CN105179962A - Columnar polyhedral matrix LED light source - Google Patents

Abstract

The invention provides a columnar polyhedral matrix LED light source. The columnar polyhedral matrix LED light source comprises a substrate on which LED luminous chips are arranged, a light guide pillar component arranged above the LED luminous chips, and a shell capable of fixedly installing the light guide pillar component on the substrate, wherein each LED luminous chip is composed of a plurality of LED chip arrays, the light guide pillar component is composed of a plurality of light guide pillar unit arrays, and the LED chips correspond to light guide pillar units in a one-to-one mode; each light guide pillar unit is an inverted-cone-shaped cylinder becoming larger gradually from bottom to top, and the top surface of the light guide pillar component is a light emitting plane formed by seamless splicing of the top surfaces of the light guide pillar units. By the adoption of the columnar polyhedral matrix LED light source, even color mixing of light spots projected by the LED luminous chips can be achieved, light with large angles projected by the LED luminous chips can be collected and condensed, the brightness of the light spots can be improved, and the light outlet angle can be reduced.

Description

A kind of columnar polyhedron matrix L ED light source

Technical field

The present invention relates to lighting technical field, particularly relate to a kind of columnar polyhedron matrix L ED light source.

Background technology

At present, in lighting device people's daily life, obtain a large amount of uses, particularly LED, owing to being a kind of effective energy-conserving product, be applied to more and more in lighting device.Existing lighting device generally comprises the LED light source be arranged in lamp cylinder and the lens subassembly be arranged on successively on front side of LED light source, and lens subassembly generally comprises two lens; In order to increase the lighting effects of LED, LED light source is typically provided with the LED chip of multiple different colours.Said structure is at present conventional structure, but said structure still exists hot spot colour mixture is uneven, the utilization rate of light is not high defect.

Summary of the invention

Technical problem to be solved by this invention is, provides the columnar polyhedron matrix L ED light source that a kind of hot spot colour mixture is even, brightness is high.

In order to solve the problems of the technologies described above, the invention provides a kind of columnar polyhedron matrix L ED light source, it comprises the substrate being mounted with LED luminescence chip, the shell being arranged at the light guide component above described LED luminescence chip and described light guide component can being fixedly mounted on the substrate; Described LED luminescence chip is made up of multiple LED chip array; Described light guide component is made up of multiple light-guiding pillar cell array; Described LED chip and described light-guiding pillar unit one_to_one corresponding; Described light-guiding pillar unit is in the inverted cone shape cylinder increased gradually from bottom to top; The end face of described light guide component is by the seamless spliced luminous flat formed of end face of multiple described light-guiding pillar unit.

As the improvement of technique scheme, the bottom surface of described light guide component is close on described LED luminescence chip.

Preferably, the cross section of described light-guiding pillar unit is square or rectangular.

Preferably, the cross section of described light-guiding pillar unit is equilateral triangle.

Preferably, the cross section of described light-guiding pillar unit is regular hexagon.

Preferably, described LED chip is monochromatic LED chip or multi-colored led chip.

As the improvement of technique scheme, the end face of described light guide component is coated with light-passing board.

Wherein, the molding mode of described light guide component comprises as follows:

The first detailed description of the invention: described light guide component and light-passing board are by optical glass or optical-grade plastic integrated injection molding.

The second detailed description of the invention: described light guide component is split-type structural, light-guiding pillar unit described in each is respectively by optical glass or optical-grade plastic injection mo(u)lding.Further, the inside of described shell is provided with the Turbogrid plates can located for light-guiding pillar unit grafting described in each.

Implement a kind of columnar polyhedron matrix L ED light source of the present invention, compared with prior art, there is following beneficial effect:

(1) penetrate from end face after the multiple total reflection of side after the light that LED chip sends is reflected by the bottom surface of light-guiding pillar unit, thus obtain at the end face of light guide component the uniformly light-emitting plane that has certain rising angle; When LED luminescence chip is made up of the LED chip of multiple color, the light that LED chip sends, by penetrating from end face after the complete colour mixture of side multiple total reflection after the bottom surface refraction of light-guiding pillar unit, obtains at the end face of light guide component the luminous flat that has the uniform color mixture of certain rising angle; Visible, the present invention is by the setting of above-mentioned light-guiding pillar unit, and the hot spot that LED luminescence chip can either be made to cast out reaches the uniform effect of colour mixture, can carry out collection optically focused again to the light of the larger angle that LED luminescence chip casts out, increase the brightness of hot spot, reduce rising angle.

