CN216817309U

CN216817309U - AI server of many scenes adaptations

Info

Publication number: CN216817309U
Application number: CN202123321135.2U
Authority: CN
Inventors: 周斌; 黄春林; 杨少峰
Original assignee: Clp Chaoyun Nanjing Technology Co ltd
Current assignee: Clp Chaoyun Nanjing Technology Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-06-24
Anticipated expiration: 2031-12-27

Abstract

The utility model discloses an AI server with multi-scene adaptation, which relates to the field of servers and comprises a server main body, a plurality of groups of fixing components, a plurality of groups of ventilation filtering components and a plurality of groups of regulation dust removing components; a plurality of heat dissipation grooves are formed in the outer wall of the server main body; the plurality of groups of fixing parts are connected to the outer wall of the server main body and are arranged corresponding to the plurality of radiating grooves, and a ventilation filtering part used for being matched with the radiating grooves to ventilate and remove dust is connected between each group of fixing parts; the multiple groups of adjusting dust removing components are correspondingly arranged in each group of ventilation filtering components and comprise a first adjusting plate and a second adjusting plate which are used for adjusting the ventilation area of the ventilation filtering components. Through set up radiating groove and ventilation filter part on the server casing, can replace the louvre of directly seting up on the server casing of current to the dismouting and the clearance of being convenient for, dust collecting part is adjusted in the cooperation simultaneously, can be convenient for adjust the draught area of filter, and the server of being convenient for can adjust the heat dissipation demand under multiple scene.

Description

AI server of many scenes adaptations

Technical Field

The utility model relates to the field of servers, in particular to an AI server with multi-scene adaptation.

Background

With the maturity and application of technologies such as big data, cloud computing, artificial intelligence and the like, the data presentation geometric multiple in the internet is increased, which provides a serious test for a traditional server taking a CPU as a main computing resource, under such a large environment, a core infrastructure for bearing AI computing in intelligent computing, namely an AI server, comes from the beginning, compared with the traditional server, the AI server generally adopts a form of CPU + GPU, and the number of GPU cards is usually more than that of a common GPU server in order to undertake a large amount of computing, so that the system structure, heat dissipation, topology and the like of the AI server are generally specially designed compared with the traditional server, so as to meet the requirements of long-term stable operation of the AI server, and adaptation and application under multiple scenes such as security protection, finance, communication, medical care and the like.

At present, the heat dissipation demand of the AI server of multi-scene adaptation under different scenes is usually different, for example under partial scene, outside temperature control cooling device efficiency is higher, at this moment, the AI server can cool down and dissipate heat with the help of outside temperature control device, and self heat dissipation part, can regard as supplementary heat dissipation mode like radiator fan, and under partial scene, outside temperature control cooling device efficiency is lower or when lacking this kind of device, the heat dissipation of AI server mainly bears by self heat dissipation part, but current AI server heat dissipation part mainly comprises radiator fan and louvre, the louvre is seted up on the casing again usually, size quantity is certain, this influences the heat dissipation regulating power of server under multiple scenes easily.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the present invention provides a multi-scenario adaptive AI server to solve the above problems in the prior art.

The technical scheme is as follows: a multi-scene adaptive AI server comprises a server main body, a plurality of groups of fixed components, a plurality of groups of ventilation filtering components and a plurality of groups of regulation dust removal components;

the server comprises a server main body, wherein a plurality of heat dissipation grooves are formed in the outer wall of the server main body;

the server comprises a server main body, a plurality of groups of fixing parts, a plurality of cooling grooves and a plurality of ventilation filtering parts, wherein the plurality of groups of fixing parts are connected to the outer wall of the server main body and are arranged corresponding to the plurality of cooling grooves;

the multiple groups of adjusting dust removal components are correspondingly arranged in each group of ventilation filtering components and comprise first adjusting plates and second adjusting plates for adjusting the ventilation area of the ventilation filtering components.

In a further embodiment, the fixing part comprises a pair of fixing frames, two pairs of fixing holes and two pairs of fixing screws;

the pair of fixing frames are clamped on the outer wall of the server main body, and elastic fixing cushions are connected between the pair of fixing frames and the server main body;

the two pairs of fixing holes are correspondingly formed in the server main body and the pair of fixing frames;

and the two pairs of fixing screws are correspondingly in threaded connection with the two pairs of fixing holes and are used for fixing the server main body and the fixing frame.

In a further embodiment, the fixing part further comprises a pair of fixing slots;

and the pair of fixing slots are correspondingly arranged on one surfaces of the pair of fixing frames, which are close to each other, and are used for fixing the ventilation filtering component.

