CN217389169U - Embedded device mounting box and miniature data center cabinet - Google Patents

Abstract

The utility model provides an embedded device mounting box and miniature data center rack, embedded device mounting box include the open box body in one side, and the box body is whole embedded between the U stand around rack one side, and open side towards the opposite side of rack, is used for installing electric device on the relative first lateral wall of box body rather than open side, the second lateral wall at box body top and the horizontal guide fixed connection at rack top, the third lateral wall of box body towards rack rear end and the U stand fixed connection at rear. The utility model provides an embedded device mounting box, the vacant space between the U stand around can being located in the make full use of rack improves space utilization, can also avoid electric device to interfere other modules and install convenient overall arrangement in controlling the space between the U stand in the rack.

Description

Embedded device mounting box and miniature data center cabinet

Technical Field

The utility model belongs to the technical field of miniature data center, concretely relates to embedded device mounting box and miniature data center rack.

Background

With the rapid development of technologies such as cloud computing, virtualization and internet of things, the demand for a micro data center is higher and higher. Miniature data center includes the rack usually, top-down arranges the distribution module inside the rack in proper order, the UPS power, a server, the group battery, and be close to other electrical devices of distribution module installation such as binding post row, data collection station etc. each main hardware module all uses four standard U stands of the inside four corners department of rack to cooperate the guide rail to install fixedly as the basis, and to electrical devices, its mounting means can direct influence the inside space utilization and the overall arrangement of rack, current inside electrical devices of rack adopts the mode of snap-on U stand or guide rail mostly, this kind of mode not only occupies the inside width space of controlling of rack, still can interfere the inside each hardware module of rack and fix the installation on the guide rail, thereby lead to rack inner space utilization low, each hardware module's the overall arrangement degree of difficulty is big.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an embedded device mounting box and miniature data center rack aims at improving rack inner space utilization, reduces the overall arrangement degree of difficulty of rack inner module.

In order to achieve the purpose, the utility model adopts the technical proposal that: the first aspect provides an embedded device mounting box for install on the inside U stand of rack and/or guide rail, including the open box body in one side, the box body is whole embedded between the U stand around rack one side, and open side towards the opposite side of rack, is used for installing electric device on the relative first lateral wall of box body and open side, the second lateral wall at box body top and the horizontal guide rail fixed connection at rack top, the third lateral wall of box body towards rack rear end and the U stand fixed connection at rear.

With reference to the first aspect, in a possible implementation manner, the edge of the second side wall, which is far away from the first side wall, is bent upward to form a first connecting portion, and the first connecting portion is attached to the horizontal guide rail; the edge of the third side wall, which is far away from the first side wall, is bent towards the outer side of the box body to form a second connecting part, and the second connecting part is attached to the rear U-shaped stand column.

In some embodiments, the second connecting portion is located at the middle upper portion of the third side wall, and a space below the second connecting portion is used for avoiding the bearing guide rail below the horizontal guide rail.

In some embodiments, a plurality of first connecting holes are distributed on the first connecting part at intervals horizontally, and first fasteners which are screwed and fixed with the horizontal guide rail penetrate through the first connecting holes; a plurality of second connecting holes are vertically distributed on the second connecting portion at intervals, and second fasteners which are screwed and fixed with the U-shaped stand columns at the rear part penetrate through the second connecting holes.

Illustratively, the first connection hole is a long hole extending in a vertical direction, and the second connection hole is a long hole extending in a front-rear direction of the cabinet.

In some embodiments, the second sidewall has at least two threading holes.

Exemplarily, the periphery of the threading hole is provided with a plurality of binding holes, the periphery of the threading hole is clamped with a protective strip, and the protective strip is bound and fixed by a binding belt penetrating through each binding hole.

In some embodiments, the first sidewall is provided with a hollow structure in a region around the electric device.

For example, a wiring slot is formed in a fourth side wall of the box body, which is opposite to the second side wall, and a plurality of data socket mounting holes are formed in a fifth side wall of the box body, which is opposite to the third side wall.

