CN205881946U

CN205881946U - Nano -material luminescent device

Info

Publication number: CN205881946U
Application number: CN201620875599.8U
Authority: CN
Inventors: 伍燕锋; 张建兵; 何江
Original assignee: Shenzhen Tong Gan Microtronics AS
Current assignee: Shenzhen City Power Technology Co. Ltd.
Priority date: 2016-08-12
Filing date: 2016-08-12
Publication date: 2017-01-11
Anticipated expiration: 2026-08-12

Abstract

The utility model discloses a nano -material luminescent device, wherein this nano -material luminescent device include the base, set up in illuminating part on the base and installing pipe cap on the base, it has an unthreaded hole to open on the pipe cap, just an installation optical device on the play unthreaded hole, light -absorbing coating is strained to last being provided with of optical device, it is the nano -material coating to strain light -absorbing coating. The utility model discloses an among the nano -material luminescent device, install optical device on the play unthreaded hole opened on the pipe cap, the last nano -material coating of optical device has the advantage that the optical filtering effect is good, the efficiency of light energy utilization is high.

Description

Nano material luminescent device

Technical field

This utility model relates to light emitting device field, particularly relates to a kind of nano material luminescent device.

Background technology

In prior art, the pipe cap in light emitting device field product is often integrated formed structure, and process costs is high and filters Light, light gathering efficiency are the best.In addition, pipe cap light transmission part uses the coating of common material to filter mostly so that LED's The efficiency of light energy utilization is the lowest.

Utility model content

The technical problems to be solved in the utility model is, it is provided that the nano material luminescent device of a kind of improvement.

This utility model solves its technical problem and be the technical scheme is that a kind of nano material luminescent device of offer, The illuminating part that including pedestal, is arranged on described pedestal and be arranged on the pipe cap on described pedestal；One is had on described pipe cap One optics is installed on light hole, and described light hole, described optics is provided with filter coating, described filter coating For nano-material coating.

Preferably, described optics includes glass baseplate, described glass baseplate is provided with one by by nano material Liquid dries the nano-material coating sheet to be formed, and described filter coating includes described nano-material coating sheet.

Preferably, described optics includes glass baseplate, and described glass baseplate is provided with described filter coating, described Filter coating is by being arranged at nano-material coating liquid on described glass baseplate and drying via high temperature or ultraviolet and formed.

Preferably, described pipe cap and described pedestal soldering and sealing encapsulation under nitrogen protection or vacuum environment；Described illuminating part It is oppositely arranged with described optics, and in space between the two, fills nitrogen or be vacuum state.

Preferably, described nano-material coating liquid is mixed with AB glue and/or UV glue by nanomaterial solution and/or powder Make.

Preferably, described nanomaterial solution and/or powder are quantum dot solution and/or powder.

Implementing the beneficial effects of the utility model is: in nano material luminescent device of the present utility model, pipe cap is opened Installing optics on light hole, it is excellent that the nano-material coating on optics has that filter effect is good, the efficiency of light energy utilization is high Point.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the structural representation of nano material luminescent device in some embodiments of this utility model.

Detailed description of the invention

In order to be more clearly understood from technical characteristic of the present utility model, purpose and effect, now comparison accompanying drawing is detailed Detailed description of the invention of the present utility model is described.

Fig. 1 shows the nano material luminescent device in some embodiments of this utility model, by use nano material and Ad hoc structure, can make blue light led chip realize infrared (800-2000nM) emission function.In some embodiments of this utility model Nano material luminescent device includes pedestal 10, illuminating part 20 and pipe cap 30, and illuminating part 20 is arranged on pedestal 10, and pipe cap 30 is pacified It is contained on pedestal 10.

Wherein, pedestal 10 can be made with common pedestal 10 material.Pipe cap 30 and pedestal 10 preferably nitrogen protection or Soldering and sealing encapsulation under person's vacuum environment.

Illuminating part 20 can be common, the device of any luminescence, and illuminating part 20 can realize its luminescent spectrum through optics After device 32, only go out the infrared light of correspondence.Preferably, illuminating part 20 is nano material infrared LED.As selection, can be by 440nM-460nM blue-light LED chip is encapsulated into pedestal 10.

Have a light hole 31 on pipe cap 30, and an optics 32 is installed on light hole 31.Illuminating part 20 and optics device Part 32 is oppositely arranged, and fills nitrogen or be vacuum state in space between the two.

Being provided with filter coating on optics 32, filter coating is nano-material coating.Nanometer on optics 32 Material coating energy level has optical power level conversion, the advantage that filter effect is good, the efficiency of light energy utilization is high.Nano-material coating liquid is by receiving Rice material solution and/or powder are mixed with AB glue and/or UV glue, and during mixing, the ratio of each several part can be entered according to real needs Row sets, as long as correlation function can be realized.Preferably, nanomaterial solution and/or powder be quantum dot solution and/or Powder.

The generation type of optics 32 has multiple, and in the first embodiment, optics 32 includes glass baseplate, Be provided with on glass baseplate one by by nano material liquid dry with formed nano-material coating sheet, filter coating includes receiving Rice material coating sheet.

