CN117479474A

CN117479474A - Server combined system

Info

Publication number: CN117479474A
Application number: CN202311412022.4A
Authority: CN
Inventors: 罗德奇
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-10-30
Filing date: 2023-10-30
Publication date: 2024-01-30

Abstract

The invention relates to the field of servers, in particular to a server combined system which comprises a processing module for processing data and a storage module for storing the data, wherein the processing module and the storage module are arranged in a supporting device, and the supporting device can radiate heat of the processing module and a plurality of storage modules. The storage module is provided with a plurality of storage modules. A plurality of memory modules are vertically arranged in a row in the supporting device. The processing module is connected with the plurality of storage modules, and the plurality of storage modules simultaneously store the data processed by the processing module. The system also comprises a data receiving module for receiving the data and transmitting the data to the processing module. The data receiving module receives data through a wireless network. The invention can uniformly radiate the heat of the server component and has high radiating efficiency.

Description

Server combined system

Technical Field

The invention relates to the field of servers, in particular to a server combination system.

Background

In the wide development of today's networks, the role played by the server is becoming increasingly important. For an enterprise, whether the customer object of the service is a rapidly growing service provider or a traditional enterprise with increasingly expanded network layout, the server provides the enterprise with efficient computing and transmission capabilities.

Currently, servers are installed in server racks. However, most of the existing cabinets cannot uniformly dissipate heat to components in the server, and the heat dissipation efficiency is low.

Disclosure of Invention

The invention aims to provide a server combined system which can uniformly dissipate heat of server components and has high heat dissipation efficiency.

The aim of the invention is achieved by the following technical scheme:

the server combined system comprises a processing module for processing data and a storage module for storing the data, wherein the processing module and the storage module are arranged in a supporting device, and the supporting device can uniformly dissipate heat of the processing module and the storage modules.

The storage module is provided with a plurality of storage modules.

A plurality of memory modules are vertically arranged in a row in the supporting device.

The processing module is connected with the plurality of storage modules, and the plurality of storage modules simultaneously store the data processed by the processing module.

The system also comprises a data receiving module for receiving the data and transmitting the data to the processing module.

The data receiving module receives data through a wireless network.

The terminal also comprises a data sending module which is used for sending the data processed by the processing module to the terminal.

The data transmission module transmits data through a wireless network.

The supporting device comprises a middle pipe and a plurality of vertical plates which are circumferentially and uniformly fixed outside the middle pipe, wherein the outer part of the middle pipe is uniformly divided into a plurality of vertical spaces, one of the vertical spaces is used for placing a processing module, a plurality of supporting plates are uniformly fixed in the rest of the plurality of vertical spaces, each vertical space is uniformly separated, and a plurality of partitions for placing a storage module are formed.

Fans are respectively installed at two ends of the middle pipe, and air holes communicated with the vertical space and the plurality of partitions are formed in the middle pipe.

Drawings

FIGS. 1 and 2 are schematic structural views of a supporting device of a server combination system;

FIG. 3 is a partial schematic view of the support device;

FIG. 4 is a schematic view of the structure of the outer tube of the cylinder;

FIG. 5 is a schematic view of the structure of an arcuate plate;

FIG. 6 is a schematic view of the structure of the middle tube;

FIG. 7 is a schematic view of the structure of two pallet holders clamped against each other;

fig. 8 and 9 are schematic structural views of the pallet;

FIG. 10 is a schematic view of the structure of the arc rod frame;

fig. 11 is a schematic view of the structure of the baffle.

In the figure:

a cylindrical outer tube 101, a round end plate 102, a fixed ring 103, an arc plate 104 and a circular ring groove 105; a filter screen 106;

a middle tube 201; a riser 202; a head frame 203 and a pallet 204;

the supporting plate frame 301, the spring I302, the inner pushing frame 303, the spring II 304 and the side pushing frame 305; spring III 306;

arc rod frame 401; side clamping frames 402;

a rotating ring 501; a baffle 502.

Detailed Description

As shown in fig. 1-11:

the server combined system comprises a processing module for processing data and a storage module for storing the data, wherein the processing module and the storage module are arranged in a supporting device, and the supporting device can radiate heat of the processing module and the storage modules.

