TWM529606U - An infinity mirror - Google Patents

An infinity mirror Download PDF

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Publication number
TWM529606U
TWM529606U TW105206198U TW105206198U TWM529606U TW M529606 U TWM529606 U TW M529606U TW 105206198 U TW105206198 U TW 105206198U TW 105206198 U TW105206198 U TW 105206198U TW M529606 U TWM529606 U TW M529606U
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Taiwan
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pattern area
light
layer
mirror
light transmissive
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TW105206198U
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Chinese (zh)
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吳安智
范牧樹
啓盛 林
劉彥伶
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雙鴻科技股份有限公司
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Priority to TW105206198U priority Critical patent/TWM529606U/en
Priority to CN201620406906.8U priority patent/CN205656365U/en
Publication of TWM529606U publication Critical patent/TWM529606U/en

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Abstract

The present invention is related to an infinity mirror including a transparent and reflective layer, a reflective layer, a transparent layer and a plurality of luminosities. In which, the transparent layer includes a patterned area, a non-patterned area and a printed layer. The patterned area and the non-patterned area have a gap between the areas. The infinity mirror combines the patterned area, the non-patterned area and the printed layer with a variety of technological designs for enhancing the multi-reflective-mirror effect of the infinity mirror.

Description

無限鏡 Infinite mirror

本創作係關於一種無限鏡,特別係指一種結合多種工藝設計且延伸應用之無限鏡。 This creation is about an infinite mirror, especially an infinite mirror that combines multiple process designs and extends the application.

習知的無限鏡係為一種運用於室內裝潢或藝術裝置的設計,而主要原理為透過兩面鏡子的「互相反射」,進而使鏡中產生無限多的鏡像效果及無限大的空間。而習知的無限鏡結構為利用平面鏡的反射原理,其主要包括第一層玻璃、第二層玻璃及發光體。其中,第一層玻璃為透光及反射層,而第二層玻璃為鏡面層,發光體則被設置於第一層玻璃與第二層玻璃。當發光體發光時,透過第一層玻璃與第二層玻璃兩者之間之光線的來回反射及穿透,進而看到無限光源及空間的延伸,而產生一鏡像效果。 The conventional infinite mirror is a design used for interior decoration or art installations, and the main principle is to "reflect each other" through the two mirrors, thereby creating an infinite number of mirror images and infinite space in the mirror. The conventional infinite mirror structure is a reflection principle using a plane mirror, which mainly includes a first layer of glass, a second layer of glass, and an illuminant. Wherein, the first layer of glass is a light transmissive and reflective layer, and the second layer of glass is a mirror layer, and the illuminant is disposed on the first layer of glass and the second layer of glass. When the illuminant emits light, the light is reflected and penetrated back and forth between the first layer of glass and the second layer of glass, thereby seeing the extension of the infinite source and the space, thereby producing a mirror image effect.

然而,對於習知之無限鏡的運用,僅為在室內裝潢或藝術裝置的應用,通常做法係為運用光源點無限延伸而產生多重鏡像的美感設計。如此一來,於上述之無限鏡的功效及運用僅限制於一般光源點的無限延伸及視覺延伸的變化。 However, the use of conventional infinite mirrors is only for interior decoration or art installations. The usual practice is to create a multi-mirror aesthetic design using infinite extension of the source point. As a result, the effects and applications of the infinite mirror described above are limited only to the infinite extension of the general source point and the change in visual extension.

此外,於其他習知之無限鏡的運用上,較少有無 限鏡與圖案或是商標結合運用,特別是結合多種工藝設計以加強圖案或是商標於無限鏡中的鏡像效果,例如:立體感,視覺層次感等鏡像效果,讓人於視覺感官上更有立體深度的美感。有鑑於此,顯尚須一種結合多種工藝設計且具多功能性之無限鏡的結構設計,以提升並延伸習知之無限鏡的應用。 In addition, in the use of other conventional infinite mirrors, there are few The combination of mirror and pattern or trademark, especially combined with a variety of process design to enhance the mirror image of the pattern or trademark in the infinite mirror, such as: three-dimensional, visual layering and other mirror effects, let people have more visual sense The beauty of the three-dimensional depth. In view of this, it is necessary to design a structure with a multi-functional infinite mirror combined with various process designs to enhance and extend the application of the conventional infinite mirror.

本創作之主要目的在提供一種結合多種工藝設計且延伸應用之無限鏡。 The main purpose of this creation is to provide an infinite mirror that combines multiple process designs and extends the application.

為達上述目的,於一較佳實施例中,本創作無限鏡至少包括:一透光層,包括一圖樣區與一非圖樣區;一透光及反射層,其被設置於該透光層之頂面;一反射層,其被設置於該透光層之底面;以及至少一發光件,用以發射光線,該光線投射反射於該透光及反射層與該反射層之間;其中,該圖樣區與該非圖樣區具有一高低落差。 In order to achieve the above object, in a preferred embodiment, the present infinite mirror includes at least: a light transmissive layer including a pattern area and a non-pattern area; a light transmissive and reflective layer disposed on the light transmissive layer a top surface; a reflective layer disposed on a bottom surface of the light transmissive layer; and at least one light emitting member for emitting light, the light being projected and reflected between the light transmissive and reflective layer and the reflective layer; The pattern area has a height difference with the non-pattern area.

