CN217333251U - Calculation type server structure - Google Patents

Abstract

The utility model provides a calculation type server structure, include: the server comprises a server case, a front panel, a dustproof interlayer, a fan module, a power supply module, a GPU module, a server mainboard and a rear window assembly, wherein the front panel and the rear window assembly are respectively arranged at the front end and the rear end of the server case; the fan module is arranged at the front part of the server case, and the dustproof interlayer is arranged between the front panel and the fan module; the power supply module is arranged in the middle of the server case; the GPU module is arranged at the rear part of the server case and is arranged above the server mainboard. The utility model discloses can effectively reduce the dust influence that calculation type server need a large amount of heat dissipation air inlets to bring when using, can also realize quick power supply connection and assembly to both ends through middle power module, and later maintenance is simple and convenient.

Description

Calculation type server structure

Technical Field

The utility model relates to a server especially relates to a calculation type server structure.

Background

With the development of science and technology, the development of internet applications such as e-commerce, forums, SNS, enterprise websites and OA systems has higher and higher requirements on networks. The traditional servers are independent in deviation and strong in specificity, and in order to solve the problem of time lag of resource allocation, servers are generally adopted in the prior art, the online period of application is shortened, the servers are efficiently used, and the instant use and elastic expansion of computing resources are realized. However, in consideration of resource sharing, the working state of the server will operate in an efficient operation state, and such a server is also called a computational server, which poses a great challenge to both energy consumption and network congestion. In order to deal with the computing server with higher computing power, how to optimize the structural design of the computing server is also a problem which needs to be considered, so that long-time effective heat dissipation is convenient to realize, and quick assembly and maintenance of power supply are ensured.

Disclosure of Invention

The utility model aims to solve the technical problem that a need provide one kind can effectively dispel the heat for a long time, and the calculation type server structure that the power supply structure can rapid Assembly and maintain.

To this end, the utility model provides a calculation type server structure, include: the server comprises a server case, a front panel, a dustproof interlayer, a fan module, a power supply module, a GPU module, a server mainboard and a rear window assembly, wherein the front panel and the rear window assembly are respectively arranged at the front end and the rear end of the server case; the fan module is arranged at the front part of the server case, and the dustproof interlayer is arranged between the front panel and the fan module; the power supply module is arranged in the middle of the server case; the GPU module is arranged at the rear part of the server case and above the server mainboard.

The utility model discloses a further improvement lies in, be provided with the power framework on the middle part lateral wall of server machine case, power module set up in detachablely in the power framework.

The utility model discloses a further improvement lies in, the power framework includes the heat dissipation window, the heat dissipation window set up in the power framework is kept away from one side of server machine case lateral wall.

The utility model discloses a further improvement lies in, still blocks the module including supporting, support block the module set up in between fan module and the power module.

The utility model is further improved in that the supporting and blocking module comprises an installation side plate and a vertical supporting and blocking plate, and the vertical supporting and blocking plate is arranged above the fan module close to the power module; the installation side plates are arranged on two sides of the vertical support blocking plate and connected with the side wall of the server case.

The utility model discloses a further improvement lies in, dustproof interlayer includes dust screen and interior shrouding, all be provided with the net hole on front panel and the interior shrouding, interior shrouding will the dust screen set up in the inboard of front panel.

The utility model discloses a further improvement lies in, the net hole set up in the centre of front panel, one side of net hole is provided with the interface module of vertical distribution.

The utility model discloses a further improvement lies in, power module with the GPU module set up respectively in the both sides of server machine case, on the back window subassembly respectively with power module with the GPU module correspondence is provided with first heat dissipation mesh and second heat dissipation mesh.

The utility model discloses a further improvement lies in, be provided with the GPU installed part on the rear window subassembly, the GPU installed part be for set up in the installed part of inwards bending on the rear window, one side of GPU module with the GPU installed part is connected.

The utility model discloses a further improvement lies in, including first mounting hole and spacing hole more than two on the GPU installed part, be provided with second mounting hole and spacing arch on the side of GPU module, first mounting hole with the position of second mounting hole is corresponding, spacing hole with spacing bellied position is corresponding.

