in the data center machine room as the support, and a closed channel component is prefabricated and added above each cabinet in a row of cabinets and connected in rows to be used as a vertical keel; transversely interconnecting the machine cabinet rows through a prefabricated machine cabinet structure according to a preset number of machine cabinet intervals to form transverse keels; the machine cabinet structure is connected with a triangular support piece prefabricated along the wall of the data center, the triangular support piece serves as a wall keel of a prefabricated interlayer of the data center machine room, and the wall keel is connected with the vertical keel and the transverse keel through the machine cabinet structure to complete construction of the prefabricated interlayer of the data center machine room. On one hand, the prefabricated interlayer is built through the vertical keels, the transverse keels and the wall edge keels, so that the problems that the existing old machine room is not easy to modify and the suspended ceiling is not heavy enough are solved, and the construction range of the data center is expanded; on the other hand, the standardized splicing construction prefabricated interlayer based on the data center cabinet as a support can greatly shorten the construction period.

In the embodiment of the example, a method for prefabricating an interlayer in a data center machine room is further provided; referring to fig. 2, the data center room prefabricated interlayer method may include:

a vertical keel building step S210, wherein a cabinet structure in a data center machine room is used as a support, a closed channel assembly is prefabricated and heightened above each cabinet in a row of cabinets and is connected in rows, and the top ends of the closed channel assemblies of the row of cabinets are used as vertical keels of the prefabricated interlayer of the data center machine room;

a transverse keel building step S220, wherein transverse interconnection is carried out between cabinet rows according to a preset number of cabinet structure intervals through a prefabricated cabinet structure, and the transverse keels are used as transverse keels of the prefabricated interlayer of the data center machine room;

step S230 is built by the wall side keel, a cabinet structure is connected with a triangular support piece prefabricated along the wall side of the data center, the wall side keel serves as the prefabricated interlayer wall side keel of the data center machine room, and the wall side keel is connected with the vertical keel and the transverse keel through the cabinet structure to complete the construction of the prefabricated interlayer of the data center machine room.

The method for prefabricating the interlayer of the data center machine room in the exemplary embodiment is further described below with reference to a data center machine room prefabricating interlayer structure.

The machine cabinet structure in the data center machine room can be used as a support, a closed channel assembly is prefabricated and heightened above each machine cabinet structure in a row of machine cabinets and connected in rows, and the top ends of the closed channel assemblies of the row of machine cabinets are used as vertical keels of the prefabricated interlayer of the data center machine room.

Referring to a schematic diagram of splicing keels of a cabinet structure of a data center shown in fig. 3, two rows are used as a module, and two rows of cabinets are interconnected in a transverse manner according to a preset number (for example, for two rows of cabinets) by a prefabricated cabinet structure, so as to be used as transverse keels of a prefabricated interlayer of a machine room of the data center;

in the embodiment of the present invention, the rack structure may be a rack itself or a rack frame profile, and the rack structure (or similar other types of prefabricated frames) such as the rack in the machine room or the rack frame profile itself is used as a support, the load bearing of the server frame of 1200mm 600mm 2200mm, which is commonly used in the market at present, is more than 2t, a channel sealing and bridge component is prefabricated above the rack structure, a single rack structure and a matched channel sealing and bridge component are used as a pillar, the load bearing is more than 1.5t, the racks are combined by using a cabinet combining component, the channel sealing and bridge components are connected together by using the cabinet combining component according to the width of the racks, a row of racks, the channel sealing and bridge components are integrally combined into a row, and the top ends of the channel sealing and bridge components form vertical keels.

When the closed channel assembly of the vertical keel is connected with the sandwich plate, the closed channel assembly is higher than the sandwich plate and serves as a water retaining ridge.

