TWM559981U - Perspective vehicle lamp - Google Patents
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- TWM559981U TWM559981U TW106215223U TW106215223U TWM559981U TW M559981 U TWM559981 U TW M559981U TW 106215223 U TW106215223 U TW 106215223U TW 106215223 U TW106215223 U TW 106215223U TW M559981 U TWM559981 U TW M559981U
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Abstract
一種可透視車燈,適用於使一景物形成一個像,並包含一透鏡,及一第一發光件。該透鏡包括一位於一光軸上的本體部,以及一連接該本體部且不位於該光軸上的第一入光部。該本體部具有一位於該光軸上的反射面、一連接於該反射面周緣的透視面,以及一沿該光軸與該反射面間隔排列的出光面,該出光面與該透視面為前後間隔相對。該第一入光部具有一個面向該第一發光件的第一入光面。藉由上述創新結構,自該出光面觀察該透鏡時,就能看到該透視面後方景物所形成的像,產生獨特、炫麗的視覺效果,可提升車燈的特殊性與產品價值。A fluoroscopic vehicle lamp suitable for forming a scene into an image and including a lens and a first illuminating member. The lens includes a body portion on an optical axis, and a first light incident portion that is coupled to the body portion and is not located on the optical axis. The body portion has a reflecting surface on the optical axis, a see-through surface connected to the periphery of the reflecting surface, and a light emitting surface spaced along the optical axis and the reflecting surface. The light emitting surface and the see-through surface are front and rear The interval is relative. The first light incident portion has a first light incident surface facing the first light emitting member. With the above innovative structure, when the lens is viewed from the light-emitting surface, the image formed by the object behind the see-through surface can be seen, and a unique and dazzling visual effect is produced, which can enhance the particularity and product value of the lamp.
Description
本新型是有關於一種車燈,特別是指一種可作為方向燈、煞車燈等指示燈的可透視車燈。The present invention relates to a type of headlight, and more particularly to a see-through headlight that can be used as an indicator light for a direction light, a brake light, and the like.
已知的車燈包含一發光件、一用於傳導該發光件光線的透鏡,以及一外殼。該透鏡具有一供光線進入的入光面、一供光線射出的出光面、一與該出光面間隔相對的背面,以及一用於將入射而來的光線朝該出光面反射的反射面。該外殼供該透鏡安裝於其中,並將該透鏡的該背面完全遮蔽住,僅使該車燈的出光面露出。已知的車燈通常用於照明、方向指示、煞車警示等功能,但因為在車燈上無其他特殊結構,功能較為單純,外形也較單調。而本案申請人為提升車燈的特殊性與產品價值,認為有必要針對車燈結構再進行改良。Known headlights include a light emitting member, a lens for conducting light from the light emitting member, and a housing. The lens has a light incident surface for light to enter, a light exit surface for emitting light, a back surface spaced apart from the light exit surface, and a reflective surface for reflecting incident light toward the light exit surface. The housing is provided with the lens mounted therein, and the back surface of the lens is completely shielded to expose only the light exiting surface of the lamp. Known headlights are usually used for lighting, direction indication, brake warning, etc., but because there is no other special structure on the lamp, the function is relatively simple and the shape is monotonous. In order to improve the speciality and product value of the lamp, the applicant of this case considered that it is necessary to further improve the structure of the lamp.
因此,本新型之目的,即在提供一種能克服先前技術的至少一個缺點的可透視車燈。Accordingly, it is an object of the present invention to provide a see-through headlight that overcomes at least one of the disadvantages of the prior art.
於是,本新型可透視車燈,適用於使一景物形成一個像,並包含至少一個透鏡,及一個第一發光件。Thus, the novel fluoroscopic vehicle lamp is adapted to form a scene into an image and includes at least one lens and a first illuminating member.
該至少一個透鏡包括一個位於一光軸上的本體部,以及一個連接於該本體部一側且不位於該光軸上的第一入光部,該本體部具有一個位於該光軸上的反射面、一個連接該反射面周緣且適用於朝向該景物的透視面,以及一個沿該光軸而與該反射面間隔排列的出光面,該出光面與該透視面為前後間隔相對,且由該出光面能觀察到該透視面後方的該景物形成的該像,該第一入光部具有一個第一入光面。The at least one lens includes a body portion on an optical axis, and a first light incident portion coupled to one side of the body portion and not located on the optical axis, the body portion having a reflection on the optical axis a surface, a see-through surface connecting the periphery of the reflective surface and adapted to face the scene, and a light-emitting surface spaced along the optical axis and spaced apart from the reflective surface, the light-emitting surface being opposite to the front-facing space, and The light-emitting surface can observe the image formed by the scene behind the see-through surface, and the first light-incident portion has a first light-incident surface.
