CN201496887U - Light guide strip structure with neon effect - Google Patents
Light guide strip structure with neon effect Download PDFInfo
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- CN201496887U CN201496887U CN2009203036902U CN200920303690U CN201496887U CN 201496887 U CN201496887 U CN 201496887U CN 2009203036902 U CN2009203036902 U CN 2009203036902U CN 200920303690 U CN200920303690 U CN 200920303690U CN 201496887 U CN201496887 U CN 201496887U
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Abstract
The utility model relates to a light guide strip structure with a neon effect, which comprises a transparent body, wherein the body comprises a surface which can scatter light rays and a color strip arranged in the body. The reflectivity or the index of the color strip is greater than that of the body, so that most of the light rays are reflected back to the body, part of the light rays enters the color strip, and the neon effect is generated. Essentially, the light rays entering the body travel along the direction of the axis of the body, the functions of reflection and refraction are generated between the body and the color strip, and the light rays are scattered out from the surface of the body; the utility model is used for enhancing the light guide brightness and improving the situations of fuzzy light emitting effect and the like in an old method; and the utility model is also used for reducing the phenomenon of a dark light zone or diffraction generated in a known structure and disturbing the light emitting effect and the like.
Description
Technical field:
The utility model relates to a kind of light guide structure; Be meant the compound colour band of a kind of light guide body especially, make light between body and colour band, produce effects such as neon effect and better reflection, refraction.
Background technology:
Use thermoplastic; for example polymer such as polycarbonate, polyamine lipid, ethyl, methacrylate or its similar material are made transparent core body or stamen body; and coat parts such as protective layer that polythene material makes or thin overcoat in described core body or stamen surface; coming the light guide structure of common pilots light, has been known technology.For example, United States Patent (USP) the 4th, 422, No. 719 " OPTICAL DISTRIBUTION SYSTEM INCLUDING LIGHT GUIDE " patent cases have disclosed typical embodiment.It has disclosed a kind of technology in transparent core body and translucent overcoat (sleeve) combination; The design of this overcoat makes the specific refraction of its specific refraction (refraction) greater than core body, increases the reflex of light, prolong the travel distance of light in core body, and the light that scattering or diffusion are come out is even, soft.But this overcoat can make the light that scatters out become dim, fuzzy, and the lightness of having lost light allows the light that scatters out become more plain; This situation has obtained proof from its product.
Another factor that makes the light that scatters out become dim, fuzzy may comprise that also this overcoat inner surface and core body surface are two surfaces of pressing close to very much; From the light of one of them surface reflection, the light that is reflected by another surface is interfered and is offset probably.For example, suppose that light source is a white light, in the time of the thinner thickness of overcoat, the blue light in the white light is offset because interfere, the light that therefore is reflected into eyes can become the gold-tinted (being the complementary colours of blue light) that does not relatively work; If increase the thickness of overcoat, the green light in the white light is cancelled easily, and its corresponding complementary colours occurs.In other words, the light guide structure of described overcoat cladding core body can reduce the lightness of light because of this interference.
In order to improve this class problem, the 4th, 422, No. 719 patent cases provide other embodiment; For example, the indentation that different length is arranged is set on overcoat and core body, or in overcoat, adds the materials such as emulsion, reflective powder material or metal oxide that can increase brightness.But, these embodiment also make its light guide structure more complicated that becomes on making.
At United States Patent (USP) the 6th, 169,836 B1 numbers " OPTICAL TRANSMISSION TUBE AND METHOD FOR MAKINGTHE SAME ", United States Patent (USP) the 7th, 433, in the 565B2 number patent cases such as " SIDE-SCATTERING LIGHT GUDES ", also disclosed the technological means of using protective layer or overcoat cladding core body; Described patent case makes the refractive index of the refractive index (refractive index) of core body greater than this overcoat.But this protective layer or overcoat equally can make the light that scatters out become dim, fuzzy, reduce the lightness of light, allow the light that scatters out become more plain; And this situation has obtained proof from their product too.
Therefore, in order to improve the lightness of its light guide structure, they are provided with many scattering particles (light-scattering particles) or the diffusion particles (diffuser particles) made by organic polymer (for example silicones molecule, polystyrene resin, metal oxide, carbonate or its similar material etc.) in core body inside, increase the reflection and the refraction effect of light.Just as those people that know this technology know, the light guide structure that this class has scattering particles or diffusion particle is a more complicated on making.Because they will be made the scattering particles of finishing earlier and be added to into dissolved state and through after in the core body of polymerization, must make scattering particles be dispersed in this core body inside again through a vibration and a rotation operation.And the manufacturing of this class formation is reflected on the price, and the price of light-guiding strip structure that makes every 20cm is up to 70~80 yuan of New Taiwan Dollar.