在本創作一實施例中,其中,該透光及反射層更包括與該透光層相同之另一圖樣區與另一非圖樣區,且該另一圖樣區與該另一非圖樣區具有另一高低落差。 In an embodiment of the present invention, the light transmissive and reflective layer further includes another pattern area and another non-pattern area identical to the light transmissive layer, and the another pattern area and the other non-pattern area have Another high and low drop.

在本創作一實施例中,其中,該圖樣區更包括至少一微結構,其係為具有高低起伏表面之結構。 In an embodiment of the present invention, the pattern area further includes at least one microstructure, which is a structure having a high and low relief surface.

在本創作一實施例中,其中,該圖樣區係為一文字、一數字、一符號、一幾何圖形及一圖騰中之一者或及其結合。 In an embodiment of the present invention, the pattern area is one of a text, a number, a symbol, a geometric figure, and a totem or a combination thereof.

在本創作一實施例中,其中,該透光及反射層之透光及反射比例值為40比60至90比10。 In an embodiment of the present invention, the light transmissive and reflective layers have a light transmission and reflection ratio of 40 to 60 to 90 to 10.

在本創作一實施例中,更包括一感溫薄膜層,其被設置於該透光及反射層與該透光層之間,用以感測環境溫度而改變該感溫薄膜層之色彩。 In an embodiment of the present invention, a temperature sensitive film layer is disposed between the light transmissive and reflective layer and the light transmissive layer for sensing an ambient temperature to change a color of the temperature sensitive film layer.

在本創作一實施例中,更包括一印刷層,其被設置於該透光層與該反射層之間。 In an embodiment of the present invention, a printed layer is further disposed between the light transmissive layer and the reflective layer.

在本創作一實施例中,其中,該至少一發光件被設置於一電子裝置的散熱器之外殼體,而該無限鏡亦相對被設置於該散熱器之外殼體。 In an embodiment of the present invention, the at least one illuminating member is disposed on an outer casing of the heat sink of the electronic device, and the infinite mirror is disposed opposite to the outer casing of the heat sink.

在本創作一實施例中,該透光層更包括因應該至少一發光件之一光源槽,用以容置該至少一發光件;其中,該光源槽被設置於該透光層之外緣,抑或是被設置於該透光層之底面。 In an embodiment of the present invention, the light transmissive layer further includes a light source slot for accommodating at least one illuminating member for accommodating the at least one illuminating member; wherein the light source slot is disposed at an outer edge of the transparent layer Or is it disposed on the bottom surface of the light transmissive layer.

在本創作一實施例中,其中,該至少一發光件係為發光二極體(LED)、有機發光二極體(Organic Light-Emitting Diode,OLED)及發光紙中之一者或及其結合。 In an embodiment of the present invention, the at least one light-emitting component is one of a light-emitting diode (LED), an organic light-emitting diode (OLED), and a light-emitting paper, or a combination thereof .

在本創作一實施例中,其中,該圖樣區之頂面的高度係高於該非圖樣區之頂面的高度。 In an embodiment of the present invention, the height of the top surface of the pattern area is higher than the height of the top surface of the non-pattern area.

在本創作一實施例中,其中,該圖樣區之頂面的高度係低於該非圖樣區之頂面的高度。 In an embodiment of the present invention, the height of the top surface of the pattern area is lower than the height of the top surface of the non-pattern area.

在本創作一實施例中,其中,該圖樣區之部分區域頂面的高度係高於該非圖樣區之部分區域頂面的高度,且該圖樣區之另一部分區域頂面的高度係低於該非圖樣區之另一部分區域頂面的高度。 In an embodiment of the present invention, a height of a top surface of a partial region of the pattern region is higher than a height of a top surface of a portion of the non-pattern region, and a height of a top surface of another portion of the pattern region is lower than the non- The height of the top surface of another part of the pattern area.

10‧‧‧無限鏡 10‧‧‧Unlimited mirror

110‧‧‧透光及反射層 110‧‧‧Light and reflective layers

120‧‧‧反射層 120‧‧‧reflective layer

130‧‧‧透光層 130‧‧‧Transparent layer

130a‧‧‧頂面 130a‧‧‧Top

130b‧‧‧底面 130b‧‧‧ bottom

130c‧‧‧外側緣 130c‧‧‧ outer edge

131,111‧‧‧圖樣區 131,111‧‧‧pattern area

131a‧‧‧微結構 131a‧‧‧Microstructure

1311‧‧‧第一圖樣區 1311‧‧‧First pattern area

1312‧‧‧第二圖樣區 1312‧‧‧Second pattern area

1311a‧‧‧第一微結構 1311a‧‧‧First microstructure

1312a‧‧‧第二微結構 1312a‧‧‧Second microstructure

132‧‧‧印刷層 132‧‧‧Printing layer

133‧‧‧光源槽 133‧‧‧Light source slot

134,114‧‧‧非圖樣區 134,114‧‧‧Non-pattern area

140‧‧‧感溫薄膜 140‧‧‧temperature film

150‧‧‧發光件 150‧‧‧Lighting parts

165‧‧‧外殼體 165‧‧‧ outer casing

166‧‧‧顯示卡裝置之之外側 166‧‧‧External side of the display card device

d,d1,d2‧‧‧高度 d, d1, d2‧‧‧ height

圖1A為本創作之無限鏡之基本創作概念的立體示意圖。 FIG. 1A is a schematic perspective view of the basic creation concept of the infinite mirror of the creation.

圖1B為圖1A之無限鏡的爆炸分解圖。 Figure 1B is an exploded exploded view of the infinite mirror of Figure 1A.

