CN202040772U - Multicolor LED (light-emitting diode) photoelectric glass - Google Patents

Abstract

The utility model discloses multicolor LED (light-emitting diode) photoelectric glass, relating to a glass product. The multicolor LED photoelectric glass comprises a covering layer, a base layer and a middle layer, wherein the middle layer is connected with the covering layer and the base layer; the base layer is made of conducting glass which is internally provided with a conducting circuit; and the conducting circuit is internally provided with light-emitting points which comprise at least one LED light-emitting body. The multicolor LED photoelectric glass has the beneficial effects that the light-emitting color of the LED glass is improved, and the original light-emitting point capable of only emitting one color can emit multiple colors, and also can emit other colors when being mixed with the brightness of the LED light-emitting body with different colors, so that the LED glass is more attractive.

Description

Multi-colored led photoelectric glass

Technical field

The utility model relates to a kind of glassware, particularly relates to a kind of multi-colored led photoelectric glass.

Background technology

Glass is widely used in every field as raw material.

LED is a light emitting diode, and its full name is Light Emitting Diode, is to use semi-conducting material directly to be converted into luminous energy, the signal of telecommunication is converted to the illuminator of optical signal by electric energy, is a kind of novel energy-saving illumination illuminator.But that its main feature is a caloric value is low, power consumption is little, the life-span is long, reaction speed is fast, volume is little, antidetonation is good, discharge off gas, the optional scope of color greatly and planar package, therefore be widely used in the illumination application, landscape design, traffic sign, electronics show tools of various industries.LED glass is the high-tech product that photoelectric technology and glass technology deeply develop, when commercial building and beautification of landscape application, in conjunction with the popular now LED illuminator light coloring variation effect of performing, existing good daylighting function, have certain energy saving and riotous with colour, gorgeous decorative effect again, be the incomparable new product of conventional clear glass or coloured glass, have the application prospect of unlimited broadness.

But a LED luminous point in the present LED glass has only a LED illuminator, because the LED illuminator can only send a kind of light of color, this just makes a LED luminous point also can only send a kind of light of color.Under the environment that people's appreciation level is more and more higher now, urgent need is improved LED glass and is adapted to multiple demand.

The utility model content

The utility model is exactly in order to address the above problem, and overcomes the existing defective of LED glass in the prior art, and the utility model provides a kind of multi-colored led photoelectric glass to address the aforementioned drawbacks and problem.

To achieve these goals, the technical solution of the utility model is as follows:

Multi-colored led photoelectric glass comprises cover layer, basic unit and intermediate layer, and the intermediate layer connects cover layer and basic unit, basic unit is an electro-conductive glass, is provided with the conducting wire in the electro-conductive glass, is provided with luminous point in the conducting wire, it is characterized in that described luminous point comprises at least one LED illuminator.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that described luminous point comprises three LED illuminators.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that, it is red, green and blue that the color of described three LED illuminators is respectively.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that, described intermediate layer is a polyvinyl butyral resin doubling medium.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that, described electro-conductive glass comprises sodium calcium basic unit and is plated in conductive film layer on this sodium calcium substrate surface.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that, described electro-conductive glass comprises silicon boryl substrate glass and is plated in the lip-deep conductive film layer of this silicon boryl substrate glass.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that described conducting wire is transparent conducting wire.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that, also comprises the power supply that a magnitude of voltage, current value can change according to the needs of the power of light, literal, pattern, color, and described power supply connects the conducting wire.

Above-mentioned a kind of multi-colored led photoelectric glass is characterized in that described power supply is a dc source.

The beneficial effects of the utility model are: the luminous color that has improved LED glass, make the luminous point that can only send a color originally can send multiple color, and the luminance mix according to the LED illuminator of different colours can also be sent other colors together, makes that LED glass is more attractive in appearance.

Description of drawings

Describe the utility model in detail below in conjunction with the drawings and specific embodiments:

Fig. 1 is a structural profile exploded view of the present utility model.

