CN216817310U - 2U high-storage rack-mounted server - Google Patents

Abstract

The utility model discloses a 2U high-storage rack server, which relates to the field of servers and comprises a server main body, a plurality of fixing parts and a plurality of cleaning parts; the server main body is provided with a plurality of groups of heat dissipation holes for ventilation and heat dissipation, and the server main body is also provided with a plurality of main slots corresponding to the plurality of groups of heat dissipation holes; the plurality of fixing parts are correspondingly arranged in the plurality of main slots and comprise fixing frames inserted in the main slots, first sliding grooves are formed in the fixing frames, and sealing inserting plates for dust prevention are inserted in the first sliding grooves. Through set up fixed part in the server main part, can utilize sealed picture peg to block clean dust impurity when cleaning server and louvre, can reduce inside dust impurity gets into the server, simultaneously, the clean part of cooperation can be cleaned louvre from inside, further reduces inside dust impurity gets into the server, the clean and normal work heat dissipation of protection server internals.

Description

2U high-storage rack-mounted server

Technical Field

The utility model relates to the field of servers, in particular to a 2U high-storage rack type server.

Background

The server is one of computers, can provide computing or application services for other clients in a network, and can be divided into a rack server, a tower server and the like according to the appearance, wherein the rack server can be divided into specifications of 1U, 2U, 4U, 6U and the like. At present, 1U and 2U rack servers save space, but have poor performance and expandability, so that the rack servers are suitable for the application fields with relatively fixed services, and meanwhile, a plurality of storage hard disks are installed in the front and at the back of a server main body, namely the storage rack servers.

The existing 2U high-storage rack-mounted server is poor in heat dissipation performance due to the fact that the space is compact, usually, heat dissipation holes formed in a server shell are used for heat dissipation by means of cooperation of heat dissipation fans inside the server, therefore, when the heat dissipation fans do not work or when the heat dissipation holes of the shell are simply cleaned, dust and impurities easily enter the server through the heat dissipation holes in the shell, cleaning and normal heat dissipation of internal parts of the server can be affected, the internal parts of the server can be damaged possibly, and normal use of the server is affected.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the present invention provides a 2U high-storage rack server to solve the above problems in the prior art.

The technical scheme is as follows: A2U high-storage rack server comprises a server main body, a plurality of fixing parts and a plurality of cleaning parts;

the server comprises a server main body, a plurality of groups of heat dissipation holes used for ventilation and heat dissipation are formed in the server main body, and a plurality of main slots corresponding to the plurality of groups of heat dissipation holes are formed in the server main body;

the fixing parts are correspondingly arranged in the main slots and comprise fixing frames inserted in the main slots, the fixing frames are provided with first sliding grooves, and sealing inserting plates for dust prevention are inserted in the first sliding grooves;

and the cleaning parts are correspondingly arranged in the fixing parts and are used for cleaning and collecting the dust and impurities on the heat dissipation holes.

In a further embodiment, the fixing part further comprises a fixing slot, a resisting frame and a first resisting spring;

the fixed slot is formed in one surface, close to the inner wall of the server main body, of the fixed frame;

and the abutting frame is slidably arranged in the fixed slot, and a plurality of first abutting springs used for matching the abutting frame to abut against the inner wall of the server main body are connected between the abutting frame and the fixed slot.

In a further embodiment, the fixing part further comprises a sealing cover plate and a fixing clamping groove;

the sealing cover plate is hinged on the fixed frame, is matched with the first sliding groove and is used for clamping and sealing the first sliding groove;

and the fixed clamping groove is formed in one surface of the fixed frame, which is close to the inner wall of the server main body, and is used for clamping and fixing the dust collecting box.

In a further embodiment, the cleaning member comprises a dust collection bin;

and the dust collecting box is clamped in the fixed clamping groove and used for collecting dust impurities, and the dust collecting box can be used for uniformly collecting the dust impurities falling down in the cleaning operation.

