CN211831589U - Micro-module data center architecture structure - Google Patents

Abstract

The utility model relates to a micro module data center's architecture structure, including the stand, its characterized in that: the stand is six-fold stand, the longitudinal section of stand is the L type, including the first hem that constitutes the long limit of L type and the second hem that constitutes the L type minor face, meet with the second hem with this second hem vertically third hem, meet with the third hem and with the parallel fourth hem of this second hem, meet with the fourth hem and with the parallel fifth hem of first hem and connect the sixth hem of fifth hem and first hem, wherein two at least mounting holes have been seted up along length direction to the sixth hem, compare with prior art, the utility model has the advantages of an it is six-fold stand to provide a stand, and this six-fold stand can realize that the stand can also be used for electronic equipment's installation when preventing rustting.

Description

Micro-module data center architecture structure

Technical Field

The utility model relates to a micromodule data system especially relates to a micromodule data center's architecture.

Background

The data center comprises a production center, a processing center and a storage center of information and internet services. At present, the construction of data centers in the market is generally divided into traditional centralized and container data centers, the traditional centralized construction generally starts from land planning, large data centers are designed in a targeted planning mode, the planning and construction period is as long as 2-3 years, the initial equipment investment is huge, the construction mode is very inflexible, and the expansion of cabinets and the upgrade of the power load of each server cabinet according to market demands are often unrealistic.

In recent years, with the rapid development of the electronic information industry, container data centers and micro-module data centers enter the field of vision of people. The micromodule data center is characterized in that each module has an independent function and a unified input/output interface, modules in different areas can be backed up, and a complete data center is formed by arranging and combining related modules. With the development of information technology, the development of a micro-module data center enters a new stage, for example, a Chinese utility model patent with the patent number of ZL201820212001.6 (with the publication number of CN207969228U) of a data center micro-module system comprises two columns of overhead bases, a ventilation static floor arranged between the two columns of overhead bases, a power distribution cabinet and a micro-module arranged on the two columns of overhead bases, a skylight component arranged above the ventilation static floor, a wire groove arranged above the micro-module, and airflow containment doors at the front end and the rear end, wherein the data center micro-module system adopts the design of modularization, standardization and high integration, so that the stability of the whole system is high; electronic equipment, such as servers and the like, are often housed in modular form in a standard enclosure and are typically mounted in an overlapping manner in a cabinet. Generally, a cabinet includes a three-dimensional hollow rack and four vertical columns vertically installed in the rack, the vertical columns generally conform to the industry general standard EIA-310-D or other industry specifications, and in order to mount and fix electronic devices on the vertical columns in an overlapping manner, the electronic devices need to be mounted with a sliding rail structure, or need more additional parts without a sliding rail structure, which is inconvenient to mount and fix. For example, a chinese utility model patent No. ZL200910309811.9 (No. CN102065657B) discloses a cabinet comprising a frame, a plurality of electronic devices are installed at intervals in the frame, two opposite first columns and two opposite second columns are installed in the cabinet, each first column comprises a fixing plate and a plurality of flaps arranged at intervals on one side of the fixing plate, two corners of each electronic device near the second columns are installed on the second columns, two corners near the first columns are overlapped on the flaps of the two first columns near the bottom of the electronic device, two corners of each electronic device of the cabinet are installed on the two second columns, and the other two corners are overlapped on the flaps of the first columns near the bottom of the electronic device, so as to realize the installation of the electronic device, wherein the first columns and the second columns are both open structures, therefore, in the process of spraying plastics, the inner surface and the outer surface of the first stand column and the inner surface and the outer surface of the second stand column need to be sprayed in place, a compact protection effect is achieved, otherwise rusting is easy to occur, but in the actual spraying plastics process, the inner surface and the outer surface of the first stand column and the second stand column are not easy to be sprayed in place, and rusting is easy to occur.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a micromodule data center's architecture structure that can also be convenient for install electronic equipment when the stand is difficult for taking place the phenomenon of rustting is provided to above-mentioned prior art current situation.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the micro-module data center architecture structure comprises a stand column, and is characterized in that: the stand is six-fold stand, the longitudinal section of stand is the L type, including the first hem that constitutes the long limit of L type and the second hem that constitutes the L type minor face, meet with the second hem with this second hem vertically third hem, meet with the third hem and with the parallel fourth hem of this second hem, meet with the fourth hem and with the parallel fifth hem of first hem and connect the sixth hem of fifth hem and first hem, wherein two at least mounting holes have been seted up along length direction to the sixth hem.

In order to facilitate installation of the electronic device, a wire binding plate for binding wires of the electronic device is preferably installed between adjacent columns.

In order to further mount the wire bundling plate and the upright post, preferably, the two sides of the wire bundling plate are provided with a first bending plate and a second bending plate corresponding to the respective upright post, and the first bending plate and the second bending plate are both provided with through holes for mounting in cooperation with the mounting holes of the upright posts.

In order to mount the power distribution unit on the wire binding plate, preferably, at least two wire binding hole rows are formed in the wire binding plate side by side, and at least two mounting connection holes for mounting the power distribution unit are formed between adjacent wire binding hole rows. The power distribution unit is installed to facilitate the wiring of the electronic device to be clear.

In order to facilitate the binding of the power cord, preferably, the peripheral edge of the hole wall of the mounting connection hole extends towards the center of the mounting connection hole to form an inverted T-shaped winding frame.

In order to facilitate the power line to be better wound on the T-shaped winding frame in the binding process, preferably, a buffering notch for buffering the winding is further arranged between the vertical part of the T-shaped winding frame and the peripheral edge part of the hole wall of the mounting connecting hole.