The utility model provides an embedded device mounting box's beneficial effect lies in: compared with the prior art, the utility model discloses embedded device mounting box, through being connected the second lateral wall of box body with the horizontal guide at top, the third lateral wall is connected with the U stand at rear, two lateral walls relative respectively with second lateral wall and third lateral wall are unsettled, make the whole embedded between two U stands around rack one side of box body, can install the open end of electrical apparatus through the box body to first lateral wall on the one hand, thereby be located the free space between the front and back U stand in the make full use of rack, improve space utilization, on the other hand can avoid electrical apparatus to interfere other modules and install in the space between the U stand about in the rack, convenient overall arrangement.

In a second aspect, the embodiment of the present invention further provides a miniature data center cabinet, including the cabinet body to and above-mentioned embedded device mounting box, wherein, at least one side of the cabinet body is equipped with embedded device mounting box.

Drawings

Fig. 1 is a schematic view of a partial structure of a miniature data center cabinet according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of an embedded device mounting box according to an embodiment of the present invention;

fig. 3 is a schematic top view of an embedded device mounting box according to an embodiment of the present invention.

In the figure: 10. a cabinet body; 11. a horizontal guide rail; 12. a U column; 13. a load bearing rail; 20. a box body; 21. a first side wall; 211. a hollow structure; 22. a second side wall; 221. a first connection portion; 222. a first connection hole; 223. a threading hole; 224. a protective strip; 225. binding holes; 23. a third side wall; 231. a second connecting portion; 232. a second connection hole; 24. a fourth side wall; 241. a wiring slot; 25. a fifth side wall; 251. a data jack mounting hole; 30. an electrical device; 40. and (6) binding the belt.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that, the micro data center cabinet is usually provided with door structures at the front and rear sides, in the following embodiments, two opposite side walls of the door structures are used as the front and rear ends of the cabinet, the other two opposite side walls are used as the left and right sides of the cabinet, and each module in the cabinet, such as a power distribution module, a UPS power supply, a server, a battery pack, and the like, is installed and fixed by a guide rail based on the U pillars 12 at the left and right sides of the cabinet, so that the modules are located between the left and right U pillars 12 of the cabinet.

Referring to fig. 1 and 2, the embedded device mounting box of the present invention will now be described. The embedded device mounting box is used for being mounted on a U-shaped upright post 12 and/or a guide rail inside a cabinet and comprises a box body 20 with one open side, wherein the box body 20 is integrally embedded between the front U-shaped upright post 12 and the rear U-shaped upright post 12 on one side of the cabinet, the open side faces the other side of the cabinet, the box body 20 and a first side wall 21 opposite to the open side of the box body are used for mounting an electric device 30, a second side wall 22 at the top of the box body 20 is fixedly connected with a horizontal guide rail 11 at the top of the cabinet, and a third side wall 23 at the rear end of the cabinet facing the box body 20 is fixedly connected with the rear U-shaped upright post 12.

It should be understood that, because the module bodies of the server, the battery pack and the like of the micro data center have large volumes, the cabinet is usually designed according to the length and width of the server, and the UPS power supply, the power distribution module and the like occupy the space above the server, but these modules usually do not occupy the whole front and back length space inside the cabinet, but are fixed at a position preferentially close to the front door of the cabinet, so that a certain installation position is generated on the guide rail which is used as the support base by the front and back U pillars 12 when the modules are fixed, and the installation box of the embedded device provided by the embodiment utilizes the installation position, so that the box body 20 has installation conditions.

The embedded device mounting box that this embodiment provided, compared with the prior art, second lateral wall 22 through with box body 20 is connected with the horizontal guide 11 at top, third lateral wall 23 is connected with the U stand 12 at rear, two lateral walls that are relative respectively with second lateral wall 22 and third lateral wall 23 are unsettled, make box body 20 whole embedded between two front and back U stands 12 of rack one side, on the one hand can install electrical component 30 to first lateral wall 21 through the open end of box body 20 on, thereby make full use of the rack in lie in the free space between the U stand 12 around, improve space utilization, on the other hand can avoid electrical component 30 to interfere the space between the U stand 12 about other modules in the rack and install, convenient overall arrangement.

