TWM636500U - Light-emitting device and its infinity mirror three-dimensional device - Google Patents

Abstract

An infinity mirror three-dimensional structure includes a light-transmitting member, a light-transmitting and reflective layer and a patterned inner layer. One surface of the light-transmitting member is arc-shaped. The light-transmitting and reflective layer is formed on the surface of the light-transmitting member. The patterned inner layer includes a flexible element and a light reflection layer. The flexible element is located on the other surface of the light-transmitting member. The light reflection layer is formed on one surface of the flexible element, and located between the light-transmitting member and the flexible element. The light reflection layer includes a light transmission pattern area and a light reflection area surrounding the light transmission pattern area. When no light is between the light reflection layer and the light-transmitting and reflective layer, the light-transmitting and reflective layer does not show the light transmission pattern area. When a light travels between the light reflection layer and the light-transmitting and reflective layer, the light-transmitting and reflective layer shows light-emitting patterns of the light transmission pattern area that are infinitely reflected by the light reflection layer and the light-transmitting and reflective layer, respectively.

Description

Light-emitting device and its three-dimensional structure of infinite mirror

This creation is about an infinite mirror device, especially a three-dimensional structure of an infinite mirror and a light-emitting device with a three-dimensional structure of an infinite mirror.

The conventional infinite mirror structure utilizes the reflection principle of a plane mirror to produce infinite mirror effects and infinite space in the mirror. Generally speaking, the plate body of process design is combined with the infinite mirror structure to enhance the mirror effect of the pattern or trademark on the object to show a sense of three-dimensionality and visual hierarchy.

However, in the past, the mirror image effect of patterns or trademarks could only be realized on the flat panel body of the process design, and the changes and options are really limited, so it is difficult to expand the application of the infinite mirror.

In this way, how to develop a solution to improve the above-mentioned direction of efforts is really an important issue that the relevant industry should not delay at present.

This creation proposes a light-emitting device and its three-dimensional structure of an infinite mirror to solve the problems of the prior art.

According to an embodiment of the present invention, the three-dimensional structure of the infinite mirror includes a light-transmitting body, a light-transmitting reflective layer, and a pattern lining. One surface of the light-transmitting body is arc-shaped. The light-transmitting reflective layer is formed on the surface of the light-transmitting body. The pattern lining includes a flexible element and a light reflection layer. The flexible element is located on the other side of the light-transmitting body. The light reflection layer is formed on one surface of the flexible element and is between the flexible element and the light-transmitting body. The light reflection layer has a light transmission pattern area and a total light reflection area surrounding the light transmission pattern area. In this way, when there is no light between the light reflection layer and the light transmission reflection layer, the light penetration reflection layer does not show the light transmission pattern area. When a light enters between the light reflective layer and the light penetrating reflective layer, the light penetrating reflective layer shows a luminescent pattern through multiple reflections in the light-transmitting pattern area.

According to one or more embodiments of the present invention, in the above-mentioned three-dimensional structure of the infinite mirror, the light-transmitting body includes a dome, and the dome has an outer peripheral surface and an inner peripheral surface opposite to each other, and the light directly passes through the reflective layer to form On the outer peripheral surface and completely surrounding the dome body, the flexible element is located on the inner peripheral surface.

According to one or more embodiments of the present invention, in the above-mentioned three-dimensional structure of the infinite mirror, the pattern liner is detachably installed on the light-transmitting body.

According to one or more embodiments of the present invention, in the above three-dimensional structure of the infinite mirror, the flexible element includes a light-transmitting element, and the light-reflecting layer is a printed ink layer. The printing ink layer is directly formed on the surface of the light-transmitting element.

According to one or more embodiments of the present invention, in the above-mentioned three-dimensional structure of the infinite mirror, at least one pattern opening is formed through the flexible element, and the pattern opening overlaps with the light-transmitting pattern area, and the pattern is the same.

According to one or more embodiments of the present invention, in the above three-dimensional structure of the infinite mirror, the distance between the light reflection layer and the light transmission reflection layer is consistent or not.

According to one or more embodiments of the present invention, in the above three-dimensional structure of the infinite mirror, the light-transmitting reflection layer is a light-transmitting reflection coating, and the light reflection layer is a total reflection coating.