(2) because LED chip adopts arranged in arrays, there is certain spacing in every two LED chip, makes there is good heat-dissipating space between chip, thus obtain higher light efficiency rate, extends the service life of LED chip.

(3) operation principle of the present invention is simple, compact conformation, light extraction efficiency are high, thermal source disperses and is particularly suitable for the combination shape light source of flip LED chips, it will be high-power imaging system, another perfect light source of high-power condenser system, it will replace the conventional metals halogen light source approach that provides another new of imaging lamp, follow spot light, searchlight, Projecting Lamp, spotlight, projector for LED light source.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, be briefly described to the accompanying drawing of embodiment below.

Fig. 1 is the external structure schematic diagram of a preferred embodiment of the present invention;

Fig. 2 is the internal structure schematic diagram of Fig. 1 embodiment;

Fig. 3 is the structural representation of LED luminescence chip and substrate;

The application example figure that Fig. 4 is the cross section of light-guiding pillar unit when being square or rectangular;

The application example figure that Fig. 5 is the cross section of light-guiding pillar unit when being equilateral triangle;

The application example that Fig. 6 is the cross section of light-guiding pillar unit when being regular hexagon.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figure 1 to Figure 3, one embodiment of the invention, a kind of columnar polyhedron matrix L ED light source, it comprises the substrate 2 being mounted with LED luminescence chip 1, the shell 4 being arranged at the light guide component 3 above described LED luminescence chip 1 and described light guide component 3 can being fixedly mounted on described substrate 2; Described LED luminescence chip 1 is made up of multiple LED chip 11 array; Described light guide component 3 is made up of multiple light-guiding pillar unit 31 array; Described LED chip 11 and described light-guiding pillar unit 31 one_to_one corresponding; Described light-guiding pillar unit 31 is in the inverted cone shape cylinder increased gradually from bottom to top; The end face of described light guide component 3 is by the seamless spliced luminous flat formed of end face of multiple described light-guiding pillar unit 31.Its operation principle is, the light that LED chip 11 sends by penetrating from end face after the multiple total reflection of side after the bottom surface refraction of light-guiding pillar unit 31, thus obtains at the end face of light guide component 3 the uniformly light-emitting plane that has certain rising angle; When LED luminescence chip 1 is made up of the LED chip 11 of multiple color, the light that LED chip 11 sends, by penetrating from end face after the complete colour mixture of side multiple total reflection after the bottom surface refraction of light-guiding pillar unit 31, obtains at the end face of light guide component 3 luminous flat that has the uniform color mixture of certain rising angle; Visible, the present invention is by the setting of above-mentioned light-guiding pillar unit 31, the hot spot that LED luminescence chip 1 can either be made to cast out reaches the uniform effect of colour mixture, can carry out collection optically focused again to the light of the larger angle that LED luminescence chip 1 casts out, and increases the brightness of hot spot.In addition, because LED chip 11 adopts arranged in arrays, there is certain spacing in every two LED chip 11, makes there is good heat-dissipating space between chip, thus obtain higher light efficiency rate, extends the service life of LED chip 11.

In order to improve the utilization rate of light source, the bottom surface of described light guide component 3 is close on described LED luminescence chip 1, and also namely the bottom surface of light-guiding pillar unit 31 is close in LED chip 11.It should be noted that, the base area of light-guiding pillar unit 31 should be greater than the light-emitting area of LED chip 11, to guarantee that the bottom surface of light-guiding pillar unit 31 covers in LED chip 11 completely, the light that LED chip 11 is sent farthest by light-guiding pillar unit 31 pinching, to reach the utilization rate of higher light source.

Owing to considering the end face seamless spliced luminous flat that form of the end face of light guide component 3 by multiple described light-guiding pillar unit 31, therefore, seamless spliced between the end face conveniently realizing light-guiding pillar unit 31, the cross section of described light-guiding pillar unit 31 is preferably square, rectangle, equilateral triangle or regular hexagon.Wherein, the application example when cross section that Figure 4 shows that light-guiding pillar unit is square or rectangular; The application example when cross section that Figure 5 shows that light-guiding pillar unit is equilateral triangle; The application example when cross section that Figure 6 shows that light-guiding pillar unit is regular hexagon.Certainly, the cross section of light-guiding pillar unit also can be other regular polygon.

