CN201267083Y - Radiating module - Google Patents

Abstract

The utility model discloses a heat dissipating module, comprising a heat conducting block and a radiator, wherein, the heat conducting block is arranged on the heating element of a preset circuit board in an erection way, and a heat transfer part is convexly arranged on the bottom surface of the heat conducting block and is close to the surface of the heating element; and the radiator is provided with a plurality of fins which correspond against each other and are jointed side by side, contact pieces which support against the upper surface of the heat conducting block are arranged at the bottom parts of the fins, erecting parts bending upwards are arranged on the contact pieces, a plurality of concave grooves arranged in a concave and interval way are arranged on the erecting parts, joint surfaces for locating and supporting against the other fins are arranged between each concave groove, a honeycomb type structure is formed after the fins are combined, and the honeycomb-shaped openings form a closed style larger dissipation area. When the heating element radiates heat energy, the heat energy can be transferred to the fins of the radiator by the heat conducting block from the bottom of the fins to the top; the heat energy is transferred from the contact pieces at the bottom parts of the fins to the concave grooves and joint surfaces of the erecting parts by good heat radiating effect of leftward and rightward heat energy transferring; and the heat source on the fins is dissipated quickly by means of wind flows passing through the honeycomb-shaped openings.

Description

Radiating module

Technical field

The utility model relates to a kind of radiating module, belongs to electronic information technical field, belongs to thermal component in the electronic information technical field specifically, particularly the technical field of processor chips thermal component structure.

Background technology

Progress along with the electronic product production technology, the size of electronic building brick is done littler and littler, its arithmetic speed is but more and more faster, therefore the relative density in the electronic building brick unit volume improves, relative caloric value also increases, in stressing scientific and technological life-stylize, electronic product more and more is close in our daily life, requiring to carry light and computing fast under the situation, electronic product body external form is done littler and littler, but also have more function, make the density of electronic building brick that internal body contains increase, so electronic product design density change structurally is high, the caloric value of electronic product integral body also increases many relatively, if heat can't be effectively and is with fast from electronic building brick, increase the probability of electronic product hot stall easily, so the heat dissipation design of electronic building brick when running is also increasingly important.

An electronic system is under operating state, main heating source is each processor chips, these chips cause the phenomenon of whole system temperature distributing disproportionation easily, if the system radiating design is bad, easily produce the too high phenomenon of single point temperature, focus (Hotspot) can make chip that the hot probability of working as takes place and uprise, the possibility of product bug also increases relatively, in order to solve the heat dissipation problem of electronic building brick, generally all be that conventional axial-flow fan (Axial flow fan) installs radiating fin (Heat sink) additional, owing to the progress of mobile computer, heat pipe (Heat pipe) is general day by day with the application of centrifugal fan (Centrifugal fan) in recent years; But because economic consideration, still conventional fan cooperates radiating fin at present, so very important angle is just being played the part of in the design of fin.

Get out a plurality of honeycomb openings so just there is the dealer to utilize on a monoblock aluminium block or the copper billet with bore mode, forming cellular fin is fixed on the pedestal and uses, though the cellular fin of this kind can effectively be arranged source of heat release by plural honeycomb opening, but on processing and fabricating, then comparatively do not meet economic benefit, get out one by one honeycomb mouth for must be on aluminium block or copper billet seeing through bore mode, the problem that it is derived, as: processing difficulties, time and effort consuming, cost improve, and the disappearance that can't effectively grasp on the product quality.

So, how to solve above-mentioned problem of commonly using and disappearance, be the relevant manufacturer that is engaged in the industry and desire most ardently the direction place that research improves.

Summary of the invention

The utility model provides a kind of radiating module at above-mentioned weak point, and row is diffusing fast with the realization thermal source, and purpose simple in structure, easy to manufacture, that assemble facility and reduce cost.

