TWI551821B - Reflective element structure - Google Patents

Description

反射元件結構Reflective element structure

本發明是關於光反射結構的技術領域，特別是一種結合預先分離的至少二個本體以提供高均勻度且無死角的反射層的反射元件結構。 The present invention relates to the technical field of light reflecting structures, and more particularly to a reflective element structure incorporating at least two bodies separated in advance to provide a highly uniform and dead angle reflective layer.

在傳統照明領域中，藉由塗覆一反射層的燈杯，做為提高一光線的出光量與調整該光線準直度的一種方式，而該方式係普遍地被應用。 In the field of conventional illumination, a lamp cup coated with a reflective layer is used as a way to increase the amount of light emitted by a light and adjust the degree of collimation of the light, which is generally applied.

在製作該燈杯的過程中，該反射層屬於後續製程，即是在傳統中，該燈杯首先地藉由例如一體成型的方式製作出一本體，再藉由例如鍍覆的方式，將具有光反射特性的材質，鍍覆在該本體，使得該本體具有反射能力。 In the process of fabricating the lamp cup, the reflective layer belongs to a subsequent process, that is, in the conventional case, the lamp cup is first formed by, for example, integral molding, and then, for example, by plating, A material of light reflection characteristics is plated on the body such that the body has a reflective capability.

然而，由於該本體的形狀一般為中空的錐體，在鍍覆的過程中，有可能因為夾具夾持的方式，或是鍍覆的方向等工法，造成該反射層的厚度不均勻，以及該本體的某部分未能形成該反射層。 However, since the shape of the body is generally a hollow cone, during the plating process, the thickness of the reflective layer may be uneven due to the manner in which the clamp is clamped or the direction of the plating. Some part of the body failed to form the reflective layer.

上述的缺失，將會造成例如一光線的反射效率與該光線出光的準直度受到嚴重的影響。 The above-mentioned deficiency will cause, for example, the reflection efficiency of a light and the degree of collimation of the light to be emitted to be severely affected.

有鑑於此，本發明提出一種反射元件結構，以解決習知技術的缺失。 In view of this, the present invention proposes a reflective element structure to address the deficiencies of the prior art.

本發明之第一目的提供一反射元件結構，包含複數本體，該等本體結合後形成單一個或複數個反射杯，讓一光源產生的光線經由該反射杯均勻地反射，以達到高準直的出射。 A first object of the present invention provides a reflective element structure comprising a plurality of bodies, wherein the bodies are combined to form a single or a plurality of reflective cups, such that light generated by a light source is uniformly reflected through the reflective cup to achieve high collimation. Exit.

本發明之第二目根據前述反射元件結構，在該等本體結合之前，藉由該一物理氣相沉積法、一電子槍蒸鍍法與一離子槍輔助蒸鍍法等方法，可在每一該等本體之內壁藉由例如旋轉、擺動、波動等方式形成均勻的一反射層，而讓該光線能進行低損耗與無死角的反射。 According to the second embodiment of the present invention, before the body bonding, the physical vapor deposition method, an electron gun evaporation method, and an ion gun assisted vapor deposition method may be used in each of the methods. The inner wall of the body forms a uniform reflective layer by, for example, rotating, oscillating, fluctuating, etc., so that the light can be reflected with low loss and no dead angle.

本發明之第三目根據前述反射元件結構，單一個或該等反射杯可被分開成至少二個該等本體，而該等本體可藉由例如橫向或者垂直組合成該單一個或該等反射杯。 According to the third aspect of the present invention, a single one or the reflecting cups may be divided into at least two such bodies, and the bodies may be combined into the single or the reflections by, for example, lateral or vertical. cup.