In the embodiment of the example, two rows form a module, and the rows are transversely interconnected at intervals of every two cabinets on the top of the channel closing and bridge frame assembly through a cabinet structure prefabricated in a factory to serve as transverse keels; the modules are also transversely interconnected at the top of the channel closure and the bridge component at intervals of every two cabinets through a cabinet structure prefabricated in a factory to serve as transverse keels;

the machine cabinet structure can be connected with the triangular support piece prefabricated along the wall of the data center, and the wall keel is used as the wall keel of the prefabricated interlayer of the data center machine room and connected with the vertical keel and the transverse keel through the machine cabinet structure to complete the construction of the prefabricated interlayer of the data center machine room.

And paving a heat insulation plate on the keel surface of the prefabricated interlayer to serve as the interlayer plate of the prefabricated interlayer of the data center machine room, and finishing the construction of the closed prefabricated interlayer of the data center machine room.

Prefabricating a bridge frame assembly in a closed channel assembly of a vertical keel, wherein the lower end of the bridge frame assembly is connected with each cabinet structure, and the upper end of the bridge frame assembly is connected with the sandwich plate through a prefabricated hole opening device;

the prefabricated hole opening device is a prefabricated waterproof and heat-insulating right-angle or return-bending hole opening device.

In the embodiment of this example, wall triangular support is made along the wall edge, and a circle of the plant is surrounded by the cabinet structure as the wall keel, and the vertical keel and the horizontal keel which are spliced by the cabinet rows or the modules are lapped with the wall keel through the cabinet structure.

In an embodiment of the present example, the sandwich plate laying step further comprises:

laying a heat insulation plate on the keel surface of the prefabricated interlayer, and performing waterproof lap joint treatment at the splicing position of the heat insulation plate; the prefabricated interlayer is laid to incline the wall side of the machine room, and a drainage point is arranged at a position close to the wall side.

In the embodiment of the example, a complete keel interlayer which is supported by a cabinet, a channel closing and bridge assembly and wall side triangular supporting pieces is formed, the bottom support of the interlayer can reach 1.5t, and a thermal insulation plate (glass magnesium sandwich plate) prefabricated by a factory is laid on the surface of the keel to form the closed keel interlayer, and the bearing capacity of the closed keel interlayer is enough to meet the requirements of laying various bridges and people.

Referring to fig. 4, a plan view of a keel of a rack structure of a data center room is shown, in this example embodiment, by constructing a complete keel surface supported by the rack, the channel closure and the bridge assembly, and the wall-side triangular supports. As shown in fig. 5A-5B, the cross-sectional view of the thermal interlayer of the bridge is taken, and the airflow organization diagram of the machine room after the interlayer is constructed as shown in fig. 6A-6B enters the bridge in the machine room of the data center, enters the interlayer in the machine room first, and is supported by the interlayer keel, the bridge falls on the interlayer plate directly, and when various cables are routed above each machine cabinet row, the cables can be led down to the channel closure and the bridge layer below the interlayer keel by the prefabricated right-angle or return-bent hole device with the functions of cold and hot air isolation and rain protection, and then are led to each machine cabinet by the channel closure and the bridge on the bridge assembly. In the machine room, no redundant bridge routes can be seen, and bridges and interlayers are prefabricated above the cabinet in an evenly distributed mode.

Referring to the cross-sectional views of the keel interlayer of the single-layer factory building shown in fig. 7A-7B, in the embodiment of the present example, the enclosure structure, the channel closure on the enclosure structure, and the bridge frame are used for constructing the support, so as to construct the keel interlayer, which can solve the problems of hanging, rooting of ground columns, and the like when the industrial factory building is transformed into a data center machine room, and can also realize factory prefabrication and standardized splicing, thereby greatly increasing the construction precision, reducing the field engineering amount, and shortening the delivery time. Meanwhile, the cable path in the machine room is completely laid on the prefabricated bridge frame and the interlayer above the cabinet, no redundant pipeline exists in the machine room, and the machine room is attractive and simple.