In a further embodiment, the cleaning member further comprises a pair of fixing bars, a pair of moving grooves, a pair of sliders, a connecting plate, a brush plate, and a cleaning brush;

the pair of fixing rods are symmetrically connected to the inner wall of the fixing frame, moving grooves are formed in the surfaces, close to each other, of the pair of fixing rods, and the pair of fixing rods are connected to the fixing frame and arranged between the sealing inserting plate and the heat dissipation holes;

the pair of sliding blocks are respectively and correspondingly arranged in the pair of moving grooves in a sliding manner, and the sliding blocks are matched with the moving grooves;

the connecting plate is connected between the pair of sliding blocks, a brush plate is arranged on one surface, close to the dust collection box, of the connecting plate in a sliding mode, and a plurality of cleaning brushes used for cleaning the heat dissipation holes are connected to one surface, close to the heat dissipation holes, of the brush plate.

In a further embodiment, the cleaning member further comprises a pair of moving bars and a connecting bar;

the pair of moving rods are symmetrically connected to the connecting plate, and the fixed frame is provided with a pair of second sliding grooves matched with the moving rods;

and the connecting rod is connected to the pair of moving rods and used for pulling the pair of moving rods to move.

In a further embodiment, the cleaning member further comprises a pair of sliding posts and a pair of second compression springs;

the pair of sliding columns are correspondingly connected in the pair of fixing rods, sliding holes matched with the sliding columns are formed in the sliding blocks, and the sliding blocks are connected with the sliding columns in a sliding mode through the sliding holes;

and the pair of second compression springs are correspondingly connected between the pair of sliding blocks and the inner wall of the moving groove and used for compressing the sliding blocks, and when the cleaning brush is not used, the pair of second compression springs can compress the sliding blocks on one surface of the moving groove close to the dust collection box, so that the influence on normal ventilation and heat dissipation of the server main body is reduced.

In a further embodiment, the cleaning member further comprises a plurality of fixing blocks and a plurality of third pressing springs;

the fixing blocks are connected to one surface of the connecting plate, which is close to the dust collecting box, and are positioned on one side, which is far away from the inner wall of the server main body, of the brush plate;

and the third compression springs are connected between the fixing blocks and the brush plate and used for pushing the cleaning brushes to clean and remove dust of the heat dissipation holes.

Has the advantages that: the utility model discloses a 2U high-storage rack server.A fixing part is arranged in a server main body, so that when the server and heat dissipation holes are cleaned, cleaning dust and impurities can be blocked by utilizing a sealing plugboard, the dust and impurities can be reduced from entering the inside of the server, meanwhile, the heat dissipation holes can be cleaned from the inside by matching with the cleaning part, the dust and impurities are further reduced from entering the inside of the server, and the cleaning and normal work heat dissipation of the parts inside the server are protected.

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 member and the cleaning member of the present invention.

Fig. 4 is an exploded view of the fixing member and the cleaning member of the present invention.

Figure 5 is an exploded view of the securing member and cleaning member of the present invention from another perspective.

Fig. 6 is a schematic view of the structure at a in fig. 5.

The figures are numbered: 1. the server comprises a server body, 101 heat dissipation holes, 102 main slots, 2 fixing parts, 201 fixing frames, 202 fixing slots, 203 abutting frames, 204 first abutting springs, 205 first sliding grooves, 206 sealing insertion plates, 207 sealing cover plates, 208 fixing clamping grooves, 3 cleaning parts, 301 fixing rods, 302 moving grooves, 303 sliding blocks, 304 sliding columns, 305 second compression springs, 306 moving rods, 307 connecting rods, 308 connecting plates, 309 brush plates, 310 cleaning brushes, 311 fixing blocks, 312 third compression springs, 313 dust collection boxes.

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 thinks that most of the existing 2U high-storage rack-type server heat dissipation holes are directly arranged on the server casing and are arranged in an open mode, so that dust and impurities in the environment can easily enter the server through the heat dissipation holes in the casing, the cleanness and normal heat dissipation of internal parts of the server are easily affected, and even the internal parts of the server are damaged, and the normal use of the server is affected.

To this end, the applicant proposes a 2U high-storage rack server, as shown in fig. 1 to 6, including a server main body 1, a plurality of fixing members 2, and a plurality of cleaning members 3.

The server body 1 is provided with a plurality of groups of heat dissipation holes 101 for ventilation and heat dissipation, the server body 1 is further provided with a plurality of main slots 102 corresponding to the plurality of groups of heat dissipation holes 101, and the main slots 102 are used for inserting the fixing parts 2.

