CN218998599U

CN218998599U - Server device

Info

Publication number: CN218998599U
Application number: CN202223049445.8U
Authority: CN
Inventors: 林政伟; 杨福仁
Original assignee: Huanda Computer Shanghai Co Ltd; Mitac Computing Technology Corp
Current assignee: Huanda Computer Shanghai Co Ltd; Mitac Computing Technology Corp
Priority date: 2022-11-16
Filing date: 2022-11-16
Publication date: 2023-05-09
Anticipated expiration: 2032-11-16

Abstract

A server device comprises a rack device and a server device. The rack device comprises two support frames. Each supporting frame is provided with a bearing unit. The server device comprises a bracket unit and a server unit detachably combined in the bracket unit. The bracket unit comprises two mounting frames, and the mounting frames are detachably combined on the bearing unit. The server unit comprises two combined side modules which are positioned on two opposite sides, and the combined side modules correspond to the installation frames. By means of the design that the combining edge module of the server unit can be combined with the mounting frame of the bracket unit in a detachable mode and matched with the application that the mounting frame is combined with the bearing unit of the rack device in a detachable mode, the server unit with the EIA specification can be combined into the rack device with the OCP specification through the bracket unit, the universality is effectively improved, and the assembly performance is good.

Description

Server device

Technical Field

The present utility model relates to a server, and more particularly, to a server device.

Background

Rack servers are commonly used to scale rack units of rack server heights to the server units (U) of the american Electronics Industry Association (EIA) standard, while matching internally required server elements to their rack specification limits. In recent years, with the development and widespread use of open source hardware applications (Open Compute Project, OCP), hardware designs for rack servers have been defined with rack dimensions larger than EIA standard dimensions, however, since OCP is different from EIA's standard, for example: in order to increase the use of the internal space, the internal width of the rack of the OCP specification is larger than that of the rack of the EIA specification, so that the server chassis of the EIA specification cannot be mounted to the rack of the OCP, resulting in inconvenience in assembly. Therefore, how to mount the conventional server chassis conforming to the EIA standard on the rack of the OCP is a great subject for the practitioner to study and investigate.

Disclosure of Invention

Therefore, the present utility model provides a server device with excellent assembling and general-purpose properties.

Thus, the novel server device is suitable for being installed in a rack device. The frame device comprises two parallel spaced support frames and a connecting frame connected with the support frames. The connecting frame is positioned at the rear side of the supporting frame. The supporting frames together define a combining space for accommodating the server device. Each supporting frame is provided with a side plate and a bearing unit which is arranged on the side plate and is positioned in the combining space. The bearing unit of each supporting frame corresponds to the bearing unit of the other supporting frame, and the bearing units are matched to bear the server device. The server device comprises a bracket unit which is positioned in the combining space and is detachably combined with the bearing unit, and a server unit which is detachably combined in the bracket unit.

The bracket unit comprises two mounting frames corresponding to the bearing units, and the mounting frames jointly define a mounting space. The installation frame is detachably combined on the bearing unit. Each mounting frame is provided with a positioning frame module, and each positioning frame module is provided with a plurality of limiting holes.

The server unit is detachably combined in the installation space of the bracket unit and comprises two combining edge modules positioned on two opposite sides. The combined side module corresponds to the positioning frame module of the installation frame. Each combination side module is provided with a combination side which can be detachably combined with the corresponding positioning frame module. Each combination edge is provided with a plurality of limiting convex columns corresponding to the limiting holes of each positioning frame module. The limiting convex columns of each combination edge can be clamped into the limiting holes of the corresponding positioning frame module in a removable mode.

When the limiting convex columns of the combining edges are clamped into the corresponding limiting holes and the combining edges are fixed on the positioning frame module, the server unit is combined in the bracket unit.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a server device, is through the limit projection of the combination limit module of this server unit can be dismantled ground and combine in the spacing hole of the locating frame module of this bracket unit and make the combination limit be fixed in the design of locating frame module, and the cooperation is located the installation frame corresponds this frame device bear the weight of the unit and can take out the ground and combine in bear the weight of the application on the unit, and reach and can make this server unit who accords with EIA standard combine in this frame device of OCP specification through this bracket unit, effectively improve general usability and the equipment nature is good.

