CN211207268U

CN211207268U - High-performance modularized computer CPU heat radiation structure

Info

Publication number: CN211207268U
Application number: CN201922181783.9U
Authority: CN
Inventors: 王静婷
Original assignee: Xian Fanyi University
Current assignee: Xian Fanyi University
Priority date: 2019-12-07
Filing date: 2019-12-07
Publication date: 2020-08-07
Anticipated expiration: 2029-12-07

Abstract

The utility model belongs to the CPU heat dissipation field, in particular to a high-performance modularized computer CPU heat dissipation structure, which comprises a casing, a fan arranged on the casing, and a fan blade arranged on the fan, wherein the outer side wall of the casing is positioned at one side of the fan blade and penetrates into the casing, a sleeve is fixedly arranged on the outer sleeve of the fan blade, and the sleeve is rotationally connected with the fan; the fan drives the fan blade to rotate to radiate heat of a CPU (central processing unit) installed on the installation plate when in work, the fan blade can drive the blades to synchronously rotate through the sleeve while rotating, the blades are conveyed outwards through the through holes by rotating wind power and are sprayed out of the fan housing, so that lint is not easy to enter the shell from the fan housing to cause blockage, the plugboard is pulled to separate the plugboard from the fixed plate, the radiating fins are pushed and move along the slots until the radiating fins are separated from the installation plate, and the radiating fins can be taken down conveniently by people and can be cleaned.

Description

High-performance modularized computer CPU heat radiation structure

Technical Field

The utility model relates to a CPU heat dissipation field especially relates to a high performance modularization computer CPU heat radiation structure.

Background

The CPU is named as a central processing unit, is used as an operation and control core of a computer system, is a final execution unit for information processing and program operation, is greatly developed on the aspects of logic structure, operation efficiency and function extension since the CPU is generated, in order to ensure the normal operation of the CPU, a heat dissipation mechanism is mostly arranged on the CPU for heat dissipation operation, the heat dissipation mode of the CPU at present mainly comprises forced air cooling heat dissipation or heat dissipation of a heat dissipation fin, in order to ensure the ventilation of the CPU, air holes are mostly arranged on the periphery of a machine shell, so that external dust and lint are easy to enter the machine shell through the air holes, the air holes are blocked, the heat dissipation efficiency is influenced, and most of the heat dissipation fins are integrally designed on the machine shell, so that people are not easy to clean the heat dissipation fins when dust exists between the heat dissipation fins, and the use is influenced.

In order to solve the above problems, the present application provides a high performance modular computer CPU heat dissipation structure.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides a high performance modularization computer CPU heat radiation structure has and avoids the cotton wool to block up, conveniently carries out clear characteristics to the fin.

(II) technical scheme

In order to solve the problems, the utility model provides a high-performance modularized computer CPU heat radiation structure, which comprises a casing, a fan arranged on the casing, and a fan blade arranged on the fan, wherein the outer side wall of the casing is positioned at one side of the fan blade and penetrates into the casing, a sleeve is fixedly arranged outside the fan blade, the sleeve is rotationally connected with the fan, a plurality of paddles are welded on the outer side wall of the sleeve, a plurality of groups of through holes are symmetrically arranged on the outer side wall of the casing, a fan cover is arranged outside the through holes, the fan cover is fixedly welded with the casing, a mounting plate is fixedly arranged in the casing, a plurality of radiating fins are arranged on the outer side wall of the mounting plate, the radiating fins are slidably connected with the mounting plate, inserting plates are symmetrically arranged on the two sides of the plurality of radiating, the fixed plate is fixedly connected with the mounting plate.

Preferably, the outer side wall of the fan blade is clamped and connected with the inner wall of the sleeve.

Preferably, the through hole and the paddle are in the same horizontal plane.

Preferably, the fan housing is of an arc-shaped structure, one side, away from the casing, of the fan housing is in an open shape and extends downwards, and a filter screen is welded on the inner wall of the fan housing.

Preferably, the joint of the mounting plate and the radiating fin is provided with a slot, the radiating fin is embedded into the slot and is in sliding connection with the slot, and the length of the joint of the slot and the radiating fin is equal.

Preferably, the connecting position of the fixing plate and the inserting plate is designed to be concave, and the inserting plate is embedded into the fixing plate and is in sliding connection with the fixing plate.

The above technical scheme of the utility model has following profitable technological effect:

the fan drives the fan blade to rotate to radiate heat of a CPU (central processing unit) installed on the installation plate when in work, the fan blade can drive the blades to synchronously rotate through the sleeve while rotating, the blades are conveyed outwards through the through holes by rotating wind power and are sprayed out of the fan housing, so that lint is not easy to enter the shell from the fan housing to cause blockage, the plugboard is pulled to separate the plugboard from the fixed plate, the radiating fins are pushed and move along the slots until the radiating fins are separated from the installation plate, and the radiating fins can be taken down conveniently by people and can be cleaned.