為達上述目的及其它目的，本發明提供一種反射元件結構，包含一第一本體與一第二本體。該第一本體具有一第一內壁與一第一外壁。該第一內壁均勻地形成一第一反射層。該第二本體具有一第二內壁與一第二外壁。該第二內壁均勻地形成一第二反射層。該第一內壁接合該第二內壁，以及該第一外壁接合該第二外壁，讓該第一反射層與該第二反射層組合成一第三反射層。 To achieve the above and other objects, the present invention provides a reflective element structure including a first body and a second body. The first body has a first inner wall and a first outer wall. The first inner wall uniformly forms a first reflective layer. The second body has a second inner wall and a second outer wall. The second inner wall uniformly forms a second reflective layer. The first inner wall joins the second inner wall, and the first outer wall joins the second outer wall to combine the first reflective layer and the second reflective layer into a third reflective layer.

為達上述目的及其它目的，本發明係一種反射元件結構，包含一第三本體與一第四本體。該第三本體具有一第三外壁、一第一結合部與複數第一凹槽。該等第一凹槽形成在該第三外壁與該第一結合部之間，每一該等第一凹槽具有一第三內壁。該第三內壁均勻地形成一第四反射層。該第四本體具有一第四外壁、一第二結合部與複數第二凹槽。該等第二凹槽形成在該第四外壁與該第二結合部之間。每一該等第二凹槽包含一第四內壁。該第四內壁均勻地形成一第五反射層。該第一結合部結合該第二結合部，讓每一該等第一凹槽與每一該等第二凹槽組成完整的一凹槽，而該凹槽具有該第四反射層與該第五反射層所組合成一第六反射層。 To achieve the above and other objects, the present invention is a reflective element structure including a third body and a fourth body. The third body has a third outer wall, a first joint portion and a plurality of first grooves. The first grooves are formed between the third outer wall and the first joint, and each of the first grooves has a third inner wall. The third inner wall uniformly forms a fourth reflective layer. The fourth body has a fourth outer wall, a second joint and a plurality of second grooves. The second grooves are formed between the fourth outer wall and the second joint. Each of the second grooves includes a fourth inner wall. The fourth inner wall uniformly forms a fifth reflective layer. The first joint portion is combined with the second joint portion, and each of the first grooves and each of the second grooves constitute a complete groove, and the groove has the fourth reflective layer and the first portion The five reflective layers are combined into a sixth reflective layer.

相較於習知技術，本發明之反射元件結構藉由分離的複數本體，以解決傳統中由於一體成型所造成無法均勻地且無死角地形成反射層的缺失。本發明讓該等本體可在結合之後，能達到高反射與高準直度等高效。舉例而言，該反射元件結構可為圓錐體或角錐體的燈杯，而當一光源結合該燈杯時，該光源的一光線可藉由該燈杯的反射層發出均勻的該光線，以及根據該燈杯傾斜的角度在某一方向準直地出射的該光線。 Compared to the prior art, the reflective element structure of the present invention utilizes a separate plurality of bodies to solve the conventional lack of formation of a reflective layer due to integral molding. The invention allows the bodies to achieve high efficiency such as high reflection and high collimation after bonding. For example, the reflective element structure can be a cone or a pyramidal cup, and when a light source is coupled to the light cup, a light of the light source can emit uniform light through the reflective layer of the light cup, and The light that is collimated in a certain direction according to the angle at which the lamp cup is inclined.

本發明的該反射元件結構除可應用在燈具上，更可應用在例如運輸載具的燈體，例如車體的晝行燈等。 The reflective element structure of the present invention can be applied to a lamp body such as a transport vehicle, such as a running light of a vehicle body, etc., in addition to being applicable to a luminaire.