According to one or more embodiments of the present invention, in the above-mentioned three-dimensional structure of the infinite mirror, the light transmittance of the light penetrating the reflective layer is 40%~90%, and the reflectance of the light penetrating the reflective layer is 10%~60% %.

According to one or more embodiments of the invention, in the above-mentioned three-dimensional structure of the infinite mirror, the light-transmitting pattern area includes a pattern selected from a character, a number, a symbol, a geometric figure, a totem and combinations thereof.

According to an embodiment of the present invention, a light emitting device includes a light emitting module and the above-mentioned three-dimensional structure of the infinite mirror. The light-transmitting body of the three-dimensional structure of the infinite mirror has at least one first engaging portion. The light emitting module includes a carrier and a light emitting unit. The carrier carries the light emitting unit and has at least one second engaging portion. The light-emitting unit can emit light toward the light-transmitting pattern area. In this way, the three-dimensional structure of the infinity mirror is fixed on the light emitting module through the mutual engagement of the second engaging portion and the first engaging portion.

In this way, through the above-mentioned structure, the three-dimensional structure of the infinite mirror in this creation can not only create different effects according to the light, but also realize the mirror effect of specific patterns on the surface of three-dimensional objects, so that it can be observed from various angles.

The above description is only used to explain the problem to be solved by this creation, the technical means to solve the problem, and its effects, etc. The specific details of this creation will be introduced in detail in the following implementation methods and related drawings.

The following will disclose the embodiment of the invention with diagrams, and for the sake of clarity, many practical details will be described together in the following description. However, those skilled in the art should understand that in some implementations of the present invention, these practical details are not necessary, and thus should not be used to limit the present invention. In addition, for the sake of simplifying the drawings, some well-known structures and components will be shown in a simple and schematic manner in the drawings. In addition, for the convenience of readers, the size of each element in the drawings is not drawn according to actual scale.

Fig. 1 is a perspective view of an infinite mirror three-dimensional structure 10 according to an embodiment of the invention. Fig. 2 is an exploded view of the three-dimensional structure 10 of the infinite mirror in Fig. 1 . Fig. 3 is a cross-sectional view of Fig. 1 and a partially enlarged view of area M. As shown in FIGS. 1 to 3 , the infinity mirror three-dimensional structure 10 includes a light-transmitting body 100 , a light-transmitting reflective layer 200 and a pattern lining 300 . The light-transmitting reflective layer 200 is formed on one side of the light-transmitting body 100 , and the pattern liner 300 is located on a side of the light-transmitting body 100 opposite to the light-transmitting reflecting layer 200 . The pattern liner 300 includes a flexible element 310 and a light reflection layer 320 . The light reflection layer 320 is formed on one surface of the flexible element 310 , and the light reflection layer 320 is interposed between the flexible element 310 and the light-transmitting body 100 . The light reflection layer 320 has a light transmission pattern area 321 and a total light reflection area 322 . The total light reflection area 322 completely surrounds the light transmission pattern area 321 .

More specifically, for example, but the invention is not limited thereto, the light-transmitting body 100 includes a dome 110 . The dome body 110 has a dome surface 111 , an outer peripheral surface 112 and an inner peripheral surface 113 ( FIG. 3 ). The outer peripheral surface 112 surrounds the dome surface 111 and is disposed opposite to the inner peripheral surface 113 . The inner peripheral surface 113 surrounds an inner space 114 . The light-transmitting reflective layer 200 is directly formed on the outer peripheral surface 112 of the dome body 110 and completely surrounds the dome body 110 and the inner space 114 . For example, the light-transmitting reflective layer 200 is a light-transmitting reflective coating; or, the light-transmitting reflective layer 200 is dark, dark, or mirror-colored, etc., however, the present invention is not limited thereto. The flexible element 310 is located in the inner space 114 and attached to the inner peripheral surface 113 of the dome body 110 . More specifically, the flexible element 310 is deformed into a ring shape and fixed on the inner peripheral surface 113 . For example, the light reflection layer 320 is a total reflection coating. The light reflection layer 320 has the same curvature as the light transmission reflection layer 200 , and the distance G between the light reflection layer 320 and the light transmission reflection layer 200 is consistent. However, the present invention is not limited thereto. In other embodiments, the distance G between the light reflection layer 320 and the light transmission reflection layer 200 may also be inconsistent for specific effects or limitations.