Drawings

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

fig. 2 is a schematic structural view between the intermediate air blower and the blades of the present invention;

fig. 3 is a schematic structural view between the middle casing and the fan of the present invention;

fig. 4 is a schematic structural diagram between the mounting plate and the heat sink in the present invention.

Reference numerals:

1. a housing; 2. a fan; 3. a fan blade; 4. a sleeve; 5. a paddle; 6. mounting a plate; 7. a heat sink; 8. filtering with a screen; 9. a fan housing; 10. a through hole; 11. a slot; 12. a fixing plate; 13. and (4) inserting plates.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-4, the present invention provides a high performance modular computer CPU heat dissipation structure, which comprises a casing 1, a fan 2 installed on the casing 1, and install fan blade 3 on fan 2, one side that casing 1 lateral wall is located fan blade 3 runs through to casing 1 in, the fixed sleeve pipe 4 that is equipped with of 3 overcoat of fan blade, sleeve pipe 4 rotates with fan 2 to be connected, the lateral wall welding of sleeve pipe 4 has a plurality of paddles 5, multiunit through-hole 10 has been seted up to the lateral wall symmetry of casing 1, through-hole 10 is equipped with fan housing 9 outward, fan housing 9 and casing 1 welded fastening, casing 1 internal fixation is equipped with mounting panel 6, the lateral wall of mounting panel 6 is equipped with a plurality of fin 7,

fin

7 and 6 sliding connection of mounting panel, the bilateral symmetry that mounting panel 6 lateral wall is located a plurality of fin 7 is equipped with picture peg 13, the both sides cover of picture peg 13.

The utility model discloses in, fan 2 drives 3 rotations of fan blade to dispel the heat to the CPU of installing on mounting panel 6 at the during operation, fan blade 3 is when rotating, fan blade 3 can drive paddle 5 through sleeve pipe 4 and carry out synchronous revolution, paddle 5 passes through the outside transport of through-hole 10 through rotatory wind-force, and from the blowout of fan housing 9, make the fine hair wadding be difficult for getting into casing 1 from in the fan housing 9 and cause the jam, pulling picture peg 13, with picture peg 13 and fixed plate 12 separation, promote fin 7, fin 7 removes until fin 7 and mounting panel 6 separation along slot 11, make things convenient for people to take off fin 7, and clean the operation to fin 7.

It should be noted that the fan 2 is supported by electric power through an external power supply, so as to provide power for the rotation of the fan blades 3.

Fig. 2 is a schematic structural view between the midfan 2 and the blade 5 of the present invention;

fig. 3 is a schematic structural diagram between the middle casing 1 and the fan 2 of the present invention;

as shown in fig. 2 and 3, the outer side wall of the fan blade 3 is clamped and connected with the inner wall of the sleeve 4.

As shown in fig. 3, the through-hole 10 is in the same horizontal plane as the blade 5.

As shown in fig. 3, the fan housing 9 is an arc-shaped structure, and one side of the fan housing 9 away from the casing 1 is open and extends downward, and the filter screen 8 is welded to the inner wall of the fan housing 9.

It should be noted that, because through-hole 10 is in the same horizontal plane with paddle 5, make paddle 5 conveniently pass through-hole 10 through rotatory wind-force and outwards carry, because fan housing 9 is the arc structure, and one side that fan housing 9 kept away from casing 1 is the opening form to downwardly extending, the inner wall welding of fan housing 9 has filter screen 8, when making the difficult entering fan housing 9 of fine hair wadding, filter screen 8 can further stop the fine hair wadding, avoids through-hole 10 to block up, guarantees the radiating efficiency.

Fig. 4 is a schematic structural view between the mounting plate 6 and the heat sink 7 in the present invention;

as shown in fig. 4, a slot 11 is formed at a connection position of the mounting plate 6 and the heat sink 7, the heat sink 7 is inserted into the slot 11 and slidably connected with the slot 11, and the length of the connection position of the slot 11 and the heat sink 7 is equal.

As shown in fig. 4, the connection portion between the fixing plate 12 and the insertion plate 13 is designed to be concave, and the insertion plate 13 is embedded in the fixing plate 12 and slidably connected to the fixing plate 12.