Compared with the prior art, the utility model has the advantages of the stand is six stand that roll over is provided, and this six vertical sections that roll over the stand are the L type to can be first, two, three, four, five, six closed columns that the hem formed because of this stand, and then make the sixth hem that closes the first hem of stand and fifth hem can have the mounting hole that can be used for installing electronic equipment, thereby realize that the stand can also be used for electronic equipment's installation when preventing rusty.

Drawings

Fig. 1 is a schematic structural diagram of an architecture of a micro module data center according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a wire binding plate in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a pillar in an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in FIGS. 1 to 3, the preferred embodiment of the present invention is shown. The architecture structure of the micro-module data center in the embodiment comprises a stand column 1, wherein the stand column 1 is a six-fold stand column, the longitudinal section of the stand column 1 is L-shaped, the architecture structure comprises a first folding edge 11 forming an L-shaped long edge and a second folding edge 12 forming an L-shaped short edge, a third folding edge 13 connected with the second folding edge 12 and perpendicular to the second folding edge 12, a fourth folding edge 14 connected with the third folding edge 13 and parallel to the second folding edge 12, a fifth folding edge 15 connected with the fourth folding edge 14 and parallel to the first folding edge 11, and a sixth folding edge 16 connecting the fifth folding edge 15 and the first folding edge 11, wherein the sixth folding edge 16 is provided with at least two mounting holes 161 along the length direction, the stand column 1 is a six-fold stand column, the longitudinal section of the six-fold stand column is L-shaped, and a closed stand column 1 formed by the first folding edge 11, the second folding edge 12, the third folding edge 13, the fourth folding edge 14, the fifth folding edge 15 and the sixth folding edge 16, therefore, the sixth folded edge 16 which closes the first folded edge 11 and the fifth folded edge 15 of the upright post 1 can be provided with the mounting hole 161 which can be used for mounting the electronic equipment, so that the upright post 1 can be used for mounting the electronic equipment while preventing rusting.

Specifically, in order to facilitate installation of the electronic device, a wire binding plate 2 for binding the electric wire of the electronic device is installed between adjacent columns 1, and in order to further install the wire binding plate 2 and the columns 1, two sides of the wire binding plate 2 are provided with a first bending plate 22 and a second bending plate 23 corresponding to the respective columns 1, and through holes 20 for being installed in cooperation with the installation holes 161 of the columns 1 are respectively formed in the first bending plate 22 and the second bending plate 23. Simultaneously in order to realize installing the power distribution unit on wiring board 2, at least two wiring hole rows 21 have been seted up on wiring board 2 side by side, at least two erection joint holes 211 that are used for installing the power distribution unit have between the adjacent wiring hole row 21, wherein the installation of power distribution unit then is favorable to electronic equipment's wiring clear, wherein the pore wall peripheral part of erection joint hole 211 extends to erection joint hole 211 central authorities has inverted T type bobbin 201, this inverted T type bobbin 201 can be convenient for the ligature of power cord, at last for the convenience of power cord can better be put around on T type bobbin 201 in the ligature in-process, still have the buffering breach 202 that is used for buffering wire winding between the vertical portion of T type bobbin 201 and the pore wall peripheral part of erection joint hole 211.

When the wiring board 2 is installed, the sixth folded edge 16 of the upright post 1 needs to be faced to the inner side of the framework structure, so that the installation hole 161 of the sixth folded edge 16 is also faced to the inner side of the framework structure, the wiring board 2 is connected to the sixth folded edge 16 of the adjacent upright post 1, and when the wiring board 2 is installed, the electric wires of the electronic device can be installed on the wiring board 2 and the power distribution unit can be installed on the installation connection hole 211.

Claims (6)

1. The utility model provides an architectural structure of micromodule data center, including stand (1), its characterized in that: the stand column (1) is a six-fold stand column, the longitudinal section of the stand column (1) is L-shaped, and comprises a first folding edge (11) forming a long edge of the L-shaped and a second folding edge (12) forming a short edge of the L-shaped, a third folding edge (13) connected with the second folding edge (12) and perpendicular to the second folding edge (12), a fourth folding edge (14) connected with the third folding edge (13) and parallel to the second folding edge (12), a fifth folding edge (15) connected with the fourth folding edge (14) and parallel to the first folding edge (11), and a sixth folding edge (16) connected with the fifth folding edge (15) and the first folding edge (11), wherein at least two mounting holes (161) are formed in the sixth folding edge (16) along the length direction.

2. The architecture of a micro-module data center of claim 1, wherein: and a wire binding plate (2) for binding wires of the electronic equipment is arranged between the adjacent upright posts (1).

3. The architecture of a micro-module data center of claim 2, wherein: the both sides of wiring board (2) correspond respective stand (1) and have first bending plate (22) and second bending plate (23), all offer on first bending plate (22) and second bending plate (23) be used for with through-hole (20) of mounting hole (161) cooperation installation of stand (1).

4. The architecture of a micro-module data center of claim 3, wherein: at least two binding hole rows (21) are arranged on the binding plate (2) side by side, and at least two mounting connection holes (211) for mounting a power distribution unit are arranged between the adjacent binding hole rows (21).

5. The architecture of a micro-module data center of claim 4, wherein: and an inverted T-shaped winding frame (201) extends from the peripheral edge of the hole wall of the mounting connecting hole (211) to the center of the mounting connecting hole (211).

6. The architecture of a micro-module data center of claim 5, wherein: and a buffering notch (202) for buffering winding is further arranged between the vertical part of the T-shaped winding frame (201) and the peripheral edge part of the hole wall of the mounting connecting hole (211).

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