The light guide structure that another relevant this class has scattering particles or diffusion particle in the problem of application facet is, when the light in injecting core body meets with these scattering particles or diffusion particle, usually also can cause shade, make the edge of shade produce diffraction fringe in the behind of scattering particles or diffusion particle; Sometimes diffraction fringe can be mixed, and makes the shade edge form fuzzy situation.Though, the degree of diffraction is decided by the size of scattering particles or diffusion particle and the correlation between the wavelength of light, and (for example wavelength is long more, diffraction is obvious more), but its selection or use of also having shown the light source kind be restricted, and that this situation is not for we is desired.
The 7th, 433, also disclosed another embodiment in the 565B2 patent case, it is provided with the dielectric layer of an air layer or other similar material formation between core body and overcoat; The refractive index of air layer or dielectric layer is less than the refractive index of core body.Because there is a layer of air to be separated by between core body and the overcoat, light can be from the reflection respectively up and down of air layer, and this reflection ray can interfere phenomenon mutually, and produces bright blanking bar (being light and dark striped band).This is because the light that is reflected into eyes is respectively the light of overcoat inner surface reflection and the light of core body outer surface reflection from two different paths; The light of core body outer surface reflection need be advanced than long distance, could arrive beholder's eyes.If this segment distance difference just in time is half wavelength (out-phase), destructive interference will take place, and blanking bar occurs; And the range difference on next door does not interfere, and bright band will occur.That is to say that the light from overcoat inner surface and two very approaching plane reflections of core body outer surface can produce interference fringe, and reduce the lightness of light.
Representational, these reference datas have shown relevant light source and the light guide structure skill in application facet; They also reflect these light guide structure designs in the situation of some application, more existing problems.If the institutional framework of leaded light is considered in the overline design, it is existing that its structure is different from, and can change its use kenel, and be different from old law; In fact, also can increase its range of application.But, how overcome or improve the above-mentioned shortcoming that we are discussed? for example, its structural design is being met under the simple condition, possess simultaneously to have and to reduce conventional construction and produce bright blanking bar and diffraction phenomenon, disturb effects such as illumination effect; Or further improve leaded light brightness, improve in the old law means persons such as illumination effect is fuzzy; We find that its structure must consider following several design problem:
1. should be different from above-mentioned patent case (US 4,422,719, US6,169,836 B1, US7,433,565B2) structure organization and the design direction that coats protective layer or overcoat is set on the core body surface; Cause the fuzzy or unclear situation of illumination effect with minimizing.
2. should give up this US 4,422,719, US6,169,836 B1, US7,433, patent cases such as 565B2, in the inner structure organization of scattering diffusion particle or scattering particles of core body, produce shade or diffraction fringe phenomenon to reduce, further allow the selection of light source kind or use can not be restricted; And, the manufacturing cost and the complexity of reduction light guide structure.
3. in order to keep or increase the reflection and the refraction action of light, the internal structure of leaded light bar should be rearranged and design.
4. as above-mentioned two mutual very approaching planes (for example, overcoat inner surface and core body surface), their approximating areas should reduce as much as possible, to reduce by two plane reflection light destructive interferences or to produce the situation of bright blanking bar.
And these problems in above-mentioned reference data all not by teaching or concrete the exposure.
The utility model content:
Technical problem to be solved in the utility model is: at above-mentioned the deficiencies in the prior art, provide a kind of manufacturing and simple in structure, can reduce known structure and produce bright blanking bar or diffraction phenomenon, and disturb the light-guiding strip structure with neon effect of illumination effect etc.
In order to solve the problems of the technologies described above, the technical scheme that the utility model adopted is: a kind of light-guiding strip structure with neon effect, but directing light is advanced; Comprise a transparent body, and one be arranged on intrinsic colour band, but this ontology definition there is the surface of a central axis and a scattered beam; Be characterized in: the reflection index of described colour band is greater than this body, and to force most of light reflected back body, few relatively light partly enters colour band, and produces neon effect.
