CN101192502A

CN101192502A - Light emitting assembly using optical coating for promoting brightness

Info

Publication number: CN101192502A
Application number: CNA2006101453358A
Authority: CN
Inventors: 芈振伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-11-24
Filing date: 2006-11-24
Publication date: 2008-06-04

Abstract

The invention relates to a luminescent component which can increase brightness by optical coatings. The luminescent component comprises a strip-shaped glass tube which can generate ultraviolet light. Besides the bottom periphery of the strip-style glass tube is provided with a main visible optical layer which consists of a fluorescent reagent coating or a phosphorescent coating, and the top periphery of the strip-style grass tube is provided with an optical thin film coating layer through which short wavelength light can have a reflection while long wavelength light can cross simultaneously.

Description

Improve the luminescence component of brightness with optical coating

Technical field

The present invention relates to a kind of luminescence component that improves brightness with optical coating, it is luminous via the top layer of fluorescent agent coat or phosphorescent coating and the cooperation of the optical thin film coating layer that can pass through with reflection of seasonal short wavelength light and longwave optical, to reach raising is formed luminescence component brightness by ultraviolet lamp tube effect.

Background technology

General luminescence component, luminosity as the fluorescent illumination light fixture is all to be the illumination intensities that depend on its set luminous element, yet, because of the luminous element on the existing luminescence component of great majority is the fluorescent agent coat that all is provided with inner side face complete closed, promptly as fluorescent lamp, it is to be coated with fluorescent agent coat in the whole inboard of glass lamp, and produce discharge by its two end electrodes and inspire ultraviolet light, so when described ultraviolet lighting was mapped on the set fluorescent agent coat of described glass lamp, described fluorescent agent coat just can be excited and be sent light.Yet, because of fluorescer is to have following two specific characters:

Fluorescent agent coat has certain thickness, its top layer no doubt can produce visible light when UV-irradiation, but because of described ultraviolet light from the top layer past more deep layer (or nexine) inject, then its ultraviolet ray intensity just can weaken gradually, causing described deep layer to produce the visible light that is produced is a little less than more described surface layer is, thereby it is luminous darker to become deep layer, and the luminous brighter ray structure in top layer.That is to say that described fluorescer is to have past more deep layer, the problem that its brightness meeting is dark more.

Therefore fluorescent agent coat is not to be the good transparent body, for the penetrance of visible light the influence of certain degree is arranged, and then cause the weak of described visible light intensity, thereby when the visible light that makes the place, top layer produce penetrated deep layer again, its brightness was deepening gradually.

Existing fluorescent lamp is all with inboard wall of tube body coating fluorescent agent coat, and via the pipe in UV-irradiation and produce visible light, therefore the brightness of the fluorescent agent coat inner face in the pipe is can be than its outside for bright, yet brightness of illumination is based on the body outside, the brightness of illumination that is to say fluorescent lamp is luminous based on deep layer, so it is to have the not good problem of brightness to produce, in addition, the luminous visible light in pipe endosexine arrives pipe when outer through fluorescent agent coat, also can cause the situation of brightness deepening because of penetrating the bad transparent body (being the fluorescent tube of fluorescent lamp) again.Thus, existing fluorescent lamp is all to have above-mentioned two kinds of brightness decays that fluorescer causes, thereby makes the not good problem of its luminous efficiency.

At above-mentioned problem, this case applicant had once proposed a kind of cooperation by classical inverse photosphere and conventional fluorescent agent coating or phosphorescent coating to reach the effect that improves the brightness of ultraviolet tube luminescence component, but because of described reflector layer is that can form to hinder disadvantage and volume efficiency that visible light upwards penetrates not good, even if so through repeatedly reflection, its efficient is not also seen and can effectively be promoted, so generally, the brightness of described luminescence component raising is still to have the space that can further be improved.

The optical thin film coating technique that is developed with the dielectric medium plated film of 1/4 optical wavelength thickness makes rapid progress in recent years, especially aspect the high-quality coating technique development of the thickness detecting of vacuum coating and monitoring and ion beam sputtering deposition, the feasible multilayer optical film heap plated film that forms with the dielectric material repeated combination of height different refractivity, high reflection plated film of dielectric medium wherein and long wave pass all can reach quite desirable effect, the high reflection of this type of nonmetallic full dielectric medium plated film membrane stack may be up to eight, nine layers, tens layers or tens of layer, or for symmetrical membrane stack or for its characteristic of multi-cavity type membrane stack (Muti-Cavit) be just very high for highly reflective its average percent of pass of light wave beyond in this light wave zone in the light wave zone of setting.Then can set the ultraviolet light zone with this type of optically coated application is highly reflective and be cross-country traveling ability in the visible light zone, therefore sees that with the naked eye the glass lens of this type of plated film is transparent, can not block visible light.Shown in the reflective application that Figure 41 and Figure 41 A are mercury (mercury); With mercury (Hg) is the excited fluorescent lamp, its ultraviolet light master ripple is 253.7nm, complementary wave is 185nm, and be 147nm with its main ripple of ultraviolet light of xenon neon (Xe-Ne) gaseous mixture or xenon helium (Xe-He) gaseous mixture, complementary wave extends to 150nm-173nm, the longwave optical mean transmissivity of high reflection plated film and long wave pass can reach (another side has anti-reflective film) more than 95%, and short wavelength light average reflectance even can reach more than 99.5%.Long wave is connected with a part-frequency point, and part-frequency point to be defined as reflectivity or penetrance be that 50% Frequency point and the part-frequency point of this figure are how rice of wavelength 400.In general the part-frequency point of long wave pass can be the application to separate as ultraviolet light and visible light between 200nm～400nm.The magnesium fluoride MgF2 (550nm) of the quite a lot of AlF3 aluminum fluoride of the material of optical thin film, refractive index 1.38, lanthanum fluoride LaF3 refractive index 1.59 (550nm), MgO magnesium oxide refractive index 1.7 (230nm～9000nm) and ZnS zinc sulphide refractive index 2.35 (550nm) even higher plumbous refractive index 5.6 tens of kinds of materials such as (5000nm) of PbTe singleization in addition from low-refraction 1.36 (when the wavelength 230nm), its number is quite a lot of, and the method for system plating is also quite a lot of.So reflector layer traditional as described in substituting as so-called optical film as described in how promptly is all further discussions of this case to reach the effect of effective raising brightness.

As mentioned above, because of traditional fluorescent agent coat is to have the thicker characteristic of thickness, so relatively also just cause the not good situation of its transparency, thereby it is necessarily luminous secretly next than its top layer making its deep layer luminous, so reach the luminous effect in top layer if will improve the brightness of luminescence component, described conventional fluorescent agent coating is the full side face that can not cover described luminescence component fluorescent tube.Another kind method is tried the attenuation of being tried one's best of the thickness of described fluorescent agent coat, and make it be strengthened transparency, relatively, described technology also just makes the brightness that the top layer is luminous and deep layer is luminous of fluorescent agent coat can not have too big difference, even if so the coating of full side face also can effectively successfully outwards shine the visible light that described fluorescent agent coat ejected come out.But fluorescent agent coat no doubt can reduce to promote its transparency because of thickness, but this kind structure is to cause fluorescer in the fluorescent agent coat can't be covered with the situation of the full side face of luminescence component fully, usually may have an appointment 1/4,1/3 even 1/2 surface area can't be by coating, thereby cause partly that ultraviolet light can't be converted to visible light and slattern, so outwards penetrate for fear of ultraviolet light, the outside of described thin layer fluorescent agent coat is that optical thin film coating layer that further setting can make high reflection of short wavelength light and longwave optical height pass through makes the ultraviolet light that is not played a role by the coating district can repeat repeatedly to reflect and described thin layer fluorescent agent coat is excited into visible light.If the fluorescent agent coat of certain described thin layer is can be with high-tech more, as the gas thin film-forming method, wherein comprise physical vaporous deposition (PVD) and chemical vapour deposition technique (CVD) again, the film of formation is draped over one's shoulders on the full side face of luminescence component with being able to homogeneous transparent, then also can have the effect that improves brightness separately.

In view of this, the inventor is further research improvement, and to create a kind of structure more easy and more can improve the luminescence component of integral illumination brightness thereby grind.In addition, optically coated in recent years application is more and more many, as the plated film of the lens set of digital camera and the bright enhancement film in the LCD backlight module etc., all make manufacturing and equipment cost be minimized because of a large amount of production, the equipment of going up continuous coating more improves successively, makes unquestionable in a large number cheaply.

Summary of the invention

Main purpose of the present invention, provide a kind of luminescence component that improves brightness with optical coating, by being located at an optical thin film coating layer that can produce the main visible photosphere on the stripe shape canals of stilling of ultraviolet light and can pass through with seasonal short wavelength light reflection and longwave optical, to reach the effect that improves described luminescence component brightness.