In a further embodiment, the ventilation filter part comprises a fixed inserting plate, a sealing slot, a ventilation frame, a sealing inserting plate, an elastic sealing gasket and a plurality of compression springs;

the fixed inserting plates are correspondingly arranged on the outer sides of the radiating grooves and are inserted into the pair of fixed inserting grooves, and two sealing inserting grooves are formed in the fixed inserting plates in a penetrating mode;

the ventilation frame is arranged on one side, far away from the server main body, of the fixed plugboard, one end, close to the fixed plugboard, of the ventilation frame is connected with two sealing plugboards matched with the sealing slots, and the sealing plugboards are connected with elastic sealing gaskets for pressing and sealing;

the compression springs are connected between the fixed inserting plate and the ventilation frame and are used for compressing the fixed inserting plate and the ventilation frame;

the filter, connect in the one side of fixed picture peg is kept away from to the ventilation frame for the dust removal ventilates.

In a further embodiment, the ventilation filter component further comprises a fixing clamping frame, a pair of first sliding grooves, two pairs of clamping holes and a pair of second sliding grooves;

the fixed clamping frame is connected to one surface of the ventilation frame, which is close to the fixed inserting plate, and is matched with the heat dissipation groove;

the pair of first sliding chutes are correspondingly arranged on the fixed clamping frame and the ventilation frame, penetrate through the fixed clamping frame and the ventilation frame and are symmetrically arranged about the central axis of the fixed clamping frame;

the two pairs of clamping holes correspondingly penetrate through the ventilation frame and are arranged on two sides of the first sliding chutes and used for installing and adjusting the dust removing component, and the two pairs of clamping holes are symmetrically arranged around the central axis of the ventilation frame;

and the pair of second sliding grooves penetrates through the fixing clamp frame and is symmetrically arranged about the central axis of the fixing clamp frame.

In a further embodiment, the dust-removing adjusting component further comprises two pairs of sliding plates, a pair of screw rods and a pair of handles;

the two pairs of sliding plates are correspondingly connected to the first adjusting plate and the second adjusting plate respectively, and correspondingly penetrate through the second sliding chute to be correspondingly connected with the first adjusting plate and the second adjusting plate;

the pair of screw rods are respectively and rotatably connected with the two pairs of sliding plates, connecting clamping rods clamped in the clamping holes are arranged on two sides of each screw rod, and a connecting bearing is connected between each screw rod and each connecting clamping rod;

and the pair of handles are respectively connected to the surfaces, far away from each other, of the first adjusting plate and the second adjusting plate and used for pulling the first adjusting plate and the second adjusting plate.

In a further embodiment, the dust-removing regulating component further comprises a fixed clamping groove and a fixed clamping plate;

the fixed clamping groove is formed in one surface, close to the second adjusting plate, of the first adjusting plate;

and the fixing clamping plate is connected to one surface, close to the first adjusting plate, of the second adjusting plate and matched with the fixing clamping groove, and is used for fixing the first adjusting plate and the second adjusting plate.

In a further embodiment, the dust-removing regulating component further comprises a pair of fixing plates, a pair of dust-proof plates and a plurality of dust-proof brushes;

the pair of fixing plates are respectively connected to one surfaces, close to the filter plate, of the first adjusting plate and the second adjusting plate;

the pair of dust-proof plates are respectively connected to one surfaces of the pair of fixing plates, which are close to the filter plates;

and the plurality of dustproof brushes are respectively connected to one side, away from each other, of the pair of dustproof plates and connected with one surface, close to the filter plate, of the fixed plate.

Has the advantages that: the utility model discloses a multi-scene adaptive AI server, which can replace the prior radiating holes directly arranged on a server shell by arranging a radiating groove and a ventilation filtering part on the server shell, is convenient to disassemble, assemble and clean, and can be matched with a dust removal part to adjust the ventilation area of a filter plate, so that the server can adjust the heat dissipation requirements under various scenes.

Drawings

Fig. 1 is a perspective view of the overall structure of the present invention.

Fig. 2 is a perspective view of a server main body according to the present invention.

Fig. 3 is a perspective view of the fixing part, the ventilating and filtering part and the dust-removing regulating part of the present invention.

Fig. 4 is an exploded view of the fixing part, the ventilation filtering part and the dust-removing regulation part of the present invention.

Fig. 5 is a schematic view of the structure at a in fig. 4.

Fig. 6 is an exploded view of the fixing member, the ventilating filter member and the dust removing adjusting member of the present invention from another view.

Fig. 7 is a schematic view of the structure at B in fig. 6.