2、2'‧‧‧光源模組 2, 2'‧‧‧ light source module

10、10'‧‧‧反射元件結構 10, 10'‧‧‧reflector structure

12‧‧‧第一本體 12‧‧‧First Ontology

122‧‧‧第一內壁 122‧‧‧First inner wall

1222‧‧‧第一起始端 1222‧‧‧First starting end

1224‧‧‧第一結束端 1224‧‧‧First end

124‧‧‧第一外壁 124‧‧‧First outer wall

126‧‧‧第一反射層 126‧‧‧First reflective layer

128‧‧‧第一結合面 128‧‧‧ first joint

1210‧‧‧第三結合面 1210‧‧‧ third joint

14‧‧‧第二本體 14‧‧‧Second ontology

142‧‧‧第二內壁 142‧‧‧Second inner wall

1422‧‧‧第二起始端 1422‧‧‧second starting end

1424‧‧‧第二結束端 1424‧‧‧second end

144‧‧‧第二外壁 144‧‧‧ second outer wall

146‧‧‧第二反射層 146‧‧‧second reflective layer

148‧‧‧第二結合面 148‧‧‧Second junction

1410‧‧‧第四結合面 1410‧‧‧ fourth joint

16‧‧‧圓錐體 16‧‧‧ cone

162‧‧‧第三反射層 162‧‧‧ third reflective layer

164‧‧‧開口部 164‧‧‧ openings

18‧‧‧第三本體 18‧‧‧ Third ontology

182‧‧‧第三外壁 182‧‧‧ third outer wall

184‧‧‧第一結合部 184‧‧‧ first joint

186‧‧‧第一凹槽 186‧‧‧first groove

1862‧‧‧第三內壁 1862‧‧‧ Third inner wall

1864‧‧‧第四反射層 1864‧‧‧fourth reflective layer

20‧‧‧第四本體 20‧‧‧ fourth ontology

202‧‧‧第四外壁 202‧‧‧fourth outer wall

204‧‧‧第二結合部 204‧‧‧Second junction

206‧‧‧第二凹槽 206‧‧‧second groove

2062‧‧‧第四內壁 2062‧‧‧4th inner wall

2064‧‧‧第五反射層 2064‧‧‧ fifth reflective layer

24‧‧‧第三凹槽 24‧‧‧ third groove

242‧‧‧第六反射層 242‧‧‧ sixth reflective layer

244‧‧‧開口部 244‧‧‧ openings

LB‧‧‧光線 LB‧‧‧Light

第1圖係本發明第一實施例之反射元件結構的剖面分解示意圖。 Fig. 1 is a cross-sectional, exploded view showing the structure of a reflecting element of a first embodiment of the present invention.

第2圖係說明本發明第1圖之反射元件結構的結合示意圖。 Fig. 2 is a view showing the combination of the structure of the reflective element of Fig. 1 of the present invention.

第3圖係本發明第二實施例之反射元件結構的剖面分解示意圖。 Figure 3 is a cross-sectional, exploded view showing the structure of a reflective element of a second embodiment of the present invention.

第4圖係說明本發明第3圖之反射元件結構的結合示意圖。 Fig. 4 is a view showing the combination of the structure of the reflective member of Fig. 3 of the present invention.

為充分瞭解本發明之目的、特徵及功效，茲藉由下述具體之實施例，並配合所附之圖式，對本發明做一詳細說明，說明如後：請參考第1圖，係本發明第一實施例之反射元件結構的剖面分解示意圖。於第1圖中，該反射元件結構10結合一光源模組2。該光源模組2產生一光線LB，該光線LB藉由該反射元件結構10能夠無死角且高效率地被反射。另外，被反射的該光線LB能夠具有高準直性，而能朝一預定方向出射。 In order to fully understand the object, features and advantages of the present invention, the present invention will be described in detail by the following specific embodiments and the accompanying drawings, which are illustrated as follows: A schematic cross-sectional view of the structure of the reflective element of the first embodiment. In FIG. 1 , the reflective element structure 10 is combined with a light source module 2 . The light source module 2 generates a light LB which can be reflected without any dead angle and high efficiency by the reflective element structure 10. In addition, the reflected light LB can have high collimation and can exit in a predetermined direction.

該反射元件結構10包含一第一本體12與一第二本體14。 The reflective element structure 10 includes a first body 12 and a second body 14.

