CN215729577U - Big data use server with heat dissipation effect - Google Patents

Abstract

The utility model discloses a server with a heat dissipation effect for big data, which comprises a server shell, wherein a stabilizing mechanism is arranged at the bottom end of the server shell, and an auxiliary heat dissipation mechanism is arranged in the server shell. This big data use has radiating effect's server, through the structure that sets up stabilizing mean and stabilizing mean department, when the unexpected condition appearing, the buffering of spring post to the server casing reaches the limit this moment, synchronous post can move down until synchronous voussoir touching driven voussoir removes, synchronous rack removes under driven voussoir's effect, synchronous rack drives synchronous gear and rotates, thereby it rotates to drive the screw thread post, it removes to drive synchronous cover with this, thereby it removes to drive the backup pad, thereby support the server casing, thereby make the server casing reach a balanced state, possess and to carry out advantages such as auxiliary protection, the problem of current unable auxiliary protection has been solved.

Description

Big data use server with heat dissipation effect

Technical Field

The utility model relates to the technical field of big data, in particular to a server with a heat dissipation effect for big data.

Background

Big data, an IT industry term, refers to a data set that cannot be captured, managed and processed by a conventional software tool within a certain time range, is a massive, high-growth rate and diversified information asset that needs a new processing mode to have stronger decision making power, insight discovery power and process optimization capability, and has a strategic significance not in mastering huge data information but in specialized processing of meaningful data. In other words, if big data is compared with an industry, the key for realizing profit of the industry is to improve the processing capacity of the data, realize the increment of the data through processing, and technically, the relation between the big data and cloud computing is as inseparable as the front and back of a coin. The large data cannot be processed by a single computer necessarily, and a distributed architecture must be adopted. The method is characterized in that distributed data mining is carried out on mass data. But it must rely on distributed processing of cloud computing, distributed databases and cloud storage, virtualization technologies.

And the server that most big data of current use has the radiating effect, though be provided with relevant buffer gear in the bottom of server rack and be used for the protection, but do not set up the complementary unit who takes place to the unexpected condition, this just leads to when buffer spring life-span reaches the limit or buffer spring reaches the buffering limit, do not have relevant mechanism to support the server rack, probably cause the damage, have certain limitation, it is thus clear that need urgently for a big data use has the server of radiating effect for solve the above-mentioned technical problem.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a server with a heat dissipation effect for big data usage, so as to solve the problems mentioned in the background art.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides a big data use has radiating effect's server, includes the server casing, the bottom of server casing is provided with stabilizing mean, the inside of server casing is provided with supplementary heat dissipation mechanism.

Further, radiating grooves are formed in the two sides of the server shell, and the radiating grooves are symmetrically distributed in the two sides of the server shell.

The arrangement of the heat dissipation groove is used for ensuring the basic heat dissipation effect of the server shell.

Further, the stabilizing mechanism comprises a stabilizing seat, a stabilizing groove is formed in the top end of the stabilizing seat, and the stabilizing groove is matched with the server shell.

The stabilizing seat is used for supporting the server shell, and the stabilizing groove is used for placing the server shell.

Furthermore, the inside both sides of stable groove all are provided with the spring post, the one end of spring post and the interior diapire fixed connection of stable groove, the other end fixedly connected with supporting seat of spring post, the bottom fixed mounting of the adjacent one side of supporting seat has synchronous post, the synchronous voussoir of other end fixedly connected with of synchronous post, the side overlap joint of synchronous voussoir has driven wedge, driven wedge's the synchronous rack of other end fixedly connected with, the other end meshing of synchronous rack is connected with supporting mechanism.

The setting of spring post is used for guaranteeing the mobility of supporting seat to play the stable effect of a buffering to the server casing, when the buffering of spring post to the server casing reached the limit, synchronous post can move down and remove until synchronous voussoir touching driven voussoir, and synchronous rack can trigger supporting mechanism thereupon and support the server casing.