According to the light-guiding strip structure that the utlity model has neon effect, this body is a tubulose or a flexible column, and definition has a central axis; This colour band is inserted in the body with the shoestring with color, and is configured on the central axis of described body.This body is about 20: 1~90: 1 with the basal area ratio of colour band.Described colour band is coated with silver, and described colour band takes on a red color.Described colour band is made by cross-linked polymer.Described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
According to the light-guiding strip structure that the utlity model has neon effect, this colour band becomes the kenel of several sections or bar to be configured in body interior.In the embodiment of a correction, colour band disposes kenel at interval on axis direction.Described colour band can be literal or pattern.
According to the light-guiding strip structure that the utlity model has neon effect, this body can be combined mutually by two halfbodies; Each halfbody has a plane, disposes colour band on the plane of at least one halfbody.Specifically, this colour band can be arranged or be printed on the plane of one of them halfbody, and makes these two halfbodies be incorporated into an integrality.Described two halfbodies bind with viscose.Described two halfbodies engage the plane of these two halfbodies by heating.The width of described colour band is less than the length of this body diameter.The length of described colour band is less than or equal to the length of this body.
So, can obviously reduce as causing the fuzzy or unclear situation of leaded light bar illumination effect in the old law; Can obviously reduce producing shade or diffraction fringe phenomenon, further also allow the selection of light source kind or use can not be restricted; And, the manufacturing cost and the complexity of reduction light guide structure; Obviously improve known two plane reflection light destructive interferences or produced the situation of bright blanking bar.And in order to keep or increase the reflection and the refraction action of light, body interior has disposed the colour band with color; Can demonstrate a kind of special visual effect of this light-guiding strip structure by day; And can be after light source be injected this light-guiding strip structure, respectively by day with scatter beautiful, clearly light and neon effect night.
For novelty, the characteristics that the utility model had, and other purpose and effect, will cooperate appended graphic explanation in detail hereinafter, and be tending towards understanding; As shown in the figure:
Description of drawings:
Fig. 1 is a schematic appearance of the present invention.
Fig. 2 is the generalized section of Fig. 1.
Fig. 3 is another generalized section of Fig. 1; The position that has also shown simultaneously light source.
Fig. 4 is a cross-sectional schematic more of the present invention; Described the transmission situation of this light 30.
Fig. 5 is an another cross-sectional schematic of the present invention; Described the transmission situation of this light 40.
Fig. 6 is a local enlarged diagram of the present invention; Described the transmission situation of this light 50 in colour band.
Fig. 7 is a floor map of the present invention; Described light 80,90 in intrinsic transmission situation.
Fig. 8 is the cross-sectional schematic of another embodiment of the present invention; Shown the configuration scenario of colour band in body interior.
Fig. 9 is the cross-sectional schematic of another embodiment of the present invention; Shown the configuration scenario of colour band in body interior.
Figure 10 is the schematic perspective view of yet another embodiment of the invention; Having described body forms two halfbodies and colour band and is configured in situation on the halfbody.
Figure 11 is the schematic perspective view after the combination of Figure 10 halved body.
Figure 12 is a top view of the present invention; Described the kenel of another embodiment of colour band.
Label declaration:
10 body 10a, 10b halfbody
11 axis, 12 surfaces
13 1 ends, 14,15 limits
16 planes, 20 colour bands
20A literal or pattern 21,22 limits
30,32,34,35,36,37,38 light, 31,33 scattering or diffused raies
40,41,42,44,45,47,48 light, 43,46 scattering or diffused raies
50,51,52,53 light 51a, 51c, 51d, 51f light
51b, 51e scattering or diffused ray 52a, 52b light
60,70,80,90,91 light, 81,83,84,86 light
82,85 scatterings or diffused ray N normal
The S light source
The specific embodiment:
See also Fig. 1 and Fig. 2, the light-guiding strip structure with neon effect of the present utility model comprises the combination of a body and at least one colour band, generally respectively with Ref. No. 10,20 expressions.Body 10 has selected transparent plastics, methacrylate (PMMA), polyamine lipid, glass, resin, thermoplastic or its similar material to make (having disclosed the material that many kinds are made body in prior art, so no longer described in detail); In a preferred embodiment, body 10 tends to form the kenel of a clear flexible body, has good refracting power and transmission power (or conveying capacity).Body 10 is to have selected circular profile in the embodiment that is adopted, but definition has the surface 12 of a central axis 11 and a scattered beam.Apprehensible is that body 10 also can adopt other geometry.
