CN205213245U - Segmentation fin radiator - Google Patents

Abstract

The utility model is suitable for a microelectronics technical field provides a segmentation fin radiator and has included radiating basal plate and radiating fin, radiating fin includes the segmentation fin of horizontal compartmentalize distance, the segmentation fin is more than or equal to two lines segmentation radiating fin including vertical the setting. The utility model discloses in when air admission segmentation fin is regional, the continuation that the thermal boundary layer of air on straight substrate has been broken off to the section gap forms, simultaneously, the department has the cold air to get into in the section gap, has promoted the fluidic to mix, has reduced the swirl dead area, has strengthened air and segmentation fin convective heat transfer process within a definite time, has improved the heat dispersion of radiator. Furthermore, the utility model discloses simple structure, manufacturing are easily, manufacturing cost is lower, the practicality is strong.

Description

A kind of segmentation fin radiator

Technical field

The utility model belongs to microelectronics technology, relates to a kind of heat abstractor adopting Air Forced Convection mode to cool, and particularly relates to a kind of segmentation fin radiator.

Background technology

Along with developing rapidly of electronic technology, power and the integrated level of electronic device increase substantially, the density of heat flow rate of power device constantly rises, and cause the stability of system and reliability to reduce problem and become increasingly conspicuous, heat radiation becomes the major obstacle that microelectronic industry further develops.

Due to cost and the requirement of reliability aspect, the Air Forced Convection type of cooling of fan and heat sink assembly is adopted to be widely used.But the direction of plain fin radiator owing to flowing along air used at present, air can make the concertedness of speed and temperature gradient be deteriorated by progressive additive in the boundary layer that fin surface is formed, thus heat transfer property can be made to decline.Be generally on the basis of plate fin in existing heat radiator fin patent, expansion heat transfer area, namely adopts fin slices radiator.Although this method can improve the heat exchange property of fin, process more difficult, manufacturing cost is high, and fluid flow resistance increase is also fairly obvious.

Electronic device high power, integrated development trend require that fansink designs will reduce air drag on the one hand, increase heat transfer property, reduce volume again on the other hand, reduce costs, and need to develop more efficient thermofin for this reason.

Summary of the invention

The utility model is for plate fin radiator the deficiencies in the prior art part, provides the segmentation fin radiator that a kind of radiating efficiency is high, cost is low.

For solving the problems of the technologies described above, the utility model proposes a kind of segmentation fin radiator, comprising heat-radiating substrate and radiating fin; Described radiating fin comprises the segmentation fin being laterally divided into spacing distance; Described segmentation fin comprises the segmentation radiating fin longitudinally arranging and be more than or equal to two row.

Described segmentation radiating fin uniform intervals is vertically arranged on heat-radiating substrate; The segmentation radiating fin of described segmentation radiating fin to be horizontal even partition be 2-5 section.

Described segmentation radiating fin transversal sectional is 4 sections, and the transversal sectional spacing distance of adjacent sectional radiating fin is 3mm.

The cross section of described segmentation radiating fin is rectangle; Each described segmentation radiating fin length is 29mm, and be highly 40mm, thickness is 4mm; The lengthwise rows spacing of described segmentation radiating fin is 10mm.

The technical solution of the utility model is achieved in that (1) designs several segmental structure fin; (2) set up the master pattern of segmental structure fin, and utilize COMSOL software to carry out numerical simulation, the difference of its temperature field of comparative analysis, velocity field and pressure field result and plate fin; (3) use MATLAB fuzzy reasoning tool box to carry out reliability assessment to straight and segmental structure fin radiator, draw their reliability; (4) according to temperature field, velocity field, pressure field and reliability assessment result, best fin structure parameter is determined.

In the utility model when air enters fin region, the continuation that section gap has interrupted the thermal boundary layer of air in flat substrate is formed, thus is thinned boundary layer; Meanwhile, there is cold air to enter at section gap place, facilitate the mixing of fluid, decrease whirlpool dead area, enhance the convective heat transfer process between air and fin, improve the heat dispersion of radiator.Further, the fin of square-section is easy to processing and installs, and be applicable to Mass production, production cost is also lower.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

1. heat-radiating substrate, 2. segmentation radiating fin.

Fig. 2 is the temperature field cloud atlas of the original fin of Z=0 section;

Z=0 cross section refers to the plane of heat-radiating substrate and segmentation fin contacts;

The temperature field cloud atlas of Fig. 3 to be Z=0 section segments be 4 fins;

Z=0 cross section refers to the plane of heat-radiating substrate and segmentation fin contacts;

Fig. 4 is the velocity field cloud atlas of the original fin of Z=0 section;

The velocity field cloud atlas of Fig. 5 to be Z=0 section segments be 4 fins;

Fig. 6 is the pressure field cloud atlas of the original fin of Z=0 section;

The pressure field cloud atlas of Fig. 7 to be Z=0 section segments be 4 fins;

The section gap place whirlpool figure of Fig. 8 to be segments be 4 fins;

The heat exchange coefficient comparison diagram of Fig. 9 to be original fin and segments be 2,3,4,5 fins;

In figure, discrete fin number is the original fin of 1 expression;

The thermal resistance comparison diagram of Figure 10 to be original fin and segments be 2,3,4,5 fins;

The pressure drop comparison diagram of Figure 11 to be original fin and segments be 2,3,4,5 fins.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Fig. 1 shows the structural representation of the segmentation fin radiator that the utility model embodiment provides.For convenience of explanation, illustrate only the part relevant to the utility model embodiment.