Secondary objective of the present invention, provide a kind of luminescence component that improves brightness with optical coating, by the composite construction that ultraviolet tube is set between a hollow lever and an outer outlet body, and the optical thin film coating layer that is respectively equipped with main visible photosphere on the inboard full side face of full side face in the outside that makes described hollow lever and described outer outlet body or the full side face in the outside and can passes through with seasonal short wavelength light reflection and longwave optical, to reach the effect that can improve described luminescence component brightness.

Another purpose of the present invention, provide a kind of luminescence component that improves brightness with optical coating, by the intermediate section dividing plate of being located in the outer outlet body, make described outer outlet body is separated into following space two parts that an airtight last space and can produce ultraviolet light, be to be provided with main visible photosphere in addition on the side face because of described space down, and be to be provided with the optical thin film coating layer that can pass through with reflection of seasonal short wavelength light and longwave optical at least one surface of described intermediate section dividing plate, so it is the effect that can reach the described luminescence component brightness of effective raising.

A further object of the present invention, provide a kind of luminescence component that improves brightness with optical coating, at least one deck is by the main visible photosphere that the fluorescer optical coating is constituted by being coated with on the full side face that makes luminescence component with the gas thin film-forming method, and the structure of more being simplified described luminescence component is to reach the effect that improves brightness.

To achieve these goals, the invention provides a kind of luminescence component that improves brightness with optical coating, it is made of a stripe shape canals of stilling that can produce ultraviolet light, described stripe shape canals of stilling is except being provided with main visible photosphere in its underpart side face place, its side face place, top is provided with the optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is made of a stripe shape canals of stilling that can produce ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its inboard full side face place, the lower inside side face place of described optical thin film coating layer also is provided with a main visible photosphere.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is made of a stripe shape canals of stilling that can produce ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its full side face place, outside, described its lower inside side face place also is provided with a main visible photosphere.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is to comprise: one can produce the stripe shape canals of stilling of ultraviolet light, described stripe shape canals of stilling is except being provided with main visible photosphere in its underpart side face place, its side face place, top is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical; And an outer outlet body, described outer outlet body is to be set in the described stripe shape canals of stilling outside that produces ultraviolet light and to be constituted with big caliber stripe shape pipe that described stripe shape canals of stilling is combined into one by one.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is to comprise: one can produce the stripe shape canals of stilling of ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its inboard full side face place, the lower inside side face place of described optical thin film coating layer also is provided with a main visible photosphere; And an outer outlet body, described outer outlet body is to be set in the described stripe shape canals of stilling outside that produces ultraviolet light and to be constituted with big caliber stripe shape pipe that described stripe shape canals of stilling is combined into one by one.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is to comprise: one can produce the stripe shape canals of stilling of ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its full side face place, outside, described its lower inside side face place also is provided with a main visible photosphere; And an outer outlet body, described outer outlet body is to be set in the described stripe shape canals of stilling outside that produces ultraviolet light and to be constituted with big caliber stripe shape pipe that described stripe shape canals of stilling is combined into one by one.

The present invention also provides a kind of and improves the luminescence component of brightness with optical coating, and it is to comprise: a hollow stripe shape canals of stilling is to be provided with a main visible photosphere on the full side face in the outside of described stripe shape canals of stilling; One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing, in addition, full side face place, the outside of described outer outlet body or inboard full side face place are provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical; And two electrodes, described two electrodes are to form the region of discharge that can produce ultraviolet light between described stripe shape canals of stilling and described outer outlet body.

The present invention also provides a kind of and improves the luminescence component of brightness with optical coating, and it is to comprise: a hollow stripe shape canals of stilling is to be provided with a reflector layer on the full side face in the outside of described stripe shape canals of stilling; One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing, in addition, described outer outlet body is except being to be provided with the optical thin film coating layer that can pass through with reflection of seasonal short wavelength light and longwave optical in the full side face in outside place; On the inboard full side face of described outer outlet body and be provided with by thin fluorescent agent coat or main visible photosphere that phosphorescent coating constituted; And two electrodes, described two electrodes are to form the region of discharge that can produce ultraviolet light between described stripe shape canals of stilling and described outer outlet body.

The present invention also provides a kind of and improves the luminescence component of brightness with optical coating, and it is to comprise: a hollow stripe shape canals of stilling is to be provided with a reflector layer on the full side face in the outside of described stripe shape canals of stilling; One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing, in addition, described outer outlet body is except being to be provided with the optical thin film coating layer that can pass through with reflection of seasonal short wavelength light and longwave optical in the full side face in inboard place; On the inboard full side face of described optical thin film coating layer and be provided with by thin fluorescent agent coat or main visible photosphere that phosphorescent coating constituted; And two electrodes, described two electrodes are to form the region of discharge that can produce ultraviolet light between described stripe shape canals of stilling and described outer outlet body.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is to comprise: a hollow stripe shape canals of stilling, described stripe shape canals of stilling is except being provided with main visible photosphere in its underpart side face place, its side face place, top is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical; One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, and the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing; And two outer electrodes, described two outer electrodes on the outer peripheral face that is installed in the set extension of described outer outlet body end respectively, it also is electrically connected with an electrode cable respectively.

The present invention also provides a kind of and improves the luminescence component of brightness with optical coating, and it is to comprise: a hollow lever, the outer peripheral face of described hollow lever are except being provided with a reflector layer, and the outside of described reflector layer also is provided with main visible photosphere; One ultraviolet tube, described ultraviolet tube are to be spirally wrapped around described hollow lever outside; An and outer outlet body, described outer outlet body except with described hollow lever and described ultraviolet lamp duct occlusion wherein, two electrode tips of described ultraviolet tube also extend to the outside of described outer outlet body, on the internal perisporium of described outer outlet body are in addition to be provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical.

The present invention also provides a kind of and improves the luminescence component of brightness with optical coating, and it is to comprise: a hollow lever, the outer peripheral face of described hollow lever are to be provided with a reflector layer; One ultraviolet tube, described ultraviolet tube are to be spirally wrapped around described hollow lever outside; An and outer outlet body, described outer outlet body except with described hollow lever and described ultraviolet lamp duct occlusion wherein, two electrode tips of described ultraviolet tube also extend to the outside of described outer outlet body, in addition be to be provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical on the internal perisporium of described outer outlet body, and be to be provided with on the interior lateral circle surface of described optical thin film coating layer by thinner thickness and transparent fluorescent agent coat or the main visible photosphere that phosphorescent coating constituted.

The present invention also provides a kind of and improves the luminescence component of brightness with optical coating, and it is to comprise: a lamp box, described lamp box are except being provided with an open top, on its internal perisporium and be provided with a reflector layer, on the described in addition reflector layer and be provided with a main visible photosphere; At least one ultraviolet tube, described at least one ultraviolet tube are to be set in the described lamp box; And a cover cap, described cover cap is except in order to the open top of sealing described lamp box, and described cover cap bottom also is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is characterized in that: constituted by an outer outlet body, described outer outlet body is except in its two ends are respectively equipped with an electrode tip, between described two electrode tips and be provided with one and described outer outlet body can be separated into the space and the following intermediate section dividing plate in space, described in addition space down then is to communicate with described two electrode tips, and the bottom surface of described intermediate section dividing plate place is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical, then be to be provided with a main visible photosphere on the interior lateral circle surface in described in addition space down.

The present invention also provides a kind of luminescence component that improves brightness with optical coating, it is characterized in that: mainly be to comprise that one can produce ultraviolet light and by the made stripe shape canals of stilling of quartz glass, in addition be to be coated with the main visible photosphere that one deck at least is made of the fluorescer optical coating on the full side face in the inboard or the outside of described stripe shape canals of stilling with the gas film forming, described UV-irradiation can make its visible light that produces directly outwards penetrate the effect that improves brightness to reach on the main visible photosphere that described fluorescer optical coating is constituted the time.