[ description of the drawings ]

Other features and advantages of the present utility model will become apparent from the following description of embodiments with reference to the accompanying drawings, in which:

FIG. 1 is a perspective view illustrating an embodiment of the present novel server tray apparatus mounted to a rack apparatus;

FIG. 2 is a perspective view, aided by the illustration of FIG. 2;

FIG. 3 is an exploded perspective view illustrating the combination of a tray unit, a server unit, and two fixed frame units of the server tray apparatus according to the embodiment;

FIG. 4 is a perspective view, aided by the illustration of FIG. 3; a kind of electronic device with high-pressure air-conditioning system

Fig. 5 is an exploded perspective view, which is used to assist in explaining the combination of a positioning frame module and a mounting frame module of one of the mounting frames of the tray unit in fig. 3.

[ detailed description ] of the utility model

Before the present utility model is described in detail, it should be noted that in the following description, like elements are denoted by the same reference numerals.

Referring to fig. 1, 2, 3, 4 and 5, the present server apparatus 1 is suitable for being installed in a rack apparatus 5. The rack device 5 comprises two parallel spaced support frames 51 and a connecting frame 52 connecting the support frames 51. The connecting frame 52 is located at the rear side of the support frame 51. The supporting frames 51 together define a combining space 53 for accommodating the server device 1. Each supporting frame 51 has a side plate 511 and a carrying unit 512 disposed on the side plate 511 and located in the combining space 53. The carrying unit 512 of each supporting frame 51 corresponds to the carrying unit 512 of the other supporting frame 51, and the carrying units 512 cooperate to carry the server device 1. The server device 1 comprises a bracket unit 2 which is positioned in the combining space 53 and is detachably combined with the bearing unit 512, and a server unit 3 which is detachably combined in the bracket unit 2.

The bracket unit 2 includes two mounting frames 21 corresponding to the carrying units 512, and the mounting frames 21 together define a mounting space 24. The mounting frame 21 is detachably coupled to the carrying unit 512. Each mounting frame 21 has a positioning frame module 22, and each positioning frame module 22 has a plurality of limiting holes 221.

The server unit 3 is detachably coupled in the installation space 24 of the bracket unit 2, and includes two coupling edge modules 31 at two opposite sides. The joint edge module 31 corresponds to the positioning frame module 22 of the mounting frame 21. Each of the bonding edge modules 31 has a bonding edge 32 detachably bonded to the corresponding positioning frame module 22. Each of the combining edges 32 has a plurality of limiting posts 33 corresponding to the limiting holes 221 of each of the positioning frame modules 22. The limiting boss 33 of each combining edge 32 is detachably clamped into the limiting hole 221 of the corresponding positioning frame module 22.

When the limiting posts 33 of the coupling edge 32 are engaged with the corresponding limiting holes 221 and the coupling edge 32 is fixed on the positioning frame module 22, the server unit 3 is coupled in the bracket unit 2.

When assembling, the server unit 3 is moved toward the installation space 24 of the bracket unit 2, the limiting posts 33 of the coupling edge modules 31 are engaged with the corresponding limiting holes 221, and the coupling edge 32 is fixed to the positioning frame module 22, and at this time, the server unit 3 is coupled in the installation space 24 of the bracket unit 2. Finally, the mounting operation is completed by moving the bracket unit 2 into the combining space 53 of the rack device 5 and positioning the mounting frame 21 by the carrying unit 512.