該第一本體12的形狀係以半圓錐體為例說明，即該第一本體12的上半部的開口尺寸大於下半部的開口尺寸。於其它實施例中，該第一本體12的形狀可由任意形狀(例如一角錐體)所取代。該第一本體12包含一第一內壁122與一第一外壁124。該第一本體12的材質可為金屬材質或非金屬材質，例如該非金屬材質可為塑膠。該第一內壁122均勻地形成一第一反射層126。該第一反射層126可藉由例如一物理氣相沉積法、一電子槍蒸鍍法與一離子槍輔助蒸鍍法所形成。相較於傳統一體成型的圓錐體結構，由於該第一本體12為半圓錐體的結構，因此，在該第一本體12形成該第一反射層126的過程中，更容易地藉由旋轉、擺動或波動的方式在該第一本體12之上進行無死角的加工，讓該第一反射層126可被均勻地(例如厚度或表面平整度)形成在該第一內壁122之上，或者同樣地也可被形成在該第一外壁124之上。 The shape of the first body 12 is exemplified by a semi-cone, that is, the opening size of the upper half of the first body 12 is larger than the opening size of the lower half. In other embodiments, the shape of the first body 12 can be replaced by any shape, such as a pyramid. The first body 12 includes a first inner wall 122 and a first outer wall 124. The material of the first body 12 can be metal or non-metal. For example, the non-metal material can be plastic. The first inner wall 122 uniformly forms a first reflective layer 126. The first reflective layer 126 can be formed by, for example, a physical vapor deposition method, an electron gun evaporation method, and an ion gun assisted evaporation method. Compared with the conventional integrally formed cone structure, since the first body 12 has a semi-conical structure, it is easier to rotate by the first body 12 in forming the first reflective layer 126. The method of swinging or fluctuating performs a dead angle-free processing on the first body 12 such that the first reflective layer 126 can be uniformly formed (eg, thickness or surface flatness) on the first inner wall 122, or The same can also be formed on the first outer wall 124.

該第一內壁122自一第一起始端1222延伸至一第一結束端1224。該第一起始端1222與該第一外壁124之間形成一第一結合面128，以及該第一結束端1224與該第一外壁124之間形成一第三結合面1210。 The first inner wall 122 extends from a first starting end 1222 to a first ending end 1224. A first bonding surface 128 is formed between the first starting end 1222 and the first outer wall 124, and a third bonding surface 1210 is formed between the first end 1224 and the first outer wall 124.

該第二本體14的形狀係同樣以半圓錐體為例說明。於本實施例中，為達到更好的該光線LB的準直性，該第二本體14的形狀係對稱於該第一本體12的形狀。於其它實施例中，該第一本體12的形狀與該第二本體14的形狀亦可為非對稱的結構。該第二本體14包含一第二內壁142與一第二外壁144。該第二本體14選用與該第一本體12相同的材質。該第二內壁142均勻地形成一第二反射層146。該第二反射層146的形成方式可相同於該第一反射層126的形成方式。 The shape of the second body 14 is also illustrated by taking a semi-cone as an example. In this embodiment, in order to achieve better collimation of the light ray LB, the shape of the second body 14 is symmetric to the shape of the first body 12. In other embodiments, the shape of the first body 12 and the shape of the second body 14 may also be asymmetric structures. The second body 14 includes a second inner wall 142 and a second outer wall 144. The second body 14 is made of the same material as the first body 12. The second inner wall 142 uniformly forms a second reflective layer 146. The second reflective layer 146 can be formed in the same manner as the first reflective layer 126.

同樣地，該第二內壁142自一第二起始端1422延伸至一第二結束端1424。該第二起始端1422與該第二外壁144之間形成一第二結合面148與該第二結束端1424與該第二外壁144之間形成一第四結合面1410。 Similarly, the second inner wall 142 extends from a second starting end 1422 to a second ending end 1424. A second bonding surface 148 is formed between the second starting end 1422 and the second outer wall 144, and a fourth bonding surface 1410 is formed between the second ending end 1424 and the second outer wall 144.