圖1C為圖1A之無限鏡之剖面圖。 Figure 1C is a cross-sectional view of the infinite mirror of Figure 1A.

圖2為本創作之無限鏡增設微結構之一實施例的剖面圖。 2 is a cross-sectional view showing an embodiment of an infinite mirror-added microstructure of the present invention.

圖3為本創作之無限鏡增設微結構之另一實施例的剖面圖。 3 is a cross-sectional view showing another embodiment of the infinite mirror addition microstructure of the present invention.

圖4為本創作之無限鏡增設印刷層之一實施例的剖面圖。 4 is a cross-sectional view showing an embodiment of an infinite mirror-added printed layer of the present invention.

圖5為本創作之無限鏡增設發光件之一實施例的剖面圖。 FIG. 5 is a cross-sectional view showing an embodiment of an infinite mirror-added light-emitting member of the present invention.

圖6為本創作之無限鏡增設發光件之另一實施例的剖面圖。 Fig. 6 is a cross-sectional view showing another embodiment of the infinite mirror adding light-emitting member of the present invention.

圖7為本創作之無限鏡增設感溫薄膜之一實施例的剖面圖。 Fig. 7 is a cross-sectional view showing an embodiment of an infinite mirror-added temperature sensing film of the present invention.

本創作主要為具有一高低落差之圖樣區與非圖樣區藉由多種工藝設計,例如:改變高度落差的大小,抑於該圖樣區增設一微結構,抑或是增設一印刷層於該透光層之底面。而形成本案之基本創作概念的無限鏡。其中,該無限鏡更可包括一感溫薄膜,用以感測無限鏡之使用環境溫度的變化,進而改變無限鏡呈現多重鏡像效果的色彩。接著,列舉本創作之基本概念圖及各實施例來說明依劇本創作之基本創作概念的實際運用與延伸。 The present invention mainly designs a pattern area and a non-pattern area having a high and low drop by various processes, for example, changing the size of the height drop, or adding a microstructure to the pattern area, or adding a printing layer to the light transmission layer. The bottom surface. The infinite mirror that forms the basic creative concept of this case. The infinite mirror may further comprise a temperature sensing film for sensing the change of the ambient temperature of the infinite mirror, thereby changing the color of the infinite mirror to exhibit multiple mirror images. Next, the basic concept diagram of the creation and the various embodiments are listed to illustrate the practical application and extension of the basic creation concept according to the script creation.

請參閱圖1A至圖1C,係為本創作之無限鏡之基本 創作概念的立體示意圖。如圖1A及圖1C所示,本創作之無限鏡10主要包括透光及反射層110、反射層120以及透光層130。其中,透光層130更包括頂面130a、底面130b、外側緣130c、圖樣區131以及非圖樣區134。而本案之主要技術特徵為圖樣區131與非圖樣區134具有一高低落差,且該高低落差使圖樣區131於無限鏡10鏡像反射時,加強圖樣區131於無限鏡10中的鏡像效果。此外,於本例中,透光及反射層110亦可包括與該透光層130相同之圖樣區111與非圖樣區114,且相同地圖樣區111與非圖樣區114具有一高低落差。 Please refer to Figure 1A to Figure 1C, which is the basic of the infinite mirror of this creation. A three-dimensional illustration of the concept of creation. As shown in FIG. 1A and FIG. 1C , the infinite mirror 10 of the present invention mainly includes a light transmissive and reflective layer 110 , a reflective layer 120 , and a light transmissive layer 130 . The light transmissive layer 130 further includes a top surface 130a, a bottom surface 130b, an outer edge 130c, a pattern area 131, and a non-pattern area 134. The main technical feature of the present invention is that the pattern area 131 and the non-pattern area 134 have a height difference, and the height difference causes the pattern area 131 to be mirrored and reflected by the infinite mirror 10 to enhance the mirror effect of the pattern area 131 in the infinite mirror 10. In addition, in this example, the light transmissive and reflective layer 110 may also include the same pattern area 111 and non-pattern area 114 as the light transmissive layer 130, and the same map sample area 111 and the non-pattern area 114 have a high and low drop.

接著說明上述各元件之間的連接關係,由圖1A及圖1C得知,透光及反射層110與反射層120分別被設置於透光層130之頂面130a與底面130b,而透光層130與透光及反射層110及反射層120三者之面積大小設計可依實際產品運用而調整其面積形狀或大小,不以本實施例為限制。本案主要之創作概念為圖樣區131與非圖樣區134係為具有高低落差之結構體。而透光及反射層110之圖樣區111與非圖樣區114的高低落差亦與透光層130之圖樣區131與非圖樣區134有相同的鏡像效果。 Next, the connection relationship between the above components will be described. As shown in FIG. 1A and FIG. 1C, the light transmissive and reflective layer 110 and the reflective layer 120 are respectively disposed on the top surface 130a and the bottom surface 130b of the light transmissive layer 130, and the light transmissive layer. The design of the area size of the light transmitting and reflecting layer 110 and the reflecting layer 120 can be adjusted according to the actual product application, and is not limited by this embodiment. The main creative concept of this case is that the pattern area 131 and the non-pattern area 134 are structures having a high and low drop. The height difference between the pattern area 111 and the non-pattern area 114 of the light transmissive and reflective layer 110 is also the same as that of the pattern area 131 and the non-pattern area 134 of the light transmissive layer 130.

