CN216596110U

CN216596110U - Display card air-cooling heat dissipation device based on vapor chamber and turbofan

Info

Publication number: CN216596110U
Application number: CN202122934211.0U
Authority: CN
Inventors: 吴秀兰; 熊锦
Original assignee: Shenzhen Colorful Co ltd
Current assignee: Shenzhen Colorful Co ltd
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-05-24
Anticipated expiration: 2031-11-26

Abstract

The utility model provides a display card air-cooling heat dissipation device based on a soaking plate and a turbofan, which comprises: the device comprises an upper cover, a turbofan assembly and a soaking plate assembly, wherein the turbofan assembly is arranged at one end below the upper cover, and the soaking plate assembly is arranged at the other end below the upper cover; the turbofan assembly comprises a first turbofan and a second turbofan, the first turbofan and the second turbofan are adjacently arranged at the same end of the display card air-cooling heat dissipation device, and the upper cover is provided with a fan opening corresponding to the position of the turbofan assembly. The utility model utilizes the optimized design of the space structure, effectively reduces the thermal resistance, greatly improves the air-cooled heat dissipation effect of the display card, can effectively improve the heat dissipation efficiency in a limited space, and provides a good foundation for upgrading and optimizing the performance of products.

Description

Display card air-cooling heat dissipation device based on vapor chamber and turbofan

Technical Field

The utility model relates to an air-cooled heat dissipation device, in particular to a display card air-cooled heat dissipation device based on a vapor chamber and a turbofan.

Background

The display card is the indispensable component in the computer, and is also higher to the heat dissipation requirement, but in the heat dissipation scheme of current display card, under limited space and restrictive condition, its heat dissipation power reaches the bottleneck very easily, and then can not satisfy the display card heat dissipation demand of high performance, or, realizes the promotion of radiating effect through a plurality of fan stacks, but this kind of scheme obviously can increase the height of product, is unfavorable for the miniaturized design of product.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an air-cooled heat dissipation device for a display card, which can reasonably improve the heat dissipation efficiency in a limited space.

In view of the above, the present invention provides a graphics card air-cooled heat dissipation device based on a vapor chamber and a turbofan, comprising: the device comprises an upper cover, a turbofan assembly and a soaking plate assembly, wherein the turbofan assembly is arranged at one end below the upper cover, and the soaking plate assembly is arranged at the other end below the upper cover; the turbofan assembly comprises a first turbofan and a second turbofan, the first turbofan and the second turbofan are adjacently arranged at the same end of the display card air-cooling heat dissipation device, and the upper cover is provided with a fan opening corresponding to the position of the turbofan assembly.

In a further development of the utility model, the turbofan assembly further comprises a middle bulkhead, which is arranged between the first and second turbo fans.

The utility model is further improved in that the turbofan assembly further comprises a fan wind scooper, and the first turbofan is arranged below the middle partition plate through the fan wind scooper.

The utility model is further improved in that the first turbine fan is sleeved on the inner side of the fan wind scooper, and a connecting piece is arranged on the outer side of the fan wind scooper.

The utility model is further improved in that the fan wind scooper is connected with the middle clapboard through the connecting piece.

The utility model is further improved in that the vapor chamber assembly comprises a mounting bracket, a vapor chamber and a heat pipe, wherein the vapor chamber and the heat pipe are vertically arranged on one side of the turbofan assembly through the mounting bracket.

The utility model is further improved in that one end of the mounting bracket, which is far away from the turbofan component, is provided with a bent fixing part, and the bent fixing part is provided with a U-shaped clamping groove.

The utility model is further improved in that a mounting strip is arranged at a position, close to the side wall of the upper cover, of the soaking plate assembly, the mounting strip is arranged above the soaking plate, and the mounting strip and the side wall of the upper cover are detachably mounted.

The utility model is further improved in that a position avoiding groove is arranged below the side wall of the upper cover, and the position of the position avoiding groove corresponds to the position of the mounting bracket.

The utility model has the further improvement that the vapor chamber further comprises heat dissipation fins which are arranged beside the vapor chamber component.

