CN204288103U - For the external air-cooled radiator of notebook computer - Google Patents

Abstract

The utility model discloses a kind of external air-cooled radiator for notebook computer, comprise motor, contact chip, heat transfer block, fan and cooling mechanism, described heat transfer block is connected with one end of multiple described contact chip respectively, the other end of multiple described contact chip is placed in the louvre of notebook computer, and contact with the multiple described heat radiator of notebook computer respectively, described heat transfer block is also connected with described cooling mechanism, described fan is arranged on the top of described cooling mechanism, and described motor drives described fan.The utility model is a kind of external air-cooled radiator for notebook computer, contact with the multiple heat radiator in notebook computer by adopting multiple contact chip, heat is delivered to contact chip, contact chip by heat by being delivered to cooling mechanism after heat transfer block, cooling mechanism dispels the heat, and fan blowing accelerates the heat radiation of cooling mechanism, improves radiating efficiency, the utility model is external in notebook computer, the heat that notebook computer produces better can be transmitted and distribute.

Description

For the external air-cooled radiator of notebook computer

Technical field

The utility model relates to a kind of heating radiator, particularly relates to a kind of external air-cooled radiator for notebook computer.

Background technology

Integrated circuit is used in a large number in machine element.As everyone knows, high temperature is the formidable enemy of integrated circuit.High temperature not only can cause system cloud gray model unstable, and serviceable life shortens, and even likely makes some parts burn.The heat of high temperature is caused not to be from outside computing machine, but computer-internal, or perhaps IC interior.The effect of heating radiator is exactly by these heat absorption, then diffuses in cabinet or outside cabinet, ensures that the temperature of machine element is normal.Most heating radiator passes through and heat generating components surface contact, absorbs heat, then is delivered at a distance by heat by various method, and in the air in such as cabinet, then these hot-airs pass to outside cabinet by cabinet, complete the heat radiation of computing machine.The kind of heating radiator is very many, and CPU, video card, board chip set, hard disk, cabinet, power supply even CD-ROM drive and internal memory all can need heating radiator, and these different heating radiators can not be used with, and what wherein the most often contact is exactly the heating radiator of CPU.According to the mode taking away heat from heating radiator, heating radiator can be divided into active heat removal and passive heat radiation.The former is air-cooled radiator commonly, and the latter common be exactly heat radiator.Further finely divided hot mode, can be divided into air-cooled, heat pipe, liquid cooling, semiconductor refrigerating, compressor cooling etc.

The heat-sinking capability often comparing and rely on heating radiator itself to carry waited in use by traditional notebook computer, namely dispelled the heat by multiple heat radiator of notebook computer, and the heat radiator that these carry is all the inside being arranged on notebook computer, do not contact fully with external environment, so a good radiating effect can not be played, so need now a kind of a kind of heating radiator that can be connected on multiple heat radiator of notebook computer better to dispel the heat to notebook computer outward.

Utility model content

The purpose of this utility model provides a kind of external air-cooled radiator for notebook computer.

The utility model is achieved through the following technical solutions:

A kind of external air-cooled radiator for notebook computer, comprise motor, contact chip, heat transfer block, fan and cooling mechanism, described heat transfer block is connected with one end of multiple described contact chip respectively, the other end of multiple described contact chip is placed in the louvre of notebook computer, and contact with the multiple described heat radiator of notebook computer respectively, described heat transfer block is also connected with described cooling mechanism, and described fan is arranged on the top of described cooling mechanism, and described motor drives described fan.

Contact with the multiple heat radiator in notebook computer by adopting multiple contact chip, heat is delivered to contact chip, and contact chip is by heat by being delivered to cooling mechanism after heat transfer block, and cooling mechanism dispels the heat, fan blowing accelerates the heat radiation of cooling mechanism, improves radiating efficiency.

Particularly, described cooling mechanism comprises multiple heat radiation thin slice and axis, and one end of described axis is connected with described heat transfer block, and the side of described axis is connected with multiple described heat radiation thin slice, and multiple described heat radiation thin slice is emitting shape distribution around described axis.