In some embodiments, referring to fig. 2, the edge of the second side wall 22 away from the first side wall 21 is bent upward to form a first connection portion 221, and the first connection portion 221 is attached to the horizontal rail 11; the edge of the third side wall 23 away from the first side wall 21 is bent toward the outer side of the box body 20 to form a second connecting portion 231, and the second connecting portion 231 is attached to the rear U-pillar 12. Because U stand 12 and guide rail are usually for setting up the predetermined installation hole site on the inside lateral wall of orientation rack, consequently through setting up first connecting portion 221 and second connecting portion 231, can directly connect box body 20 on the predetermined installation hole site of U stand 12 and guide rail, need not to set up connection structure specially again to can avoid additionally punching and destroy the major structure and the intensity of U stand 12 and guide rail.

As a modified embodiment of the second connecting portion 231, referring to fig. 2, the second connecting portion 231 is located at the middle upper portion of the third side wall 23, and a space below the second connecting portion 231 is used for avoiding the load rail 13 below the horizontal rail 11. In the actual assembly process, because the power distribution modules, the UPS power supply and other modules are arranged in a vertically stacked manner, corresponding guide rails need to be configured at corresponding installation heights, and the height space occupied by the power distribution module and the UPS power supply located at the top is smaller, that is, the size of the box body 20 in the height direction is larger than the vertical distance between the power distribution modules and the installation guide rails of the UPS power supply, so that if the length of the second connecting portion 231 is too long, the connection between the bearing guide rail 13 of the UPS power supply and the U column 12 is interfered, by providing the second connecting portion 231 shorter than the height size of the box body 20, the specific size of the second connecting portion 231 can be determined according to the position of the bearing guide rail 13, and the space for connecting the bearing guide rail 13 and the U column 12 can be flashed below the second connecting portion 231.

In some possible implementations, referring to fig. 2, a plurality of first connection holes 222 are horizontally distributed on the first connection portion 221 at intervals, and a first fastener screwed and fixed with the horizontal guide rail 11 penetrates through the first connection holes 222; a plurality of second connecting holes 232 are vertically distributed on the second connecting portion 231 at intervals, and a second fastening piece which is screwed and fixed with the U column 12 at the rear is arranged in the second connecting holes 232 in a penetrating manner. Through wearing to locate the first fastener in the first connecting hole 222 and can directly be connected fixedly with the predetermined mounting hole on the horizontal rail 11, equally, can directly be connected with the predetermined mounting hole on the U stand 12 through wearing to locate the second fastener in the second connecting hole 232, the assembly is simple, connects reliably.

Illustratively, referring to fig. 2, the first connection hole 222 is a long hole extending in a vertical direction, and the second connection hole 232 is a long hole extending in a front-rear direction of the cabinet. Although the U-shaped upright 12 is an industry standard component, the horizontal guide rail 11 is not a standard component, so that a machining error inevitably exists in the position of a preset mounting hole on the horizontal guide rail 11, the box body 20 also has a machining error during machining, and in order to eliminate the influence of the machining error, the installation and fixation of the box body 20 are facilitated, the first connecting hole 222 and the second connecting hole 232 are both arranged to be long holes, so that the first fastener can slide up and down in the first connecting hole 222 and the second fastener can slide back and forth in the second connecting hole 232, the first fastener and the second fastener can be aligned with the preset mounting positions on the horizontal guide rail 11 and the U-shaped upright 12 respectively to be screwed and fixed, and the adaptability of the box body 20 to the machining size error is improved.

In some embodiments, referring to fig. 3, the second sidewall 22 defines at least two threading holes 223; a plurality of binding holes 225 are arranged at the periphery of the threading hole 223, a protective strip 224 is clamped at the periphery of the threading hole 223, and the protective strip 224 is bound and fixed by the binding belts 40 penetrating through the binding holes 225. Hidden wiring is conveniently carried out, can avoid the hole limit fish tail pencil of through wires hole 223 simultaneously through setting up protection strip 224, simultaneously, for improving the stability of clamping of protection strip 224, carry out the compartment ligature with protection strip 224 through the ribbon 40 that passes each ligature hole 225 here and fix to avoid protection strip 224 to drop.

In some embodiments, referring to fig. 2, the first sidewall 21 is provided with a hollow structure 211 in a region around the electrical device 30. Setting up hollow out construction 211 can make things convenient for electrical device 30's ventilation cooling, can also reduce box body 20 weight simultaneously.