Furthermore, a telescopic column is fixedly mounted at the bottom end of one side, far away from the supporting seat, of the supporting seat, and the other end of the telescopic column is fixedly connected with the inner bottom wall of the stabilizing groove.

The setting of flexible post is used for guaranteeing the stability when supporting seat removes, has also played certain restriction effect to the supporting seat simultaneously.

Furthermore, the outer surface of the driven wedge block is sleeved with a limiting sleeve, a supporting column is fixedly mounted in the middle of the bottom end of the limiting sleeve, and the other end of the supporting column is fixedly connected with the inner bottom wall of the stabilizing groove.

The setting of stop collar is used for guaranteeing the stability when driven voussoir removes, has also played certain restriction effect to driven voussoir simultaneously.

Further, the supporting mechanism comprises a synchronizing gear, the synchronizing gear is meshed with a synchronizing rack and is fixedly installed on the outer surface of the threaded column, one end of the threaded column is rotatably connected with the inner bottom wall of the stabilizing groove, the other end of the threaded column is in threaded connection with a synchronizing sleeve, and the other end of the synchronizing sleeve is fixedly connected with a supporting plate.

Furthermore, the auxiliary heat dissipation mechanism comprises an auxiliary heat dissipation fan, and the position of the auxiliary heat dissipation fan corresponds to the position of the heat dissipation groove.

The auxiliary heat radiation fan is used for performing auxiliary heat radiation on the server shell, so that the heat radiation effect of the server cabinet is improved on the basis of the heat radiation grooves.

Compared with the prior art, the utility model has the following beneficial effects:

1. this big data use has radiating effect's server, through the structure that sets up stabilizing mean and stabilizing mean department, when the unexpected condition appearing, the buffering of spring post to the server casing reaches the limit this moment, synchronous post can move down until synchronous voussoir touching driven voussoir removes, synchronous rack removes under driven voussoir's effect, synchronous rack drives synchronous gear and rotates, thereby it rotates to drive the screw thread post, it removes to drive synchronous cover with this, thereby it removes to drive the backup pad, thereby support the server casing, thereby make the server casing reach a balanced state, possess and to carry out advantages such as auxiliary protection, the problem of current unable auxiliary protection has been solved.

2. This big data uses server that has the radiating effect through setting up radiating groove 11 for guarantee the basic radiating effect of server casing 1, through setting up the structure of supplementary radiating mechanism and supplementary radiating mechanism department, supplementary radiator fan is used for carrying out supplementary heat dissipation to the server casing, with this radiating effect that improves the server rack on the basis of radiating groove.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1 at A in accordance with the present invention;

FIG. 3 is a schematic structural view of the support mechanism of the present invention;

FIG. 4 is a schematic view of the structure of the stabilizing slot of the present invention;

in the figure: 1. a server housing; 11. a heat sink; 2. a stabilizing mechanism; 21. a stabilizing base; 22. a stabilizing slot; 23. a spring post; 24. a supporting seat; 241. a telescopic column; 25. a synchronizing column; 26. a synchronous wedge block; 27. a driven wedge block; 271. a limiting sleeve; 28. a synchronous rack; 29. a support mechanism; 291. a synchronizing gear; 292. a threaded post; 293. a synchronous sleeve; 294. a support plate; 3. an auxiliary heat dissipation mechanism; 31. an auxiliary heat radiation fan.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1-4, which illustrate the technical solutions provided by the present invention: the utility model provides a big data uses server that has radiating effect, includes server casing 1, and the bottom of server casing 1 is provided with stabilizing mean 2, and the inside of server casing 1 is provided with supplementary heat dissipation mechanism 3.

In the above technical solution, the inside of the server casing 1 is provided with a matching structure for ensuring the basic functions of the server, the stabilizing mechanism 2 is used for performing an auxiliary protection function on the server casing 1, and the auxiliary heat dissipation mechanism 3 is used for performing auxiliary heat dissipation on the server casing 1.

Further, radiating grooves 11 have all been seted up to the both sides of server casing 1, and radiating grooves 11 symmetric distribution is in the both sides of server casing 1.