Compared with the prior art, the beneficial effects of the utility model reside in that: the dustproof interlayer is arranged between the front panel and the fan module, so that the dust influence caused by the fact that a large amount of heat dissipation air inlet is needed when the computing server is used can be effectively reduced; the power module is arranged in the middle of the server case, so that quick power supply connection and assembly can be realized to two ends through the middle, and the later maintenance is simple and convenient.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a front panel according to an embodiment of the present invention;

fig. 3 is a schematic view of a rear window assembly according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of an embodiment of the present invention;

fig. 5 is a schematic view of an embodiment of the present invention from another angle;

fig. 6 is an enlarged schematic view of a in fig. 5.

Detailed Description

Preferred embodiments of the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 6, the present embodiment provides a computing server structure, including: the server comprises a front panel 1, a dustproof interlayer 11, a fan module 2, a server mainboard 3, a GPU module 4, a power module 5, a server case 6 and a rear window assembly 7, wherein the front panel 1 and the rear window assembly 7 are respectively arranged at the front end and the rear end of the server case 6; the fan module 2 is arranged at the front part of the server case 6, and the dustproof interlayer 11 is arranged between the front panel 1 and the fan module 2; the power supply module 5 is arranged in the middle of the server case 6; the GPU module 4 is disposed at the rear of the server chassis 6 and above the server motherboard 3.

The computing server described in this embodiment is only a server capable of implementing a high-speed operation state, such as 6 GPU cards, and capable of installing multiple GPU cards. The dustproof interlayer 11 preferably comprises a dustproof net and an inner sealing plate, and the dustproof net is detachably fixed on the inner side of the front panel 1 by the inner sealing plate to achieve the isolation and dustproof effects; both the front panel 1 and the inner sealing plate are provided with grid holes 12, and the inner sealing plate is used for arranging the dust screen on the inner side of the front panel 1. Preferably, this embodiment net hole 12 set up in the centre of front panel 1, one side of net hole 12 is provided with vertical distribution's interface module 13, various interfaces in interface module 13 adopt vertical distribution's mode to design, can effectively reduce shared space, do net hole 12 reserves more spaces to improve the radiating efficiency.

As shown in fig. 4, in this embodiment, a power frame 8 is disposed on a side wall of the middle portion of the server chassis 6, and the power frame 8 is disposed on an inner wall of one side of the middle portion of the server chassis 6, so that the position of the GPU module 4 can be effectively avoided, the number of GPU cards can be increased as much as possible, the performance of the server can be improved, and the power module 5 can be conveniently and quickly connected to each power module; power module 5 set up in detachablely in power framework 8, the change and the maintenance in the later stage of being convenient for. More preferably, in this embodiment, the power frame 8 includes a heat dissipation window 9, and the heat dissipation window 9 is disposed on a side of the power frame 8 away from the side wall of the server chassis 6, so as to facilitate heat dissipation of the power source by using the most suitable space.

As shown in fig. 1, the present embodiment further includes a supporting and blocking module 10, where the supporting and blocking module 10 is disposed between the fan module 2 and the power module 5. The supporting and blocking module 10 preferably comprises a mounting side plate 101 and a vertical supporting and blocking plate 102, wherein the vertical supporting and blocking plate 102 is arranged above the fan module 2 close to the power supply module 5; the installation side plates 101 are disposed on both sides of the vertical support blocking plate 102 and connected to the side walls of the server casing 6. In this embodiment, the supporting and blocking module 10 can play a supporting role, and the mounting side plates 101 on both sides are side plate structures for mounting and are connected to the side walls of the server chassis 6 by screws or the like, so as to improve the stability of the server chassis 6; on the other hand, the heat dissipation device can play a role in blocking hot wind, and after the upper cover plate of the server case 6 is covered, the heat dissipation device can play a role in blocking and guiding wind direction, so that the heat dissipation efficiency is improved.

As shown in fig. 1, in this embodiment, the power module 5 and the GPU module 4 are respectively disposed on two sides of the server chassis 6, and the limited space can be more reasonably utilized through the staggered design; as shown in fig. 3, the rear window assembly 7 is provided with first heat dissipation mesh holes 14 and second heat dissipation mesh holes 15 corresponding to the power module 5 and the GPU module 4, respectively, and the rear window assembly 7 refers to an assembly included in the rear panel of the server chassis 6, so that the front panel 1 and the rear window assembly 7 are designed with heat dissipation air holes simultaneously, thereby increasing the number of the heat dissipation air holes and improving the heat dissipation efficiency.