Description of drawings

Fig. 1 is the organigram of luminescence component that first embodiment of the invention discloses;

Fig. 2 is the organigram of luminescence component that second embodiment of the invention discloses;

Fig. 2 A is based on the organigram that second embodiment of the invention discloses another embodiment of luminescence component;

Fig. 3 is the organigram of luminescence component that third embodiment of the invention discloses;

Fig. 3 A is based on the organigram that third embodiment of the invention discloses another embodiment of luminescence component;

Fig. 4 is the organigram of luminescence component that fourth embodiment of the invention discloses;

Fig. 4 A is based on the organigram that fourth embodiment of the invention discloses another embodiment of luminescence component;

Fig. 5 is the organigram of luminescence component that fifth embodiment of the invention discloses;

Fig. 5 A is based on the organigram that fifth embodiment of the invention discloses another embodiment of luminescence component;

Fig. 6 is the organigram of luminescence component that sixth embodiment of the invention discloses;

Fig. 6 A is based on the organigram that sixth embodiment of the invention discloses another embodiment of luminescence component;

Fig. 7 is the organigram of luminescence component that seventh embodiment of the invention discloses;

Fig. 8 is the organigram of luminescence component that eighth embodiment of the invention discloses;

Fig. 8 A is based on the organigram that eighth embodiment of the invention discloses another embodiment of luminescence component;

Fig. 9 is the organigram of luminescence component that ninth embodiment of the invention discloses;

Fig. 9 A is based on the organigram that ninth embodiment of the invention discloses another embodiment of luminescence component;

Figure 10 is the organigram of luminescence component that tenth embodiment of the invention discloses;

Figure 11 is the organigram of luminescence component that eleventh embodiment of the invention discloses;

Figure 11 A is based on the organigram that eleventh embodiment of the invention discloses another embodiment of luminescence component;

Figure 12 is the organigram of luminescence component that twelveth embodiment of the invention discloses;

Figure 12 A is based on the organigram that twelveth embodiment of the invention discloses another embodiment of luminescence component;

Figure 13 is the organigram of luminescence component that thriteenth embodiment of the invention discloses;

Figure 14 is the organigram of luminescence component that fourteenth embodiment of the invention discloses;

Figure 15 is the organigram of luminescence component that fifteenth embodiment of the invention discloses;

Figure 15 A is based on the organigram that fifteenth embodiment of the invention discloses another embodiment of luminescence component;

Figure 16 is the organigram of luminescence component that sixteenth embodiment of the invention discloses;

Figure 17 is the organigram of luminescence component that seventeenth embodiment of the invention discloses;

Figure 18 is the organigram of luminescence component that eighteenth embodiment of the invention discloses;

Figure 19 is the organigram of luminescence component that nineteenth embodiment of the invention discloses;

Figure 19 A is based on the organigram that nineteenth embodiment of the invention discloses another embodiment of luminescence component;

Figure 20 is the organigram of luminescence component that twentieth embodiment of the invention discloses;

Figure 20 A is based on the organigram that twentieth embodiment of the invention discloses another embodiment of luminescence component;

Figure 21 is the organigram of luminescence component that 21st embodiment of the invention discloses;

Figure 21 A is based on the organigram that 21st embodiment of the invention discloses another embodiment of luminescence component;

Figure 22 is the organigram of luminescence component that 22nd embodiment of the invention discloses;

Figure 22 A is based on the organigram that 22nd embodiment of the invention discloses another embodiment of luminescence component;

Figure 23 is the organigram of luminescence component that 23th embodiment of the invention discloses;

Figure 23 A is based on the organigram that 23th embodiment of the invention discloses another embodiment of luminescence component;

Figure 24 is the organigram of luminescence component that 24th embodiment of the invention discloses;

Figure 24 A is based on the organigram that 24th embodiment of the invention discloses another embodiment of luminescence component;

Figure 25 is the organigram of luminescence component that 25th embodiment of the invention discloses;

Figure 25 A is based on the organigram that 25th embodiment of the invention discloses another embodiment of luminescence component;

Figure 26 is a kind of encapsulating structure that improves the luminescence component of brightness of relevant the present invention;

Figure 26 A is that another kind embodiment illustrated in fig. 26 is implemented aspect;

Figure 27 is the organigram that is provided with the single tube structure light-emitting assembly of outer electrode;

Figure 28 is the organigram that is provided with the double pipe structure luminescence component of outer electrode;

Figure 29 is the organigram of the another kind of embodiment of luminescence component shown in the present;

Figure 30 is the profile construction schematic diagram of luminescence component embodiment shown in Figure 29;

Figure 30 A is based on the organigram of another embodiment of luminescence component shown in Figure 30;

Figure 31 is based on the enforcement aspect of another kind of luminescence component embodiment illustrated in fig. 30;

Figure 31 A is based on the organigram of another embodiment of luminescence component shown in Figure 31;

Figure 32 is based on the enforcement aspect of the another kind of luminescence component of embodiment shown in Figure 31;

Figure 32 A is based on the organigram of another embodiment of luminescence component shown in Figure 32;

Figure 33 is the D structure figure of another kind of luminescence component embodiment shown in the present;

Figure 34 is the profile construction schematic diagram of luminescence component embodiment shown in Figure 33;

Figure 34 A is based on the organigram of another embodiment of luminescence component shown in Figure 34;

Figure 35 is that the mat lamp box is to form the organigram of luminescence component shown in the present;

Figure 36 is the another kind of embodiment aspect of luminescence component embodiment shown in Figure 35;

Figure 37 is the luminescence component organigram that the lamp box of luminescence component shown in Figure 35 is re-established as the box body structure;

Figure 38 is the organigram of convenient preparation luminescence component shown in the present;

Figure 39 is to use the organigram of fluorescer optical coating as the luminescence component of main visible photosphere;

Figure 40 is the organigram of convenient preparation luminescence component shown in Figure 39;

Figure 41 optical wavelength and and height reflection plated film penetrance between corresponding diagram;

Figure 41 A be optical wavelength and and the optical thin film penetrance between corresponding diagram.

Description of reference numerals: 10 stripe shape canals of stilling; 10 ' semi arch appearance plate; 11,11 ' main visible photosphere; 12 optical thin film coating layers; 12 ' optical thin film coating layer; 13 reflector layers; 14 antireflective optical film coated layers; 20 outer outlet bodies; 21 protective clear layers; 25 tube gap packing things; 26 holes; 30 electrode tips; 31 metal wire joints; 40 outer electrodes; 41 electrode cables; 50 outer outlet bodies; Space on 51; 52 times spaces; 60 intermediate section dividing plates; 60 ' circular arc plate; 70 ultraviolet lamp tubes; 80 hollow levers; 90 ultraviolet tubes; 100 lamp boxes; 110 cover caps; 120 box bodies; 130 cover caps; 140 main visible photospheres; 150 outer outlet bodies.

Embodiment

See also shown in the accompanying drawing, first embodiment of the invention discloses the luminescence component that can improve brightness, it is made of a stripe shape canals of stilling 10 that can produce ultraviolet light, described stripe shape canals of stilling 10 is except being provided with a main visible photosphere 11 in the bottom of its body inboard side face, the top side face of its body inboard then is provided with one in addition can be with the optical thin film coating layer 12 that seasonal short wavelength light reflects and longwave optical is passed through, promptly as shown in Figure 1, wherein said main visible photosphere 11 is a fluorescent agent coat or a phosphorescent coating, and described optical thin film coating layer 12 then is an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical.

When described stripe shape canals of stilling 10 produces ultraviolet light, described ultraviolet light is can be radiated at respectively on described main visible photosphere 11 and the described optical thin film coating layer 12, because UV-irradiation is can produce upwards emission and belong to the luminous visible light in top layer on described main visible photosphere 11 time, so described visible light is upwards to be incident upon described optical thin film coating layer 12 places, in addition because of described optical thin film coating layer 12 is to have the function that can make short wavelength light reflection and longwave optical pass through, so described visible light is the function that can reach illumination by described optical thin film coating layer 12; In addition, the ultraviolet light that exposes to described optical thin film coating layer 12 places then can be reflected fully and further is radiated on the described main visible photosphere 11, so the ultraviolet light of described part also can make described main visible photosphere 11 produce the visible light luminous and genus top layer lighting kenel that makes progress, and then in the totalling visible light formerly, thereby penetrate described optical thin film coating 12, to reach the effect that improves brightness.

In addition, second embodiment as shown in Figure 2, it is the full side face that the optical thin film coating layer 12 of first embodiment shown in Figure 1 is coated with completely described stripe shape canals of stilling 10 inboards earlier, and then in the lower inside side face of described optical thin film coating layer 12 a main visible photosphere 11 is set and forms.Because the bottom of described main visible photosphere 11 also is provided with optical thin film coating layer 12, so be the ultraviolet light that partly sees through described main visible photosphere 11 can be reflected back, and when making described ultraviolet light run into the set optical thin film coating layer 12 in described stripe shape canals of stilling 10 tops, can be reflected back toward described main visible photosphere 11 places again, to reach the effect of further raising brightness.In addition, the visible light via the described main visible photosphere 11 deep layer lighting kenel that produces then is to penetrate downwards via the described optical thin film coating layer 12 of being located at the bottom.

In addition, because luminescence component shown in Figure 2 is to have the full side face optical thin film coating layer 12 that ultraviolet light can be reflected, so the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of its inboard set tool is the main visible photosphere 11 ' of full side face that can be re-established as the thin fluorescent agent coat of tool, promptly shown in Fig. 2 A.Because the thin fluorescent agent coat of described main visible photosphere 11 ' is to have the structure that fluorescer evenly is not coated with full side face, so when UV-irradiation is on described main visible photosphere 11 ', the ultraviolet light that partly penetrates described main visible photosphere 11 ' is to be reflected back by described optical thin film coating layer 12, and be completed into visible light through the repeated reflection phenomenon and at last, described visible light then can be through described main visible photosphere 11 ' and by outwards penetrating at described optical thin film coating layer 12 places, also just because described main visible photosphere 11 ' and described optical thin film coating layer 12 are all to have preferable transparency, so it is to have the effect that luminescence component brightness can be provided.