In the above technical solution, the heat sink 11 is arranged to ensure the basic heat dissipation effect of the server casing 1.

Further, the stabilizing mechanism 2 includes a stabilizing base 21, a stabilizing slot 22 is formed at the top end of the stabilizing base 21, and the stabilizing slot 22 is adapted to the server casing 1.

In the above-mentioned technical solution, the stabilizing base 21 is used for supporting the server casing 1, and the stabilizing slot 22 is used for placing the server casing 1.

Furthermore, spring columns 23 are arranged on two sides of the inside of the stabilizing groove 22, one end of each spring column 23 is fixedly connected with the inner bottom wall of the stabilizing groove 22, a supporting seat 24 is fixedly connected to the other end of each spring column 23, a synchronizing column 25 is fixedly mounted at the bottom end of one side, adjacent to the supporting seat 24, of the corresponding synchronizing column 25, a synchronizing wedge 26 is fixedly connected to the other end of each synchronizing column 25, a driven wedge 27 is lapped on the side face of each synchronizing wedge 26, a synchronizing rack 28 is fixedly connected to the other end of each driven wedge 27, and a supporting mechanism 29 is meshed with the other end of each synchronizing rack 28.

In the above technical solution, the spring column 23 is provided to ensure the movability of the support seat 24, so as to play a role in stabilizing the buffering of the server casing 1, when the spring column 23 buffers the server casing 1 to the maximum, the synchronization column 25 moves downward until the synchronization wedge 26 touches the driven wedge 27 to move, and the synchronization rack 28 triggers the support mechanism 29 to support the server casing 1.

It is worth mentioning that the synchronizing post 25 and the synchronizing wedge 26 are provided only on one side.

Furthermore, a telescopic column 241 is fixedly installed at the bottom end of the side of the supporting seat 24 away from the supporting seat, and the other end of the telescopic column 241 is fixedly connected with the inner bottom wall of the stabilizing groove 22.

In the above technical solution, the telescopic column 241 is provided to ensure the stability of the support seat 24 during movement, and also plays a certain limiting role in the support seat 24.

Furthermore, a limiting sleeve 271 is sleeved on the outer surface of the driven wedge 27, a supporting column is fixedly installed in the middle of the bottom end of the limiting sleeve 271, and the other end of the supporting column is fixedly connected with the inner bottom wall of the stabilizing groove 22.

In the above technical solution, the limiting sleeve 271 is provided to ensure the stability of the driven wedge 27 during movement, and also plays a certain limiting role in the driven wedge 27.

Driven wedge 27's the equal fixed mounting in upper and lower both ends has the restriction piece, and the side fixedly connected with reset spring of restriction piece, reset spring's the other end and the inside wall fixed connection of stop collar 271, restriction piece and reset spring's setting for make things convenient for follow-up driven wedge 27's restoration, also guaranteed driven wedge 27 state under normal condition simultaneously.

Further, the supporting mechanism 29 includes a synchronizing gear 291, the synchronizing gear 291 is engaged with the synchronizing rack 28, the synchronizing gear 291 is fixedly mounted on an outer surface of the threaded post 292, one end of the threaded post 292 is rotatably connected to an inner bottom wall of the stabilizing groove 22, the other end of the threaded post 292 is threadedly connected to a synchronizing sleeve 293, and the other end of the synchronizing sleeve 293 is fixedly connected to a supporting plate 294.

In the above technical solution, when the synchronization rack 28 moves under the action of the driven wedge 27, the synchronization rack 28 drives the synchronization gear 291 to rotate, so as to drive the threaded post 292 to rotate, thereby driving the synchronization sleeve 293 to move, thereby driving the support plate 294 to move, thereby supporting the server casing 1.

The equal fixedly connected with telescopic link in bottom both sides of synchronous cover 293, the other end of telescopic link and the interior diapire fixed connection who stabilizes groove 22, the stability when stabilizing groove 22's setting is used for guaranteeing synchronous cover 293 and removes, has also played certain restriction effect to synchronous cover 293 simultaneously.