It should be noted that, because the connecting portion between the mounting plate 6 and the heat sink 7 is provided with the slot 11, the heat sink 7 is embedded in the slot 11 and is slidably connected to the slot 11, and the length of the connecting portion between the slot 11 and the heat sink 7 is equal, people can push the heat sink 7 to move the heat sink 7 along the slot 11 until the heat sink 7 is separated from the mounting plate 6, so as to facilitate people to take down the heat sink 7 and clean the heat sink 7, and because the connecting portion between the fixing plate 12 and the inserting plate 13 is designed to be concave, the inserting plate 13 is embedded in the fixing plate 12 and is slidably connected to the fixing plate 12, people can push the inserting plate 13 to a proper position, so that the inserting plate 13 blocks the slot 11, thereby fixing the heat sink 7 and preventing the heat sink 7 from slipping out of the slot 11, so.

The utility model discloses a theory of operation and use flow: the fan 2 drives the fan blade 3 to rotate to radiate heat of a CPU arranged on the mounting plate 6 when in work, the fan blade 3 can drive the paddle 5 to synchronously rotate through the sleeve 4 when the fan blade 3 rotates, the paddle 5 is conveniently conveyed outwards through the through hole 10 by the rotating wind power because the through hole 10 and the paddle 5 are positioned on the same horizontal plane, the fan cover 9 is of an arc structure, one side of the fan cover 9, which is far away from the shell 1, is open and extends downwards, the filter screen 8 is welded on the inner wall of the fan cover 9, the filter screen 8 can further block the lint when the lint is not easy to enter the fan cover 9, the blockage of the through hole 10 is avoided, the radiating efficiency is ensured, the slot 11 is arranged at the joint of the mounting plate 6 and the radiating fin 7, the radiating fin 7 is embedded into the slot 11 and is connected with the slot 11 in a sliding way, the length of the joint, the heat radiating fin 7 is moved along the slot 11 until the heat radiating fin 7 is separated from the mounting plate 6, the heat radiating fin 7 can be taken down conveniently by people, the heat radiating fin 7 is cleaned, the connecting part of the fixing plate 12 and the inserting plate 13 is designed to be concave, the inserting plate 13 is embedded into the fixing plate 12 and is in sliding connection with the fixing plate 12, the inserting plate 13 can be pushed to a proper position by people, the inserting plate 13 is used for plugging the slot 11, the heat radiating fin 7 is fixed, the heat radiating fin 7 is prevented from sliding out of the slot 11, and the heat radiating fin 7 is convenient to perform heat radiating operation.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims

1. The utility model provides a high performance modularization computer CPU heat radiation structure, its characterized in that, includes casing (1), installs fan (2) on casing (1), and installs fan blade (3) on fan (2), casing (1) lateral wall is located one side of fan blade (3) runs through to in casing (1), the fixed sleeve pipe (4) that is equipped with of fan blade (3) overcoat, sleeve pipe (4) with fan (2) rotate to be connected, the lateral wall welding of sleeve pipe (4) has a plurality of paddle (5), multiunit through-hole (10) have been seted up to the lateral wall symmetry of casing (1), through-hole (10) are equipped with fan housing (9) outward, fan housing (9) with casing (1) welded fastening, casing (1) internal fixation is equipped with mounting panel (6), the lateral wall of mounting panel (6) is equipped with a plurality of fin (7), fin (7) with mounting panel (6) sliding connection, mounting panel (6) lateral wall is located a plurality of the bilateral symmetry of fin (7) is equipped with picture peg (13), the both sides cover of picture peg (13) is equipped with fixed plate (12), fixed plate (12) with mounting panel (6) fixed connection.

2. The CPU heat dissipation structure of a high performance modular computer as claimed in claim 1, wherein the outer sidewall of the fan blade (3) is fastened and connected with the inner wall of the casing (4).

3. A high performance modular computer CPU heat sink structure as claimed in claim 1, characterized in that said through hole (10) is level with said paddle (5).

4. The CPU heat dissipation structure of a high performance modular computer as claimed in claim 1, wherein the fan housing (9) is an arc-shaped structure, and one side of the fan housing (9) away from the casing (1) is open and extends downward, and the filter screen (8) is welded to the inner wall of the fan housing (9).

5. The CPU heat dissipation structure of a high performance modular computer as claimed in claim 1, wherein a slot (11) is opened at a connection position of the mounting plate (6) and the heat sink (7), the heat sink (7) is embedded into the slot (11) and slidably connected with the slot (11), and a length of a connection position of the slot (11) and the heat sink (7) is equal.

6. A high performance modular computer CPU heat sink structure as claimed in claim 1, wherein the connection between the fixing plate (12) and the plug-in board (13) is designed to be concave, and the plug-in board (13) is embedded in the fixing plate (12) and slidably connected to the fixing plate (12).