In addition, shown in Figure 3 then is the third embodiment of the present invention, it mainly is that to be re-established as a reflector layer 13 these reflector layers 13 be wide wavelength reflector layer for the optical thin film coating layer 12 of will be positioned among second embodiment described main visible photosphere 11 bottoms, be from shortwave to long wave that is be to contain to cover ultraviolet light so that the reflector layer of visible light, its composition can be single or two kinds of reflector layers overlap synthetic, because described reflector layer 13 also has the function that ultraviolet light can be reflected back, so described the 3rd embodiment ought also have the effect that can improve brightness.In addition, owing to be to have the optical thin film coating layer 12 and the reflector layer 13 that ultraviolet light can be reflected respectively on the full side face of described luminescence component, so the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of its inboard set tool is the main visible photosphere 11 ' of full side face that can be re-established as the thin fluorescent agent coat of tool, promptly as shown in Figure 3A.Because its technology effect is to be similar to Fig. 2 A, so the inventor does not just give unnecessary details adding.

Single wide wave reflection layer is not so good as the reflectivity height of segmentation wavelength usually, upward full side face plated film is also convenient in construction in addition, the 4th embodiment shown in Figure 4 adds an optical thin film coating layer 12 ' again in set reflector layer 13 of the 3rd embodiment and described main visible 11 of photospheres, may be via the visible light of described optical thin film coating layer 12 ' the downward deep layer lighting kenel that penetrates in order to stop.In addition, as mentioned above, the main visible photosphere 11 ' of half cycle face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of two tools, make to be separately positioned on the place, inboard that optical thin film coating layer 12 and 12 ' are established in described upper and lower side face place, promptly shown in Fig. 4 A.

The 5th embodiment shown in Figure 5 then is based on the improvement structure of described first embodiment, it is to add a reflector layer 13 in the outer lower portion side face place of stripe shape canals of stilling 10 shown in described first embodiment to form, to reflect back fully through the deep layer lighting kenel visible light of described main visible photosphere 11 and the ultraviolet light that may still exist, and then reach the effect that improves brightness.In addition, as mentioned above, the main visible photosphere 11 ' of half cycle face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of two tools, make the interior lateral circle surface place of the inboard and described optical thin film coating layer 12 of the following side face that is separately positioned on described stripe shape canals of stilling 10, promptly shown in Fig. 5 A.

In like manner, the 6th embodiment shown in Figure 6 is equipped with a reflector layer 13 in the outer lower portion side face place of stripe shape canals of stilling 10 shown in second embodiment to form.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool makes the place, inboard that is arranged on described optical thin film coating layer 12, promptly as shown in Figure 6A.

The 7th embodiment shown in Figure 7 then is that the optical thin film coating layer 12 with first embodiment changes the side face place, top that is located at described stripe shape canals of stilling 10 outsides and forms, because its structure is roughly same with described first embodiment, so described the 7th embodiment ought also have the effect that can improve brightness.But because of described stripe shape canals of stilling 10 is directly to bear ultraviolet light, so described stripe shape canals of stilling 10 must be made of quartz glass.At the quartz glass of this indication is the glass that general reference can see through ultraviolet light, can be through the glass material of ultraviolet light as magnesium fluoride (MgF2), calcirm-fluoride (CaF2) etc. or other etc.

The 8th embodiment shown in Figure 8 changes the described optical thin film coating layer 12 of being located at the 7th embodiment top side face into be coated with completely described stripe shape canals of stilling 10 outsides whole side faces to form.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool is promptly shown in Fig. 8 A.

The 9th embodiment shown in Figure 9 then is that the optical thin film coating layer that will be located at side face place, described stripe shape canals of stilling 10 bottom changes and is made as a reflector layer 13 and forms.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool is promptly shown in Fig. 9 A.

As for the tenth embodiment shown in Figure 10 then is the former main visible photosphere 11 of being located at described stripe shape canals of stilling 10 lower inside side face places of the 7th embodiment to be changed the side face place, bottom that is located at described stripe shape canals of stilling 10 outsides form.

The 11 embodiment shown in Figure 11 adds a reflector layer 13 in the outer lower portion side face place of described the 8th embodiment to form.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool is promptly shown in Figure 11 A.

The 12 embodiment shown in Figure 12 adds a reflector layer 13 in the outer lower portion side face place of described the tenth embodiment to form.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool makes on the full side face in the outside that is coated on described stripe shape canals of stilling 10, described optical thin film coating layer 12 and reflector layer 13 then are that the last side face that is located at the described main visible photosphere 11 ' outside respectively reaches side face place down, promptly shown in Figure 12 A.

Shown in Figure 13 then is the 13rd embodiment of the present invention, it mainly is to add an outer outlet body 20 again in the outside of the 7th embodiment to constitute, and described outer outlet body 20 is to be set in described stripe shape canals of stilling 10 outsides that produce ultraviolet light and to be constituted with big caliber stripe shape glass tube that described stripe shape canals of stilling 10 is combined into one by one.Because the outside of described stripe shape canals of stilling 10 is to be provided with described outer outlet body 20, so it is the effect that can provide described optical thin film coating layer 12 not to be destroyed and to strike off.

Described the 14 embodiment shown in Figure 14 then is that the optical thin film coating 12 with the 13 embodiment changes the inside upper part side face of being located at described stripe shape canals of stilling 10; In addition, described main visible photosphere 11 and while are changed the side face place, bottom that is located at described stripe shape canals of stilling 10 outsides.

Described the 15 embodiment shown in Figure 15 adds an outer outlet body 20 in the outside of described the 8th embodiment to constitute again.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool is promptly shown in Figure 15 A.

As for Figure 16 and the 16 embodiment shown in Figure 17 and the 17 embodiment then is that the outside respectively at described the 9th embodiment and described the 11 embodiment adds an outer outlet body 20 again and constitutes.Described the 18 embodiment shown in Figure 180 then is that the reflector layer 13 that the 17 embodiment is set changes the bottom side face of being located at described outer outlet body 20 inboards and forms.In addition, as mentioned above, the main visible photosphere of full side face that the main as seen photosphere 11 of the half cycle face of the thicker fluorescent agent coat of tool also can be re-established as the thin fluorescent agent coat of tool among described three embodiment was owing to describing already the front, so just no longer add to give unnecessary details at this.

The 19 embodiment shown in Figure 19 adds an outer outlet body 20 in the outside of the tenth embodiment to constitute again, and the side face place, bottom of described outer outlet body 20 inboards then is provided with a reflector layer 13 in addition in addition.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool makes full side face place, the outside that is coated on described stripe shape canals of stilling 10, described optical thin film coating layer 12 then is to change side face place on the outside of being located at described main visible photosphere 11 ', promptly shown in Figure 19 A.

The 20 embodiment shown in Figure 20 then is that the reflector layer 13 that the 18 embodiment is set changes the outer lower portion side face place that is located at described outer outlet body 20 and forms.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool is promptly shown in Figure 20 A.

The 21 embodiment shown in Figure 21 then is that the main visible photosphere 11 that described the 14 embodiment is set changes the side face place, bottom that is located at described outer outlet body 20 inboards, is provided with a reflector layer 13 corresponding to the described main as seen outer lower portion side face place of the outer outlet body 20 of photosphere 11 in addition.In addition, as mentioned above, the main visible photosphere 11 ' of half cycle face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool, and after the last side face place of described stripe shape canals of stilling 10 also can add a main visible photosphere 11 ' earlier, again with described optical thin film coating layer 12 half cycle face disposed thereon places, promptly shown in Figure 21 A.

The 22 embodiment shown in Figure 22 then is that the reflector layer 13 that the 19 embodiment is set changes the side face place, bottom that is located at described outer outlet body 20 outsides; the outside of described in addition reflector layer 13 also further is provided with a protective clear layer 21, provides described reflector layer 13 not struck off the effect of destruction.In addition, as mentioned above, the main visible photosphere 11 ' of full side face that the main visible photosphere 11 of the half cycle face of the thicker fluorescent agent coat of described tool also can be re-established as the thin fluorescent agent coat of tool makes full side face place, the outside that is coated on described stripe shape canals of stilling 10, described optical thin film coating layer 12 then is to change side face place on the outside of being located at described main visible photosphere 11 ', promptly shown in Figure 22 A.

By each embodiment recited above, its ultraviolet light Discharge illuminating district is the place, inside that is located at described stripe shape canals of stilling 10.Ensuing Figure 23 to shown in Figure 25 then be that Discharge illuminating district with described ultraviolet light changes and is located at 20 of described stripe shape canals of stilling 10 and described outer outlet bodies.The 23 embodiment as shown in figure 23, described embodiment is in order to reach the effect that improves brightness, it on the full side face in the outside of its set stripe shape canals of stilling 10 the applied main visible photosphere 11 that has, in addition described outer outlet body 20 is then to be the applied optical thin film coating layer 12 that has on the full side face in its outside of quartz ampoule, so when utilizing suitable electrode (not shown) to make in described stripe shape canals of stilling 10 and the discharge of 20 generations of described outer outlet body ultraviolet light, ultraviolet light is can be radiated at respectively on described main visible photosphere 11 and the described optical thin film coating layer 12, because described optical thin film coating layer 12 is to make described ultraviolet ray produce reflection, so all ultraviolet lights are to produce the visible light of top layer lighting kenel on described main visible photosphere 11, and then reach the effect that improves brightness.In addition, as mentioned above, the main visible photosphere 11 ' that the main visible photosphere 11 of the thicker fluorescent agent coat of the described set tool of stripe shape canals of stilling 10 outside circumference also can be re-established as the thin fluorescent agent coat of tool makes the inboard full side face place that is coated on described outer outlet body 20, promptly shown in Figure 23 A.