In the embodiment of the example, an interlayer secondary waterproof measure is constructed to solve the leakage risk of the factory building, and the main method is as follows:

1. laying a heat insulation plate on the interlayer keel, performing waterproof lap joint treatment at the splicing position of the heat insulation plate, designing the whole interlayer plane into an inclined plane inclined to the wall side of the machine room, arranging a plurality of accumulated water drainage points at the wall side of the machine room, and draining the accumulated water to the outside by using a pipeline;

2. when various pipelines on the keel interlayer are arranged on the closed channel on the cabinet structure and the bridge frame assembly, a right-angle or back-bending hole inserting device prefabricated by a factory needs to be installed;

3. the hot air in the closed channel of the cabinet module rises to the interlayer channel and is raised by one section, so that the hot air protrudes out of the surface of the heat insulation board to be used as a water retaining ridge;

4. and arranging a water leakage alarm device in the interlayer area.

In the embodiment of the example, a single layer in a multi-story building is also suitable for the method to perform machine room prefabricated interlayer, the data center reconstructed by the method is high in deployment speed and rich in resources, is close to a service demand end, and can solve the problems of marginalization, customization, explosiveness, scale and the like of the next generation data center. In addition, the method can also solve the problem that the existing industrial factory building or warehouse is idle and reused, realize economic transformation and upgrade, and achieve multiple purposes.

It should be noted that although the steps of the method of the present invention are depicted in the drawings in a particular order, this does not require or imply that the steps must be performed in this particular order, or that all of the depicted steps must be performed, to achieve the desired results. Additionally or alternatively, certain steps may be omitted, multiple steps combined into one step execution, and/or one step broken down into multiple step executions, etc.

Furthermore, the above-described figures are merely schematic illustrations of processes involved in methods according to exemplary embodiments of the invention, and are not intended to be limiting. It will be readily understood that the processes shown in the above figures are not intended to indicate or limit the chronological order of the processes.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present invention is limited only by the appended claims.

Claims (6)

1. The prefabricated sandwich structure of data center computer lab, its characterized in that, prefabricated sandwich structure of computer lab includes:

the device comprises a cabinet structure 11, wherein a channel closing assembly and a bridge frame assembly are prefabricated above the cabinet to form a pillar, and the channel closing assembly and the bridge frame assembly are connected through a cabinet combining part;

the vertical keel 12 is formed by connecting the top ends of closed channel assemblies of a plurality of vertically arranged cabinets;

the equipment cabinet comprises equipment cabinets and/or frame sectional materials of the equipment cabinets, and the equipment cabinets or the frame sectional materials of the equipment cabinets are vertically arranged and are transversely interconnected through connecting pieces according to a preset number of equipment cabinet intervals to form the transverse keel of the prefabricated interlayer of the data center machine room;

and the wall keel 14 is connected with the vertical keel and the transverse keel through cabinet frame profiles to construct a prefabricated sandwich structure of a data center machine room.

2. The data center room prefabricated sandwich structure of claim 1,

and heat insulation plates are laid on the transverse keels, the vertical keels and the wall edge keels to serve as sandwich plates of the prefabricated interlayer of the data center machine room, so that the prefabricated interlayer of the data center machine room is sealed.

3. The data center machine room prefabricated sandwich structure of claim 2, wherein the data center machine room prefabricated sandwich structure further comprises:

the manger plate bank, vertical fossil fragments close the passageway subassembly and connect the sandwich panel, just vertical fossil fragments close the passageway subassembly and set up to be higher than the sandwich panel, form the manger plate bank.

4. The data center room prefabricated sandwich structure of claim 2,

the bridge frame assembly is prefabricated in the closed channel assembly of the vertical keel, the lower end of the bridge frame assembly is connected with each cabinet mechanism, and the upper end of the bridge frame assembly is connected with the sandwich plate through the prefabricated hole opening device.

5. The data center room prefabricated sandwich structure of claim 4,

the prefabricated hole opening device is a prefabricated right-angle or return-bending hole opening device.

6. The data center room prefabricated sandwich structure of claim 1,

the wall keel connects the cabinet section bar with the triangular support member prefabricated along the wall of the data center, and serves as the wall keel of the prefabricated interlayer of the data center machine room.

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