Fig. 2 is the structural profile exploded view behind the utility model gummed.

Fig. 3 is the partial enlarged drawing of luminous point.

Fig. 4 is the circuit connection diagram of the utility model conducting wire.

Fig. 5 is an embodiment of the present utility model.

Fig. 6 is an embodiment of the present utility model.

The specific embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

Referring to Fig. 1 and Fig. 2, multi-colored led photoelectric glass comprises cover layer 103, basic unit 101 and intermediate layer 102, and intermediate layer 102 connects cover layer 103 and basic unit 101, makes three layers to combine into as a whole.

Cover layer 103 is a glass, plays the effect that protection covers.

Basic unit 101 is an electro-conductive glass, and basic unit 101 is an electro-conductive glass 104, and electro-conductive glass 104 adopts sodium calcium base or silicon boryl substrate glass, its surface attachment one deck conducting film.On conducting film, have the conducting wire 105 made from the method for etching or photoetching, be provided with luminous point 106 in the conducting wire 105.

Referring to Fig. 3, luminous point 106 comprises that the color of 107, three LED illuminators 107 of three LED illuminators is respectively red, green and blue, in the time of work, one of them LED illuminator 107 of each luminous point 106 can be luminous separately, forms independent a kind of color; Three LED illuminators 107 that also can each luminous point 106 are simultaneously luminous, by regulating the brightness of three LED illuminators 107, form the color of additional mixing.

Because of having adopted the fabrication techniques conducting wire 105 of on electro-conductive glass 104 etching or photoetching, so conducting wire 105 is transparent.Changed the inaesthetic shortcoming of wire circuit that welding forms in the prior art.Electro-conductive glass 104 can be provided with thickness according to the needed intensity needs in installation site.The live width of the conductive film layer that the path of conducting wire 105 is related, line length are to calculate, being that the LED illuminator of luminous point provides required operating voltage, electric current exactly.

Intermediate layer 102 is the PVB film, and chemical name is a polyvinyl butyral resin, and english abbreviation is PVB (Poly vinyl butyral).It is arranged between basic unit 101 and the cover layer 103.The thickness of the PVB film in intermediate layer 102 is greater than the thickness of luminous point 106.Basic unit 101, intermediate layer 102 cover layers 103 close at autoclave operation central roll, process through HTHP, make the PVB film transparent fully, make that basic unit 101, intermediate layer 102 cover layers, 103 gummeds are intact, and make this product have waterproof, shockproof, efflorescence prevention and etch-proof performance.

According to test, transparency of the present utility model can reach more than or equal to 86%.In other words, the light percent of pass of LED light-embedding artistic glass can reach more than or equal to 86%.It will be appreciated by those skilled in the art that this transparency is for advantage of the present utility model is described, rather than be used for limiting scope of the present utility model.For example, need under the low situation of transparency in effect, the utility model also can use cover layer to satisfy low transparency as the replacement of materials such as ground glass, all belongs to protection domain of the present utility model.

Owing to have the PVB film in intermediate layer 102, the utility model has reached the laminated glass application standard of national promulgation in the performance indications aspect shockproof, explosion-proof, and this standard is applicable to the laminated glass of usefulness such as the door, window of building, rolling stock and boats and ships.

Fig. 3 is an embodiment for the basic DC circuit of the LED illuminator work of luminous point 106, this product comprises that also a magnitude of voltage, current value can be according to the needs of the power of light, literal, pattern, color and the power supply 307 that changes, power supply 307 connects conducting wire 105, be conducting wire 105 power supplies, thereby be LED illuminator 107 power supplies of luminous point 106.Power supply 307 is a dc source, and the power interface of the dc source 307 of constant current by conducting wire 105 provides electric energy for the LED illuminator 107 of luminous point 106, the mode of operation safety of direct current, reliable; Existing parallel circuit in the conducting wire 105 also has series circuit, and concrete the use according to actual conditions determined.The quantity of luminous point 106 can increase or reduce by actual needs.Light-embedding artistic glass has adopted this supply line to realize the operate as normal of the LED illuminator 107 of luminous point 106.Be understandable that those of ordinary skill in the art can design various circuit and provide power supply for luminous point 106, both can have adopted direct current supply also can adopt Alternating Current Power Supply.Present embodiment is just in order to understand the utility model, rather than is used for limiting the specific design of power supply circuits.