Compared with the prior art, the utility model has the beneficial effects that: the first turbo fan and the second turbo fan are adjacently arranged at the same end of the air-cooled heat dissipation device, the soaking plate assembly is arranged at the other end below the upper cover, and therefore the heat resistance is effectively reduced and the air-cooled heat dissipation effect of the display card is greatly improved by means of the optimized design of the space structure.

Drawings

FIG. 1 is a schematic illustration of an explosive structure according to one embodiment of the present invention;

FIG. 2 is a schematic illustration of an exploded view of an embodiment of the present invention from another angle;

fig. 3 is a schematic structural view of a soaking plate assembly according to an embodiment of the present invention.

Detailed Description

Preferred embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 to 3, the present embodiment provides a graphics card air-cooled heat dissipation device based on a vapor chamber and a turbofan, comprising: the device comprises an upper cover 1, a turbofan component 2 and a vapor chamber component 3, wherein the turbofan component 2 is arranged at one end below the upper cover 1, and the vapor chamber component 3 is arranged at the other end below the upper cover 1; turbofan assembly 2 includes first turbofan 201 and second turbofan 202, first turbofan 201 and second turbofan 202 adjacent set up in same one end of display card air-cooled heat abstractor, upper cover 1 be provided with turbofan assembly 2's the corresponding fan mouth 101 in position.

The upper cover 1 refers to a cover body on the display card air-cooling heat dissipation device. First turbofan 201 and second turbofan 202 in turbofan subassembly 2 preferably set up back to back in same one end of display card air-cooled heat abstractor, just first turbofan 201 and second turbofan 202's fan runner direction preferred is same direction, upper cover 1 is provided with turbofan subassembly 2's position corresponding fan mouth 101 to provide turbofan's wind gap, the provision of the maximum amount of wind can be realized effectively to this example, reaches best radiating effect under equal space condition. The soaking plate component 3 comprises a soaking plate, such as a 3D VC (3D soaking plate), and can further reduce the thermal conduction resistance on the basis of combining with the turbofan component 2, thereby more effectively improving the heat dissipation efficiency.

As shown in fig. 1 and 2, the turbofan assembly 2 of the present embodiment further includes a middle partition 203, and the middle partition 203 is disposed between the first turbofan 201 and the second turbofan 202. The arrangement of the middle partition plate 203 not only can better realize the installation of the first turbo fan 201 and the second turbo fan 202, but also can effectively improve the structural stability of the turbofan assembly 2, play a role in supporting and reinforcing the structure in the middle, improve the stability of the product, and reasonably reduce the noise.

As shown in fig. 1 and 2, the turbofan assembly 2 of the present embodiment further includes a fan wind scooper 204, and the first turbofan 201 is disposed below the middle partition 203 through the fan wind scooper 204. The first turbine fan 201 is preferably sleeved on the inner side of the fan air guiding cover 204, a connecting piece 205 is arranged on the outer side of the fan air guiding cover 204, and the fan air guiding cover 204 is connected with the middle partition plate 203 through the connecting piece 205. The fan wind scooper 204 can play a role in guiding the flow direction of wind power, so that the heat dissipation efficiency is improved; on this basis, the fan wind scooper 204 is connected with the middle partition plate 203 through a connecting piece 205, and the connecting piece 205 can be a connecting component such as a positioning column, so that the stability of the product can be further improved, and the noise is effectively reduced.

As shown in fig. 2 and 3, the soaking plate assembly 3 of the present embodiment includes a mounting bracket 301, a soaking plate 302 and a heat pipe 303, wherein the soaking plate 302 and the heat pipe 303 are vertically arranged on one side of the turbofan assembly 2 through the mounting bracket 301, and the soaking plate 302 and the heat pipe 303 are vertically arranged, so that the vertical space beside the turbofan assembly 2 can be fully utilized to realize the installation of the soaking plate assembly 3, and the overall structural design can be optimized efficiently and reasonably. Therefore, the heat dissipation fins 4 can be arranged by utilizing the position beside the soaking plate assembly 3, and the heat dissipation efficiency is further improved; the heat dissipation fins 4 are preferably mounted through fin brackets 5 (such as iron sheet, etc.), and the structure is simple and reliable.