In this way, when there is no light in the light-transmitting body 100 between the light-reflecting layer 320 and the light-transmitting reflective layer 200, the light-transmitting reflective layer 200 does not show the light-transmitting pattern area 321 of the pattern lining 300 (Fig. 1) .

In contrast, FIG. 4A is a schematic diagram of the optical path of the three-dimensional structure 10 of the infinite mirror in FIG. 3 . FIG. 4B is a surface effect diagram of the infinity mirror three-dimensional structure 10 in FIG. 4A. As shown in FIG. 4B in FIG. 4A, when the light L enters the light-transmitting body 100 between the light-reflecting layer 320 and the light-transmitting layer 200 from the light-transmitting pattern area 321, the light L is absorbed by the light-reflecting layer 320 and the light. The penetrating reflective layer 200 is repeatedly reflected, so that part of the light L passes through the light penetrating reflective layer 200 , and the rest is continuously reflected between the light reflective layer 320 and the light penetrating reflective layer 200 .

In this way, the light L generates infinite virtual images between the light reflective layer 320 and the light penetrating reflective layer 200, so that the light penetrating the reflective layer 200 shows the luminous pattern P after multiple reflections in the light-transmitting pattern area 321. The reflected luminous pattern P extends to an infinite "far" effect in a smaller and smaller form (Fig. 4B).

For another example, the flexible element 310 includes a light-transmitting element, and the light-reflecting layer 320 is a printing ink layer. The light-transmitting element does not have any through holes, the printing ink layer is directly formed on the light-transmitting element, and the light-transmitting pattern area 321 is the pattern opening on the printing ink layer, and the total light reflection area 322 is except the pattern opening on the printing ink layer The total reflection ink.

However, the present invention is not limited thereto. In other embodiments, pattern openings may be formed through the light-transmitting element, and the pattern openings and the light-transmitting pattern regions 321 overlap each other and have the same pattern.

More specifically, in the above embodiments, for example, the light transmittance of light penetrating the reflective layer 200 is 40%-90%, and the reflectance of light penetrating the reflective layer 200 is 10%-60%. In addition, the light-transmitting pattern area 321 is not limited to the selection of openings or light-transmitting media, and the light-transmitting pattern area 321 includes at least one pattern. It should be understood that the pattern is, for example, one or a combination of characters, numbers, symbols, geometric figures and totems.

Moreover, in order to conveniently replace different light-transmitting pattern areas 321 , the pattern liner 300 is detachably disposed on the light-transmitting body 100 to provide different light-emitting patterns for the three-dimensional structure of the infinite mirror 10 .

FIG. 5 is a schematic diagram of a light emitting device 400 according to an embodiment of the present invention. As shown in FIG. 1 and FIG. 5 , the light emitting device 400 includes a light emitting module 410 and the above-mentioned three-dimensional infinite mirror structure 10 . The light-transmitting body 100 protrudes from a plurality of first engaging portions 116 , and these first engaging portions 116 are spaced apart from the lower side edge 115 of the light-transmitting body 100 ( FIG. 1 ). The light emitting module 410 includes a carrier 411 and a light emitting unit 420 , and the carrier 411 carries the light emitting unit 420 . The carrier 411 has a plurality of second engaging portions 413 . The second engaging portions 413 are arranged at intervals on the top surface 411A of the carrier 411 and correspond to the first engaging portions 116 respectively. For example, the first engaging portion 116 is a rib, and the second engaging portion 413 is a groove matching the rib. When the infinity mirror three-dimensional structure 10 is placed on the top surface 411A of the carrier 411 , the infinity mirror three-dimensional structure 10 is fixed on the light emitting module 410 through the mutual engagement of the second engaging portion 413 and the first engaging portion 116 . The light emitting unit 420 can emit light toward the light-transmitting pattern area 321 ( FIG. 3 ). The light emitting unit 420 is, for example, one of a light emitting diode (LED) and an organic light emitting diode (Organic Light-Emitting Diode, OLED) or a combination thereof.

In this way, through the above structure, the three-dimensional structure of the infinite mirror in this creation can not only create different effects according to the light, but also realize the mirror effect of specific patterns on the surface of three-dimensional objects, so that it can be observed from various angles.

Finally, the embodiments disclosed above are not intended to limit this creation. Anyone who is familiar with this technique can make various changes and modifications without departing from the spirit and scope of this creation, and all of them can be protected in this creation. creation. Therefore, the scope of protection of this creation should be defined by the scope of the attached patent application.