接續說明,透光及反射層110及反射層120在本例中可以濺鍍方式而分別形成部份反射透光層及完成反射不透光層,用以使複數發光件之光源能於透光及反射層110及反射層120兩者之間來回重覆反射穿射,而形成多重反射鏡像之效果,使無限鏡10達到無限空間延伸及無限重影圖樣區130的視覺效果。其中,本例中之透光及反射層110的透光及反射的比例值可設計為40比60至90比10之間,例如:第一次反射時,40%的光源穿射出透光及反射層110,而60%的光源則因透光及反射層110反射回至反射層120以進行第二次反射,抑或是90%的 光源穿射出透光及反射層110,而僅留10%的光源因透光及反射層110反射回至反射層120以進行第二次反射,其透光及反射的比例值,於其他實施例中,仍可依據實際無限鏡所需的鏡像效果再行調整。 In the following description, the light transmissive and reflective layer 110 and the reflective layer 120 can be partially sputter-plated to form a partially reflective light transmissive layer and a reflective opaque layer, respectively, for enabling the light source of the plurality of illuminating members to transmit light. The reflection layer 110 and the reflective layer 120 are repeatedly reflected back and forth to form a multiple reflection mirror image, so that the infinite mirror 10 reaches the infinite space extension and the visual effect of the infinite ghost pattern area 130. The ratio of the light transmission and reflection of the light transmissive and reflective layer 110 in this example can be designed to be between 40 and 60 to 90 to 10. For example, when the first reflection is performed, 40% of the light source penetrates and transmits light. The reflective layer 110, and 60% of the light source is reflected back to the reflective layer 120 by the light transmissive and reflective layer 110 for a second reflection, or 90% The light source penetrates the light transmitting and reflecting layer 110, and only 10% of the light source is reflected back to the reflective layer 120 by the light transmitting and reflecting layer 110 for the second reflection, and the ratio of the light transmission and the reflection is in other embodiments. In the middle, you can still adjust according to the mirror effect required by the actual infinite mirror.

再者說明,本案之無限鏡10的圖樣區131可係為文字、數字、符號、幾何圖形及圖騰中之一者或及其結合,例如:產品的商標,抑或是標識圖形等。如同圖1A中本實施例之圖樣區131係為一星形圖形,故圖樣區131並不以本案之實施例而限制其組合變化的應用。其中,請再搭配參閱圖1C,圖樣區131與非圖樣區134具有一高度落差之高度d,而圖樣區131於實務上係可為突出或凹陷於該透光層130之頂面130a或底面130b。如圖1C所示,於本例中,圖樣區131係為凹陷於透光層130之頂面130a,且於實務上可以銑凹方式而形成具有高度d之圖樣區131。然而,不以本例為限制,圖樣區131亦可為透光層130係以射出方式一體成型時,而使圖樣區131具有一高度d。而有關於圖樣區131的運用,可如同圖1A至圖1C所示,本例中之無限鏡的透光及反射層110更包括同透光層130之圖樣區131,且位於透光及反射層110及透光層130兩者相對應之圖樣區131係由銑凹方式而形成。相同地,透光及反射層110之圖樣區111與非圖樣區114亦具有一高低落差之高度d110,用以加強圖樣區111,131於鏡像效果時的立體感及視覺深度。 Furthermore, the pattern area 131 of the infinite mirror 10 of the present invention can be one of text, numbers, symbols, geometric figures, and totems, or a combination thereof, such as a trademark of a product, or a logo graphic. As the pattern area 131 of the present embodiment in Fig. 1A is a star pattern, the pattern area 131 does not limit the application of the combination change in the embodiment of the present invention. The pattern area 131 and the non-pattern area 134 have a height d of a height difference, and the pattern area 131 can be protruded or recessed on the top surface 130a or the bottom surface of the light transmissive layer 130. 130b. As shown in FIG. 1C, in this example, the pattern area 131 is recessed on the top surface 130a of the light transmissive layer 130, and in practice, the pattern area 131 having the height d can be formed by milling. However, not limited to this example, the pattern area 131 may be such that the light transmissive layer 130 is integrally formed by injection, and the pattern area 131 has a height d. The use of the pattern area 131 can be as shown in FIG. 1A to FIG. 1C. The light transmissive and reflective layer 110 of the infinite mirror in this example further includes the pattern area 131 of the same light transmissive layer 130, and is located in the light transmission and reflection. The pattern area 131 corresponding to both the layer 110 and the light transmissive layer 130 is formed by a milling method. Similarly, the pattern area 111 and the non-pattern area 114 of the light transmissive and reflective layer 110 also have a height d110 of height difference, which is used to enhance the stereoscopic effect and visual depth of the pattern areas 111, 131 when mirrored.

此外,請參閱圖2,圖2與圖1C不同之處為於圖樣區131增設微結構131a之剖面側視圖。如圖2所示,圖樣區131於本例中包括微結構131a,而微結構131a在運用上可為毛邊結構(Rough edges structure)或是一非光滑表面之結構,例如:壓紋、咬花等工藝設計而形成之微結構,用以部份吸光而加強圖 樣區131之鏡像效果。 In addition, please refer to FIG. 2. FIG. 2 is different from FIG. 1C in that a cross-sectional side view of the microstructure 131a is added to the pattern area 131. As shown in FIG. 2, the pattern area 131 includes a microstructure 131a in this example, and the microstructure 131a may be a Rough edges structure or a non-smooth surface structure, such as embossing and biting. Microstructure formed by process design to partially absorb light and enhance the image The mirror effect of the sample area 131.