It is further noted that in the present embodiment, each mounting frame 21 of the bracket unit 2 further has a mounting frame module 23. The positioning frame module 22 of each mounting frame 21 is detachably coupled to each mounting frame module 23. Each mounting frame module 23 has a mounting frame 231 and a base 232 extending from the mounting frame 231 in the direction of the other mounting frame module 23. The positioning frame module 22 of each mounting frame 21 has a positioning frame 222 detachably coupled to the bottom plate 232 of each mounting frame module 23, and the limiting hole 221 of each positioning frame module 22 is recessed in the corresponding positioning frame 222. In short, the fixing frame of the positioning frame module 22 of each mounting frame 21 of the bracket unit 2 is detachably locked to the bottom plate 232 of the corresponding mounting frame module 23 as shown in fig. 5, and is matched with the design that the limiting hole 221 of each positioning frame module 22 is recessed in the corresponding positioning frame 222, so long as the limiting post 33 of each combining edge 32 of the server unit 3 is clamped into the corresponding limiting hole 221 to fix each combining edge 32 to the fixing frame of the corresponding positioning frame module 22, the server unit 3 can be combined in the mounting space 24 of the bracket unit 2, but not limited thereto. In the present embodiment, each of the limiting posts 33 of each of the combining sides 32 of the server unit 3 is a screw, and the screw of each of the combining sides 32 can be locked into the corresponding limiting hole 221 of the positioning frame module 22, simply, the screw is locked onto each of the combining sides 32 to serve as the limiting post 33 so as to be locked into the corresponding limiting hole 221, but not limited thereto. In this embodiment, since the spacing distances between the limiting posts 33 on each of the combining sides 32 of the server units 3 of different types are not necessarily the same, each of the corresponding positioning frame modules 22 on each of the combining sides 32 of the server units 3 of different types can be combined with the corresponding limiting post 33 only by using the limiting hole 221 of each of the corresponding positioning frame modules 22. Through the design that the positioning frame module 22 of each mounting frame 21 is detachably combined with each mounting frame module 23, if the bracket unit 2 is to be combined with the server unit 3 of different types, only each positioning frame module 22 corresponding to each combining side 32 of the server unit 3 to be combined is required to be replaced and combined with each mounting frame module 23, at this time, the limiting hole 221 of each positioning frame module 22 can be used for clamping and combining the limiting convex column 33 of each combining side 32 of the server unit 3 to be combined, so that the assembly requirement of the limiting convex column 33 of each combining side 32 of the server unit 3 which can be correspondingly different is effectively achieved. In particular, in the present embodiment, each mounting frame module 23 of the bracket unit 2 is designed for being detachably combined with a different type of positioning frame module 22, and the mounting frame modules 23 of the bracket unit 2 are mutually sharable structures, which effectively simplifies the requirement of die-opening manufacturing of the mounting frame modules 23, but is not limited thereto.

The limiting boss 33 of the combining side module 31 of the server unit 3 is detachably combined with the limiting hole 221 of the positioning frame module 22 of the bracket unit 2, so that the combining side 32 is fixed on the positioning frame module 22, and the server unit 3 meeting EIA standard is combined with the bracket unit 2 in the rack device 5 of OCP specification by matching with the application that the mounting frame 21 corresponds to the bearing unit 512 of the rack device 5 and is detachably combined with the bearing unit 512, thereby effectively improving the universality and the assembly performance.

In this embodiment, the fixing frame unit 4 is further included in the present embodiment, and is coupled to the front side of the mounting frame 21 of the bracket unit 2 and connected to the positioning frame module 22. The fixed frame unit 4 corresponds to the combined side module 31 of the server unit 3 and is used for combining and fixing the combined side module 31. Each fixing frame unit 4 has a baffle module 41 for fixing the corresponding binding edge module 31. Each baffle module 41 has a locking hole 411 for locking and fixing the corresponding binding edge module 31. Each of the bonding edge modules 31 of the server unit 3 further has a bonding pad 34 extending from the corresponding bonding edge 32 toward the corresponding baffle module 41, and a locking member 35 for locking the bonding pad 34 to the corresponding baffle module 41. Each locking piece 35 penetrates through the corresponding combining piece 34 and the locking hole 411 of the corresponding baffle module 41, and locks and combines the corresponding combining piece 34 with the corresponding baffle module 41. That is, in the assembling process, after the limiting posts 33 of the binding edge modules 31 of the server unit 3 are locked into the corresponding limiting holes 221 and the binding pieces 34 of the binding edge modules 31 are simultaneously abutted against the corresponding blocking piece modules 41 of the fixing frame unit 4, the locking pieces 35 are locked into the locking holes 411 of the corresponding binding pieces 34 and the corresponding blocking piece modules 41, and the corresponding binding pieces 34 are locked and combined with the corresponding blocking piece modules 41, so that the binding edge 32 is further and completely fixed on the positioning frame module 22, and at this time, the server unit 3 is fixed on the bracket unit 2, but not limited thereto. In addition, in the present embodiment, each mounting frame 21 of the bracket unit 2 further has a pull-out module 25 extending forward from the corresponding mounting frame module 23, and each pull-out module 25 has a pull-out 251. The pull opening 251 can be penetrated by a finger and the pull opening module 25 is pulled forward to drive the mounting frame module 23 to move forward, and synchronously drive the combining edge module 31 of the server unit 3 to move away from the combining space 53 of the rack device 5, but not limited thereto. If a clamping piece is disposed on the front side of the supporting frame 51 of the rack device 5, the bracket unit 2 moves into the combining space 53 of the rack device 5, and when the mounting frame module 23 of the mounting frame 21 is carried and positioned by the carrying unit 512 to complete the mounting operation, the pull opening 251 of the pull opening module 25 can be clamped on the clamping piece in a matching manner, so that the bracket unit 2 is further fixed on the supporting frame 51 of the rack device 5, and the bracket unit 2 is prevented from moving.