In the second embodiment, optics 32 includes glass baseplate, and glass baseplate is provided with filter coating, filter Light coating is by being arranged at nano-material coating liquid on glass baseplate and drying via high temperature or ultraviolet and formed.As choosing Selecting, the sequencing being arranged on glass baseplate by nano-material coating liquid can not limit.For example, it is possible to first by nanometer Marking liquid use is coated with technique and is applied on a glass baseplate；Then, glass baseplate is carried out high temperature or ultraviolet is dried, formed Optics 32；Finally after optics 32 cutting, inlay inlet pipe cap 30.Or, it is also possible to first by nano-material coating liquid In mode for dispensing glue, putting on the flat window of glass of pipe cap 30, glass baseplate is covered on light hole 31；Again by nano-material coating Liquid carries out high temperature together with pipe cap 30 or ultraviolet is dried.

In the third embodiment, first the use of nano material liquid is coated with technique and is applied on a glass baseplate.Then Glass baseplate is carried out high temperature or ultraviolet is dried, form a single piece.It is to be appreciated that the glass baseplate in present embodiment Different from other embodiments, glass baseplate volume herein is relatively big, and single piece is a bigger sheet glass.The most again will Single piece is cut to several optics 32.Under such mode, can do multiple optical filter in batches, efficiency is higher.The most again will Optics 32 inlays inlet pipe cap 30.

Below in conjunction with Fig. 1, the encapsulation principle of nano material luminescent device in this utility model embodiment is illustrated.

First illuminating part 20 is encapsulated into pedestal 10.Wherein, illuminating part 20 can be common luminescent material, preferably receives Rice material infrared LED.As selection, 440nM-460nM blue-light LED chip can be encapsulated into pedestal 10.

Then, pipe cap 30 is opened a light hole 31, and an optics 32, optics 32 are installed on light hole 31 On be coated with filter coating, filter coating is nano-material coating.Nano-material coating liquid is by nanomaterial solution and/or powder End is mixed with AB glue and/or UV glue, and during mixing, the ratio of each several part can be set according to real needs, as long as can be real Existing correlation function.Preferably, nanomaterial solution and/or powder are quantum dot solution and/or powder.

In this step, can there is various embodiments to realize correlation function, see below embodiment 1 to 4.

In embodiment 1, first the use of nano material liquid is coated with technique to be applied on a glass baseplate.Again by glass baseplate Carry out high temperature or ultraviolet is dried, form optics 32.Finally after optics 32 cutting, inlay inlet pipe cap 30.

In example 2, first nano material liquid is individually dried, form a nano-material coating sheet.Again by nanometer material Material coated foil is attached to have on the pipe cap 30 of glass baseplate, and glass baseplate is covered on light hole 31.

In embodiment 3, first by nano-material coating liquid in mode for dispensing glue, put on the glass baseplate of pipe cap 30, Glass baseplate is covered on light hole 31；Nano-material coating liquid is carried out together with pipe cap 30 high temperature again or ultraviolet is dried Dry.

In example 4, first the use of nano material liquid is coated with technique to be applied on a glass baseplate.Then by glass base Material carries out high temperature or ultraviolet is dried, and forms a single piece.It is to be appreciated that glass baseplate in embodiment 4 and embodiment 1 to Difference in 3, glass baseplate volume herein is relatively big, and single piece is a bigger sheet glass.Again single piece is cut to several Optics 32.Under such mode, can do multiple optical filter in batches, efficiency is higher.Again optics 32 is inlayed inlet pipe cap 30。

After above steps, finally pipe cap 30 and pedestal 10 soldering and sealing are encapsulated.Wherein, pedestal 10 can be with common Pedestal 10 material is made.The preferably soldering and sealing encapsulation under nitrogen protection or vacuum environment of pipe cap 30 and pedestal 10.

The above is only preferred implementation of the present utility model, and protection domain of the present utility model is not limited merely to Above-described embodiment, all technical schemes belonged under this utility model thinking belong to protection domain of the present utility model.Should refer to Go out, for those skilled in the art, improving without departing from several under this utility model principle premise And retouching, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims

1. a nano material luminescent device, it is characterised in that include pedestal (10), the luminescence being arranged on described pedestal (10) Part (20) and the pipe cap (30) being arranged on described pedestal (10)；A light hole (31), and institute is had on described pipe cap (30) Stating light hole (31) upper installation one optics (32), described optics (32) is provided with filter coating, described optical filtering is coated with Layer is nano-material coating.

Nano material luminescent device the most according to claim 1, it is characterised in that described optics (32) includes glass Base material, described glass baseplate is provided with one by by nano material liquid dry with formed nano-material coating sheet, described Filter coating includes described nano-material coating sheet.

Nano material luminescent device the most according to claim 1, it is characterised in that described optics (32) includes glass Base material, described glass baseplate is provided with described filter coating, and described filter coating is by arranging nano-material coating liquid Dry and formed on described glass baseplate and via high temperature or ultraviolet.

4. according to the nano material luminescent device described in any one of claims 1 to 3, it is characterised in that described pipe cap (30) and Described pedestal (10) is soldering and sealing encapsulation under nitrogen protection or vacuum environment；Described illuminating part (20) and described optics (32) It is oppositely arranged, and in space between the two, fills nitrogen or be vacuum state.

5. according to the nano material luminescent device described in Claims 2 or 3, it is characterised in that described nano-material coating liquid It is mixed with AB glue and/or UV glue by nanomaterial solution and/or powder.

Nano material luminescent device the most according to claim 5, it is characterised in that described nanomaterial solution and/or powder End is quantum dot solution and/or powder.