該第一本體12形成該第一反射層126，以及該第二本體14形成該第二反射層146。由於該第一本體12與該第二本體14的形狀為半圓錐體，因此，藉由該第一內壁122接合該第二內壁142，以及該第一外壁124接合該第二外壁144，將組合成一圓錐體16。該第一反射層126與該第二反射層146組合成一第三反射層162，亦即在該第一結合面128接合該第四結合面1410，以及該第三結合面1210接合該第二結合面148之後，該第一反射層126與該第二反射層146組合成該第三反射層162。該圓錐體16可一併參考第2圖，係說明本發明第1圖之反射元件結構的結合示意圖。 The first body 12 forms the first reflective layer 126, and the second body 14 forms the second reflective layer 146. Since the first body 12 and the second body 14 are semi-conical in shape, the second inner wall 142 is joined by the first inner wall 122, and the first outer wall 124 is joined to the second outer wall 144. Will be combined into a cone 16. The first reflective layer 126 and the second reflective layer 146 are combined into a third reflective layer 162, that is, the first bonding surface 128 is joined to the fourth bonding surface 1410, and the third bonding surface 1210 is coupled to the second bonding layer. After the face 148, the first reflective layer 126 and the second reflective layer 146 are combined into the third reflective layer 162. The cone 16 can be referred to together with FIG. 2 to illustrate a combined schematic view of the structure of the reflective member of the first embodiment of the present invention.

在第2圖中，該圓錐體16的頂點端具有一開口部164，而該開口部164能夠容置該光源模組2。 In the second figure, the apex end of the cone 16 has an opening 164, and the opening 164 can accommodate the light source module 2.

值得注意的是，若該第一本體12與該第二本體14的形狀分別地為半角錐體，則該第一本體12結合該第二本體14，將形成一角錐體(圖未示)。相較於該圓錐體16，該角錐體的頂點端同樣地具有一開口部164，而該開口部164能夠容置一光源模組2。 It should be noted that if the shape of the first body 12 and the second body 14 are respectively pyramids, the first body 12 is combined with the second body 14 to form a pyramid (not shown). The apex end of the pyramid has an opening 164 similarly to the cone 16 , and the opening 164 can accommodate a light source module 2 .

請參考第3圖，係本發明第二實施例之反射元件結構的剖面分解示意圖。於第3圖中，該反射元件結構10’可結合複數光源模組2’，於此該光源模組2’係以3個為例說明。藉由該反射元件結構10’，每一該等光源模組2’產生的一光線LB能夠無死角且高效率地被反射。 Please refer to FIG. 3, which is a cross-sectional exploded view showing the structure of a reflective element according to a second embodiment of the present invention. In Fig. 3, the reflective element structure 10' can be combined with a plurality of light source modules 2', and the light source module 2' is exemplified by three. With the reflective element structure 10', a light LB generated by each of the light source modules 2' can be reflected without a dead angle and with high efficiency.

該反射元件結構10’包含一第三本體18與一第四本體20。 The reflective element structure 10' includes a third body 18 and a fourth body 20.