The figures are numbered: 1. the server comprises a server body, 101, a heat dissipation groove, 2, a fixing component, 201, a fixing frame, 202, a fixing hole, 203, a fixing screw, 204, a fixing slot, 3, an elastic fixing pad, 4, a ventilation filtering component, 401, a fixing plug board, 402, a sealing slot, 403, a ventilation frame, 404, a sealing plug board, 405, an elastic sealing pad, 406, a compression spring, 407, a fixing clip frame, 408, a first sliding groove, 409, a second sliding groove, 410, a filter board, 411, a clip hole, 5, an adjusting dust removal component, 501, a first adjusting plate, 502, a sliding plate, 503, a screw rod, 504, a connecting clip rod, 505, a connecting bearing, 506, a fixing clip groove, 507, a fixing plate, 508, a dust prevention plate, 509, a dust prevention brush, 510, a second adjusting plate, 511, a fixing clip board, 512 and a handle.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the utility model.

The applicant believes that the existing heat dissipation component of the AI server mainly comprises a heat dissipation fan and heat dissipation holes, and the heat dissipation holes are usually arranged on a casing and have a certain size and number, which easily affects the heat dissipation regulation capability of the server in various scenes.

For this purpose, the applicant proposes a multi-scenario adaptive AI server, as shown in fig. 1 to 7, including a server main body 1, a plurality of sets of fixing parts 2, a plurality of sets of ventilation filtering parts 4, and a plurality of sets of regulation dust removing parts 5.

Wherein, set up a plurality of radiating grooves 101 on the outer wall of server main part 1, replace the louvre of current direct seting up on the server casing for ventilation cooling makes ventilation cooling area great.

The multiple groups of fixing parts 2 are connected to the outer wall of the server main body 1 and are correspondingly arranged with the multiple radiating grooves 101, and a ventilation filtering part 4 used for being matched with the radiating grooves 101 to ventilate and remove dust is connected between each group of fixing parts 2.

The multiple groups of adjusting dust removing components 5 are correspondingly arranged in each group of ventilation filtering components 4, and comprise a first adjusting plate 501 and a second adjusting plate 510 for adjusting the ventilation area of the ventilation filtering components 4.

As shown in fig. 1 to 7, the fixing part 2 includes a pair of fixing frames 201, two pairs of fixing holes 202, and two pairs of fixing screws 203.

Wherein, a pair of mount 201 card is located on the outer wall of server main part 1, all is connected with elasticity fixed bolster 3 between a pair of mount 201 and the server main part 1, and elasticity fixed bolster 3 is used for mount 201 and server main part 1 elasticity to compress tightly fixedly, improves the stability and the leakproofness of connecting simultaneously.

The two pairs of fixing holes 202 are correspondingly formed in the server body 1 and the pair of fixing frames 201.

The two pairs of fixing screws 203 are correspondingly in threaded connection with the two pairs of fixing holes 202 and used for fixing the server main body 1 and the fixing frame 201, the fixing holes 202 and the fixing screws 203 are used for fixing the server main body 1 and the fixing frame 201, and meanwhile, the threaded connection mode is convenient to disassemble and assemble.

In addition, the fixing member 2 further includes a pair of fixing slots 204.

The pair of fixing slots 204 are correspondingly formed on the surfaces of the pair of fixing frames 201 close to each other for fixing the ventilation filter element 4.

As shown in fig. 3 to 7, the ventilation filter unit 4 includes a fixing plate 401, a sealing insertion groove 402, a ventilation frame 403, a sealing plate 404, an elastic sealing gasket 405, and a plurality of compression springs 406.

The fixing insertion plate 401 is correspondingly disposed outside the heat dissipation groove 101 and inserted into the pair of fixing insertion grooves 204, two sealing insertion grooves 402 are formed in the fixing insertion plate 401 in a penetrating manner, the two sealing insertion grooves 402 are symmetrically formed in the fixing insertion plate 401, and meanwhile, ventilation grooves corresponding to the heat dissipation groove 101 are formed in the fixing insertion plate 401.

The ventilation frame 403 is arranged on one side of the fixed plugboard 401 far away from the server main body 1, one end of the ventilation frame 403 close to the fixed plugboard 401 is connected with two sealing plugboards 404 matched with the sealing slots 402, and the sealing plugboards 404 are connected with elastic sealing gaskets 405 for compressing and sealing.