Described the 24 embodiment shown in Figure 24 adds a reflector layer 13 again in set main visible photosphere 11 of described the 23 embodiment and 10 of described stripe shape canals of stilling, provide and visible light and the possible ultraviolet light that sees through the deep layer lighting kenel of described main visible photosphere 11 can be reflexed to described optical thin film coating layer 12 fully, to reach the effect of further raising brightness.In like manner, the main visible photosphere 11 ' that the main visible photosphere 11 of the thicker fluorescent agent coat of the described set tool of stripe shape canals of stilling 10 outside circumference also can be re-established as the thin fluorescent agent coat of tool makes the inboard full side face place that is coated on described outer outlet body 20, promptly shown in Figure 24 A.

The 25 embodiment shown in Figure 25 then is that the optical thin film coating layer 12 that the 24 embodiment is set changes the full side face place that is located at described outer outlet body 20 inboards and forms.In addition, as mentioned above, the main visible photosphere 11 ' that the main visible photosphere 11 of the thicker fluorescent agent coat of the described set tool of stripe shape canals of stilling 10 outside circumference also can be re-established as the thin fluorescent agent coat of tool makes the full side face place that is coated on described outer outlet body 20 inboard set optical thin film coating layers 12 inboards, promptly shown in Figure 25 A.

Shown in Figure 26 then is a kind of encapsulating structure that improves the luminescence component of brightness with optical coating of relevant the present invention, it is to comprise that a hollow stripe shape canals of stilling 10 and is located at the outer outlet body 20 in described stripe shape canals of stilling 10 outsides, the both ends of described stripe shape canals of stilling 10 are to be respectively equipped with an electrode tip 30 in addition, described electrode tip 30 is installed in the inboard, end of described outer outlet body 20 except the set metal wire joint 31 in its outer end of mat, itself and by the unsettled place, both ends that places described stripe shape canals of stilling 10; And described outer outlet body 20 is except being sealed in described stripe shape canals of stilling 10 its inside, its two ends also stretch out respectively for described two metal wire joints 31, in addition between the internal perisporium of the periphery wall of described stripe shape canals of stilling 10 1 ends and described outer outlet body 20 and be provided with tube gap packing thing 25.Because described tube gap packing thing 25 is only to be set at place, an end, so it is effectively to provide ultraviolet discharge in the described stripe shape canals of stilling 10 inner functions that produce.Then be to be respectively equipped with main visible photosphere as mentioned above on the side face of described stripe shape canals of stilling 10 and described outer outlet body 20, structures such as optical thin film coating layer and reflector layer (not shown) are to reach the effect that can improve brightness.In addition, the two ends of described stripe shape canals of stilling 10 can further be shortened, and described two electrode tips 30 can form the structure of being located at the outside, described stripe shape canals of stilling 10 both ends, promptly shown in Figure 26 A.

In addition, as shown in figure 26, the tube wall of described stripe shape canals of stilling 10 is to be provided with a hole 26 in the contiguous place with an electrode tip 30, when the inner air of described stripe shape canals of stilling 10 is not enough, can further share and be positioned at described stripe shape canals of stilling 10 air outside, improve the described luminescence component brightness and the effect in useful life to reach.In addition, the side of described electrode tip 30 is further to add a making-up air device (not icon) that may extend to described outer outlet body 20 outsides, can be further by described making-up air device so that the supplementary functions of described luminescence component internal gas to be provided.

Figure 27 and luminescence component shown in Figure 28 are made of outer electrode.Luminescence component as shown in figure 28, it is to comprise: a hollow stripe shape canals of stilling 10, and one can be enclosed in its inner outer outlet body 20 with described stripe shape canals of stilling 10 and constitute, described outer outlet body 20 extends more outward except the end of all more described stripe shape canals of stilling 10 in two ends and forms the extension end 22, between the two ends periphery wall of described stripe shape canals of stilling 10 and the internal perisporium of described outer outlet body 20 and be respectively equipped with tube gap packing thing 25, in addition, described outer outlet body 20 set two extends the outer peripheral face place of end 22 and is respectively equipped with an outer electrode 40, and described two outer electrodes 40 also are electrically connected with an electrode cable 41 respectively.In addition, described tube gap packing thing 25 places can further be provided with several holes, and the air of locating in order to the tube gap space further is used.Then be to be respectively equipped with main visible photosphere as mentioned above on the side face of described stripe shape canals of stilling 10 and described outer outlet body 20, structures such as optical thin film coating layer and reflector layer (not shown) are to reach the effect that can improve brightness.

And it is shown in Figure 27, it then is the structure of a single tube, the outside, two ends of just described stripe shape canals of stilling 10 is to be respectively equipped with an outer electrode 40, then be to be respectively equipped with main visible photosphere as mentioned above on the side face of described stripe shape canals of stilling 10, structures such as optical thin film coating layer and reflector layer (not shown) are to reach the effect that can improve brightness.

When described outer electrode 40 during by start, the inside of the inside of described stripe shape canals of stilling 10 (as shown in figure 27) and described outer outlet body 20 inner set stripe shape canals of stilling 10 (as shown in figure 28) is to produce ultraviolet light because of electrode discharge, and described ultraviolet light then cooperates structure such as main visible photosphere, optical thin film coating layer and reflector layer set on the described luminescence component and reaches the effect of raising brightness in addition.

In addition, Figure 29 is to shown in Figure 30, then be another embodiment of the present invention, described luminescence component is equipped with the outer outlet body 50 of an electrode tip 30 except comprising two ends, 30 of described two electrode tips also are provided with one and described outer outlet body 50 can be separated into the space 51 and the intermediate section dividing plate 60 in space 52 down, wherein said space 52 down is to communicate with described two electrode tips 30, and the described space 51 of going up then is the structure that is sealing and can't communicates with described electrode tip 30; In addition the bottom surface of described intermediate section dividing plate 60 is to be provided with as mentioned above an optical thin film coating layer 12, then be to be provided with a main visible photosphere 11 on the interior lateral circle surface in described space 52 down, so as mentioned above, when described luminescence component because of 30 discharges of described electrode tip in described down when 52 places, space produce ultraviolet light, described ultraviolet light is to reach the effect that can improve described luminescence component brightness because of the cooperation of described optical thin film coating layer 12 and described main visible photosphere 11.In addition, described outer outlet body 50 ought also can add a reflector layer 13 in the lateral surface of the described main visible photosphere 11 of correspondence, to reach the effect that can further improve brightness.Plated film can plate thin slice in advance in quite difficult this application of tubule internal perisporium and put into tubule again to reach the effect of single tube.

In addition, certain described optical thin film coating layer 12 also can be set at the end face place (not shown) of described intermediate section dividing plate 60, or be an optical thin film coating layer 12 and an antireflective optical film coated layer 14 (or being called anti-reflection film) to be set respectively, promptly as shown in figure 31 in the bottom surface and the end face place of described intermediate section dividing plate 60.

In addition, the inventor must emphasize: described intermediate section dividing plate 60 can be made of the plate of various geometric modelings, the circular arc plate 60 ' of promptly being close to described outer outlet body 50 inside upper part side face places shown in figure 32, owing to also be provided with an optical thin film coating layer 12 and an antireflective optical film coated layer 14 on the side face of described circular arc plate 60 ', so when cooperating described outer outlet body 50 set main visible photosphere 11 and reflector layer 13, and make when described outer outlet body 50 is inner to produce ultraviolet lights, it can reach the effect of effective raising brightness.

In addition, as mentioned above, described Figure 30 establishes the thicker fluorescent agent coat of tool to second side face place, inboard of outer outlet body 50 shown in Figure 32 main visible photosphere 11 also can be re-established as the main visible photosphere 11 ' that tool approaches fluorescent agent coat, and the inboard of described optical thin film coating layer 12 also has the main visible photosphere 11 ' of described thin fluorescent agent coat simultaneously, promptly shown in Figure 30 A to Figure 32 A, to reach the effect of the described luminescence component brightness of further raising.

Figure 33 and shown in Figure 34 then be another embodiment of the present invention, described luminescence component, it is to comprise: a hollow lever 80, the outer peripheral face of described hollow lever 80 are except being provided with a reflector layer 13, and the outside of described reflector layer 13 also is provided with a main visible photosphere 11; In addition the outside of described hollow lever 80 then is to be provided with the ultraviolet tube 90 that twines of shape in the shape of a spiral; The outside of described hollow lever 80 and described ultraviolet tube 90 then is provided with an outer outlet body 20 in addition, described outer outlet body 20 is except with 90 sealings of described hollow lever 80 and described ultraviolet tube are in it, two electrode tips of described ultraviolet tube 90 also extend to the outside of described outer outlet body 20, on the internal perisporium of described outer outlet body 20 then are in addition to be provided with an optical thin film coating layer 12 that can pass through with seasonal short wavelength light reflection and longwave optical.