該第一發光件朝向該第一入光面,該第一發光件的光線通過該第一入光面,並朝該光軸行進且射向該反射面,光線再被該反射面朝該出光面反射而射出。The first illuminating member faces the first light incident surface, and the light of the first illuminating member passes through the first light incident surface, and travels toward the optical axis and is directed toward the reflective surface, and the light is again reflected by the reflective surface The surface is reflected and shot.
本新型之功效在於:藉由該反射面周圍設置該透視面,且該透視面與該出光面為前後對應設置,因此自該出光面觀察該透鏡時,就能看到該透視面後方景物所形成的像,產生獨特、炫麗的視覺效果,可提升車燈的特殊性與產品價值。而且該透視面搭配該反射面、入光面、出光面等元件的排列佈局,使出光區域與透視區域整合為一,而不須設置額外的區域來作為透視區域,如此可避免車燈體積增加與成本提高。The effect of the present invention is that the see-through surface is disposed around the reflective surface, and the see-through surface and the light-emitting surface are disposed correspondingly to each other. Therefore, when the lens is viewed from the light-emitting surface, the rear view of the perspective surface can be seen. The formed image produces a unique and dazzling visual effect that enhances the particularity and product value of the headlights. Moreover, the see-through surface is arranged with the arrangement of the reflecting surface, the light-incident surface, the light-emitting surface and the like, so that the light-emitting area and the see-through area are integrated into one without setting an extra area as a see-through area, thereby avoiding an increase in the volume of the lamp. With increased costs.
參閱圖1、2,本新型可透視車燈之一實施例,可作為方向燈、煞車燈等等,並適用於使一位於後方的景物形成一個像。該可透視車燈包含二個沿一前後延伸之光軸L排列的透鏡1、一個第一發光件2、一個第二發光件3,以及一個外殼4。Referring to Figures 1 and 2, an embodiment of the novel reversible headlight can be used as a direction light, a brake light, etc., and is adapted to form an image of a scene at the rear. The fluoroscopic vehicle lamp comprises two lenses 1 arranged along an optical axis L extending forward and backward, a first illuminating member 2, a second illuminating member 3, and a casing 4.
參閱圖2~4,每一透鏡1包括一個位於該光軸L上的本體部11,以及分別自該本體部11的兩相反側延伸而出的一個第一入光部12與一個第二入光部13。Referring to Figures 2 to 4, each lens 1 includes a body portion 11 on the optical axis L, and a first light incident portion 12 and a second input extending from opposite sides of the body portion 11, respectively. Light section 13.
該本體部11具有一位於該光軸L上的反射面111、一個連接於該反射面111周緣的透視面112,以及一個沿該光軸L排列於該反射面111與該透視面112一側的出光面113。其中,該反射面111朝該出光面113弧突,並具有數個朝該出光面113弧突且能將光線均勻化的反射面部114。該透視面112為一平面,以方便與另一透鏡1的該透視面112對接結合。該出光面113與該透視面112為前後間隔相對,由該出光面113能觀察到該景物形成的該像。在本實施例中,該等透鏡1沿該光軸L前後設置,並分別朝前與朝後發光。該等透鏡1是以該等透視面112互相靠近並抵接結合,而該等出光面113互相遠離並面向相反的方向,位於前側的該透鏡1的出光面113面向前,位於後側的該透鏡1的出光面113面向後。The body portion 11 has a reflecting surface 111 on the optical axis L, a see-through surface 112 connected to the periphery of the reflecting surface 111, and a side along the optical axis L arranged on the reflecting surface 111 and the see-through surface 112. The light surface 113. The reflecting surface 111 is curved toward the light emitting surface 113, and has a plurality of reflecting surfaces 114 that are arcuate toward the light emitting surface 113 and can homogenize the light. The see-through surface 112 is a flat surface for facilitating mating engagement with the see-through surface 112 of the other lens 1. The light-emitting surface 113 and the see-through surface 112 are opposed to each other in front and rear, and the image formed by the scene can be observed by the light-emitting surface 113. In the present embodiment, the lenses 1 are disposed one behind the other along the optical axis L, and are respectively illuminated forward and backward. The lenses 1 are adjacent to each other and abutted with the see-through surfaces 112, and the light-emitting surfaces 113 are away from each other and face in opposite directions. The light-emitting surface 113 of the lens 1 on the front side faces forward, and the rear side is located on the rear side. The light exit surface 113 of the lens 1 faces rearward.