The technical solution adopted in the utility model is in order to achieve the above object:

A kind of radiating module includes heat-conducting block and radiator is formed, wherein:

This heat-conducting block is to be set up on the heat generating component of preinstalled circuit plate, and the heat-conducting block bottom surface convexes with the heat transfer part near the heat generating component surface;

This radiator is provided with the corresponding fin of fitting side by side of plural number, and each fin is provided with in the bottom to the contact chip that pastes the heat-conducting block upper surface, and upwards be bent with the portion of holding up that erects shape that is on the contact chip, and in the portion of holding up, be arranged with the groove of plural space in regular turn, and for being provided with the composition surface of another fin location of fitting, be to be provided with the heat dissipation channel that opening-like supplied gas flows again in the two fin grooves that fit between this groove and the adjacent grooves.

Supply the outside perforation that connected components is embedded for offering around this heat-conducting block, and can aim at interlocking on circuit board connected components.

The plural fin of this radiator is for smearing tin cream and crossing the tin stove and carry out weld job and be incorporated into the heat-conducting block surface on composition surface and bottom contact chip.

This radiator side blows the fan of cold wind to the heat dissipation channel for can further being equiped with.

The fin groove of this radiator and the heat dissipation channel that can present geometries such as hexagon, rectangle, triangle or circle after another fin groove combines.

The fin of this radiator can be good and material light weight of aluminium, copper, aluminium copper or conductive coefficient and constitutes.

Adopt the technical solution of the utility model:

Because the fin of radiator bottom is provided with to the contact chip that pastes the heat-conducting block upper surface, and upwards be bent with the portion of holding up of tool plural number spacing convave trough on the contact chip, and the composition surface between each groove and another fin are fitted when locating, can make radiator present similar cellular structure, and plural honey comb like opening forms case type big area of dissipation, when the heat generating component of heat-conducting block below distributes heat energy, can transmit heat energy to the fin of radiator by heat-conducting block, its heat conduction direction is served as reasons plural fin below toward uploading, and about the great heat radiation effect that transmits mutually, heat energy is upwards conducted on the groove and composition surface of the portion of holding up by fin bottom contact chip, and, can make the effect that the quick row of thermal source looses on the fin by similar honeycomb opening air feed flow turnover.

Description of drawings

Fig. 1 is a stereo appearance figure of the present utility model.

Fig. 2 is a three-dimensional exploded view of the present utility model.

Side cutaway view when Fig. 3 uses for the utility model preferred embodiment.

Fig. 4 is the side cutaway view of another preferred embodiment of the utility model.

Fig. 5 is the utility model three-dimensional exploded view of a preferred embodiment again.

The main element symbol description

1, heat-conducting block

11, heat transfer part 13, to connected components

12, perforation

2, radiator

21, fin 212, hold up portion

210, heat dissipation channel 213, groove

211, contact chip 214, composition surface

3, circuit board

31, heat generating component

4, fan

Embodiment

For reaching above-mentioned purpose and effect, technological means that the utility model adopted and structure thereof, drawing now illustrates in detail that with regard to preferred embodiment of the present utility model its feature and function are as follows.

See also Fig. 1, shown in Figure 2, be stereo appearance figure of the present utility model and three-dimensional exploded view, can find out by clear among the figure, the utility model radiating module lies in a heat-conducting block 1 upper surface and is combined with radiator 2, and radiator 2 is provided with the corresponding fin 21 of fitting side by side of plural number, and fin 21 is for upwards bending the portion of holding up 212 that erects shape that is on the horizontal contact chip 211 in bottom, and hold up the groove 213 that is arranged with plural space in the portion 212 in regular turn, and be formed with composition surface 214 between groove 213 and the adjacent grooves 213, fin 21 integral body presented erect turnover aspect continuously.

When radiating module of the present utility model in when assembling, for can smearing tin cream on the composition surface 214 of plural fin 21 and the bottom contact chip 211, after making composition surface 214 relative applyings of plural fin 21 again, just can utilize outside tool to be held on entire radiator 2 two sides, and radiator 2 is placed on the heat-conducting block 1, make contact chip 211 bottom surfaces of fin 21 smooth behind heat-conducting block 1 upper surface, getting final product the tin stove carries out weld job and is incorporated into heat-conducting block 1 surface, make plural fin 21 be combined into radiator 2 and strong fix on heat-conducting block 1, its plural fin 21 combines the back for presenting similar cellular structure, and plural honey comb like opening forms case type big area of dissipation, finishes overall package configuration of the present utility model.