When the ventilating and filtering component is used, the sealing plugboard 404 is inserted into the sealing slot 402, the ventilating frame 403 and the fixed plugboard 401 can be fixed, the elastic sealing gasket 405 can seal two sides of the fixed plugboard 401 after the sealing plugboard 404 is completely inserted into the sealing slot 402, the probability that dust and impurities enter the radiating slot 101 through the side edge of the fixed plugboard 401 is reduced, and the sealing performance of the ventilating and filtering component 4 and the server main body 1 is improved.

A plurality of compression springs 406 are connected between the fixed board 401 and the ventilation frame 403 for compressing the fixed board 401 and the ventilation frame 403, and the plurality of compression springs 406 can be inserted into the sealing slot 402 in cooperation with the sealing board 404 and make the elastic sealing gasket 405 and the surface of the server main body 1 compress and fix.

Filter 410 connects in the one side that fixed picture peg 401 was kept away from in ventilation frame 403, be used for the ventilation and dust removal, a plurality of ventilation holes have been seted up on filter 410, through filter 410, the setting of ventilation frame 403 and radiating groove 101, original louvre of directly seting up on the casing of server main part 1 has been replaced, radiator fan ventilates and dispels the heat in the cooperation server main part 1, be convenient for dismouting and clearance, the ventilation area of filter 410 also is convenient for adjust to dust collecting part 5 is adjusted in the cooperation simultaneously, be convenient for use under the scene of different heat dissipation demands.

As shown in fig. 4 to 6, the ventilation filter element 4 further includes a fixed clip frame 407, a pair of first slide grooves 408, two pairs of clip holes 411, and a pair of second slide grooves 409.

The fixing clip frame 407 is connected to a surface of the ventilation frame 403 close to the fixing board 401 and is adapted to the heat sink 101, and when the sealing board 404 is completely clipped into the sealing slot 402, the fixing clip frame 407 is also completely clipped into the heat sink 101, so as to further clip and fix the ventilation filter component 4 and the server main body 1.

During the use, pulling ventilation frame 403 and driving sealed picture peg 404 from sealed slot 402 interior roll-off, drive fixing card frame 407 roll-off radiating groove 101 simultaneously for a plurality of pressure spring 406 takes place deformation, at this moment, can be with fixed picture peg 401 from a pair of fixed slot 204 interior roll-off, otherwise can be with fixed picture peg 401 slide in a pair of fixed slot 204, and loosen ventilation frame 403, make a plurality of pressure spring 406 can drive sealed picture peg 404 and fixing card frame 407 block respectively in sealed slot 402 and the radiating groove 101 internal fixation.

The pair of first sliding grooves 408 are correspondingly formed in the fixing clip frame 407 and the ventilation frame 403, and the pair of first sliding grooves 408 are formed in the fixing clip frame 407 and the ventilation frame 403 in a penetrating manner and are symmetrically arranged about a central axis of the fixing clip frame 407.

The two pairs of clamping holes 411 are correspondingly arranged on the ventilation frame 403 in a penetrating manner and arranged on two sides of the first sliding groove 408 and used for installing and adjusting the dust removing component 5, and the two pairs of clamping holes 411 are symmetrically arranged around the central axis of the ventilation frame 403.

The pair of second sliding grooves 409 are provided on the fixing clip frame 407 in a penetrating manner, and the pair of second sliding grooves 409 are symmetrically disposed about a central axis of the fixing clip frame 407.

As shown in fig. 3-7, the adjustable dust-removing component 5 further includes two pairs of sliding plates 502, a pair of screws 503 and a pair of handles 512.

The two pairs of sliding plates 502 are respectively and correspondingly connected to the first adjusting plate 501 and the second adjusting plate 510, and the two pairs of sliding plates 502 correspondingly penetrate through the second sliding groove 409 to be correspondingly connected to the first adjusting plate 501 and the second adjusting plate 510.

The pair of screw rods 503 are respectively rotatably connected with the two pairs of sliding plates 502, the two sides of the pair of screw rods 503 are respectively provided with a connecting clamping rod 504 clamped in the clamping hole 411, a connecting bearing 505 is connected between the screw rod 503 and the connecting clamping rod 504, and the connecting clamping rod 504 is clamped in the clamping hole 411 and is connected with the screw rod 503 through the connecting bearing 505.

Specifically, a pair of reverse threads is symmetrically disposed on the screw 503, so that when the sliding plate 502 moves on the screw 503, the first adjusting plate 501 and the second adjusting plate 510 can be driven to move in a direction away from or close to each other, and the first adjusting plate 501 and the second adjusting plate 510 are driven to open or close.