Further, the auxiliary heat dissipation mechanism 3 includes an auxiliary heat dissipation fan 31, and the position of the auxiliary heat dissipation fan 31 corresponds to the heat dissipation groove 11.

In the above technical solution, the auxiliary cooling fan 31 is used for performing auxiliary cooling on the server casing 1, so as to improve the cooling effect of the server cabinet on the basis of the cooling groove 11.

The working principle of the utility model is as follows: under normal conditions, spring post 23 cooperatees with supporting seat 24 and cushions the support to server housing 1, when the unexpected condition appearing, spring post 23 reaches the limit to server housing 1's buffering this moment, synchronous post 25 can move down until synchronous voussoir 26 touches driven voussoir 27 and removes, synchronous rack 28 moves under driven voussoir 27's effect, synchronous rack 28 drives synchronous gear 291 and rotates, thereby it rotates to drive screw post 292, remove with this drive synchronous cover 293, thereby it removes to drive backup pad 294, thereby support server housing 1, thereby make server housing 1 reach a balanced state.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a big data uses server that has radiating effect, includes server casing (1), its characterized in that, server casing (1), the bottom of server casing (1) is provided with stabilizing mean (2), the inside of server casing (1) is provided with supplementary heat dissipation mechanism (3).

2. The server with heat dissipation effect for big data usage according to claim 1, wherein: radiating grooves (11) are formed in the two sides of the server shell (1), and the radiating grooves (11) are symmetrically distributed in the two sides of the server shell (1).

3. The server with heat dissipation effect for big data usage according to claim 1, wherein: the stabilizing mechanism (2) comprises a stabilizing seat (21), a stabilizing groove (22) is formed in the top end of the stabilizing seat (21), and the stabilizing groove (22) is matched with the server shell (1).

4. The server with heat dissipation effect for big data usage according to claim 3, wherein: the inside both sides of stable groove (22) all are provided with spring post (23), the one end of spring post (23) and the interior diapire fixed connection of stable groove (22), the other end fixedly connected with supporting seat (24) of spring post (23), the bottom fixed mounting of the adjacent one side of supporting seat (24) has synchronizing column (25), synchronizing column's the synchronous voussoir of other end fixedly connected with (26) of (25), the side overlap joint of synchronizing voussoir (26) has driven voussoir (27), the synchronous rack (28) of other end fixedly connected with of driven voussoir (27), the other end meshing of synchronous rack (28) is connected with supporting mechanism (29).

5. The server with heat dissipation effect for big data usage according to claim 4, wherein: the supporting seat (24) is mutually far away from one side bottom end fixed mounting has flexible post (241), the other end of flexible post (241) and the interior diapire fixed connection of stabilizing trough (22).

6. The server with heat dissipation effect for big data usage according to claim 4, wherein: the outer surface of the driven wedge block (27) is sleeved with a limiting sleeve (271), the middle of the bottom end of the limiting sleeve (271) is fixedly provided with a supporting column, and the other end of the supporting column is fixedly connected with the inner bottom wall of the stabilizing groove (22).

7. The server with heat dissipation effect for big data usage according to claim 4, wherein: the supporting mechanism (29) comprises a synchronizing gear (291), the synchronizing gear (291) is meshed with a synchronizing rack (28) and is fixedly installed on the outer surface of a threaded column (292), one end of the threaded column (292) is rotatably connected with the inner bottom wall of the stabilizing groove (22), the other end of the threaded column (292) is connected with a synchronizing sleeve (293) in a threaded mode, and the other end of the synchronizing sleeve (293) is fixedly connected with a supporting plate (294).

8. The server with heat dissipation effect for big data usage according to claim 1, wherein: the auxiliary heat dissipation mechanism (3) comprises an auxiliary heat dissipation fan (31), and the position of the auxiliary heat dissipation fan (31) corresponds to the position of the heat dissipation groove (11).

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