該第三本體18包含一第三外壁182、一第一結合部184與複數第一凹槽186。於本實施例中，該等第一凹槽186係以3個為例說明。該等第一凹槽186形成在該第三外壁182與該第一結合部184之間，每一該等第一凹槽186包含一第三內壁1862，而該第三內壁1862均勻地形成一第四反射層1864。該第四反射層1864可藉由例如一物理氣相沉積法、一電子槍蒸鍍法與一離子槍輔助蒸鍍法所 形成。相較於傳統一體成型的結構，在該第三內壁1862形成該第四反射層1864的過程中，更容易地藉由旋轉、擺動或波動的方式在該第三內壁1862之上進行加工，讓該第四反射層1864均勻地(例如厚度或表面平整度)形成在該第三內壁1862。 The third body 18 includes a third outer wall 182 , a first joint portion 184 and a plurality of first grooves 186 . In the embodiment, the first grooves 186 are illustrated by three. The first recess 186 is formed between the third outer wall 182 and the first joint portion 184. Each of the first recesses 186 includes a third inner wall 1862, and the third inner wall 1862 is evenly A fourth reflective layer 1864 is formed. The fourth reflective layer 1864 can be formed by, for example, a physical vapor deposition method, an electron gun evaporation method, and an ion gun assisted evaporation method. form. Compared with the conventional integrally formed structure, in the process of forming the fourth reflective layer 1864 by the third inner wall 1862, it is easier to process on the third inner wall 1862 by rotating, swinging or fluctuating. The fourth reflective layer 1864 is formed uniformly (eg, thickness or surface flatness) on the third inner wall 1862.

該第四本體20包含一第四外壁202、一第二結合部204與複數第二凹槽206。於本實施例中，該等第二凹槽206係以3個為例說明。每一該等第二凹槽206的形狀係對稱於每一該等第一凹槽186的形狀，於其它實施例中，該等第一凹槽186與該等第二凹槽206係可非對稱的形狀。該等第二凹槽206形成在該第四外壁202與該第二結合部204之間，每一該等第二凹槽206包含一第四內壁2062，而該第四內壁2062均勻地形成一第五反射層2064。該第四內壁2062均勻地形成該第五反射層2064。該第五反射層2064的形成方式可相同於該第四反射層1864的形成方式。 The fourth body 20 includes a fourth outer wall 202 , a second joint 204 , and a plurality of second grooves 206 . In the embodiment, the second grooves 206 are illustrated by taking three examples. The shape of each of the second grooves 206 is symmetrical to the shape of each of the first grooves 186. In other embodiments, the first grooves 186 and the second grooves 206 are not Symmetrical shape. The second recesses 206 are formed between the fourth outer wall 202 and the second joint portion 204. Each of the second recesses 206 includes a fourth inner wall 2062, and the fourth inner wall 2062 is evenly A fifth reflective layer 2064 is formed. The fourth inner wall 2062 uniformly forms the fifth reflective layer 2064. The fifth reflective layer 2064 can be formed in the same manner as the fourth reflective layer 1864.

該第一結合部184結合該第二結合部204，讓每一該等第一凹槽186與每一該等第二凹槽206組成完整的複數第三凹槽24。於本實施例中，該等第三凹槽24共為3個，且該等第三凹槽24係朝著X方向排列。每一該等第三凹槽24包含由該第四反射層1864與該第五反射層2064所組合成一第六反射層242。可一併參考第4圖，係說明本發明第3圖之反射元件結構的結合示意圖。其中，每一該等第三凹槽24的形狀為一圓錐體。該圓錐體的頂點端具有一開口部244，該開口部244供容置該光源模組2’。該圓錐體可一併參考第4圖，係說明本發明第3圖之反射元件結構的結合示意圖。 The first joint portion 184 is combined with the second joint portion 204 such that each of the first grooves 186 and each of the second grooves 206 constitute a complete plurality of third grooves 24. In this embodiment, the third grooves 24 are a total of three, and the third grooves 24 are arranged in the X direction. Each of the third recesses 24 includes a sixth reflective layer 242 combined with the fifth reflective layer 1864 and the fifth reflective layer 2064. Referring to Fig. 4, a combination of the structure of the reflective element of Fig. 3 of the present invention will be described. The shape of each of the third grooves 24 is a cone. The apex end of the cone has an opening 244 for receiving the light source module 2'. The cone can be collectively referred to Fig. 4 to illustrate a combination of the structure of the reflective member of Fig. 3 of the present invention.