Fig. 4 is an embodiment of the utility model basic unit design, and basic unit 101 has transparent conducting glass 104; 402 and 403 are etching or the conductor wire that makes by lithography, and the pin face that to constitute effective conducting wire 105,406 be the LED illuminator 107 of luminous point 106 is used curable conductive silver paste, makes by the mode of silk-screen; 407 are the power interface that is connected with external power source, are the power supply of the LED illuminator 107 of luminous point 106.This power interface 407 is done into strips curing conductive face by curable conductive silver paste, welds Copper Foil again and makes.

Micron (μ m) rank can be accomplished in conductor wire 402 and 403 etchings or photoetching line footpath, and guarantee that blocking-up is good between conducting film, so LED light-embedding artistic glass of the present utility model almost be can't see etching or photoetching line, accomplish that really the transparence of conducting wire 105 is handled.

Fig. 5 is arranged in luminous point 106 on the electro-conductive glass 104 according to rule for another embodiment of the utility model basic unit design, and the energising back shows the five-pointed star pattern.This area staff should be appreciated that the quantity of LED illuminator 106, the pattern of arranging, color etc. are carried out different designs can obtain various display effect.The above embodiment that is of institute is only in order to understand spirit of the present utility model, and all belong to protection domain of the present utility model to the variation of arranging, quantity and the change in color that luminous point 106 is carried out.

This product improvement the shape of LED glass, make that the scope of LED glass applications is more extensive, the effect of decoration is more unique and attractive in appearance.

More than show and described basic principle of the present utility model, principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that describes in the foregoing description and the specification just illustrates principle of the present utility model; the utility model also has various changes and modifications under the prerequisite that does not break away from the utility model spirit and scope, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (9)

1. multi-colored led photoelectric glass comprises cover layer, basic unit and intermediate layer, and the intermediate layer connects cover layer and basic unit, basic unit is an electro-conductive glass, is provided with the conducting wire in the electro-conductive glass, is provided with luminous point in the conducting wire, it is characterized in that described luminous point comprises at least one LED illuminator.

2. according to the described a kind of multi-colored led photoelectric glass of claim 1, it is characterized in that described luminous point comprises three LED illuminators.

3. according to the described a kind of multi-colored led photoelectric glass of claim 2, it is characterized in that it is red, green and blue that the color of described three LED illuminators is respectively.

4. according to the described a kind of multi-colored led photoelectric glass of claim 1, it is characterized in that described intermediate layer is a polyvinyl butyral resin doubling medium.

5. according to the described a kind of multi-colored led photoelectric glass of claim 1, it is characterized in that described electro-conductive glass comprises sodium calcium basic unit and is plated in conductive film layer on this sodium calcium substrate surface.

6. according to the described a kind of multi-colored led photoelectric glass of claim 1, it is characterized in that described electro-conductive glass comprises silicon boryl substrate glass and is plated in the lip-deep conductive film layer of this silicon boryl substrate glass.

7. according to the described a kind of multi-colored led photoelectric glass of claim 1, it is characterized in that described conducting wire is transparent conducting wire.

8. according to the described a kind of multi-colored led photoelectric glass of claim 1, it is characterized in that, also comprise power supply, connect this conducting wire.

9. described according to Claim 8 a kind of multi-colored led photoelectric glass is characterized in that described power supply is a dc source.

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