In the embodiment that is adopted, this colour band 20 is inserted in the body 10 with a belt body or the banded kenel with color; Particularly, colour band 20 is configured on axis 11 positions of body 10.Colour band 20 also can plate silver or its similar material, increases its albedo.In the embodiment that is adopted, colour band 20 has been selected red color.The reflectivity of described colour band 20 or index be greater than this body 10, forcing most of light reflected back body 10, but allows that the light of few part enters in the colour band 20, and produce neon effect.The material that colour band 20 tends to select to have low absorptance, high transmittance is made, the polymer of for example cross-linked (cross-linked); Allow light have high transmission capacity or usefulness along the traveling process of body 10 and colour band 20.
In feasible embodiment, this body 10 is about 20: 1~90: 1 with the scope of the basal area ratio of colour band 20; The basal area that has shown this body 10 and colour band 20 in Fig. 2 is than being about 60: 1 situation.Therefore, body 10 and the reflection ray generation destructive interference of colour band 20 or the situation of bright blanking bar are dropped to minimum as much as possible.
Please refer to Fig. 3, when light source S when an end 13 of this leaded light bar is injected, light can be along the straight line transmission on the direction of parallel body 10 axis 11 of leaded light bar; Part light can be at body 10 inner reflection and the refraction actions of producing when striking body surface 12 and colour band 20.Arbitrary bundle light is at the incident angle that bumps against body surface 12 (or colour band 20) (angle between incident ray and the normal N) during less than critical angle (the minimum incidence angle of light total reflection in the leaded light bar), part light can reflect body 10, and produces beautiful scattering or diffused ray at body surface 12.
See also Fig. 3 and Fig. 4, used 5 rays or light 30,40,50,60,70 to illustrate.When for example light 30 was injected angle that body 10 arrives body surfaces 12 less than critical angle, part light can reflect body 10, and produces beautiful scattering or diffused ray 31 at body surface 12.Part light 32 can reflex on the colour band 20, produces scattering or diffused ray 33 on colour band 20.Colour band 20 reflects to body surface 12 part light 34 again; But there is small part light 35 refraction to enter colour band 20 the insides.The path of described light 35 is towards the direction deviation of normal N; The direction that normal N is left by part light 36 courts reflects colour band 20, directive body surface 12; Part light 37 also reflects colour band 20, directive body surface 12 towards the direction of leaving normal N after colour band 20 internal reflections.Light 37 also has part light 38 and form reflective condition in colour band 20.
Please refer to Fig. 5, when light 40 is injected angle that body 10 arrives body surfaces 12 and is equaled critical angle, light 41 body surface 12 that can nuzzle up.If when light 40 was injected angle that body 10 arrives body surfaces 12 greater than critical angle, light 42 can be totally reflected on the colour band 20, colour band 20 is left in total reflection again then.In another kind of situation, light 42 also might produce diffused ray 43 on colour band 20; Make 44 refractions of part light enter colour band 20 the insides.The path of described light 44 is towards the direction deviation of normal N; The direction that normal N is left by part light 45 courts reflects colour band 20, and directive body surface 12 produces scattering or diffused raies 46 at body surface 12 then; Part light 47 also reflects colour band 20, directive body surface 12 towards the direction of leaving normal N after colour band 20 internal reflections.Light 47 also has part light 48 and form reflective condition in colour band 20.
Apprehensible is that light 60,70 is same as the situation of advancing of above-mentioned light 30,40 respectively; Therefore, no longer narrated.
See also Fig. 6, the profile of colour band 20 is amplified, and the both sides of definition colour band 20, respectively with Ref. No. 21,22 expressions; Light 50 is injected the situation of colour band 20, respectively with light 51,52,53 explanations.Basically, light 53 can straight line transmission in colour band 20.
When supposing that angle that light 51 injects colour band 20 is less than critical angle, part light 51a can the reflecting colour band 20 of off-normal N and enter body 10, also can produce scattering or diffused ray 51b on colour band 20.Part light 51c can reflex to above the another side 22 of colour band 20, makes the reflecting colour band 20 of part light 51d off-normal N and enters body 10; Light 51c also can produce scattering or diffused ray 51e on the limit 22 of colour band 20.Light 51f is after colour band 20 internal reflections for a part, the another side 21 of directive colour band 20.
Please consult Fig. 6 again, when supposing that light 52 is injected the angle of colour band 20 and equaled critical angle, light 52a can the nuzzle up surface or the limit 21 of colour band 20.If the angle that light 52 is injected colour band 20 is during greater than critical angle, light 52b can be totally reflected to the another side 22 of colour band 20.