該第一入光部12具有一個位於該透鏡1側緣的第一入光面121,以及一個連接於該透視面112與該第一入光面121間的第一連接面122。該第二入光部13具有一個位於該透鏡1側緣且與該第一入光面121間隔相對的第二入光面131,以及一個連接於該透視面112與該第二入光面131間的第二連接面132,該第二連接面132、該透視面112與該第一連接面122配合形成一連續的平面,以方便與另一透鏡1的相同部位之平面抵接結合,使該兩透鏡1對接組裝時能以平面對平面的方式貼合。該第二入光部13與該第一入光部12皆不位於該光軸L上,且兩者以該光軸L呈對稱設置,但實施時不以兩者對稱為必要。而且本新型也不以設置該兩入光部12、13為必要,實施時也可以僅設置一個入光部,例如僅設置該第一入光部12。The first light incident portion 12 has a first light incident surface 121 located at a side edge of the lens 1 and a first connecting surface 122 connected between the see-through surface 112 and the first light incident surface 121. The second light incident portion 13 has a second light incident surface 131 located at a side edge of the lens 1 and spaced apart from the first light incident surface 121, and a second light incident surface 112 and a second light incident surface 131. a second connecting surface 132, the second connecting surface 132, the see-through surface 112 and the first connecting surface 122 cooperate to form a continuous plane to facilitate abutting with the plane of the same portion of the other lens 1 When the two lenses 1 are docked and assembled, they can be attached in a plane to plane manner. The second light incident portion 13 and the first light incident portion 12 are not located on the optical axis L, and both are symmetrically disposed on the optical axis L. However, it is not necessary to implement the pair. Further, the present invention is not required to provide the two light-injecting portions 12 and 13, and it is also possible to provide only one light-injecting portion during the implementation, for example, only the first light-injecting portion 12 is provided.
該第一發光件2位於該第一入光部12一側,並朝向該第一入光面121。該第二發光件3位於該第二入光部13一側,並朝向該第二入光面131。該第二發光件3與該第一發光件2例如發光二極體(LED)。The first illuminating member 2 is located on the side of the first light incident portion 12 and faces the first light incident surface 121. The second illuminating member 3 is located on the side of the second light incident portion 13 and faces the second light incident surface 131. The second illuminating member 3 and the first illuminating member 2 are, for example, light emitting diodes (LEDs).
參閱圖2、3、5,該外殼4用於將該等透鏡1固定結合,以將該等透鏡1安裝在圖未示的一車體上。該外殼包括一個呈環形並框繞在該等透鏡1相接處的周緣部位的框繞部41,該框繞部41包覆每一透鏡1的第一入光部12、第二入光部13、該第一發光件2,以及該第二發光件3,使該等入光部12、13與發光件2、3不外露。因此本實施例之車燈無論由前觀察或由後觀察,都只會看到該等透鏡1的該本體部11,該等透鏡1的其他部位不會被觀察到,呈現簡單俐落外觀。Referring to Figures 2, 3 and 5, the housing 4 is used to securely couple the lenses 1 to mount the lenses 1 on a body not shown. The outer casing includes a frame portion 41 which is annular and is framed around a peripheral portion of the lens 1 at the periphery thereof. The frame winding portion 41 covers the first light incident portion 12 and the second light incident portion of each lens 1. 13. The first illuminating member 2 and the second illuminating member 3 are such that the light incident portions 12 and 13 and the illuminating members 2 and 3 are not exposed. Therefore, the lamp of the present embodiment can only see the body portion 11 of the lens 1 regardless of whether it is viewed from the front or from the rear, and other portions of the lens 1 are not observed, exhibiting a simple fallen appearance.