As shown in fig. 2 and 3, in this embodiment, a bent fixing portion 304 is disposed at an end of the mounting bracket 301 away from the turbofan component 2, and a U-shaped slot 305 is disposed on the bent fixing portion 304, so that the mounting and the dismounting are conveniently and quickly achieved, and the subsequent maintenance is also facilitated. The position that soaking board subassembly 3 is close to 1 lateral wall of upper cover is provided with mounting bar 306, mounting bar 306 set up in the top of soaking board 302, mounting bar 306 with the detachable installation of the lateral wall of upper cover 1, such design also can make soaking board subassembly 3's installation and dismantlement are more simple and convenient high-efficient, simultaneously, have also increased the stability of structure can not appear insecure scheduling problem because of the high-speed operation of fan, and the reliability is high.

In this embodiment, the avoiding groove 102 is formed below the side wall of the upper cover 1, and the avoiding groove 102 refers to a stepped empty groove for avoiding the installation bracket 301, so that the avoiding groove 102 corresponds to the installation bracket 301, and the installation bracket 301 can be installed by fully utilizing the position below the side wall of the upper cover 1 without changing the overall size.

In summary, in the present embodiment, the first turbo fan 201 and the second turbo fan 202 are adjacently disposed at the same end of the air-cooled heat dissipation device, and the vapor chamber component 3 is disposed at the other end of the lower portion of the upper cover 1, so that the optimal design of the space structure is utilized, the thermal resistance is effectively reduced, the air-cooled heat dissipation effect of the graphics card is greatly improved, the heat dissipation efficiency of the graphics card can be effectively improved in a limited space, and a good foundation is provided for upgrading and performance optimization of the product.

The above-mentioned embodiments are preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, and the equivalent changes in shape and structure according to the present invention are within the protection scope of the present invention.

Claims

1. The utility model provides a display card forced air cooling heat abstractor based on soaking board and turbofan which characterized in that includes: the device comprises an upper cover, a turbofan assembly and a soaking plate assembly, wherein the turbofan assembly is arranged at one end below the upper cover, and the soaking plate assembly is arranged at the other end below the upper cover; the turbofan assembly comprises a first turbofan and a second turbofan, the first turbofan and the second turbofan are adjacently arranged at the same end of the display card air-cooling heat dissipation device, and the upper cover is provided with a fan opening corresponding to the position of the turbofan assembly.

2. The heat spreader and turbofan based graphics card air cooled heat sink of claim 1 wherein the turbofan assembly further comprises a median septum disposed between the first and second turbo fans.

3. The soaking plate and turbofan based graphics card air-cooled heat dissipation device of claim 2, wherein the turbofan assembly further comprises a fan wind scooper, and the first turbofan is disposed below the middle partition plate through the fan wind scooper.

4. The soaking plate and turbofan-based graphics card air-cooled heat dissipation device of claim 3, wherein the first turbofan is sleeved inside the fan wind scooper, and a connector is arranged outside the fan wind scooper.

5. The soaking plate and turbofan based graphics card air-cooled heat dissipation device of claim 4, wherein the fan wind scooper is connected with the middle partition plate through the connecting piece.

6. The soaking plate and turbofan-based graphics card air-cooled heat dissipation device according to any one of claims 1 to 5, wherein the soaking plate assembly comprises a mounting bracket, a soaking plate and a heat pipe, and the soaking plate and the heat pipe are vertically arranged on one side of the turbofan assembly through the mounting bracket.

7. The soaking plate and turbofan-based graphics card air-cooled heat dissipation device of claim 6, wherein one end of the mounting bracket away from the turbofan assembly is provided with a bent fixing portion, and the bent fixing portion is provided with a U-shaped clamping groove.

8. The video card air-cooled heat dissipation device based on soaking plates and turbofan according to claim 6, wherein mounting bars are arranged at positions of the soaking plate assembly close to the side walls of the upper cover, the mounting bars are arranged above the soaking plates, and the mounting bars are detachably mounted on the side walls of the upper cover.

9. The soaking plate and turbofan-based display card air-cooled heat dissipation device as recited in claim 6, wherein a position avoiding groove is arranged below the side wall of the upper cover, and the position of the position avoiding groove corresponds to the position of the mounting bracket.

10. The video card air-cooled heat dissipation device based on the soaking plate and the turbofan according to any one of claims 1 to 5, further comprising heat dissipation fins disposed beside the soaking plate assembly.