When described ultraviolet tube 90 produces ultraviolet light, described ultraviolet light then is bound to produce the effect that ultraviolet light is reflected back if expose on the described optical thin film coating layer 12, and then all ultraviolet light energy all can be irradiated on the described main visible photosphere 11, thereby the visible light that reaches the top layer kenel directly penetrates to improve the effect of brightness.In addition, as mentioned above, the main visible photosphere 11 ' that the main visible photosphere 11 of the thicker fluorescent agent coat of the described set tool of hollow lever 80 outside circumference also can be re-established as the thin fluorescent agent coat of tool makes the full side face place that is coated on described outer outlet body 20 inboard set optical thin film coating layers 12 inboards, promptly shown in Figure 34 A.

Shown in Figure 35, then be another embodiment of the present invention, described luminescence component, it is to comprise: a lamp box 100, described lamp box 100 are except being provided with an open top, on its internal perisporium and be provided with a reflector layer 13 and a main visible photosphere 11; The inside of described lamp box 100 then is to be provided with at least one ultraviolet tube 90 in addition, the open top place of described lamp box 100 is provided with a cover cap 110 in addition, described cover cap 110 is except in order to the open top of sealing described lamp box 100, and described cover cap 110 times also is provided with an optical thin film coating layer 12 that can pass through with seasonal short wavelength light reflection and longwave optical.As mentioned above, when described ultraviolet tube 90 produced ultraviolet light, it was to cooperate described main visible photosphere 11 and described optical thin film coating layer 12 to reach the effect that improves brightness.Figure 36 then is another embodiment aspect of described embodiment shown in Figure 35.

In addition, as shown in figure 37, it mainly is lamp box shown in Figure 35 100 to be re-established as one have open-topped box body 120 and constitute, described box body 120 is except interior lateral circle surface and bottom are provided with a reflector layer 13 and a main visible photosphere 11, its inside also is provided with at least one ultraviolet tube or at least one UV-light luminous source 90, in addition the top open part of described box body 120 also is provided with a cover cap 130, and the lower surface of described cover cap 130 also is provided with the optical thin film coating layer 12 that can pass through with seasonal short wavelength light reflection and longwave optical.

In addition, as mentioned above, described Figure 35 establishes the thicker fluorescent agent coat of tool to second side face place, inboard of lamp box 100 shown in Figure 37 or box body 120 main visible photosphere 11 also can be re-established as the main visible photosphere that tool approaches fluorescent agent coat, and the inboard of described cover cap 110,130 inboard set optical thin film coating layers 12 also is provided with described than the main visible photosphere (not shown) that approaches fluorescent agent coat, to reach the effect that improves described luminescence component brightness simultaneously.

In addition, the inboard tube wall of the set stripe shape canals of stilling 10 of luminescence component of the present invention carries out the coating operation of described main visible photosphere 11 or described photosphere film coated layer 12 for convenience, the present invention can be coated on described main visible photosphere 11 and described optical thin film coating layer 12 respectively on the semi arch appearance plate 10 ' earlier, and then the two semi arch appearance plates 10 ' that are respectively equipped with described main visible photosphere 11 and described optical thin film coating layer 12 are fused into the luminescence component of a pipe shape, promptly as shown in figure 38, so can effectively improve the coating effect of optical thin film coating layer or main visible photosphere.

Relevant above-mentioned disclosed all luminescence component embodiment, because described main visible photosphere 11 is by having certain thickness and being that the fluorescence coating layer or the phosphorescent coating of non-good clear body constituted, so in order to make full use of the luminous visible light that produces in its top layer, described luminescence component is that the optical thin film coating layer that can make short wavelength light reflection and longwave optical pass through must be set separately.But because of industrial technology is flourishing gradually recently, so if with method as the gas film forming, when also being coated on suitable fluorescer coating layer on the surface of luminescence component with the clear films kenel, promptly as shown in figure 39, if Yu Yike produces ultraviolet light and by plating the main visible photosphere 140 that one deck at least is made of the fluorescer optical coating in the mode of gas film forming on the full side face in the outside of the made stripe shape canals of stilling 10 of quartz glass, in case so UV-irradiation on described main visible photosphere 140 time, described main visible photosphere 140 can directly outwards penetrate the visible light that it produced.

As shown in figure 39; because must be with the mode of gas film forming to reach the effect of the described main visible photosphere 140 that is constituted by the fluorescer optical coating of coating; so described main visible photosphere 140 is the outside circumference that can be coated on described stripe shape canals of stilling 10; so the outside of described stripe shape canals of stilling 10 is to add an outer outlet body 150, can not be struck off and broken earth to reach the described main visible photosphere 140 that is constituted by the fluorescer optical coating of effective protection.Certainly; its can also similar luminescence component shown in Figure 38 manufacture method; earlier described fluorescer optical coating is coated on respectively on the semi arch appearance plate 10 '; and then be respectively equipped with the luminescence component that the optically coated semi arch appearance of described fluorescer plate 10 ' is fused into a pipe shape with two; promptly as shown in figure 40, can form and do not need with described outer outlet body 150 to protect the luminescence component of described main visible photosphere 140.

Because disclosed luminescence component is except utilizing the described main visible photosphere of UV-irradiation with the visible light that produces the top layer lighting kenel, because of described optical thin film coating layer is to have the function that short wavelength light of making (being ultraviolet light) reflects and longwave optical (being visible light) is passed through simultaneously, so described optical thin film coating layer is in case during by described UV-irradiation, described ultraviolet light is can reflex to described main visible photosphere to form the visible light of top layer lighting kenel, and then the energy that makes all ultraviolet lights all becomes visible light and by penetrating at described optical thin film coating layer place, to reach the effect that improves luminescence component brightness.

Though the present invention discloses as above with preferred embodiment, so it is not in order to qualification the present invention, any those skilled in the art, and various equivalences changes or the retouching done without departing from the spirit and scope of the present invention are when also being belongs to scope of the present invention.

Claims

1. luminescence component that improves brightness with optical coating, it is characterized in that: constituted by a stripe shape canals of stilling that can produce ultraviolet light, described stripe shape canals of stilling is except being provided with main visible photosphere in its underpart side face place, its side face place, top is provided with the optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical.

2. the luminescence component with optical coating raising brightness as claimed in claim 1 is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

3. the luminescence component with optical coating raising brightness as claimed in claim 2, it is characterized in that: described bottom side face and described top side face are meant the bottom side face and the top side face of described stripe shape canals of stilling inboard.

4. the luminescence component with optical coating raising brightness as claimed in claim 3, it is characterized in that: described main visible light aspect is more to be provided with a reflector layer to the lateral surface of described stripe shape canals of stilling.

5. the luminescence component with optical coating raising brightness as claimed in claim 4 is characterized in that: described reflector layer is to be located between the inwall of described main visible photosphere and described stripe shape canals of stilling.

6. the luminescence component that improves brightness with optical coating as claimed in claim 5, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the interior lateral circle surface of described optical thin film coating layer also is provided with described thin main visible photosphere in addition.

7. the luminescence component with optical coating raising brightness as claimed in claim 5, it is characterized in that: described reflector layer and described main visible light interlayer are further to add an optical thin film coating layer.

8. the luminescence component that improves brightness with optical coating as claimed in claim 7, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the described in addition interior lateral circle surface of going up side face optical thin film coating layer also is provided with described thin main visible photosphere.

9. the luminescence component with optical coating raising brightness as claimed in claim 4, it is characterized in that: described reflector layer is the outer wall place that is located at described stripe shape canals of stilling.

10. the luminescence component that improves brightness with optical coating as claimed in claim 9, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the interior lateral circle surface of described optical thin film coating layer also is provided with described thin main visible photosphere in addition.

11. the luminescence component that improves brightness with optical coating as claimed in claim 2, it is characterized in that: described stripe shape canals of stilling is a quartz glass tube body, described bottom side face is meant the bottom side face of described quartz glass tube body inboard, and described top side face then is meant the top side face in the described quartz glass tube body outside.

12. the luminescence component with optical coating raising brightness as claimed in claim 11, it is characterized in that: described main visible light aspect is more to be provided with a reflector layer to the lateral surface of described quartz glass tube body.

13. the luminescence component with optical coating raising brightness as claimed in claim 12 is characterized in that: described reflector layer is to be located between the inwall of described main visible photosphere and described quartz glass tube body.

14. the luminescence component with optical coating raising brightness as claimed in claim 12, it is characterized in that: described reflector layer is the outer wall place that is located at described quartz glass tube body.

15. as claim 13 or the 14 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and described in addition thin main visible photosphere step of going forward side by side is coated on side face place on the inboard of described stripe shape canals of stilling.