於另一實施例中，該第三凹槽24的形狀也可為一角錐體，該角錐體的頂點端具有一開口部244，該開口部供容置該光源模組2’。 In another embodiment, the shape of the third recess 24 can also be a pyramid. The apex end of the pyramid has an opening 244 for receiving the light source module 2'.

值得注意的是，於本實施例中，僅提供一排的該等第三凹槽24。於其它實施例中，該等第三凹槽24的排列方式也可以是橫向排列、縱向排列、 方形排列、星形排列、三角排列、弧形排列、漩渦型排列、蜂巢型排列、圓形排列或阿基米德螺線形排列等排列方式，且數量可不僅只有一排。 It should be noted that in the present embodiment, only one row of the third grooves 24 is provided. In other embodiments, the third grooves 24 may be arranged in a horizontal arrangement, a vertical arrangement, or Arrangement of square, star, triangle, arc, vortex, honeycomb, circular, or Archimedes spiral, and the number can be more than one row.

本發明在上文中已以較佳實施例揭露，然熟習本項技術者應理解的是，該實施例僅用於描繪本發明，而不應解讀為限制本發明之範圍。應注意的是，舉凡與該實施例等效之變化與置換，均應設為涵蓋於本發明之範疇內。因此，本發明之保護範圍當以申請專利範圍所界定者為準。 The invention has been described above in terms of the preferred embodiments, and it should be understood by those skilled in the art that the present invention is not intended to limit the scope of the invention. It should be noted that variations and permutations equivalent to those of the embodiments are intended to be included within the scope of the present invention. Therefore, the scope of protection of the present invention is defined by the scope of the patent application.

2          光源模組                 10         反射元件結構 12         第一本體                 122       第一內壁 1222     第一起始端             1224     第一結束端 124       第一外壁                 126       第一反射層 128       第一結合面             1210     第三結合面 14         第二本體                 142       第二內壁 1422     第二起始端             1424     第二結束端 144       第二外壁                 146       第二反射層 148       第二結合面             1410     第四結合面 LB        光線2 Light source module 10 Reflective element structure 12 First body 122 First inner wall 1222 First start end 1224 First end end 124 First outer wall 126 First reflective layer 128 First joint surface 1210 Third joint surface 14 Second body 142 Second inner wall 1422 second starting end 1424 second end end 144 second outer wall 146 second reflective layer 148 second joint surface 1410 fourth joint surface LB light

Claims (7)