For example, referring to fig. 2, a wiring groove 241 is formed on a fourth sidewall 24 of the case 20 opposite to the second sidewall 22, and a plurality of data jack mounting holes 251 are formed on a fifth sidewall 25 opposite to the third sidewall 23. Because box body 20 internally mounted's electrical apparatus 30 includes data collection station, can be easy to assemble the data socket here through setting up data socket mounting hole 251, thereby make things convenient for the connection of data line, can make the pencil in the box body 20 directly wear out box body 20 downwards through setting up wiring notch 241 on fourth lateral wall 24 simultaneously, avoid the pencil to need walk around fourth lateral wall 24 and protrusion in the open side of box body 20, thereby occupy the condition in the space of other modules, improve the pleasing to the eye degree of rack internal circuit overall arrangement.

Based on the same inventive concept, referring to fig. 1 to 3, an embodiment of the present invention further provides a micro data center cabinet, including a cabinet body 10 and the embedded device mounting box, wherein at least one side of the cabinet body 10 is provided with the embedded device mounting box.

The miniature data center rack that this embodiment provided, compared with the prior art, the embedded device mounting box of above-mentioned has been adopted, second lateral wall 22 through with box body 20 is connected with the horizontal guide rail 11 at top, third lateral wall 23 is connected with the U stand 12 at rear, two lateral walls relative respectively with second lateral wall 22 and third lateral wall 23 are unsettled, make box body 20 whole embedded between two front and back U stands 12 of rack one side, on the one hand can install electrical components 30 to first lateral wall 21 through the open end of box body 20, thereby make full use of the free space between the U stand 12 around being located in the rack, improve space utilization, on the other hand can avoid electrical components 30 to interfere other modules and install in the space between the U stand 12 about in the rack, convenient overall arrangement.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The embedded device mounting box is used for being mounted on a U stand column and/or a guide rail inside a cabinet and is characterized by comprising a box body with one open side, the box body is integrally embedded between the U stand columns in the front and at the back of one side of the cabinet, the open side faces the other side of the cabinet, the box body is used for mounting electric devices on a first side wall opposite to the open side of the box body, a second side wall at the top of the box body is fixedly connected with the horizontal guide rail at the top of the cabinet, and the box body faces a third side wall at the rear end of the cabinet and is fixedly connected with the U stand column.

2. The embedded device mounting box as claimed in claim 1, wherein a first connecting portion is bent upwards at an edge of the second side wall away from the first side wall, and the first connecting portion is in fit connection with the horizontal guide rail; the edge of the third side wall, which is far away from the first side wall, is bent towards the outer side of the box body to form a second connecting part, and the second connecting part is connected with the U-shaped stand column at the rear in an attaching mode.

3. The in-line device mounting box of claim 2, wherein the second connecting portion is located at a middle upper portion of the third side wall, and a space below the second connecting portion is used for avoiding the carrying rail below the horizontal rail.

4. The embedded device mounting box of claim 2, wherein a plurality of first connecting holes are distributed on the first connecting portion at intervals horizontally, and first fasteners which are screwed and fixed with the horizontal guide rails penetrate through the first connecting holes; a plurality of second connecting holes are vertically distributed in the second connecting portion at intervals, and second fasteners which are fixedly screwed with the rear U-shaped stand columns penetrate through the second connecting holes.

5. The in-cell device package of claim 4, wherein the first connection hole is a long hole extending in a vertical direction, and the second connection hole is a long hole extending in a front-to-rear direction of the cabinet.

6. The embedded device mounting box as claimed in claim 1, wherein the second sidewall has at least two threading holes.

7. The embedded device mounting box of claim 6, wherein a plurality of binding holes are formed in the periphery of the threading hole, a protective strip is clamped at the periphery of the threading hole, and the protective strip is bound and fixed by a binding belt penetrating through each binding hole.

8. The in-line device mounting box according to any one of claims 1 to 7, wherein a region of the first sidewall on a peripheral side of the electrical device is provided with a hollowed-out structure.

9. The in-line device package of any of claims 1-7, wherein a fourth side wall of the package body opposite the second side wall defines a wiring slot, and a fifth side wall of the package body opposite the third side wall defines a plurality of data jack receiving holes.

10. The micro data center cabinet, comprising a cabinet body and the embedded device mounting box according to any one of claims 1 to 9; at least one side of the cabinet body is provided with the embedded device installation box.

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