10: Stereoscopic structure of infinite mirror 100: translucent body 110: round cover body 111: dome surface 112: Outer peripheral surface 113: inner peripheral surface 114: inner space 115: side edge 116: The first engaging part 200: Light penetrates the reflective layer 300: pattern lining 310: flexible element 320: light reflection layer 321: Translucent pattern area 322: total light reflection area 400: Lighting device 410: Lighting module 411: carrier 411A: top surface 413: the second engaging part 420: light emitting unit G: Spacing L: light M: area P: Luminous pattern

In order to make the above-mentioned and other purposes, features, advantages and embodiments of this creation more obvious and easy to understand, the description of the accompanying drawings is as follows: Fig. 1 is a perspective view of the three-dimensional structure of an infinite mirror in an embodiment of the invention; Figure 2 is an exploded view of the three-dimensional structure of the infinite mirror in Figure 1; Figure 3 is a transverse cross-sectional view of Figure 1 and a partial enlarged view of area M; Fig. 4A is a schematic diagram of the optical path of the three-dimensional structure of the infinite mirror of Fig. 3; Figure 4B is a surface rendering of the three-dimensional structure of the infinite mirror in Figure 4A; and Fig. 5 is a schematic diagram of a light emitting device according to an embodiment of the present invention.

10: Stereoscopic structure of infinite mirror

100: translucent body

113: inner peripheral surface

114: inner space

115: side edge

116: The first engaging part

200: Light penetrates the reflective layer

300: pattern lining

Claims (10)

A three-dimensional structure of an infinite mirror, comprising: a light-transmitting body, one surface of the light-transmitting body is arc-shaped; a light-transmitting reflective layer formed on the surface of the light-transmitting body; and A patterned lining, comprising: a flexible element located on the other side of the light-transmitting body; and A light reflective layer, formed on one surface of the flexible element, and between the flexible element and the light-transmitting body, the light-reflective layer includes a light-transmitting pattern area and a total light reflection area, Wherein when there is no light between the light reflective layer and the light penetrating reflective layer, the light penetrating reflective layer does not show the light transmission pattern area, when a light enters between the light reflective layer and the light penetrating reflective layer , the light penetrating the reflective layer reveals the light-emitting pattern of the light-transmitting pattern area through multiple reflections. The three-dimensional structure of the infinite mirror as described in Claim 1, wherein the light-transmitting body includes a dome, the dome has an outer peripheral surface and an inner peripheral surface opposite to each other, and the light-transmitting reflective layer is directly formed on the outer periphery surface, and completely surrounds the dome, the flexible element is located on the inner peripheral surface. The three-dimensional structure of the infinite mirror according to claim 1, wherein the pattern liner is detachably mounted on the light-transmitting body. The three-dimensional structure of the infinite mirror according to claim 1, wherein the flexible element includes a light-transmitting element, the light-reflecting layer is a printing ink layer, and the printing ink layer is directly formed on the surface of the light-transmitting element. The three-dimensional structure of the infinite mirror as described in claim 1, wherein at least one pattern opening is formed through the flexible element, and the pattern opening overlaps with the light-transmitting pattern area, and the pattern is the same. The three-dimensional infinite mirror structure according to claim 1, wherein the distance between the light reflection layer and the light transmission reflection layer is consistent or not. The three-dimensional structure of the infinite mirror as described in Claim 1, wherein the light-transmitting reflection layer is a light-transmitting reflection coating, and the light reflection layer is a total reflection coating. The three-dimensional structure of the infinite mirror as described in Claim 1, wherein the light transmittance of the light penetrating the reflective layer is 40%-90%, and the reflectance of the light penetrating the reflective layer is 10%-60%. The infinite mirror three-dimensional structure as described in Claim 1, wherein the light-transmitting pattern area includes a pattern selected from a character, a number, a symbol, a geometric figure, a totem and combinations thereof. A lighting device comprising: An infinite mirror three-dimensional structure as described in claim 1, wherein the light-transmitting body has at least one first engaging portion; and A light-emitting module, including a carrier and a light-emitting unit, the carrier carries the light-emitting unit and has at least one second engaging portion, the light-emitting unit can emit light toward the light-transmitting pattern area, The three-dimensional structure of the infinity mirror is fixed on the light emitting module through the engagement of the second engaging portion and the first engaging portion.

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