The plurality of fixing parts 2 are correspondingly arranged in the plurality of main slots 102, and include a fixing frame 201 inserted in the main slots 102, the fixing frame 201 is provided with a first sliding groove 205, and a sealing insertion plate 206 for dust prevention is inserted in the first sliding groove 205.

Wherein, during normal use, can take sealed picture peg 206 out from first spout 205, go into sealed apron 207 card again and seal first spout 205 in the first spout 205, at this moment, utilize the mount 201 middle part to run through the corresponding louvre 101 of ventilation slot cooperation of seting up and the radiator fan that sets up in the server main part 1, can carry out ventilation cooling to server main part 1 internals, when needs clean server main part 1 and louvre 101 or server main part 1 is idle, during the transportation, can insert sealed picture peg 206 completely in the first spout 205 again, can seal dustproof to server main part 1 inside, reduce the probability that dust impurity got into server main part 1, improve the cleanness and the normal heat dissipation and the work of server main part 1 inner part.

The cleaning members 3 are correspondingly arranged in the fixing members 2 and are used for cleaning and collecting dust and impurities on the heat radiating holes 101.

As shown in fig. 3 to 5, the fixing part 2 further includes a fixing slot 202, a resisting frame 203 and a first resisting spring 204.

The fixing slot 202 is disposed on a surface of the fixing frame 201 close to an inner wall of the server main body 1.

The tight support 203 is slidably arranged in the fixed slot 202, a plurality of first tight supporting springs 204 used for matching the tight support 203 to tightly support the inner wall of the server main body 1 are connected between the tight support 203 and the fixed slot 202, and the tight support 203 and the inner wall of the server main body 1 can be tightly supported after the fixed support 201 and the tight support 203 are clamped in the main slot 102 due to the arrangement of the first tight supporting springs 204, so that on one hand, the connection stability of the fixed part 2 and the server main body 1 can be improved.

On the other hand, the arrangement of the sealing insertion plate 206 is matched, after the sealing insertion plate 206 is completely inserted into the first sliding groove 205, a user can directly clean and remove dust from the server body 1 and the heat dissipation holes 101, at the moment, the sealing insertion plate 206 can block dust and impurities entering through the heat dissipation holes 101 during cleaning, so that the dust and impurities float between the sealing insertion plate 206 and the heat dissipation holes 101, finally, the dust and impurities fall on the fixing frame 201 and the abutting frame 203 under the action of gravity, the fixing part 2 is subsequently taken out of the server body 1, the fixing frame 201, the abutting frame 203 and other parts are cleaned, the probability that the dust and impurities enter the server body 1 when the server body 1 and the heat dissipation holes 101 are directly cleaned can be reduced, and the cleaning and normal use of related parts in the server body 1 are protected.

As shown in fig. 4, the fixing member 2 further includes a sealing cover plate 207 and a fixing groove 208.

The sealing cover plate 207 is hinged to the fixing frame 201 and adapted to the first sliding groove 205, and is used for clamping and sealing the first sliding groove 205, when the server main body 1 normally works, the sealing insertion plate 206 can be drawn out from the first sliding groove 205, then the sealing cover plate 207 is clamped in the first sliding groove 205, and the first sliding groove 205 can be sealed.

Meanwhile, the middle part of the fixing frame 201 is provided with a ventilation groove matched with the heat dissipation hole 101, and at the moment, the heat dissipation hole 101 and a heat dissipation fan in the server main body 1 can be matched for ventilation and heat dissipation.

The fixing slot 208 is opened on one side of the fixing frame 201 close to the inner wall of the server main body 1, and is used for clamping and fixing the dust collecting box 313.

As shown in fig. 3 to 5, the cleaning member 3 includes a dust box 313.

The dust collecting box 313 is clamped in the fixing clamping groove 208 and used for collecting dust impurities, and the dust collecting box 313 can be used for collecting the dust impurities falling down in the cleaning operation in a unified manner, so that the subsequent unified cleaning treatment is facilitated.

Meanwhile, when the cleaning brush 310 described below cleans the heat dissipation hole 101, the dust and impurities floating between the sealing insert plate 206 and the heat dissipation hole 101 may be collected.

As shown in fig. 1 to 6, the cleaning member 3 further includes a pair of fixing bars 301, a pair of moving grooves 302, a pair of sliders 303, a connecting plate 308, a brush plate 309, and a cleaning brush 310.