Contacting with air of the multiple heat radiation thin slice energy maximum area distributed around axis in emitting shape, can better dispel the heat.

Further, multiple described contact chip is copper sheet.

Further, described heat transfer block is rectangular parallelepiped copper billet.

The heat that contact chip adopts copper sheet, heat transfer block to adopt copper billet that notebook computer can be enable to produce better transmits.

Further, described axis is aluminium axle, and multiple described heat radiation thin slice is aluminium flake.

Heat radiation thin slice adopts aluminium flake that radiating efficiency can be made to maximize.

The beneficial effects of the utility model are:

The utility model is a kind of external air-cooled radiator for notebook computer, contact with the multiple heat radiator in notebook computer by adopting multiple contact chip, heat is delivered to contact chip, contact chip by heat by being delivered to cooling mechanism after heat transfer block, cooling mechanism dispels the heat, and fan blowing accelerates the heat radiation of cooling mechanism, improves radiating efficiency, the utility model is external in notebook computer, the heat that notebook computer produces better can be transmitted and distribute.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model for the external air-cooled radiator of notebook computer.

In figure: 1-axis, 2-dispels the heat thin slice, 3-heat transfer block, 4-contact chip, 5-motor, 6-fan.

Embodiment

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail:

As shown in Figure 1, the utility model is a kind of external air-cooled radiator for notebook computer, comprise motor 5, contact chip 4, heat transfer block 3, fan 6 and cooling mechanism, heat transfer block 3 is connected with one end of multiple contact chip 4 respectively, the other end of multiple contact chip 4 is placed in the louvre of notebook computer, and contacts with multiple heat radiator 4 of notebook computer respectively, and heat transfer block 3 is also connected with cooling mechanism, fan 5 is arranged on the top of cooling mechanism, motor 5 drive fan 6.

By adopting multiple contact chip 4 to contact with the multiple heat radiator in notebook computer, heat is delivered to contact chip 4, contact chip 4 is by heat by being delivered to cooling mechanism after heat transfer block 3, and cooling mechanism dispels the heat.Contacting with air in emitting shape around multiple heat radiation thin slices 2 energy maximum area of axis 1 distribution, can better dispel the heat, and fan 6 blowing accelerates the heat radiation of cooling mechanism, improves radiating efficiency.

Multiple contact chip 4 is copper sheet.Heat transfer block 3 is rectangular parallelepiped copper billet.Axis 1 is aluminium axle, and multiple heat radiation thin slice 2 is aluminium flake.The heat that contact chip 4 adopts copper sheet, heat transfer block 3 adopts copper billet that notebook computer can be enable to produce better transmits.Heat radiation thin slice 2 adopts aluminium flake that radiating efficiency can be made to maximize.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., be all included within protection scope of the present invention.

Claims (5)

1. the external air-cooled radiator for notebook computer, comprise motor, it is characterized in that: also comprise contact chip, heat transfer block, fan and cooling mechanism, described heat transfer block is connected with one end of multiple described contact chip respectively, the other end of multiple described contact chip is placed in the louvre of notebook computer, and contact with the multiple described heat radiator of notebook computer respectively, described heat transfer block is also connected with described cooling mechanism, described fan is arranged on the top of described cooling mechanism, and described motor drives described fan.

2. the external air-cooled radiator for notebook computer according to claim 1, it is characterized in that: described cooling mechanism comprises multiple heat radiation thin slice and axis, one end of described axis is connected with described heat transfer block, the side of described axis is connected with multiple described heat radiation thin slice, and multiple described heat radiation thin slice is emitting shape distribution around described axis.

3. the external air-cooled radiator for notebook computer according to claim 1, is characterized in that: multiple described contact chip is copper sheet.

4. the external air-cooled radiator for notebook computer according to claim 1, is characterized in that: described heat transfer block is rectangular parallelepiped copper billet.

5. the external air-cooled radiator for notebook computer according to claim 2, is characterized in that: described axis is copper axle, multiple described heat radiation thin slice is aluminium flake.