一種反射元件結構，包含：一第一本體，係具有一第一內壁與一第一外壁，該第一內壁均勻地形成一第一反射層；以及一第二本體，係具有一第二內壁與一第二外壁，該第二內壁均勻地形成一第二反射層；其中該第一內壁接合該第二內壁以及該第一外壁接合該第二外壁，讓該第一反射層與該第二反射層組合成一第三反射層，該第一本體結合該第二本體以形成一角錐體，該角錐體的頂點端具有一開口部，該開口部供容置一光源模組，且該第一本體的形狀與該第二本體的形狀為對稱與非對稱之其一者。 A reflective element structure comprising: a first body having a first inner wall and a first outer wall, the first inner wall uniformly forming a first reflective layer; and a second body having a second An inner wall and a second outer wall, the second inner wall uniformly forming a second reflective layer; wherein the first inner wall engages the second inner wall and the first outer wall engages the second outer wall to allow the first reflection The layer is combined with the second reflective layer to form a third reflective layer. The first body is coupled to the second body to form a pyramid. The vertex end of the pyramid has an opening portion for receiving a light source module. And the shape of the first body and the shape of the second body are one of symmetrical and asymmetrical. 如申請專利範圍第1項所述之反射元件結構，其中該第一本體結合該第二本體，以形成一圓錐體，該圓錐體的頂點端具有一開口部，該開口部供容置一光源模組。 The reflective element structure of claim 1, wherein the first body is coupled to the second body to form a cone having an opening at a vertex end thereof, the opening portion for receiving a light source Module. 如申請專利範圍第1項所述之反射元件結構，其中藉由一物理氣相沉積法、一電子槍蒸鍍法與一離子槍輔助蒸鍍法之至少其中一者在該第一內壁與該第二內壁形成該反射層。 The reflective element structure of claim 1, wherein at least one of a physical vapor deposition method, an electron gun evaporation method, and an ion gun assisted evaporation method is on the first inner wall and the The second inner wall forms the reflective layer. 如申請專利範圍第1項所述之反射元件結構，其中該第一內壁自一第一起始端延伸至一第一結束端，該第一起始端與該第一外壁之間形成一第一結合面與該第一結束端與該第一外壁之間形成一第三結合面，以及該第二內壁自一第二起始端延伸至一第二結束端，該第二起始端與該第二外壁之間形成一第二結合面與該第二結束端與該第二外壁之間形成一第四結合面，該第一結合面耦接 該第二結合面以及該第三結合面耦接該第四結合面，讓該第一反射層與該第二反射層組合成該第三反射層。 The reflective element structure of claim 1, wherein the first inner wall extends from a first starting end to a first ending end, and a first bonding surface is formed between the first starting end and the first outer wall. Forming a third bonding surface with the first end end and the first outer wall, and extending the second inner wall from a second starting end to a second ending end, the second starting end and the second outer wall Forming a second bonding surface and forming a fourth bonding surface between the second ending end and the second outer wall, the first bonding surface is coupled The second bonding surface and the third bonding surface are coupled to the fourth bonding surface, and the first reflective layer and the second reflective layer are combined into the third reflective layer. 一種反射元件結構，包含：一第三本體，係具有一第三外壁、一第一結合部與複數第一凹槽，該等第一凹槽形成在該第三外壁與該第一結合部之間，每一該等第一凹槽具有一第三內壁，該第三內壁均勻地形成一第四反射層；以及一第四本體，係具有一第四外壁、一第二結合部與複數第二凹槽，該等第二凹槽形成在該第四外壁與該第二結合部之間，每一該等第二凹槽具有一第四內壁，該第四內壁均勻地形成一第五反射層；其中該第一結合部結合該第二結合部，讓每一該等第一凹槽與每一該等第二凹槽組成完整的一第三凹槽，而該第三凹槽具有該第四反射層與該第五反射層所組合成一第六反射層，其中該第三凹槽的形狀為一角錐體，該角錐體的頂點端具有一開口部，該開口部供容置一光源模組。 A reflective element structure includes: a third body having a third outer wall, a first joint portion and a plurality of first grooves, the first grooves being formed at the third outer wall and the first joint portion Each of the first grooves has a third inner wall that uniformly forms a fourth reflective layer; and a fourth body having a fourth outer wall and a second joint a plurality of second grooves formed between the fourth outer wall and the second joint, each of the second grooves having a fourth inner wall, the fourth inner wall being uniformly formed a fifth reflective layer; wherein the first bonding portion is combined with the second bonding portion, and each of the first grooves and each of the second grooves constitute a complete third groove, and the third The recess has a fourth reflective layer and a fifth reflective layer combined into a sixth reflective layer, wherein the third recess has a shape of a pyramid, and the apex end of the pyramid has an opening for the opening A light source module is accommodated. 如申請專利範圍第5項所述之反射元件結構，其中每一該等第一凹槽的形狀與每一該等第二凹槽的形狀為對稱與非對稱之其一者。 The reflective element structure of claim 5, wherein the shape of each of the first grooves and the shape of each of the second grooves are one of symmetrical and asymmetrical. 如申請專利範圍第5項所述之反射元件結構，其中該第三凹槽的形狀為一圓錐體，該圓錐體的頂點端具有一開口部，該開口部供容置一光源模組。 The reflective element structure of claim 5, wherein the shape of the third groove is a cone, and the apex end of the cone has an opening for receiving a light source module.