The pair of fixing rods 301 are symmetrically connected to the inner wall of the fixing frame 201, the moving grooves 302 are formed in the surfaces, close to each other, of the pair of fixing rods 301, and the pair of fixing rods 301 are connected to the fixing frame 201 and are arranged between the sealing insertion plate 206 and the heat dissipation hole 101.

The pair of sliders 303 are respectively and correspondingly slidably disposed in the pair of moving grooves 302, and the sliders 303 are adapted to the moving grooves 302.

The connecting plate 308 is connected between the pair of sliding blocks 303, one surface of the connecting plate 308 close to the dust collecting box 313 is provided with a brush plate 309 in a sliding manner, one surface of the brush plate 309 close to the heat dissipation holes 101 is connected with a plurality of cleaning brushes 310 for cleaning the heat dissipation holes 101, and the connecting plate 308 is used for connecting the pair of sliding blocks 303, so that the pair of sliding blocks 303 can move synchronously.

The cleaning brush 310 is used for cleaning the heat dissipation hole 101, on one hand, the heat dissipation hole 101 is cleaned from the inside, the probability that dust and impurities enter the server body 1 during cleaning can be reduced, and on the other hand, the compact arrangement of the server can be met by arranging the fixing component 2, the cleaning component 3 and other components in the server body 1.

As shown in fig. 3 to 6, the cleaning member 3 further includes a pair of moving bars 306 and a connecting bar 307.

Wherein, a pair of movable rods 306 are symmetrically connected to the connecting plate 308, and the fixing frame 201 is provided with a pair of second sliding grooves matched with the movable rods 306.

The connecting rod 307 is connected to the pair of moving rods 306 for pulling the pair of moving rods 306 to move.

During the use, through pulling connecting rod 307, can drive a pair of carriage release lever 306 and slide in the second spout, thereby drive connecting plate 308 and a pair of slider 303 and remove, and then drive brush board 309 and a plurality of clean brush 310 and remove, thereby clean louvre 101, reduce dust impurity and gather on louvre 101 and lead to the fact the probability of influence to the heat dissipation of server main part 1 internals, and simultaneously, also can reduce dust impurity and gather more and fall into the probability in server main part 1, the normal heat dissipation of relevant part in the protection server main part 1, clean and normal use.

As shown in fig. 4 to 5, the cleaning member 3 further includes a pair of spools 304 and a pair of second pressing springs 305.

The pair of sliding columns 304 are correspondingly connected in the pair of fixing rods 301, sliding holes matched with the sliding columns 304 are formed in the sliding blocks 303, and the sliding blocks 303 are connected with the sliding columns 304 in a sliding mode through the sliding holes.

The pair of second pressing springs 305 are correspondingly connected between the pair of sliding blocks 303 and the inner wall of the moving groove 302, and are used for pressing the sliding blocks 303, when the cleaning brush 310 is not used, the pair of second pressing springs 305 can press the sliding blocks 303 on one surface, close to the dust collection box 313, of the moving groove 302, and influence on normal ventilation and heat dissipation of the server main body 1 is reduced.

As shown in fig. 5 to 6, the cleaning member 3 further includes a plurality of fixing blocks 311 and a plurality of third pressing springs 312.

The fixing blocks 311 are connected to a surface of the connection plate 308 close to the dust collecting box 313 and are located on a side of the brush plate 309 far from the inner wall of the server body 1.

The third compression springs 312 are connected between the fixing blocks 311 and the brush plate 309, and are used for pushing the cleaning brush 310 to clean and remove dust from the heat dissipation hole 101, when the cleaning brush 310 is not used, the cleaning brush 310 abuts against the inner wall of the server body 1, when the cleaning brush 310 is used, along with the movement of the connecting plate 308, the third compression springs 312 are arranged to enable the cleaning brush 310 to abut against the heat dissipation hole 101, and therefore the cleaning brush 310 can clean the heat dissipation hole 101 conveniently.

The working principle is as follows: when the server main body 1 is used normally, the sealing insertion plate 206 can be drawn out from the first sliding groove 205, the sealing cover plate 207 is clamped into the first sliding groove 205 to seal the first sliding groove 205, and at the moment, the ventilation groove formed in the middle of the fixing frame 201 in a penetrating mode is matched with the corresponding heat dissipation hole 101 and the heat dissipation fan arranged in the server main body 1, so that ventilation and heat dissipation can be performed on internal components of the server main body 1.