See also shown in Figure 3, side cutaway view when being the utility model preferred embodiment use, radiating module after finishing by above-mentioned group of structure is when using, for being placed on the circuit board 3 together with radiator 2 by heat-conducting block 1, the heat transfer part 11 that makes heat-conducting block 1 bottom surface projection is near aiming at heat generating component 31 surfaces that are positioned on the circuit board 3, at this moment, just can be embedded in a pair of connected components 13 for the perforation 12 of offering around the heat-conducting block 1, and on circuit board 3, be a location so that connected components 13 is aimed at interlocking, when heat generating component 31 runnings and generation heat energy, this heat energy can be sent to by the heat transfer part 11 of heat-conducting block 1 on the radiator 2, and radiator 2 can be smooth in heat-conducting block 1 upper surface with plural fin 21 bottom contact chips 211, heat energy for heat generating component 31 upwards conducts in the portion of holding up 212 via contact chip 211 in regular turn, heat energy can be sent on groove 213 and the composition surface 214 in the portion 212 and hold up, reach the heat conduction direction and serve as reasons plural fin 21 belows toward uploading, and about the great heat radiation effect that transmits mutually, and can the composition surface 214 conduct heat to another fin 21 composition surfaces 214, and with thermal source conduct in regular turn reach on the plural fin 21 thermal source fast row loose, the problem of avoiding heat generating component 31 Yin Gaore to hoard and burning.

See also shown in Figure 4, it is the side cutaway view of another preferred embodiment of the utility model, find out by knowing shown in the figure, the utility model radiating module also can further be installed a fan 4 in radiator 2 sides, and after making the fin 21 absorption heat energy of radiator 2, can the heat energy on the fin 21 be dispelled to the outside by fan 4 running air supply modes, and after utilizing plural fin 21 to combine, but its corresponding formation in hexagonal two grooves 213 can form the heat dissipation channel 210 (promptly being similar honeycomb opening) that a supplied gas flows, when fan 4 blows cold air are to heat dissipation channel 210, can make on the fin 21 thermal source via groove 213, air-flow on the heat dissipation channel 210 dispels to the outside, reaches heat exchange, row's source of heat release is to the preferable heat sinking function of outside formation fast, promote the effect of radiating efficiency.

The groove 213 of above-mentioned the utility model radiator 2 and the groove of corresponding applying 213 in conjunction with after can present hexagon (as shown in Figure 2), geometry such as rectangle or circle heat dissipation channel 210, and present embodiment mainly is example with the hexagon, wherein, see also shown in Figure 5, be radiator 2 fins 21 upwards bending be the portion of the holding up 212 another kind of example structure of erectting shape, this holds up the groove 213 that is arranged with plural space in the portion 212 in regular turn, and be formed with composition surface 214 between groove 213 and the adjacent grooves 213, after fitting relatively in the composition surface 214 of plural fin 21, for making in the groove 213 heat dissipation channels 210 slightly be positive triangle and inverted triangle is staggered; And fin 21 itself can be good and material light weight of aluminium, copper, aluminium copper or conductive coefficient and constitutes.