接著,請參閱圖3,係為本案之圖樣區1311,1312高度變化及增設微結構1311a,1312a的剖面側視圖。以圖3來說明與前例不同之處為圖樣區131的高度變化以及結合微結構的應用變化。 Next, please refer to FIG. 3, which is a cross-sectional side view of the height change of the pattern area 1311, 1312 of the present case and the addition of the microstructures 1311a, 1312a. The difference from the previous example in FIG. 3 is the change in height of the pattern area 131 and the application change of the combined microstructure.

如同先前所述,本創作之基本創作精神係為圖樣區111,131與非圖樣區114,134兩者之頂面具有高低落差。而圖樣區111,131與非圖樣區114,134兩者之頂面的高低落差包括多種組合運用,例如:以透光層130來說明,圖樣區131之頂面的高度可係高於該非圖樣區134之頂面的高度;抑或該圖樣區131之頂面的高度係低於該非圖樣區134之頂面的高度;抑或該圖樣區131之部分區域頂面的高度係高於該非圖樣區134之部分區域頂面的高度,且該圖樣區131之另一部分區域頂面的高度係低於該非圖樣區134之另一部分區域頂面的高度。 As previously stated, the basic creative spirit of the present creation is that the top surfaces of the pattern areas 111, 131 and the non-pattern areas 114, 134 have a height difference. The height difference between the top surfaces of the pattern areas 111, 131 and the non-pattern areas 114, 134 includes various combinations. For example, the light-emitting layer 130 is used. The height of the top surface of the pattern area 131 may be higher than the top of the non-pattern area 134. The height of the top surface; or the height of the top surface of the pattern area 131 is lower than the height of the top surface of the non-pattern area 134; or the height of the top surface of the partial area of the pattern area 131 is higher than the top part of the non-pattern area 134 The height of the face, and the height of the top surface of the other portion of the pattern area 131 is lower than the height of the top surface of the other portion of the non-pattern area 134.

由此可知,圖樣區131之頂面的高度可依圖樣區131的設計結構而調整為與非圖樣區134具有不同的高度落差,而不同的高度落差使光源反射聚集於高低落差的結構上,且微結構131a的設計更擷取光源吸光於微結構131a的表面,以突顯加強圖樣區131高低落差的鏡像效果,達到較佳地圖樣區131立體視覺效果及視覺層次深度。 It can be seen that the height of the top surface of the pattern area 131 can be adjusted to have a different height difference from the non-pattern area 134 according to the design structure of the pattern area 131, and different height differences cause the light source to reflect on the structure with high and low drop. Moreover, the design of the microstructure 131a absorbs light from the surface of the microstructure 131a to highlight the mirror effect of enhancing the height difference of the pattern area 131, and achieves a stereoscopic visual effect and a visual depth of the map area 131.

如圖3所示,本例中之透光層130更包括第一圖樣區1311以及第二圖樣區1312,由圖3可得知,第一圖樣區1311以及第二圖樣區1312於此例中的高度變化,第一圖樣區1311以及第二圖樣區1312分別具有不同高度d1,d2。於本例中,第一圖樣區1311之高度d1係為透光層130向反射層120方向凹陷 之深度,而第二圖樣區1312之高度d2係為由第一圖樣區1311向反射層120方向再次凹陷之深度,因二圖樣區1311,1312於無限鏡中呈現之鏡像效果需求,而可同理地調整其二圖樣區1311,1312的高度d1,d2於實務的運用上,進而使二圖樣區1311,1312可包括多個不同高度d1,d2,如同本例中設計第一圖樣區1311以及第二圖樣區1312具有不同的高度d1,d2,進而產生不同鏡像效果的變化。 As shown in FIG. 3, the light-transmitting layer 130 in this example further includes a first pattern area 1311 and a second pattern area 1312. As can be seen from FIG. 3, the first pattern area 1311 and the second pattern area 1312 are in this example. The height of the first pattern area 1311 and the second pattern area 1312 have different heights d1, d2, respectively. In this example, the height d1 of the first pattern region 1311 is such that the light-transmitting layer 130 is recessed toward the reflective layer 120. The depth d2, and the height d2 of the second pattern area 1312 is the depth that is recessed again by the first pattern area 1311 toward the reflective layer 120, because the image pattern effect of the two pattern areas 1311, 1312 in the infinite mirror is the same. The heights d1 and d2 of the two pattern regions 1311 and 1312 are adjusted to be practically applied, so that the two pattern regions 1311, 1312 can include a plurality of different heights d1, d2, as in the present example, the first pattern region 1311 is designed and The second pattern area 1312 has different heights d1, d2, which in turn produce variations in different mirroring effects.

再者,第一圖樣區1311以及第二圖樣區1312分別包括第一微結構1311a以及第二微結構1312a,且第一微結構1311a以及第二微結構1312a於實際運用中可係為不同之工藝設計的結構,例如:第一微結構1311a可為壓紋工藝設計,而第二微結構1312a可為毛邊結構設計,因而使多重鏡像效果因應不同的微結構1311a,1312a而產生鏡像效果的變化。 Furthermore, the first pattern region 1311 and the second pattern region 1312 respectively include a first microstructure 1311a and a second microstructure 1312a, and the first microstructure 1311a and the second microstructure 1312a may be different processes in practical use. The structure of the design, for example, the first microstructure 1311a may be an embossing process design, and the second microstructure 1312a may be a flash structure design, thereby causing a multi-mirror effect to produce a change in mirror image effect depending on the different microstructures 1311a, 1312a.