Preferably, described LED chip 11 is monochromatic LED chip or multi-colored led chip, to meet the need of market.

On the basis of above-described embodiment, the end face of described light guide component 3 is also coated with light-passing board (not indicating in figure), and this light-passing board affects for reducing rising angle further and preventing extraneous dust from entering lamp interior the hot spot effect that LED luminescence chip 1 casts out.

The molding mode of described light guide component 3 comprises as follows:

The first detailed description of the invention: described light guide component 3 and light-passing board are by optical glass or optical-grade plastic integrated injection molding.Thus, light guide component 3 adopts integral structure, during assembling, directly can be located on LED luminescence chip 1 by whole light guide component 3, just can realize the quick position of light guide component 3 without the need to support component, make whole assembling process convenient, accurate.But for the light guide component 3 of integral type, its structure is comparatively complicated, produce and replacement cost higher, whole light guide component 3 must be changed during replacing.

The second detailed description of the invention: described light guide component 3 is split-type structural, light-guiding pillar unit 31 described in each is respectively by optical glass or optical-grade plastic injection mo(u)lding.Further, the inside of described shell 4 is provided with the Turbogrid plates (not indicating in figure) can located for light-guiding pillar unit 31 grafting described in each.Thus, light guide component 3 adopts split-type structural, and the structure of single light-guiding pillar unit 31 is comparatively simple, produce and replacement cost lower, without the need to whole light guide component 3 is changed during replacing.But because light-guiding pillar unit 31 is independently, during assembling, need to use support component (Turbogrid plates) to carry out dress and spell and location, thus easily occur rigging error, efficiency of assembling is lower.

Above disclosedly be only preferred embodiment of the present invention, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the present patent application the scope of the claims is done, still belong to the scope that the present invention is contained.

Claims (10)

1. a columnar polyhedron matrix L ED light source, is characterized in that, comprises the substrate being mounted with LED luminescence chip, the shell being arranged at the light guide component above described LED luminescence chip and described light guide component can being fixedly mounted on the substrate; Described LED luminescence chip is made up of multiple LED chip array; Described light guide component is made up of multiple light-guiding pillar cell array; Described LED chip and described light-guiding pillar unit one_to_one corresponding; Described light-guiding pillar unit is in the inverted cone shape cylinder increased gradually from bottom to top; The end face of described light guide component is by the seamless spliced luminous flat formed of end face of multiple described light-guiding pillar unit.

2. columnar polyhedron matrix L ED light source as claimed in claim 1, it is characterized in that, the bottom surface of described light guide component is close on described LED luminescence chip.

3. columnar polyhedron matrix L ED light source as claimed in claim 1, it is characterized in that, the cross section of described light-guiding pillar unit is square or rectangular.

4. columnar polyhedron matrix L ED light source as claimed in claim 1, it is characterized in that, the cross section of described light-guiding pillar unit is equilateral triangle.

5. columnar polyhedron matrix L ED light source as claimed in claim 1, it is characterized in that, the cross section of described light-guiding pillar unit is regular hexagon.

6. columnar polyhedron matrix L ED light source as claimed in claim 1, it is characterized in that, described LED chip is monochromatic LED chip or multi-colored led chip.

7. the columnar polyhedron matrix L ED light source as described in any one of claim 1 to 6, it is characterized in that, the end face of described light guide component is coated with light-passing board.

8. columnar polyhedron matrix L ED light source as claimed in claim 7, it is characterized in that, described light guide component and light-passing board are by optical glass or optical-grade plastic integrated injection molding.

9. columnar polyhedron matrix L ED light source as claimed in claim 7, it is characterized in that, described light guide component is split-type structural, and light-guiding pillar unit described in each is respectively by optical glass or optical-grade plastic injection mo(u)lding.

10. columnar polyhedron matrix L ED light source as claimed in claim 9, is characterized in that, the inside of described shell is provided with can for the Turbogrid plates of light-guiding pillar unit grafting location described in each.