Put on the shelf and be provided with heat-conducting block 1 and key protection point of the present utility model is the heat generating component 31 that is directed to circuit board 3; and heat-conducting block 1 upper surface is combined with the radiator 2 of tool plural number fin 21; and each fin 21 is for upwards being bent with the portion of holding up 212 that erects shape that is on the horizontal contact chip 211 in bottom; and hold up the groove 213 that is arranged with plural space in the portion 212; and be formed with composition surface 214 between groove 213 and the groove 213; when this composition surface 214 is fitted with another fin 21 composition surfaces 214; can make radiator 2 integral body present similar cellular structure; and plural honey comb like opening can form case type big area of dissipation; when heat generating component 31 distributes heat energy; can be bigger than the area of dissipation that traditional upright fin 21 forms style of opening by forming case type area of dissipation; and this similar cellular structure; make the conduction orientation of heat; just do not pass from lower to upper; about also can transmit mutually; and then produce than upright fin 21 better radiating effects; and upwards conduct heat to the groove 213 and composition surface 214 of the portion of holding up 212 with contact chip 211; reach the thermal source diffusing effect of row fast; so; principle that all utilization the utility model are adopted and equivalent structure change; all should in like manner be contained in the claim of the present utility model, close and give Chen Ming.

Radiating module of the present utility model is for improving the key problem in technology of commonly using: plural fin 21 structures of radiator 2 are quite simple, only go up and promptly can be made into by one group of mould in the die sinking making, and be arranged with the groove 213 of plural space in the portion of holding up 212 of fin 21 in regular turn, and this groove 213 and another fin 21 are holded up the heat dissipation channel 210 that can present a gas flow after groove 213 in the portion 212 engages, after whole plural fin 21 is fitted side by side, can present the similar honey comb like opening of plural number, in the middle of hot gas row looses, because perforate is very tight, it is big that formed case type area of dissipation forms opening area of dissipation than traditional upright fin, and this similar cellular structure, make the conduction orientation of heat, just do not pass from lower to upper, about also can transmit mutually, and then produce than the better radiating effect of upright fin, and when the heat energy of heat generating component 31 upwards conducts in the portion of holding up 212 via fin 21 contact chips 211, this is holded up portion 212 and heat energy can be transferred on groove 213 and the composition surface 214, conducted heat to another fin 21 composition surfaces 214 in composition surface 214, and with thermal source conduct in regular turn reach on the plural fin 21 thermal source fast row loose, the problem of avoiding heat generating component 31 Yin Gaore to hoard and burning, have simple in structure, easy to manufacture, assembling facility and the effect that reduces cost, the above only is preferred embodiment of the present utility model, non-so promptly limit to claim of the present utility model, so the simple and easy modification and the equivalent structure that use the utility model specification and graphic content to do such as change, all should in like manner be contained in the claim of the present utility model, close and give Chen Ming.

Claims (6)

1, a kind of radiating module includes heat-conducting block and radiator is formed, and it is characterized in that:

This heat-conducting block is to be set up on the heat generating component of preinstalled circuit plate, and the heat-conducting block bottom surface convexes with the heat transfer part near the heat generating component surface;

This radiator is provided with the corresponding fin of fitting side by side of plural number, and each fin is provided with in the bottom to the contact chip that pastes the heat-conducting block upper surface, and upwards be bent with the portion of holding up that erects shape that is on the contact chip, and in the portion of holding up, be arranged with the groove of plural space in regular turn, and for being provided with the composition surface of another fin location of fitting, be to be provided with the heat dissipation channel that opening-like supplied gas flows again in the two fin grooves that fit between this groove and the adjacent grooves.

2, radiating module as claimed in claim 1 is characterized in that supplying the outside perforation that connected components is embedded for offering around this heat-conducting block, and can aim at interlocking on circuit board to connected components.

3, radiating module as claimed in claim 1, the plural fin that it is characterized in that this radiator is for smearing tin cream and crossing the tin stove and carry out weld job and be incorporated into the heat-conducting block surface on composition surface and bottom contact chip.

4, radiating module as claimed in claim 1 is characterized in that this radiator side blows the fan of cold wind to the heat dissipation channel for can further being equiped with.

5, radiating module as claimed in claim 1, fin groove that it is characterized in that this radiator and the heat dissipation channel that can present geometries such as hexagon, rectangle, triangle or circle after another fin groove combines.

6, radiating module as claimed in claim 1, the fin that it is characterized in that this radiator can be good and material light weight of aluminium, copper, aluminium copper or conductive coefficient and constitute.

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