When the server body 1 and the heat dissipation holes 101 need to be cleaned, or the server body 1 is left unused and transported, the sealing board 206 can be completely inserted into the first sliding groove 205, and the inside of the server main body 1 can be sealed and dustproof, and at this time, by pulling the connecting rod 307, the pair of moving rods 306 can be driven to slide in the second sliding grooves, so as to drive the connecting plate 308 and the pair of sliding blocks 303 to move, thereby moving the brush plate 309 and the plurality of cleaning brushes 310 to clean the heat radiating holes 101, and at this time, the sliding block 303 slides on the sliding column 304, and drives the second pressing spring 305 to deform, so that the connecting rod 307 is released to drive the sliding block 303 to slide to the bottom of the moving groove 302 again, meanwhile, the dust box 313 may collect clean dust impurities, and the collected dust impurities may be uniformly processed after the fixing member 2 is taken out from the server main body 1.

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 (8)

1. A2U high-storage rack-mounted server, comprising:

the server comprises a server main body, a plurality of groups of heat dissipation holes used for ventilation and heat dissipation are formed in the server main body, and a plurality of main slots corresponding to the plurality of groups of heat dissipation holes are formed in the server main body;

the fixing parts are correspondingly arranged in the main slots and comprise fixing frames inserted in the main slots, the fixing frames are provided with first sliding grooves, and sealing inserting plates for dust prevention are inserted in the first sliding grooves;

and the cleaning parts are correspondingly arranged in the fixing parts and are used for cleaning and collecting the dust and impurities on the heat dissipation holes.

2. A 2U high-storage rack server as claimed in claim 1, wherein: the fixing member further includes:

the fixed slot is formed in one surface, close to the inner wall of the server main body, of the fixed frame;

and the abutting frame is slidably arranged in the fixed slot, and a plurality of first abutting springs used for matching the abutting frame to abut against the inner wall of the server main body are connected between the abutting frame and the fixed slot.

3. A 2U high-storage rack server as claimed in claim 1, wherein: the fixing member further includes:

the sealing cover plate is hinged on the fixed frame, is matched with the first sliding groove and is used for clamping and sealing the first sliding groove;

and the fixed clamping groove is formed in one surface of the fixed frame, which is close to the inner wall of the server main body.

4. A 2U high-storage rack server as claimed in claim 3, wherein: the cleaning member includes:

and the dust collection box is clamped in the fixed clamping groove and is used for collecting dust and impurities.

5. A 2U high-storage rack server as claimed in claim 1, wherein: the cleaning member further includes:

the pair of fixed rods are symmetrically connected to the inner wall of the fixed frame, and moving grooves are formed in the surfaces, close to each other, of the pair of fixed rods;

the pair of sliding blocks are respectively and correspondingly arranged in the pair of moving grooves in a sliding manner;

the connecting plate is connected between the pair of sliding blocks, a brush plate is arranged on one surface, close to the dust collection box, of the connecting plate in a sliding mode, and a plurality of cleaning brushes used for cleaning the heat dissipation holes are connected to one surface, close to the heat dissipation holes, of the brush plate.

6. The 2U high-storage rack server of claim 5, wherein: the cleaning member further includes:

the pair of moving rods are symmetrically connected to the connecting plate, and the fixed frame is provided with a pair of second sliding grooves matched with the moving rods;

and the connecting rod is connected to the pair of moving rods and used for pulling the pair of moving rods to move.

7. The 2U high-storage rack server of claim 5, wherein: the cleaning member further includes:

the pair of sliding columns are correspondingly connected in the pair of fixing rods, and sliding holes matched with the sliding columns are formed in the sliding blocks;

and the pair of second compression springs are correspondingly connected between the pair of sliding blocks and the inner wall of the moving groove and used for compressing the sliding blocks.

8. The 2U high-storage rack server of claim 5, wherein: the cleaning member further includes:

the fixing blocks are connected to one surface of the connecting plate, which is close to the dust collecting box, and are positioned on one side, which is far away from the inner wall of the server main body, of the brush plate;

and the third compression springs are connected between the fixing blocks and the brush plate and used for pushing the cleaning brushes to clean and remove dust of the heat dissipation holes.

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