The storage modules are arranged in a plurality of mode, and the storage capacity of the processor is enhanced.

The plurality of storage modules are vertically arranged in the supporting device in a row mode, and the utilization rate of space is improved.

The data receiving module receives data through a wireless network.

The data transmission module transmits data through a wireless network.

As shown in fig. 1-11:

the supporting device comprises a middle pipe 201 and a plurality of vertical plates 202 which are circumferentially and uniformly fixed outside the middle pipe 201, wherein the outside of the middle pipe 201 is uniformly divided into a plurality of vertical spaces, one of the vertical spaces is used for placing a processing module, a plurality of supporting plates 204 are uniformly fixed in the rest of the plurality of vertical spaces, each vertical space is uniformly divided, and a plurality of partitions for placing a storage module are formed.

Through the outside at the center tube 201 is encircleed to circumference between a plurality of cuts off, and a plurality of cuts off between vertical row setting, the save device occupation of land space that can be fine improves the utilization efficiency to the space.

As shown in fig. 1-11:

fans are respectively installed at two ends of the middle pipe 201, and air holes communicated with the vertical space and the plurality of partitions are formed in the middle pipe 201.

When the air conditioner is used, the two fans are used for blowing air in opposite directions at the two ends of the middle pipe 201, so that after air enters the middle pipe 201, the air enters the vertical space and the space between the partitions again through the air holes, the processing module and the storage modules are blown and radiated, the uniform radiating effect is ensured, and the air in the middle pipe 201 can be better caused to pass through the air holes through the opposite direction blowing of the two fans.

As shown in fig. 1-11:

the supporting device further comprises a head frame 203, a supporting frame 301, a spring I302, an inner pushing frame 303, a spring II 304, side pushing frames 305 and a spring III 306, the two ends of the middle tube 201 are symmetrically fixed with the head frames 203, two vertical sliding rods are arranged between the two head frames 203, the two supporting frames 301 symmetrically slide on the two vertical sliding rods, the springs I302 are arranged between the two supporting frames 301 and the corresponding head frames 203, the inner pushing frame 303 penetrates through the supporting frame 301 positioned below, the spring II 304 is arranged between the inner pushing frame 303 and the supporting frame 301, the inner pushing frame 303 slides towards the center direction of the middle tube 201, the two side pushing frames 305 penetrate through the supporting frame 301 positioned below, the springs III 306 are arranged between the two side pushing frames 305 and the supporting frame 301, the two side pushing frames 305 slide oppositely, and the sliding direction is perpendicular to the sliding direction of the inner pushing frame 303.

When the processing module is placed, the processing module is placed between the two supporting plate frames 301, the two supporting plate frames 301 clamp the processing module mutually through the elasticity of the springs I302, the fixing of the processing module is formed, the processing module is ensured to be positioned in the middle of the vertical space, the processing module is convenient to correspond to air holes communicated with the vertical space, and the blowing and heat dissipation efficiency is further ensured;

the inner pushing frame 303 is pulled by the elasticity of the spring II 304, so that the part of the upper end of the inner pushing frame 303 positioned between the two supporting plate frames 301 is tightly propped against the processing module, the processing module moves towards the center direction of the middle pipe 201, and then the two supporting plate frames 301 are tightly propped against the limiting block part close to the end of the middle pipe 201, so that the installation of the processing module is further ensured;

through two springs III 306, will promote the both sides of the partial tight processing module of top between two supporting plate racks 301 of two side pushing racks 305 respectively to better assurance processing module is located the middle part between two supporting plate racks 301, and further assurance processing module just corresponds with the gas pocket of vertical space intercommunication, further assurance heat dissipation efficiency of blowing.

As shown in fig. 1-11:

the supporting device further comprises arc rod frames 401 and side clamping frames 402, wherein the arc rod frames 401 are fixed on the bottom plate at the lower part in each partition, two side clamping frames 402 symmetrically slide on each arc rod frame 401, and springs IV are arranged between the two ends of each arc rod frame 401 and the two side clamping frames 402, so that the two side clamping frames 402 are close to each other.