Hereinbefore, illustrated that light source S injects the leaded light bar after, the refraction that light 30,40,50,60,70 cooperates with body 10, colour band 20 and the reflection situation.But because the scope of this body 10 and the basal area ratio of colour band 20 is about 20: 1~90: 1; Therefore in fact some light can be crossed this colour band 20, and can not produce refraction or reflex on colour band 20.Among Fig. 7 hereinafter, these cross the transmission situation of the light of colour band 20 with explanation.Described light is respectively with Ref. No. 80,90 expressions.
See also Fig. 7, defined body surface 12 and distinguished in the drawings both sides are arranged, represent with Ref. No. 14,15 respectively.
When supposing that angle that light 80 injects body 10 is less than critical angle, part light 81 can off-normal N reflects body 10, also can produce scattering or diffused ray 82 on body surface 12.Part light 83 can be crossed colour band 20, reflexes to above the another side 15 of body 10, makes that part light 84 off-normal N's reflect body 10; Light 83 also can produce scattering or diffused ray 85 on the limit 15 of body 10.A part light 86 after body 10 internal reflections, the another side 14 of directive body 10.If the angle that light 90 is injected body 10 is during greater than critical angle, light 91 can be crossed colour band 20, is totally reflected to the another side 15 of body 10.
Please refer to Fig. 8, in an embodiment who derives, colour band 20 can dispose kenel at interval on body 10 axis 11 directions.In the embodiment of another correction, the kenel that 20 one-tenth of this colour bands parallel several or several sections is configured in body 10 inside; For example, the situation that Fig. 9 described.
See also Figure 10 and Figure 11, in a feasible embodiment, this body 10 can be combined mutually by two halfbody 10a, 10b; Each halfbody 10a, 10b have a plane 16 respectively.Shown among the figure on the plane 16 of at least one halfbody 10b and disposed colour band 20.Specifically, this colour band 20 can be arranged or be printed on the plane 16 of this halfbody 10b, and makes these two halfbody 10a, 10b be incorporated into an integrality, and forms this body 10 (or leaded light bar).In principle, the width of colour band 20 and length can change; But the width and the length that can not surpass this halfbody plane 16.In other words, the width of this colour band 20 is less than the length (or the width on this plane 16) of these body 10 diameters; The length of this colour band 20 is not more than the length (or the length on this plane 16) of (being less than or equal to) this body 10.In the embodiment that is adopted, these two halfbody 10a, 10b can use viscose to bind or use high frequency to engage; Or the application of heat mode engages the plane 16 of these two halfbody 10a, 10b.
Please refer to Figure 12, described an embodiment who derives; Be the top view of leaded light bar, shown that this colour band 20 is transformed into the kenel of literal or pattern 20A.
Typically, this light-guiding strip structure with neon effect has comprised following design consideration under the condition that provides a structure to simplify:
This light-guiding strip structure be different from known technology (for example US 4,422,719, US 6,169,836B1, US7,433,565B2), do not have body surface 12 that the structure organization that coats protective layer or overcoat is set; Therefore, can obviously reduce as causing the fuzzy or unclear situation of leaded light bar illumination effect in the old law.
2. this light-guiding strip structure has also been given up this US 4,422,719, US 6,169,836B1, US7, and 433, patent cases such as 565B2 are in the inner structure organization of scattering diffusion particle or scattering particles of core body; Therefore, can obviously reduce producing shade or diffraction fringe phenomenon, further also allow the selection of light source kind or use can not be restricted; And, the manufacturing cost and the complexity of reduction light guide structure.
Make the light-guiding strip structure of long 20cm at one according to the present invention, price is about New Taiwan Dollar below 10 yuan; Compared to known technology, obviously reduced manufacturing cost, and had market attractiveness.
3. in order to keep or increase the reflection and the refraction action of light, body 10 internal configurations have a colour band 20 of color; Can demonstrate a kind of special visual effect of this light-guiding strip structure by day; And can be after light source S injects this light-guiding strip structure, respectively by day with scatter beautiful, clearly light and neon effect night.Not only the internal structure of leaded light bar is rearranged and designs, and has possessed the advantage that known technology did not have.
4. the internal structure of this leaded light bar is through after rearranging and designing, and has been different to have two mutual very approaching planes (that is, overcoat inner surface and core body surface) in the old law; Obviously improve known two plane reflection light destructive interferences or produced the situation of bright blanking bar.
5. this body 10 is about 20: 1~90: 1 with the basal area ratio of colour band 20.Therefore, approximating area is reduced as much as possible, makes the body 10 and the reflection ray of colour band 20 produce the situation of destructive interference or bright blanking bar, is relatively also dropped to minimum.