A kind of segmentation fin radiator, this radiator comprises heat-radiating substrate 1 and segmentation radiating fin 2.The heat-radiating substrate of segmentation radiating fin is rectangular shape, can adopt the Heat Conduction Material of such as aluminium or copper product.The segmentation radiating fin 2 adopting the Heat Conduction Material of such as aluminium or copper product to make is formed in heat-radiating substrate 1 one side.Wherein said segmentation radiating fin 2 is formed by the part that is cut cutting radiator blank, or by extruded heat sinks blank forming.Its feature is that the side-looking face of described each segmentation radiating fin 2 is straight line and each segmentation radiating fin 2 is erected on heat-radiating substrate 1.

Segmentation radiating fin 2 segments is 4, and adjacent sectional lateral separation is 3mm.

As the utility model embodiment one preferred version, the length of each rectangular section radiating fin 2 is 29mm, is highly 40mm, and thickness is 4mm, and adjacent longitudinal divisions radiating fin 2 line space is 10mm.

The heat that electronic chip produces mainly passes to segmentation radiating fin 2 in thermo-conducting manner by heat-radiating substrate 1, and heat is delivered to surrounding environment by the mode of Forced Convection Heat Transfer by segmentation radiating fin 2.When air enters fin region, the continuation that section gap has interrupted the thermal boundary layer of air in flat substrate is formed, and is thinned thermal boundary layer; Meanwhile, there is cold air to enter at spacer segment place, facilitate the mixing of fluid, decrease whirlpool dead area, enhance the convective heat transfer process between air and fin, improve the heat dispersion of radiator.

By adopting numerical simulation technology, respectively the calculating of heat transfer and resistance being carried out to general plate fin radiator and segmentation fin radiator, having drawn the following conclusions:

The temperature field cloud atlas of Fig. 2 and Fig. 3 to be the original fin of Z=0 section and segments be respectively 4 fins, as seen from the figure, segments is that the temperature of 4 fin radiators reduces a lot relative to original fin, and the amplitude that especially reduces at section gap place is comparatively large, because section gap place has cold air to enter.

The velocity field cloud atlas of Fig. 4 and Fig. 5 to be the original fin of Z=0 section and segments be respectively 4 fins, as seen from the figure, segments is that 4 fin radiator speed increase relative to original fin, especially comparatively large in the speed of section gap place optimized fin radiator, illustrate that segmentation fin facilitates the flowing of surrounding air.

The pressure field cloud atlas of Fig. 6 and Fig. 7 to be the original fin of Z=0 section and segments be respectively 4 fins, as seen from the figure, segments is that the pressure drop of 4 fin radiators increases to some extent relative to original fin, and this is because segmentation fin increases the resistance of gas flow.

Fig. 8 is segments is 4 discrete fin interval whirlpool figure, and section gap facilitates the flow-disturbing of air as seen from the figure, thus enhances the Convective Heat Transfer between fin and fluid.

The heat exchange coefficient comparison diagram of Fig. 9 to be original fin and segments be 2,3,4,5 fins, as seen from the figure, segments is that the heat exchange coefficient of 4 fins is maximum.Under different wind speed, segments is that the heat exchange coefficient of 4 fins improves 3.42%-5.47% relative to original fin.

The thermal resistance comparison diagram of Figure 10 to be original fin and segments be 2,3,4,5 fins, as seen from the figure, under different wind speed, along with increasing of segmentation number of fins, thermal resistance reduces gradually.But the thermal resistance that segments is 5 fins changes little relative to the thermal resistance that segments is 4 fins.Under different wind speed, segments is that the thermal resistance of 4 fins reduces 32.92%-33.22% relative to original fin.

The pressure drop comparison diagram of Figure 11 to be original fin and segments be 2,3,4,5 fins, as seen from the figure, under different wind speed, along with increasing of segmentation number of fins, pressure drop presents ascendant trend on the whole.Segments is the pressure drop of 5 fins is that 4 fins increase 6.96%-16.29% relative to segments, and segments is that the pressure drop of 4 fins increases 31.60%-40.85% relative to original fin.

MATLAB fuzzy toolbox is combined with Simulink, selects heat exchange coefficient, thermal resistance, import and export pressure drop as input variable, using reliability as output variable, 5 kinds of radiators are emulated, determines respective reliability.When entrance velocity is 3 m/stime, original fin and segments are that the reliability of 2,3,4,5 fin radiators is respectively 0.4,0.4,0.5,0.6,0.5, and segments is that the reliability of 4 fin radiators is the highest.

Known by above-mentioned analysis, segments is that the heat exchange coefficient of 4 fins and reliability are all the highest, can be used as the best fin structure of the present embodiment.Relative to existing ordinary flat radiator, the segmentation fin radiator after optimization can strengthen heat-transfer capability effectively, improves the reliability of electronic device, thus reduces costs.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection range of the present utility model.

Claims (4)

1. a segmentation fin radiator, is characterized in that: comprise heat-radiating substrate and radiating fin; Described radiating fin comprises the segmentation fin being laterally divided into spacing distance; Described segmentation fin comprises the segmentation radiating fin longitudinally arranging and be more than or equal to two row.

2. segmentation fin radiator according to claim 1, is characterized in that: described segmentation radiating fin uniform intervals is vertically arranged on heat-radiating substrate; The segmentation radiating fin of described segmentation radiating fin to be horizontal even partition be 2-5 section.

3. segmentation fin radiator according to claim 2, is characterized in that: described segmentation radiating fin transversal sectional is 4 sections, and the transversal sectional spacing distance of adjacent sectional radiating fin is 3mm.

4. segmentation fin radiator according to claim 3, is characterized in that: the cross section of described segmentation radiating fin is rectangle; Each described segmentation radiating fin length is 29mm, and be highly 40mm, thickness is 4mm; The lengthwise rows spacing of described segmentation radiating fin is 10mm.