A pair of handles 512 are respectively connected to the surfaces of first adjustment plate 501 and second adjustment plate 510 that are far away from each other, for pulling first adjustment plate 501 and second adjustment plate 510, and first adjustment plate 501 and second adjustment plate 510 are moved by using a pair of handles 512.

As shown in fig. 5-7, the adjustable dust-removing component 5 further includes a fixing slot 506 and a fixing clip plate 511.

The fixed slot 506 is opened on a surface of the first adjusting plate 501 close to the second adjusting plate 510.

The fixing clamping plate 511 is connected to one side of the second adjusting plate 510 close to the first adjusting plate 501 and is matched with the fixing clamping slot 506, and is used for clamping and fixing the first adjusting plate 501 and the second adjusting plate 510.

When first regulating plate 501 and second regulating plate 510 are close to each other, can utilize fixed cardboard 511 to go on the chucking in going into fixed slot 506, when first regulating plate 501 and second regulating plate 510 are kept away from each other and are removed, can adjust the ventilation area of filter 410 to adjust the ventilation heat dissipation condition of server main part 1.

As shown in fig. 4 to 7, the dust-removing adjustment member 5 further includes a pair of fixing plates 507, a pair of dust-proof plates 508, and a plurality of dust-proof brushes 509.

Wherein, a pair of fixing plates 507 are respectively connected to the first adjusting plate 501 and the second adjusting plate 510 at the side close to the filter plate 410.

The pair of dust-proof plates 508 are respectively connected to one surfaces of the pair of fixing plates 507 adjacent to the filter plates 410.

A plurality of dustproof brushes 509 are respectively connected to one side of keeping away from each other of a pair of dustproof plates 508 and are connected with the one side that the fixed plate 507 is close to the filter plate 410, and when first regulating plate 501 and second regulating plate 510 removed, can drive dustproof brush 509 through fixed plate 507 and clean the filter plate 410 surface, and dust impurity gets into in the server main body 1 when setting up through dustproof plate 508 can reduce the cleanness simultaneously.

The working principle is as follows: when the outside temperature control heat sink efficiency of server main part 1 is higher, at this moment, utilize handle 512 to promote first regulating plate 501 or second regulating plate 510, or promote first regulating plate 501 and second regulating plate 510 simultaneously, it moves and removes in second spout 409 to drive slide 502 on screw rod 503, make screw rod 503 rotate on connecting bearing 505, it removes to the one side that is close to each other in first spout 408 to drive first regulating plate 501 and second regulating plate 510, thereby reduce the draught area of filter 410, can reduce dust impurity this moment and get into in server main part 1 via filter 410 and radiating groove 101.

On the contrary, when the temperature control cooling device outside the server body 1 is low in efficiency or lacks such a device, the first adjusting plate 501 and the second adjusting plate 510 are pulled by the pull handle 512 to move towards the surfaces away from each other, so that the ventilation area of the filter plate 410 can be increased, and when the first adjusting plate 501 and the second adjusting plate 510 move, the dust brush 509 can be driven by the fixing plate 507 to clean the surface of the filter plate 410, and meanwhile, the dust impurities can be reduced to enter the server body 1 during cleaning through the arrangement of the dust-proof plate 508.

As above, while the utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. A multi-scene adaptive AI server, comprising:

2. The AI server of claim 1, wherein: the fixing member includes:

3. The AI server of claim 2, wherein: the fixing member further includes:

and the pair of fixing slots are correspondingly arranged on one surfaces of the fixing frames, which are close to each other, and are used for fixing the ventilation filtering component.

4. The AI server of claim 1, wherein: the ventilation filter unit includes:

5. The AI server of claim 4, wherein: the ventilation filter element further comprises:

the pair of first sliding grooves are correspondingly formed in the fixed clamping frame and the ventilation frame;

the two pairs of clamping holes correspondingly penetrate through the ventilation frame and are arranged on two sides of the first sliding chutes and used for installing and adjusting the dust removing component;

and the pair of second sliding grooves penetrates through the fixed clamping frame.

6. The AI server of claim 1, wherein: the dust removal regulation component further comprises:

the two pairs of sliding plates are respectively and correspondingly connected to the first adjusting plate and the second adjusting plate;

7. The AI server of claim 1, wherein: the dust removal regulation component further comprises:

and the fixing clamping plate is connected to one surface of the second adjusting plate, which is close to the first adjusting plate, is matched with the fixing clamping groove, and is used for fixedly clamping the first adjusting plate and the second adjusting plate.

8. The AI server of claim 1, wherein: the dust removal regulation component further comprises:

the pair of dust-proof plates are respectively connected to one surfaces of the pair of fixing plates, which are close to the filter plate;