When the storage module is placed, the storage module is placed between the two side clamping frames 402, so that the two side clamping frames 402 are close to each other to clamp the storage module through the elastic force of the spring IV, the middle part of the storage module between the partitions is just corresponding to an air hole communicated with the space, and the blowing and heat dissipation efficiency of the storage module is guaranteed.

As shown in fig. 1-11:

the supporting device further comprises a cylindrical outer tube 101, round end plates 102, fixing rings 103, arc plates 104, circular ring grooves 105 and filter screens 106, openings are formed in the side ends of the cylindrical outer tube 101, the round end plates 102 are fixed to the two ends of the cylindrical outer tube 101, the fixing rings 103 are fixed to the inner ends of the two round end plates 102, the filter screens 106 are arranged at the round end plates 102 inside the two fixing rings 103, the circular ring grooves 105 are formed in the edges of the two round end plates 102, the arc plates 104 are attached to the outer side of the cylindrical outer tube 101, the two ends of the arc plates 104 slide in the two circular ring grooves 105 respectively, outlets which are convenient to discharge impurities are formed in the ends, away from the openings, of the two circular ring grooves 105, the middle tube 201 is coaxially located in the cylindrical outer tube 101, and the two end frames 203 are connected with the two fixing rings 103 in a damping rotation mode respectively.

Through the arrangement of the cylindrical outer tube 101 and the circular end plate 102, a cylindrical space is formed for protecting the processing module and the plurality of storage modules, the processing module and the plurality of storage modules can be placed or detached through the opening on the cylindrical outer tube 101, and the arc plate 104 is pushed to slide on the cylindrical outer tube 101 to form a closed or opened opening position;

through the setting of two filter screens 106, the air of being convenient for gets into fan department, blows, avoids the dust to get into simultaneously.

As shown in fig. 1-11:

the supporting device further comprises a rotating ring 501 and guide plates 502, the rotating ring 501 is arranged at the upper end and the lower end in the cylinder outer tube 101 in a rotating mode, and a plurality of guide plates 502 are fixed between the two rotating rings 501.

Through installing the power motor on the circular end plate 102 that is located the lower extreme, the swivel ring 501 that is located the lower extreme is transmitted to drive a plurality of guide plates 502 and rotate between drum outer tube 101 and a plurality of riser 202, thereby form the air movement in the guide plate 502 drive the vertical space that corresponds, thereby form the flow of the air in a plurality of vertical spaces, further form the heat dissipation to processing module and a plurality of storage module, improve radiating efficiency.

Claims

1. A server combination system, characterized by: the device comprises a processing module for processing data and a storage module for storing the data, wherein the processing module and the storage module are arranged in a supporting device, and the supporting device can uniformly dissipate heat of the processing module and the storage modules.

2. A server combination according to claim 1, wherein: the storage module is provided with a plurality of storage modules.

3. A server combination according to claim 2, wherein: a plurality of memory modules are vertically arranged in a row in the supporting device.

4. A server combination according to claim 1, wherein: the processing module is connected with the plurality of storage modules, and the plurality of storage modules simultaneously store the data processed by the processing module.

5. A server combination according to claim 1, wherein: the system also comprises a data receiving module for receiving the data and transmitting the data to the processing module.

6. A server hosting system as described in claim 5 wherein: the data receiving module receives data through a wireless network.

7. A server combination according to claim 1, wherein: the terminal also comprises a data sending module which is used for sending the data processed by the processing module to the terminal.

8. The server farm according to claim 7, wherein: the data transmission module transmits data through a wireless network.

9. A server hosting system as described in claim 3 wherein: the supporting device comprises a middle pipe (201) and a plurality of vertical plates (202) which are circumferentially and uniformly fixed outside the middle pipe (201), wherein the outside of the middle pipe (201) is uniformly divided into a plurality of vertical spaces, one of the vertical spaces is used for placing a processing module, a plurality of supporting plates (204) are uniformly fixed in the rest of the plurality of vertical spaces, each vertical space is uniformly separated, and a plurality of partitions for placing a storage module are formed.

10. A server combination according to claim 9, wherein: fans are respectively arranged at two ends of the middle pipe (201), and air holes communicated with the vertical space and the plurality of partitions are formed in the middle pipe (201).