Incidentally, in the present embodiment, the carrying unit 512 of each supporting frame 51 of the rack device 5 has a plurality of carrying members 513 fixed on the corresponding side plates 511. The vertical positions of the bearing members 513 of each bearing unit 512, which are adjacent to each other one by one, are spaced apart from each other by a distance greater than the height of each mounting frame 21 of the bracket unit 2. The bearing 513 of each bearing unit 512 corresponds to the bearing 513 of another bearing unit 512, and the corresponding bearing 513 cooperates with each other to support the mounting frame 21 of the bracket unit 2. In short, the bracket unit 2 may be combined with any one of the sets of the corresponding bearing members 513 of the bearing units 512, so long as the mounting frame 21 of the bracket unit 2 is supported by the corresponding bearing members 513, but not limited thereto.

Referring to fig. 1, 2, 3, 4 and 5, the rack server system of the present utility model includes a rack device 5 and a server device 1 installed in the rack device 5.

The rack assembly 5 includes two parallel spaced support frames 51 and a link frame 52 connecting the support frames 51. The connecting frame 52 is located at the rear side of the supporting frame 51, and the supporting frame 51 defines a combining space 53 for accommodating the server device 1.

Each supporting frame 51 has a side plate 511 and a carrying unit 512 disposed on the side plate 511 and located in the combining space 53. The carrying unit 512 of each supporting frame 51 corresponds to the carrying unit 512 of the other supporting frame 51.

The server device 1 includes a bracket unit 2 in the coupling space 53 and detachably coupled to the carrying unit 512, and a server unit 3 detachably coupled to the bracket unit 2.

It is further noted that in the present embodiment, each mounting frame 21 of the bracket unit 2 further has a mounting frame module 23. Each mounting frame module 23 has a mounting frame 231 and a base 232 extending from the mounting frame 231 in the direction of the other mounting frame module 23. The positioning frame module 22 of each mounting frame 21 has a positioning frame 222 detachably coupled to the bottom plate 232 of each mounting frame module 23, and the limiting hole 221 of each positioning frame module 22 is recessed in the corresponding positioning frame 222. In short, the fixing frame of the positioning frame module 22 of each mounting frame 21 of the bracket unit 2 is detachably locked to the bottom plate 232 of the corresponding mounting frame module 23, and is matched with the design that the limiting hole 221 of each positioning frame module 22 is recessed in the corresponding positioning frame 222, so that the server unit 3 can be combined in the mounting space 24 of the bracket unit 2 only by clamping the limiting boss 33 of each combining side 32 of the server unit 3 into the corresponding limiting hole 221 to fix each combining side 32 to the fixing frame of the corresponding positioning frame module 22.

In this embodiment, the fixing frame unit 4 is further included in the present embodiment, and is coupled to the front side of the mounting frame 21 of the bracket unit 2 and connected to the positioning frame module 22. The fixed frame unit 4 corresponds to the combined side module 31 of the server unit 3 and is used for combining and fixing the combined side module 31. Each fixing frame unit 4 has a baffle module 41 for fixing the corresponding binding edge module 31. Each baffle module 41 has a locking hole 411 for locking and fixing the corresponding binding edge module 31. Each of the bonding edge modules 31 of the server unit 3 further has a bonding pad 34 extending from the corresponding bonding edge 32 toward the corresponding baffle module 41, and a locking member 35 for locking the bonding pad 34 to the corresponding baffle module 41. Each locking piece 35 penetrates through the corresponding combining piece 34 and the locking hole 411 of the corresponding baffle module 41, and locks and combines the corresponding combining piece 34 with the corresponding baffle module 41. That is, in the assembling process, after the limiting posts 33 of the binding edge modules 31 of the server unit 3 are locked into the corresponding limiting holes 221 and the binding pieces 34 of the binding edge modules 31 are simultaneously abutted against the corresponding blocking piece modules 41 of the fixing frame unit 4, the locking pieces 35 are locked into the locking holes 411 of the corresponding binding pieces 34 and the corresponding blocking piece modules 41, and the corresponding binding pieces 34 are locked and combined with the corresponding blocking piece modules 41, so that the binding edge 32 is further and completely fixed on the positioning frame module 22, and at this time, the server unit 3 is fixed on the bracket unit 2, but not limited thereto.