此外,請再參閱圖4,係為本創作之無限鏡增設印刷層之一實施例的剖面圖。如圖4所示,無限鏡更包括印刷層132,且印刷層132係為被印刷為一圖樣於透光層130之底面130b,用以使無限鏡產生印刷層132之反射鏡像的效果。特別說明圖樣區131與印刷層132兩者的應用變化,但不以本案之實施例為限制,可考量其產品設計而搭配組合,例如:圖樣區131與印刷層132被設計為相同的圖樣樣式,用以加強圖樣區131於無限鏡10中所呈現之多重鏡像效果,抑或是圖樣區131與印刷層132被設計為不相同的樣式,例如:圖樣區131可設計為產品商標,而印刷層132可設計為一網底背景,抑或因應產品商標而配合設計為相關的圖樣,讓使用者注視無限鏡時,於視覺上產生多重不同影像多疊延伸的鏡像效果及美感。 In addition, please refer to FIG. 4 again, which is a cross-sectional view showing an embodiment of the printed layer of the created infinite mirror. As shown in FIG. 4, the infinite mirror further includes a printed layer 132, and the printed layer 132 is printed as a pattern on the bottom surface 130b of the light transmissive layer 130 for causing the infinite mirror to produce a reflective image of the printed layer 132. In particular, the application of the pattern area 131 and the printing layer 132 is changed, but it is not limited by the embodiment of the present invention, and the product design can be considered and combined, for example, the pattern area 131 and the printing layer 132 are designed to be the same pattern style. For enhancing the multiple mirroring effect of the pattern area 131 in the infinite mirror 10, or whether the pattern area 131 and the printing layer 132 are designed to be different, for example, the pattern area 131 can be designed as a product trademark, and the printing layer 132 can be designed as a background of the bottom of the net, or in accordance with the product trademark and designed to be related to the pattern, allowing the user to visually create a mirror image effect and aesthetics of multiple different images.

接著,請再參閱圖5,係為無限鏡增設發光件之一 實施例的剖面圖。如圖5所示,無限鏡更包括複數發光件150以及光源槽133,且於此實施例中,於透光層130之外側緣130c包括光源槽133,複數發光件150被設置於光源槽133,用以使光源由外側緣130c投射於透光及反射層110與反射層120之間,於此複數發光件150於實際運用上可係為發光二極體(LED)、有機發光二極體(Organic Light-Emitting Diode,OLED)及發光紙中之一者或及其結合,但不以前述為限制。此外,於其他實施例上的應用,複數發光件150亦可被設置於一電子裝置的散熱器之外殼體165上的側面(例如顯示卡外殼體的側面)。進一步說明,複數發光件150還可包括複數電源線,用以電性連接一外部電源,以供電予複數發光件150。而電源線主要為提供電力予發光件150,但不以電源線限制本案之供電方式。 Next, please refer to Figure 5, which is one of the illuminators for the infinite mirror. A cross-sectional view of an embodiment. As shown in FIG. 5, the infinite mirror further includes a plurality of light-emitting members 150 and a light source groove 133. In this embodiment, the outer edge 130c of the light-transmitting layer 130 includes a light source groove 133, and the plurality of light-emitting elements 150 are disposed in the light source groove 133. The light source is projected from the outer edge 130c between the light transmissive and reflective layer 110 and the reflective layer 120. The plurality of light emitting devices 150 can be used as a light emitting diode (LED) and an organic light emitting diode. (Organic Light-Emitting Diode, OLED) and one of the luminescent papers or combinations thereof, but are not limited by the foregoing. In addition, in other embodiments, the plurality of light-emitting members 150 may also be disposed on a side of the outer casing 165 of the heat sink of an electronic device (for example, a side surface of the display card outer casing). Further, the plurality of light-emitting members 150 may further include a plurality of power lines for electrically connecting to an external power source for supplying power to the plurality of light-emitting members 150. The power line mainly supplies power to the illuminating device 150, but does not limit the power supply mode of the case by the power line.

發光件150除上述實施例外,亦可變化複數發光件150及光源槽133的應用結構,請參閱圖6,係為無限鏡增設發光件之另一實施例的剖面圖。如圖6所示,於本例中無限鏡更包括複數發光件150及複數光源槽133,而本例不同於前例之複數光源槽133係為由無限鏡之底面向頂面方向置入的槽孔,複數光源槽133用以置入複數發光件150。因應複數光源槽133之設置位置而使光源於透光層130內穿射反射。本例中說明複數發光件250與複數光源槽233可依無限鏡實際使用的結構設計不同,而改變其運用方式及組合變化,但不以本案中之實施例而限制無限鏡之發光件與光源槽的位置配置。另外,在本例中,無限鏡可應用於一電子裝置的散熱裝置的外殼的底部,而複數發光件150則被設置於散熱裝置之外側166。因此,前述的實施例僅說明各元件之主要技術特徵的功能,而並不以前述的 實施態樣來限制本案的專利範圍。 In addition to the above-described embodiments, the illuminating member 150 can also change the application structure of the plurality of illuminating members 150 and the light source slots 133. Referring to FIG. 6, a cross-sectional view of another embodiment of the illuminating member with an infinite mirror is added. As shown in FIG. 6, in this example, the infinite mirror further includes a plurality of light-emitting members 150 and a plurality of light source slots 133. In this example, the plurality of light source slots 133 are different from the bottom surface of the infinite mirror. The holes and the plurality of light source slots 133 are used to insert the plurality of light-emitting members 150. The light source is reflected and reflected in the light transmissive layer 130 in response to the position of the plurality of light source grooves 133. In this example, the structural design of the complex light-emitting member 250 and the complex light source slot 233 can be changed according to the actual use of the infinite mirror, and the operation mode and the combination change are changed, but the light-emitting member and the light source of the infinite mirror are not limited by the embodiment in the present case. The position of the slot is configured. In addition, in this example, the infinite mirror can be applied to the bottom of the outer casing of the heat sink of an electronic device, and the plurality of light emitting members 150 are disposed on the outer side 166 of the heat sink. Therefore, the foregoing embodiments merely illustrate the functions of the main technical features of the various elements, and do not The implementation aspect is to limit the scope of patents in this case.

