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Pole-shaped radiator with thermal fin

A heat sink and heat sink technology, which is applied in the direction of heat exchanger types, indirect heat exchangers, tubular elements, etc., can solve the problems of unsatisfactory heat dissipation power, large volume, waste, etc.

Active Publication Date: 2008-06-25
黄崇贤
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Conventional small heat sinks also have a plurality of cooling plates arranged in parallel at intervals directly on the base, and use the base to guide the crystal heat source through the plurality of parallel cooling plates to achieve the purpose of heat dissipation. The heat dissipation power of this type of radiator is relatively low low, often can not meet the actual required cooling power; another conventional radiator with heat pipe, its cooling power is strong, large volume and complex structure, so the cost is high, so if the heat pipe radiator is used to a low Crystals that meet the heat dissipation power requirements appear to be oversupplied and unsuitable, and instead cause unnecessary waste and are uneconomical. Therefore, the best heat sink design should refer to a heat sink that can meet the actual heat dissipation demand, whether it is too good or not. suitable

Method used

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  • Pole-shaped radiator with thermal fin
  • Pole-shaped radiator with thermal fin
  • Pole-shaped radiator with thermal fin

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Embodiment Construction

[0048] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.

[0049] As shown in Figures 1 and 2, the design of the present invention is a "columnar radiator with cooling fins", which mainly includes a base 1 and a plurality of cooling fins 2, wherein:

[0050] The base 1 is a metal base with good thermal conductivity (such as aluminum or copper metal, commonly known as aluminum base or copper base). Columns 11, each heat dissipation column 11 can be arranged in regular or irregular adjacent intervals, and the heat dissipation columns 11 shown in the embodiment figure are arranged in a regular matrix form;

[0051] A plurality of cooling fins 2 have a plurality of openings 21 corresponding to the above-mentioned cooling columns 11, so that the openings 21 can fit into the cooling columns 11 and combine with the base 1, and utilize the tightness between the openings 21 and the cooling columns 11. Matching...

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Abstract

The invention relates to a columnar radiator design with radiating fins and comprises a base and a plurality of radiating fins; in particular the head face of the base is provided with a plurality of radiating columns with integrated and vertical extension shapes; each radiating fin is provided with a plurality of openings which are closely matched with and corresponds to the radiating columns in order that the radiating fins in sequence and match are sleeved on the radiating columns of the base to form an alternate, adjacent and matched combination; the radiating columns of the base and the openings of the radiating fins can implement various corresponding shapes; the root part or the top part of the radiating column can be of chamfer shape; the base and a radiating fin system can be configured with a set of fans or can be combined with thermotubes to strength the rapid radiating function of the radiator.

Description

technical field [0001] The present invention provides a design of a columnar radiator with cooling fins, especially a plurality of cooling columns integrally formed on the end surface of the base and the corresponding openings of the cooling fins are directly tightly matched and combined, or a fan is reconfigured, or a heat pipe is combined to achieve Increase the cooling power of the radiator. Background technique [0002] Conventional heat sinks are mainly composed of a heat sink module composed of multiple heat sinks combined with a base, or combined with heat pipes according to the needs of high heat dissipation power. The heat sink or base is usually made of aluminum or copper metal. The heat sink module is composed of a plurality of heat sinks that are stacked and arranged adjacent to each other at intervals. The base can guide the crystal heat source to pass through the plurality of heat sinks to achieve the heat dissipation function. [0003] Conventional small heat...

Claims

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Application Information

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IPC IPC(8): F28D1/053F28F1/30
Inventor 黄崇贤
Owner 黄崇贤
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