In summary, in the novel server apparatus 1 and the rack server system thereof, the design of the positioning frame module 22 detachably combined with the mounting frame 21 of the bracket unit 2 by the combining side module 31 of the server unit 3 is matched with the application of being located on the mounting frame 21 corresponding to the carrying unit 512 of the rack device 5 and being detachably combined with the carrying unit 512, so that the server unit 3 meeting the EIA standard can be combined in the rack device 5 of the OCP specification through the bracket unit 2, thereby effectively improving the versatility and the assembly performance.

The foregoing is merely specific embodiments of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present utility model, and should be covered in the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims

1. The utility model provides a server device, is suitable for being installed in a rack device, this rack device contains two parallel interval braced frame, and a connection frame of connecting braced frame, this connection frame is located braced frame rear side, braced frame jointly defines a combination space that is used for holding this server device, and each braced frame has a curb plate, and sets up on this curb plate and be located the bearing unit in this combination space, and the bearing unit of each braced frame corresponds the bearing unit of another braced frame and the bearing unit cooperatees and can hold this server device, and characterized in that, this server device includes:

the bracket unit is positioned in the combining space and can be combined with the bearing unit in a detachable mode, the bracket unit comprises two mounting frames corresponding to the bearing unit, the mounting frames jointly define a mounting space, the mounting frames can be combined with the bearing unit in a detachable mode, each mounting frame is provided with a positioning frame module, and each positioning frame module is provided with a plurality of limiting holes; a kind of electronic device with high-pressure air-conditioning system

The server unit is detachably combined in the installation space of the bracket unit and comprises two combining side modules which are positioned at two opposite sides, the combining side modules correspond to the positioning frame modules of the installation frame, each combining side module is provided with a combining side which can be detachably combined with the corresponding positioning frame module, each combining side is provided with a plurality of limiting convex columns which correspond to the limiting holes of each positioning frame module, each limiting convex column of each combining side can be detachably clamped into the corresponding limiting hole of the corresponding positioning frame module, and when the limiting convex column of each combining side is clamped into the corresponding limiting hole and the combining side is fixed on the positioning frame module, the server unit is combined in the bracket unit.

2. The server device according to claim 1, further comprising two fixing frame units coupled to the front side of the mounting frame of the bracket unit and connected to the positioning frame module, wherein the fixing frame units correspond to the coupling edge modules of the server unit and are capable of being coupled and fixed by the coupling edge modules, each fixing frame unit has a blocking piece module capable of being coupled and fixed by the corresponding coupling edge module, and each blocking piece module has a locking hole capable of being locked and fixed by the corresponding coupling edge module.

3. The server device according to claim 2, wherein each of the bonding edge modules of the server unit further has a bonding pad extending from the corresponding bonding edge toward the corresponding barrier module, and a locking member for locking the bonding pad to the corresponding barrier module, each locking member penetrating the corresponding bonding pad and the locking hole of the corresponding barrier module and locking the corresponding bonding pad to the corresponding barrier module.

4. The server apparatus according to claim 2, wherein each mounting frame of the bracket unit further has a mounting frame module, each mounting frame module has a mounting frame, and a bottom plate extending from the mounting frame toward the other mounting frame module, and the positioning frame module of each mounting frame has a positioning frame detachably coupled to the bottom plate of each mounting frame module, and the limiting hole of each positioning frame module is recessed in the corresponding positioning frame.

5. The server apparatus according to claim 1, wherein the carrying unit of each supporting frame of the rack apparatus has a plurality of carrying members fixed on the corresponding side plates, the vertical positions of the carrying members adjacent to each other two by two are spaced apart from each other by a distance greater than the height of each mounting frame of the bracket unit, the carrying member of each carrying unit corresponds to the carrying member of the other carrying unit, and the carrying members corresponding to each other cooperate to support the mounting frames of the bracket unit.

6. The server device according to claim 1, wherein each limiting boss of each joint side of the server unit is a screw, and the screw of each joint side can be snapped into the limiting hole of the corresponding positioning frame module.

7. The server device according to claim 4, wherein each mounting frame of the bracket unit further has a pull opening module extending forward from the corresponding mounting frame module, each pull opening module has a pull opening, and the pull opening can be penetrated by a finger and pulled forward to drive the mounting frame module to move forward, and synchronously drive the combination edge module of the server unit to move in a direction away from the combination space of the rack device.