16. the luminescence component that improves brightness with optical coating as claimed in claim 2, it is characterized in that: described stripe shape canals of stilling is a quartz glass tube body, and described bottom side face and described top side face are meant the bottom side face and the top side face in the described quartz glass tube body outside.

17. the luminescence component with optical coating raising brightness as claimed in claim 16, it is characterized in that: the lateral surface of described main visible photosphere is more to be provided with a reflector layer.

18. the luminescence component that improves brightness with optical coating as claimed in claim 17, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, described in addition thin main visible photosphere and further be coated on described stripe shape canals of stilling and described optical thin film coating layer between.

19. as claimed in claim 1ly improve the luminescence component of brightness with optical coating, it is characterized in that: the ultraviolet light that described stripe shape canals of stilling is produced is made of the electrode tip of being located at inside, described stripe shape canals of stilling two ends or the outer electrode of being located at outside, described stripe shape canals of stilling two ends.

20. luminescence component that improves brightness with optical coating, it is characterized in that: constituted by a stripe shape canals of stilling that can produce ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its inboard full side face place, the lower inside side face place of described optical thin film coating layer also is provided with a main visible photosphere.

21. the luminescence component with optical coating raising brightness as claimed in claim 20 is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

22. the luminescence component with optical coating raising brightness as claimed in claim 21, it is characterized in that: the outer lower portion side face place of described stripe shape canals of stilling more is provided with a reflector layer.

23. as claim 21 or the 22 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and described in addition thin main visible photosphere also further is coated on side face place on the inboard of described optical thin film coating layer.

24. as claimed in claim 20ly improve the luminescence component of brightness with optical coating, it is characterized in that: the ultraviolet light that described stripe shape canals of stilling is produced is made of the electrode tip of being located at inside, described stripe shape canals of stilling two ends or the outer electrode of being located at outside, described stripe shape canals of stilling two ends.

25. luminescence component that improves brightness with optical coating, it is characterized in that: constituted by a stripe shape canals of stilling that can produce ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its full side face place, outside, described its lower inside side face place also is provided with a main visible photosphere.

26. the luminescence component with optical coating raising brightness as claimed in claim 25 is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

27. the luminescence component with optical coating raising brightness as claimed in claim 26, it is characterized in that: the outer lower portion side face place of described optical thin film coating layer more is provided with a reflector layer.

28. as claim 26 or the 27 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and described in addition thin main visible photosphere also further is coated on side face place on the inboard of described stripe shape canals of stilling.

29. as claimed in claim 25ly improve the luminescence component of brightness with optical coating, it is characterized in that: the ultraviolet light that described stripe shape canals of stilling is produced is made of the electrode tip of being located at inside, described stripe shape canals of stilling two ends or the outer electrode of being located at outside, described stripe shape canals of stilling two ends.

30. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One can produce the stripe shape canals of stilling of ultraviolet light, and described stripe shape canals of stilling is except being provided with main visible photosphere in its underpart side face place, and its side face place, top is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical; And

One outer outlet body, described outer outlet body are to be set in the described stripe shape canals of stilling outside that produces ultraviolet light and to be constituted with big caliber stripe shape pipe that described stripe shape canals of stilling is combined into one by one.

31. the luminescence component with optical coating raising brightness as claimed in claim 30 is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

32. the luminescence component with optical coating raising brightness as claimed in claim 31, it is characterized in that: described bottom side face and described top side face are meant the bottom side face and the top side face of described stripe shape canals of stilling inboard.

33. the luminescence component with optical coating raising brightness as claimed in claim 32, it is characterized in that: described main visible light aspect is more to be provided with a reflector layer to the lateral surface of described stripe shape canals of stilling.

34. the luminescence component with optical coating raising brightness as claimed in claim 33 is characterized in that: described reflector layer is to be located between the inwall of described main visible photosphere and described stripe shape canals of stilling.

35. the luminescence component that improves brightness with optical coating as claimed in claim 34, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the interior lateral circle surface of described optical thin film coating layer also is provided with described thin main visible photosphere in addition.

36. the luminescence component with optical coating raising brightness as claimed in claim 33, it is characterized in that: described reflector layer is the outer wall place that is located at described stripe shape canals of stilling.

37. the luminescence component that improves brightness with optical coating as claimed in claim 36, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the described in addition interior lateral circle surface of going up side face optical thin film coating layer also is provided with described thin main visible photosphere.

38. the luminescence component that improves brightness with optical coating as claimed in claim 31, it is characterized in that: described stripe shape canals of stilling is a quartz glass tube body, described bottom side face is meant the bottom side face of described quartz glass tube body inboard, and described top side face then is meant the top side face in the described quartz glass tube body outside.

39. the luminescence component with optical coating raising brightness as claimed in claim 38, it is characterized in that: described main visible light aspect is more to be provided with a reflector layer to the lateral surface of described quartz glass tube body.

40. the luminescence component with optical coating raising brightness as claimed in claim 39 is characterized in that: described reflector layer is to be located between the inwall of described main visible photosphere and described quartz glass tube body.

41. the luminescence component with optical coating raising brightness as claimed in claim 39, it is characterized in that: described reflector layer is the outer wall place that is located at described quartz glass tube body.

42. as claim 40 or the 41 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and described in addition thin main visible photosphere step of going forward side by side is coated on side face place on the inboard of described stripe shape canals of stilling.

43. the luminescence component that improves brightness with optical coating as claimed in claim 31, it is characterized in that: described stripe shape canals of stilling is a quartz glass tube body, and described bottom side face and described top side face are meant the bottom side face and the top side face in the described quartz glass tube body outside.

44. the luminescence component with optical coating raising brightness as claimed in claim 43, it is characterized in that: the lateral surface of described main visible photosphere is more to be provided with a reflector layer.

45. the luminescence component with optical coating raising brightness as claimed in claim 44, it is characterized in that: described reflector layer is the side face place, bottom that can be located at described outer outlet body inboard.

46. the luminescence component with optical coating raising brightness as claimed in claim 44 is characterized in that: described reflector layer is the side face place, bottom that can be located at the described outer outlet body outside.

47. as claim 45 or the 46 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, described in addition thin main visible photosphere and further be coated on described stripe shape canals of stilling and described optical thin film coating layer between.

48. the luminescence component with optical coating raising brightness as claimed in claim 47, it is characterized in that: the outside of described reflector layer is more to be provided with a protective clear layer.

49. the luminescence component with optical coating raising brightness as claimed in claim 46 is characterized in that: described main visible photosphere is the side face place, bottom that can be located at described outer outlet body inboard.

50. the luminescence component that improves brightness with optical coating as claimed in claim 49, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, described in addition thin main visible photosphere and further be coated on described optical thin film coating layer and described stripe shape canals of stilling between.

51. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One can produce the stripe shape canals of stilling of ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its inboard full side face place, the lower inside side face place of described optical thin film coating layer also is provided with a main visible photosphere; And

52. the luminescence component with optical coating raising brightness as claimed in claim 51 is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

53. the luminescence component with optical coating raising brightness as claimed in claim 52, it is characterized in that: the outer lower portion side face place of described stripe shape canals of stilling more is provided with a reflector layer.

54. as claim 52 or the 53 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and described in addition thin main visible photosphere also further is coated on side face place on the inboard of described optical thin film coating layer.

55. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One can produce the stripe shape canals of stilling of ultraviolet light, described stripe shape canals of stilling is except being provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical in its full side face place, outside, described its lower inside side face place also is provided with a main visible photosphere; And

56. as 55 described luminescence components with optical coating raising brightness of claim the, wherein said main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

57. the luminescence component with optical coating raising brightness as claimed in claim 56, it is characterized in that: the outer lower portion side face place of described optical thin film coating layer more is provided with a reflector layer.

58. the luminescence component with optical coating raising brightness as claimed in claim 57, it is characterized in that: described reflector layer is to be located at the side face place, bottom of described outer outlet body inboard or the outer lower portion side face place of described outer outlet body.

59. as claim 56 or the 58 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and described in addition thin main visible photosphere step of going forward side by side is coated on side face place on the inboard of described stripe shape canals of stilling.

60. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One hollow stripe shape canals of stilling is to be provided with a main visible photosphere on the full side face in the outside of described stripe shape canals of stilling;

One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing, in addition, full side face place, the outside of described outer outlet body or inboard full side face place are provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical; And

Two electrodes, described two electrodes are to form the region of discharge that can produce ultraviolet light between described stripe shape canals of stilling and described outer outlet body.

61. the luminescence component with optical coating raising brightness as claimed in claim 60, it is characterized in that: described stripe shape canals of stilling and described main visible light interlayer are that a reflector layer can further be set.

