CN205606214U - LED module one to one fast dispels heat - Google Patents

Abstract

The utility model discloses a LED module one to one fast dispels heat, including lamp shade, radiator unit, base plate and encapsulate a plurality of LED light sources on the base plate, the lamp shade is connected and is formed with the accommodation space with the radiator unit cooperation, and the base plate is installed in the accommodation space, and radiator unit includes the radiating bottom plate with lamp shade fixed connection, and the base plate is attached in the bottom of radiating bottom plate, a plurality of heat dissipation unit that the arc that hanged down high both sides in the middle of the upper portion of radiating bottom plate was equipped with and is was arranged, the position one -to -one of heat dissipation unit and LED light source. The utility model has the advantages of simple and reasonable structure, heat dispersion is better, and the volume is less, and weight is lighter.

Description

One quick heat radiating LED module one to one

Technical field

This utility model relates to LED module technical field, particularly to one quick heat radiating LED one to one Module.

Background technology

LED has the plurality of advantages such as environmental protection, energy-conservation, life-span length, has been increasingly becoming roadway illumination and energy saving and has changed The optimum selection made.But owing to LED light source is arranged on enclosure interior, big calorimetric during work, can be produced Amount, if can not discharge in time, can cause the temperature of P-N junction to rise rapidly, so can accelerate LED Light decay, even results in destructive thermal breakdown.Therefore, LED needs to arrange radiating subassembly and dispels the heat.

In existing LED heat dissipation technology, each LED module is typically to share a heat-sink unit, not The effective area of radiating fin can be given full play to, cause heat conduction compared with slow and each several part is uneven.In order to Reach more preferable radiating effect and can only strengthen the area of radiating fin, improve fin height.Thus result in LED lamp heat dissipation uniformity is bad, and equivalent thermal resistance is big, and serious waste metal material so that volume is relatively Greatly, heavier-weight.

Utility model content

The purpose of this utility model is the defect for prior art and deficiency, it is provided that one is the fastest Speed cooling LED module, it is simple and reasonable, good heat dispersion performance, small volume, lighter in weight.

For achieving the above object, this utility model is by the following technical solutions:

One described in the utility model quick heat radiating LED module one to one, including lampshade, radiating subassembly, Substrate and the some LED light sources being packaged on described substrate, described lampshade coordinates with described radiating subassembly even Connecing and be formed with accommodation space, described substrate is installed in described accommodation space, and described radiating subassembly includes Fix the radiating bottom plate being connected with described lampshade, described substrate is attached at the bottom of described radiating bottom plate, institute The top stating radiating bottom plate is provided with some heat-sink units that the arc low in middle high both sides is arranged, described scattered Hot cell and the position one_to_one corresponding of described LED light source.

Further, described heat-sink unit includes heat accumulation boss, if being set side by side with on described heat accumulation boss Dry radiating fin；Described radiating bottom plate, described heat accumulation boss and corresponding described radiating fin are by being cast into Type is integrated.

Further, the center being positioned at the radiating fin in the middle of described heat accumulation boss is provided with heating column.

Further, the thickness of described heat accumulation boss is at least 1 millimeter.

Further, between two the described radiating fins of arbitrary neighborhood on same described heat-sink unit Spacing is 0-100 millimeter.

Further, the area of dissipation of each described radiating fin all at least 10 square millimeters.

The beneficial effects of the utility model are: the LED module of quick heat radiating one to one that this utility model provides, By arranging the position heat-sink unit one to one with LED light source on the top of radiating bottom plate, during work Utilize each heat-sink unit that corresponding LED light source is carried out independent heat radiation, not only contribute to give full play to each dissipating The effective area of hot fin, improves heat conduction velocity and convection transfer rate, and makes each several part Heat radiation is more uniformly distributed, and heat dispersion is more preferable；Further, independent to single LED light source by each heat-sink unit Dispel the heat, be also beneficial to reduce the area of radiating fin, therefore compared to traditional LED module, this The overall volume of utility model is less, and weight is lighter；Additionally, due to LED centrally located during work The heat of light source is bigger than the heat of the LED light source of two side positions, by arranging heat-sink unit in centre The arc layout that high both sides are low, is conducive to increasing the area of dissipation of centre position heat-sink unit, thus carries High integral heat sink efficiency of the present utility model.This utility model structure arranges advantages of simple.

Accompanying drawing explanation

Fig. 1 is overall decomposition texture schematic diagram of the present utility model；

Fig. 2 is the front view of this utility model radiating subassembly；

Fig. 3 is the structural representation of this utility model heat-sink unit.

In Fig. 1 to Fig. 3:

1, lampshade；2, substrate；3, LED light source；4, radiating bottom plate；5, heat-sink unit；51, storage Hot boss；52, radiating fin；53, heating column.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is further described.