So the utility model provides a light-guiding strip structure that effectively has a neon effect; Its space kenel is different from prior art, and the function that has in the old law not had, and has obviously represented sizable progress.
Claims (30)
1. light-guiding strip structure with neon effect, but directing light is advanced; Comprise a transparent body, and one be arranged on intrinsic colour band, but this ontology definition there is the surface of a central axis and a scattered beam; It is characterized in that: the reflection index of described colour band is greater than this body, and to force most of light reflected back body, few relatively light partly enters colour band, and produces neon effect.
2. the light-guiding strip structure with neon effect as claimed in claim 1; It is characterized in that: described body is 20: 1~90: 1 with the basal area ratio of colour band.
3. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described body is a flexible column.
4. the light-guiding strip structure with neon effect as claimed in claim 1; It is characterized in that: described colour band is inserted in the body with the shoestring with color.
5. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described colour band is configured on the central axis position of body.
6. the light-guiding strip structure with neon effect as claimed in claim 3; It is characterized in that: described colour band is configured on the central axis position of body.
7. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described colour band is coated with silver.
8. the light-guiding strip structure with neon effect as claimed in claim 3; It is characterized in that: described colour band is coated with silver.
9. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described colour band takes on a red color.
10. the light-guiding strip structure with neon effect as claimed in claim 3; It is characterized in that: described colour band takes on a red color.
11. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described colour band is made by cross-linked polymer.
12. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described light (83) is crossed colour band, reflexes to the another side (15) of body.
13. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described light (91) is crossed colour band, is totally reflected to the another side 15 of body).
14. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described colour band is configuration at interval on the central axial direction of body.
15. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described colour band is configured in body interior with the kenel that one-tenth parallels several.
16. the light-guiding strip structure with neon effect as claimed in claim 1 or 2; It is characterized in that: described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
17. the light-guiding strip structure with neon effect as claimed in claim 3; It is characterized in that: described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
18. the light-guiding strip structure with neon effect as claimed in claim 5; It is characterized in that: described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
19. the light-guiding strip structure with neon effect as claimed in claim 7; It is characterized in that: described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
20. the light-guiding strip structure with neon effect as claimed in claim 9; It is characterized in that: described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
21. the light-guiding strip structure with neon effect as claimed in claim 14; It is characterized in that: described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
22. the light-guiding strip structure with neon effect as claimed in claim 15; It is characterized in that: described light transmits with the path of refraction and reflection between body and colour band, and scatters out from body surface.
23. the light-guiding strip structure with neon effect as claimed in claim 1; It is characterized in that: described body is combined mutually by two halfbodies.
24. the light-guiding strip structure with neon effect as claimed in claim 23; It is characterized in that: described two halfbodies have a plane respectively; And, dispose colour band on the plane of at least one halfbody.
25. the light-guiding strip structure with neon effect as claimed in claim 24; It is characterized in that: described colour band is printed on the plane of this halfbody.
26. the light-guiding strip structure with neon effect as claimed in claim 23; It is characterized in that: described two halfbodies bind with viscose.
27. the light-guiding strip structure with neon effect as claimed in claim 24; It is characterized in that: described two halfbodies engage the plane of these two halfbodies by heating.
28. as claim 1 or 24 described light-guiding strip structures with neon effect; It is characterized in that: described colour band is a literal or pattern.
29. as claim 1 or 24 described light-guiding strip structures with neon effect; It is characterized in that: the width of described colour band is less than the length of this body diameter.
30. as claim 1 or 24 described light-guiding strip structures with neon effect; It is characterized in that: the length of described colour band is less than or equal to the length of this body.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009203036902U CN201496887U (en) | 2009-05-27 | 2009-05-27 | Light guide strip structure with neon effect |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2009203036902U CN201496887U (en) | 2009-05-27 | 2009-05-27 | Light guide strip structure with neon effect |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201496887U true CN201496887U (en) | 2010-06-02 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2009203036902U Expired - Lifetime CN201496887U (en) | 2009-05-27 | 2009-05-27 | Light guide strip structure with neon effect |
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| CN (1) | CN201496887U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115930126A (en) * | 2015-03-02 | 2023-04-07 | 巴斯特与潘奇有限责任公司 | Bulb and method for manufacturing bulb |
-
2009
- 2009-05-27 CN CN2009203036902U patent/CN201496887U/en not_active Expired - Lifetime
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115930126A (en) * | 2015-03-02 | 2023-04-07 | 巴斯特与潘奇有限责任公司 | Bulb and method for manufacturing bulb |
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