62. the luminescence component with optical coating raising brightness as claimed in claim 60 is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

63. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One hollow stripe shape canals of stilling is to be provided with a reflector layer on the full side face in the outside of described stripe shape canals of stilling;

One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing, in addition, described outer outlet body is except being to be provided with the optical thin film coating layer that can pass through with reflection of seasonal short wavelength light and longwave optical in the full side face in outside place; On the inboard full side face of described outer outlet body and be provided with by thin fluorescent agent coat or main visible photosphere that phosphorescent coating constituted; And

64. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing, in addition, described outer outlet body is except being to be provided with the optical thin film coating layer that can pass through with reflection of seasonal short wavelength light and longwave optical in the full side face in inboard place; On the inboard full side face of described optical thin film coating layer and be provided with by thin fluorescent agent coat or main visible photosphere that phosphorescent coating constituted; And

65. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One hollow stripe shape canals of stilling, described stripe shape canals of stilling are except being provided with main visible photosphere in its underpart side face place, its side face place, top is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical;

One outer outlet body, described outer outlet body is described stripe shape canals of stilling can be contained in inner sealing stripe shape pipe by one to be constituted, described outer outlet body extends more outward except the end of all more described stripe shape canals of stilling in two ends and forms the extension end, and the two ends periphery wall of described stripe shape canals of stilling and the internal perisporium of described outer outlet body also are respectively equipped with tube gap packing thing; And

Two outer electrodes, described two outer electrodes on the outer peripheral face that is installed in the set extension of described outer outlet body end respectively, itself and be electrically connected with an electrode cable respectively.

66. improve the luminescence component of brightness as claim 65 is described with optical coating, it is characterized in that: described tube gap packing thing is more to be provided with hole, in order to the carrying out of tube gap space vacuum operation.

67. improve the luminescence component of brightness as claim 65 is described with optical coating, it is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

68. improve the luminescence component of brightness as claim 67 is described with optical coating, it is characterized in that: described bottom side face and described top side face are meant the bottom side face and the top side face of described stripe shape canals of stilling inboard.

69. improve the luminescence component of brightness as claim 68 is described with optical coating, it is characterized in that: described main visible light aspect is more to be provided with a reflector layer to the lateral surface of described stripe shape canals of stilling.

70. improve the luminescence component of brightness as claim 69 is described with optical coating, it is characterized in that: described reflector layer is to be located between the inwall of described main visible photosphere and described stripe shape canals of stilling.

71. as the described luminescence component that improves brightness with optical coating of claim 70, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the interior lateral circle surface of described optical thin film coating layer also is provided with described thin main visible photosphere in addition.

72. improve the luminescence component of brightness as claim 69 is described with optical coating, it is characterized in that: described reflector layer is the outer wall place that is located at described stripe shape canals of stilling.

73. as the described luminescence component that improves brightness with optical coating of claim 72, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the interior lateral circle surface of described optical thin film coating layer also is provided with described thin main visible photosphere in addition.

74. as the described luminescence component that improves brightness with optical coating of claim 67, it is characterized in that: described stripe shape canals of stilling is a quartzy body, described bottom side face is meant the bottom side face of described stripe shape canals of stilling inboard, and described top side face then is meant the top side face in the described stripe shape canals of stilling outside.

75. improve the luminescence component of brightness as claim 74 is described with optical coating, it is characterized in that: described main visible light aspect is more to be provided with a reflector layer to the lateral surface of described stripe shape canals of stilling.

76. improve the luminescence component of brightness as claim 75 is described with optical coating, it is characterized in that: described reflector layer is to be located between the inwall of described main visible photosphere and described stripe shape canals of stilling.

77. improve the luminescence component of brightness as claim 75 is described with optical coating, it is characterized in that: described reflector layer is the outer wall place that is located at described stripe shape canals of stilling.

78. as claim 76 or the 77 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and described in addition thin main visible photosphere step of going forward side by side is coated on side face place on the inboard of described stripe shape canals of stilling.

79. as the described luminescence component that improves brightness with optical coating of claim 67, it is characterized in that: described stripe shape canals of stilling is a quartzy body, and described bottom side face and described top side face are meant the bottom side face and the top side face in the described stripe shape canals of stilling outside.

80. improve the luminescence component of brightness as claim 79 is described with optical coating, it is characterized in that: the lateral surface of described main visible photosphere is more to be provided with a reflector layer.

81. as the described luminescence component that improves brightness with optical coating of claim 80, it is characterized in that: described main visible photosphere is to belong to thinner thickness and transparent fluorescent agent coat or phosphorescent coating, described in addition thin main visible photosphere and further be coated on described stripe shape canals of stilling and described optical thin film coating layer between.

82. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One hollow lever, the outer peripheral face of described hollow lever are except being provided with a reflector layer, and the outside of described reflector layer also is provided with main visible photosphere;

One ultraviolet tube, described ultraviolet tube are to be spirally wrapped around described hollow lever outside; And

One outer outlet body, described outer outlet body except with described hollow lever and described ultraviolet lamp duct occlusion wherein, two electrode tips of described ultraviolet tube also extend to the outside of described outer outlet body, on the internal perisporium of described outer outlet body are in addition to be provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical.

83. improve the luminescence component of brightness as claim 82 is described with optical coating, it is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

84. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One hollow lever, the outer peripheral face of described hollow lever are to be provided with a reflector layer;

One outer outlet body, described outer outlet body except with described hollow lever and described ultraviolet lamp duct occlusion wherein, two electrode tips of described ultraviolet tube also extend to the outside of described outer outlet body, in addition be to be provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical on the internal perisporium of described outer outlet body, and be to be provided with on the interior lateral circle surface of described optical thin film coating layer by thinner thickness and transparent fluorescent agent coat or the main visible photosphere that phosphorescent coating constituted.

85. the luminescence component with optical coating raising brightness is characterized in that, is to comprise:

One lamp box, described lamp box are except being provided with an open top, on its internal perisporium and be provided with a reflector layer, on the described in addition reflector layer and be provided with a main visible photosphere;

At least one ultraviolet tube, described at least one ultraviolet tube are to be set in the described lamp box; And

One cover cap, described cover cap be except in order to the open top of sealing described lamp box, and described cover cap bottom also is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical.

86. improve the luminescence component of brightness as claim 85 is described with optical coating, it is characterized in that: described main visible photosphere is that a fluorescent agent coat or a phosphorescent coating or are provided with fluorescent agent coat or phosphorescent coating in reflector layer.

87. improve the luminescence component of brightness as claim 85 is described with optical coating, it is characterized in that: described lamp box is to be selected from a rectangular cross section cube, a polygon section cube or is that a coniform cube is formed one in the group.

88. as the described luminescence component that improves brightness with optical coating of claim 87, it is characterized in that: described main visible photosphere is constituted by a thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the inboard of the set optical thin film coating layer of described cover cap is further to be provided with by described thinner thickness and transparent fluorescent agent coat or the main visible photosphere that phosphorescent coating constituted in addition.

89. luminescence component that improves brightness with optical coating, it is characterized in that: constituted by an outer outlet body, described outer outlet body is except in its two ends are respectively equipped with an electrode tip, between described two electrode tips and be provided with one and described outer outlet body can be separated into the space and the following intermediate section dividing plate in space, described in addition space down then is to communicate with described two electrode tips, and the bottom surface of described intermediate section dividing plate place is provided with an optical thin film coating layer that can pass through with seasonal short wavelength light reflection and longwave optical, then be to be provided with a main visible photosphere on the interior lateral circle surface in described in addition space down.

90. improve the luminescence component of brightness as claim 89 is described with optical coating, it is characterized in that: described main visible photosphere is a fluorescent agent coat or a phosphorescent coating.

91. improve the luminescence component of brightness as claim 90 is described with optical coating, it is characterized in that: described intermediate section dividing plate can be made of the plate of various different geometric modellings.

92. improve the luminescence component of brightness as claim 91 is described with optical coating, it is characterized in that: the end face of described intermediate section dividing plate is further to add an antireflective optical film coated layer.

93. as claim 91 or 92 described luminescence components with optical coating raising brightness, it is characterized in that: described outer outlet body is that more a step adds a reflector layer in the lateral surface of the described main visible photosphere of correspondence.

94. as claim 91 or the 92 described luminescence components that improve brightness with optical coating, it is characterized in that: described main visible photosphere is constituted by a thinner thickness and transparent fluorescent agent coat or phosphorescent coating, and the inboard of the set optical thin film coating layer of described intermediate section dividing plate is further to be provided with by described thinner thickness and transparent fluorescent agent coat or the main visible photosphere that phosphorescent coating constituted in addition.

95. improve the luminescence component of brightness as claim 94 is described with optical coating, it is characterized in that: described outer outlet body is that more a step adds a reflector layer in the lateral surface of the described main visible photosphere of correspondence.

96. luminescence component that improves brightness with optical coating, it is characterized in that: mainly be to comprise that one can produce ultraviolet light and by the made stripe shape canals of stilling of quartz glass, in addition be to be coated with the main visible photosphere that one deck at least is made of the fluorescer optical coating on the full side face in the inboard or the outside of described stripe shape canals of stilling with the gas film forming, described UV-irradiation can make its visible light that produces directly outwards penetrate the effect that improves brightness to reach on the main visible photosphere that described fluorescer optical coating is constituted the time.