The quick heat radiating LED module one to one of one as shown in Figure 1 to Figure 3, including lampshade 1, heat radiation group Part, substrate 2 and the some LED light sources 3 being packaged on substrate 2, lampshade 1 is connected with radiating subassembly And it being formed with accommodation space, substrate 2 is installed in accommodation space, and radiating subassembly includes fixing with lampshade 1 The radiating bottom plate 4 connected, substrate 2 is attached at the bottom of radiating bottom plate 4, and the top of radiating bottom plate 4 is provided with Some heat-sink units 5 that the arc low in middle high both sides is arranged, heat-sink unit 5 and the position of LED light source 3 Put one_to_one corresponding.Radiating bottom plate 4 and heat-sink unit 5 all use aluminum alloy materials to be made.

Heat-sink unit 5 includes heat accumulation boss 51, it is preferable that in order to heat accumulation effect is more preferable, heat accumulation boss 51 Thickness be at least 1 millimeter；Some radiating fins 52 it are set side by side with on heat accumulation boss 51, same scattered Spacing between two radiating fins 52 of arbitrary neighborhood on hot cell is 0-100 millimeter, each radiating fin The area of dissipation of sheet 52 all at least 10 square millimeters, thus ensure that filling of radiating fin 52 and air Tap is touched.In order to improve heat-conducting effect, radiating bottom plate 4, heat accumulation boss 51 and corresponding radiating fin 52 lead to Cross die cast to be integrated.Preferably, each heat accumulation boss 51 is set side by side with 3 radiating fins 52, And the center being positioned at the radiating fin 52 in the middle of each heat accumulation boss 51 is provided with heating column 53, By arranging heating column 53, further increase heat-conducting effect of the present utility model.

When the heat that LED light source 3 produces cannot be discharged in time through radiating fin 52, this part is the most timely Conduction will be put aside on heat accumulation boss 51 to the heat of radiating fin 52, utilizes heat accumulation boss 51 to delay Rush this partial heat, both effectively prevent heat and in accommodation space, caused LED light source 3 because accumulating Damage, also increase effectively the temperature difference between the bottom of radiating fin 52 and its top simultaneously, thus be conducive to Improve the coefficient of heat transfer so that radiating effect is more preferable.

The LED module of quick heat radiating one to one that this utility model provides, by the top at radiating bottom plate 4 Some and LED light source 3 heat-sink unit 5 one to one, position are set, during work, utilize each heat radiation single Unit 5 carries out independent heat radiation to corresponding LED light source 3, not only contributes to give full play to each radiating fin 52 Effective area, improves heat conduction velocity and convection transfer rate, and each several part is dispelled the heat more Uniformly, heat dispersion is more preferable；Further, by each heat-sink unit 5 is independent, single LED light source 3 is carried out Heat radiation, is also beneficial to reduce the area of radiating fin 52, therefore compared to traditional LED module, this reality Less by novel overall volume, weight is lighter；Additionally, due to LED centrally located during work The heat of light source 3 is bigger than the heat of the LED light source 3 of two side positions, by being arranged by heat-sink unit 5 The arc low in middle high both sides is arranged, is conducive to increasing the area of dissipation of centre position heat-sink unit 5, Thus improve integral heat sink efficiency of the present utility model.

The above is only better embodiment of the present utility model, therefore all according to this utility model patent application The equivalence that structure, feature and principle described in scope is done changes or modifies, and is all included in this utility model In patent claim.

Claims (6)

1. a quick heat radiating LED module one to one, including lampshade, radiating subassembly, substrate and be packaged in Some LED light sources on described substrate, described lampshade and described radiating subassembly are connected and are formed with appearance Between being empty, described substrate is installed in described accommodation space, it is characterised in that: described radiating subassembly includes Fix the radiating bottom plate being connected with described lampshade, described substrate is attached at the bottom of described radiating bottom plate, institute The top stating radiating bottom plate is provided with some heat-sink units that the arc low in middle high both sides is arranged, described scattered Hot cell and the position one_to_one corresponding of described LED light source.

The LED module of quick heat radiating one to one the most according to claim 1, it is characterised in that: described Heat-sink unit includes heat accumulation boss, and described heat accumulation boss is set side by side with some radiating fins；Described scattered Hot base plate, described heat accumulation boss and corresponding described radiating fin are integrated by die cast.

The LED module of quick heat radiating one to one the most according to claim 2, it is characterised in that: it is positioned at The center of the radiating fin in the middle of described heat accumulation boss is provided with heating column.

The LED module of quick heat radiating one to one the most according to claim 2, it is characterised in that: described The thickness of heat accumulation boss is at least 1 millimeter.

The LED module of quick heat radiating one to one the most according to claim 2, it is characterised in that: same Spacing between two described radiating fins of arbitrary neighborhood on individual described heat-sink unit is 0-100 millimeter.

The LED module of quick heat radiating one to one the most according to claim 2, it is characterised in that: each The area of dissipation of described radiating fin all at least 10 square millimeters.