最後,請參閱圖7,係為無限鏡增設感溫薄膜之一實施例的剖面圖。本例中,無限鏡更包括感溫薄膜140,其被設置於透光及反射層110與透光層130之間,用以感測本案之無限鏡於一使用環境的溫度變化,進而改變感溫薄膜140的顯示顏色。而感溫薄膜140於實際運用上可係為感溫塗料,主要用以依據無限鏡之使用環境的溫度變化,而改變無限鏡顯示鏡像效果的色彩。舉例說明,請再搭配參閱圖6,感溫薄膜140於無限鏡的實務應用,本案之無限鏡可應用於一散熱裝置,而散熱裝置可應用於顯示卡裝置或積體電路板等。首先,無限鏡被設置於散熱裝置之外殼的底部,但不限制無限鏡被設置於散熱裝置之設置位置,無限鏡亦可被設置於散熱裝置之外側166,在此無限鏡之設置位置並不影響無限鏡所呈現的反射鏡像效果及功用。而無限鏡之感溫薄膜因應顯示卡裝置之具體使用環境的溫度變化,而改變無限鏡顯示多重反射鏡像效果的色溫變化,進而讓使用者了解顯示卡裝置或應用本案無限鏡之電子裝置的效能及溫度狀態。 Finally, please refer to FIG. 7 , which is a cross-sectional view showing an embodiment of adding a temperature sensitive film to an infinite mirror. In this example, the infinite mirror further includes a temperature sensing film 140 disposed between the light transmissive and reflective layer 110 and the light transmissive layer 130 for sensing the temperature change of the infinite mirror of the present invention in a use environment, thereby changing the sense. The display color of the warm film 140. The temperature sensing film 140 can be a temperature sensitive coating in practical use, and is mainly used to change the color of the mirror image display effect according to the temperature change of the environment of the infinite mirror. For example, please refer to FIG. 6 together with the practical application of the temperature sensing film 140 in the infinite mirror. The infinite mirror of the present invention can be applied to a heat sink, and the heat sink can be applied to a display card device or an integrated circuit board. First, the infinite mirror is disposed at the bottom of the outer casing of the heat sink, but the infinite mirror is not limited to the set position of the heat sink, and the infinite mirror can also be disposed on the outer side 166 of the heat sink, where the infinite mirror is not disposed. Affects the reflection mirror effect and function exhibited by the infinite mirror. The temperature sensor of the infinite mirror changes the color temperature of the multi-reflection mirror effect of the infinite mirror according to the temperature change of the specific use environment of the display card device, thereby allowing the user to understand the performance of the display device or the electronic device using the infinite mirror of the present invention. And temperature status.

由以上描述可知,本案之無限鏡為提供一種結合多種工藝設計且延伸應用之無限鏡。本案之無限鏡藉由圖樣區與非圖樣區兩者之間具有不同的高低落差,並於圖樣區之頂面增設微結構,用以加強圖樣區整體的多重反射鏡像效果。此外,亦可設置印刷層於透光層之一面,用以加強光源於無限鏡中反射時,使多重鏡像效果更有層次感及多組的組合變化。再者,本案之無限鏡更於透光及反射層與透光層之間增設感溫薄膜,用以感測使用環境的溫度變化,而達到顯示使用環境的溫度狀態,進而達到新增多重反射鏡像效果、視覺美化及感測使 用環境溫度的功能。 It can be seen from the above description that the infinite mirror of the present invention provides an infinite mirror that combines various process designs and extends applications. The infinite mirror of the present case has different height difference between the pattern area and the non-pattern area, and adds a microstructure on the top surface of the pattern area to enhance the multi-reflection mirror effect of the whole pattern area. In addition, a printed layer may be disposed on one side of the light transmissive layer to enhance the multi-mirror effect and the combination of multiple groups when the light source is reflected in the infinite mirror. Furthermore, the infinite mirror of the present invention adds a temperature sensitive film between the light transmissive and reflective layer and the light transmissive layer to sense the temperature change of the use environment and reach the temperature state of the display environment, thereby achieving new multiple reflections. Mirroring effect, visual beautification and sensing Use the function of ambient temperature.

以上僅為本創作之較佳可行實施例,非因此即侷限本創作之專利範圍,舉凡運用本創作說明書及圖式內容所為之等效結構變化,均包含於本創作之範圍內,合予陳明。 The above are only the preferred and feasible embodiments of this creation, and therefore, the scope of the patents of this creation is not limited to the scope of this creation, and the equivalent structural changes made by the use of this creation manual and the contents of the drawings are included in the scope of this creation. Bright.