As shown in fig. 5 and 6, in the present embodiment, a GPU mounting device 16 is disposed on the rear window assembly 7, the GPU mounting device 16 is an inward-bending mounting device disposed on the rear window, and one side of the GPU module 4 is connected to the GPU mounting device 16. Through the design of this kind of inwards bent GPU installed part 16, except can realizing the installation of GPU card fast, still because the design of inwards bending, realize the bearing effect to the GPU card, and still make through the design of bending of this kind of step the rear window subassembly 7 has certain operating space, is convenient for can assemble and maintain every GPU card according to actual conditions and needs, promotes the assembly efficiency of product, and the later maintenance is simple and efficient.

Preferably, the GPU mounting element 16 of this embodiment includes more than two first mounting holes 161 and limiting holes 162, a second mounting hole 401 and a limiting protrusion 402 are disposed on a side of the GPU module 4, the first mounting hole 161 and the second mounting hole 401 are preferably screw holes or through holes, and the first mounting hole 161 corresponds to the second mounting hole 401 in position, so as to achieve locking and fixing. The position of the limiting hole 162 corresponds to that of the limiting protrusion 402, the limiting hole 162 is preferably a trapezoidal through hole, the limiting protrusion 402 is preferably a downward inclined bending protrusion, and the inclination of the bending protrusion is consistent with that of two sides of the trapezoidal through hole, so that the limiting function of clamping is realized during assembly, and the stability of a product is improved.

In summary, the dustproof interlayer 11 of the present embodiment is disposed between the front panel 1 and the fan module 2, so as to effectively reduce the dust influence caused by a large amount of heat dissipation and air intake required by the computing server when in use; the power module 5 is arranged in the middle of the server case 6, so that rapid power supply connection and assembly can be realized to two ends through the middle, and later maintenance is simple and convenient.

The above-mentioned embodiments are the preferred embodiments of the present invention, and the scope of the present invention is not limited to the above-mentioned embodiments, and the scope of the present invention includes and is not limited to the above-mentioned embodiments, and all equivalent changes made according to the shape and structure of the present invention are within the protection scope of the present invention.

Claims (10)

1. A computing server architecture, comprising: the server comprises a server case, a front panel, a dustproof interlayer, a fan module, a power supply module, a GPU module, a server mainboard and a rear window assembly, wherein the front panel and the rear window assembly are respectively arranged at the front end and the rear end of the server case; the fan module is arranged at the front part of the server case, and the dustproof interlayer is arranged between the front panel and the fan module; the power supply module is arranged in the middle of the server case; the GPU module is arranged at the rear part of the server case and above the server mainboard.

2. The computing server architecture of claim 1, wherein a power frame is disposed on a middle side wall of the server chassis, and the power module is detachably disposed in the power frame.

3. The computing server architecture of claim 2, wherein the power frame includes a heat sink window disposed on a side of the power frame away from the side walls of the server chassis.

4. The computing server architecture of any one of claims 1 to 3, further comprising a support barrier module disposed between the fan module and the power module.

5. The computing server architecture of claim 4, wherein the support barrier module comprises a mounting side plate and a vertical support barrier plate, the vertical support barrier plate being disposed above the fan module proximate to the power module; the installation side plates are arranged on two sides of the vertical support blocking plate and connected with the side wall of the server case.

6. The computing server structure of any one of claims 1 to 3, wherein the dust barrier comprises a dust screen and an inner sealing plate, wherein the front panel and the inner sealing plate are provided with mesh holes, and the inner sealing plate is arranged on the inner side of the front panel.

7. The computing server architecture of claim 6, wherein the grid holes are disposed in the middle of the front panel, and one side of the grid holes is provided with vertically distributed interface modules.

8. The computing server architecture of any one of claims 1 to 3, wherein the power module and the GPU module are respectively disposed on two sides of the server chassis, and the rear window assembly is provided with first and second heat dissipating meshes corresponding to the power module and the GPU module, respectively.

9. The compute server architecture of any one of claims 1 to 3, wherein a GPU mount is provided on the rear window assembly, the GPU mount being an inwardly bent mount provided on the rear window, one side of the GPU module being connected to the GPU mount.

10. The structure of claim 9, wherein the GPU mounting element comprises two or more first mounting holes and two or more limiting holes, the GPU module is provided with a second mounting hole and two or more limiting protrusions on a side thereof, the first mounting holes correspond to the second mounting holes, and the limiting holes correspond to the limiting protrusions.

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