10‧‧‧無限鏡 10‧‧‧Unlimited mirror

110‧‧‧透光及反射層 110‧‧‧Light and reflective layers

120‧‧‧反射層 120‧‧‧reflective layer

130‧‧‧透光層 130‧‧‧Transparent layer

131‧‧‧圖樣區 131‧‧‧pattern area

Claims (13)

一種無限鏡,至少包括:一透光層,包括一圖樣區與一非圖樣區;一透光及反射層,其被設置於該透光層之頂面;一反射層,其被設置於該透光層之底面;以及至少一發光件,用以發射光線,該光線投射反射於該透光及反射層與該反射層之間;其中,該圖樣區與該非圖樣區具有一高低落差。 An infinite mirror comprising: a light transmissive layer comprising a pattern area and a non-pattern area; a light transmissive and reflective layer disposed on a top surface of the light transmissive layer; a reflective layer disposed on the a bottom surface of the light transmissive layer; and at least one light emitting member for emitting light, the light being projected and reflected between the light transmissive and reflective layer and the reflective layer; wherein the pattern area and the non-pattern area have a height difference. 如申請專利範圍第1項所述之無限鏡,其中,該透光及反射層更包括與該透光層相同之另一圖樣區與另一非圖樣區,且該另一圖樣區與該另一非圖樣區具有另一高低落差。 The infinite mirror of claim 1, wherein the light transmissive and reflective layer further comprises another pattern area and another non-pattern area identical to the light transmissive layer, and the other pattern area and the other A non-pattern area has another high and low drop. 如申請專利範圍第1項所述之無限鏡,其中,該圖樣區更包括至少一微結構,其係為具有高低起伏表面之結構。 The infinite mirror of claim 1, wherein the pattern region further comprises at least one microstructure, which is a structure having a high and low relief surface. 如申請專利範圍第1項所述之無限鏡,其中,該圖樣區係為一文字、一數字、一符號、一幾何圖形及一圖騰中之一者或及其結合。 The infinite mirror of claim 1, wherein the pattern area is one of a character, a number, a symbol, a geometric figure, and a totem or a combination thereof. 如申請專利範圍第1項所述之無限鏡,其中,該透光及反射層之透光及反射比例值為40比60至90比10。 The infinite mirror of claim 1, wherein the light transmissive and reflective layers have a light transmission and reflection ratio of 40 to 60 to 90 to 10. 如申請專利範圍第1項所述之無限鏡,更包括一感溫薄膜層,其被設置於該透光及反射層與該透光層之間,用以感測環境溫度而改變該感溫薄膜層之色彩。 The infinite mirror according to claim 1, further comprising a temperature sensing film layer disposed between the light transmissive and reflective layer and the light transmissive layer for sensing the ambient temperature and changing the temperature sensing The color of the film layer. 如申請專利範圍第1項所述之無限鏡,更包括一印刷層,其被設置於該透光層與該反射層之間。 The infinite mirror of claim 1, further comprising a printed layer disposed between the light transmissive layer and the reflective layer. 如申請專利範圍第1項所述之無限鏡,其中,該至少一發光件被設置於一電子裝置的散熱器之外殼體,而該無限鏡亦相對被設置於該散熱器之外殼體。 The infinite mirror of claim 1, wherein the at least one illuminating member is disposed on an outer casing of the heat sink of the electronic device, and the infinite mirror is disposed opposite to the outer casing of the heat sink. 如申請專利範圍第1項所述之無限鏡,該透光層更包括因應該至少一發光件之一光源槽,用以容置該至少一發光件;其中,該光源槽被設置於該透光層之外緣,抑或是被設置於該透光層之底面。 The light-transmissive layer further includes a light source slot for accommodating at least one light-emitting member for accommodating the at least one light-emitting member; wherein the light source groove is disposed in the transparent mirror The outer edge of the light layer is disposed on the bottom surface of the light transmissive layer. 如申請專利範圍第1項所述之無限鏡,其中,該至少一發光件係為發光二極體(LED)、有機發光二極體(Organic Light-Emitting Diode,OLED)及發光紙中之一者或及其結合。 The infinite mirror according to claim 1, wherein the at least one illuminating member is one of a light emitting diode (LED), an organic light emitting diode (OLED), and a luminescent paper. Or their combination. 如申請專利範圍第1項所述之無限鏡,其中,該圖樣區之頂面的高度係高於該非圖樣區之頂面的高度。 The infinite mirror of claim 1, wherein a height of a top surface of the pattern area is higher than a height of a top surface of the non-pattern area. 如申請專利範圍第1項所述之無限鏡,其中,該圖樣區之頂面的高度係低於該非圖樣區之頂面的高度。 The infinite mirror of claim 1, wherein a height of a top surface of the pattern area is lower than a height of a top surface of the non-pattern area. 如申請專利範圍第1項所述之無限鏡,其中,該圖樣區之部分區域頂面的高度係高於該非圖樣區之部分區域頂面的高度,且該圖樣區之另一部分區域頂面的高度係低於該非圖樣區之另一部分區域頂面的高度。 The infinite mirror according to claim 1, wherein a height of a top surface of a partial region of the pattern region is higher than a height of a top surface of a portion of the non-pattern region, and a top surface of another portion of the pattern region is The height is lower than the height of the top surface of another portion of the non-pattern area.
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