本新型使用時,該第一發光件2的光線通過每一透鏡1的該第一入光面121,並朝該光軸L行進而射向該反射面111,光線再被該反射面111朝該出光面113反射,最後通過該出光面113射出。同樣地,該第二發光件3的光線通過每一透鏡1的該第二入光面131,並朝該光軸L行進而射向該反射面111,光線再被該反射面111朝該出光面113反射,並通過該出光面113射出。其中,由於該反射面111的結構設計搭配入射光的角度,可將大部分入射而來的光線以全反射的方式往該出光面113反射,此為一種應用全內反射(Total Internal Reflection, 簡稱TIR)光學原理的設計,使光線有效率地被利用,並產生符合法規要求的光形與亮度。而該反射面111上各個弧突的反射面部114形成擴散結構,有助於將光線擴散、均勻化,形成均勻、投射範圍廣的光線。When the present invention is used, the light of the first illuminating member 2 passes through the first light incident surface 121 of each lens 1 and travels toward the optical axis L to be directed toward the reflective surface 111, and the light is again directed toward the reflective surface 111. The light-emitting surface 113 reflects and finally exits through the light-emitting surface 113. Similarly, the light of the second illuminating member 3 passes through the second light incident surface 131 of each lens 1 and travels toward the optical axis L to be directed toward the reflective surface 111. The light is again directed toward the light by the reflective surface 111. The surface 113 is reflected and emitted through the light exit surface 113. Wherein, because the structure of the reflecting surface 111 is designed to match the angle of the incident light, most of the incident light can be reflected to the light emitting surface 113 in a total reflection manner, which is an application of Total Internal Reflection (referred to as Total Internal Reflection). TIR) The optical principle is designed to make efficient use of light and produce light patterns and brightness that meet regulatory requirements. On the reflective surface 111, the reflective surface portion 114 of each of the arcs forms a diffusing structure, which helps to diffuse and homogenize the light to form a uniform light having a wide projection range.
在本實施例中,藉由該等透鏡1一前一後設置,可分別向前與向後投射光線,因此可在行車的前、後方向上都產生指示效果,此種將前指示燈與後指示燈整合為一個模組的結構,相當方便實用,而且該等透鏡1可以共用單一的該第一發光件2,以及單一的該第二發光件3,具有較低的成本。所述前、後指示燈例如前方向燈與後方向燈,或是前煞車燈與後煞車燈等等。本新型可應用於例如但不限於重型機車。In this embodiment, by arranging the lenses 1 one after the other, the light can be projected forward and backward respectively, so that an indication effect can be generated in both the front and rear directions of the driving, such a front indicator and a rear indicator The lamp is integrated into a module structure, which is quite convenient and practical, and the lenses 1 can share a single first light-emitting member 2 and a single second light-emitting member 3, which has a low cost. The front and rear indicator lights are, for example, front and rear direction lights, or front and rear lights, and the like. The present invention is applicable to, for example, but not limited to, heavy locomotives.
此外,本新型車燈還具有透視效果,在車燈未點亮使用時,觀察前側的該透鏡1的該出光面113,會看到車燈後方的景物往前投射所形成的影像,所述景物例如車燈後方的周圍環境,而在出光面113能觀察到透視的影像,使車燈產生炫麗、特殊的視覺效果。相同地,自車燈後方觀察後方的該出光面113,會看到車燈前方周圍環境所形成的影像。而且透視影像所在的區域,與車燈發光時出光的範圍為同一區域,亦即,本新型是將透視區域與出光區域整合為一。值得一提的是,本實施例的每一透鏡1為一個凸透鏡,因此形成的像為倒立縮小虛像,而且形成倒立虛像相對於形成正立實像而言,可以將透鏡1設計得較薄,因此本新型應用凸透鏡形成倒立虛像原理,可縮小透鏡1厚度。In addition, the new type of vehicle lamp also has a see-through effect. When the vehicle lamp is not illuminated, the light-emitting surface 113 of the lens 1 on the front side is observed, and the image formed by the scene behind the lamp is projected forward. The scenery such as the surrounding environment behind the lamp, and the perspective image can be observed on the light-emitting surface 113, so that the lamp produces a dazzling and special visual effect. Similarly, the light-emitting surface 113 viewed from the rear of the vehicle lamp will see an image formed by the environment in front of the lamp. Moreover, the area in which the fluoroscopic image is located is the same as the range in which the light is emitted when the light is emitted, that is, the present invention integrates the see-through area and the light-emitting area into one. It should be noted that each lens 1 of the present embodiment is a convex lens, so that the formed image is an inverted vertical virtual image, and the inverted virtual image is formed to be thinner with respect to the formation of the erect real image. The novel application of the convex lens forms the principle of inverted virtual image, which can reduce the thickness of the lens 1.
參閱圖6,本新型實施時,透鏡1的數量不以兩個為必要,該可透視車燈也可以如圖6包含一個透鏡1,包含單一透鏡1的車燈可應用於前指示燈或後指示燈,此時該外殼4(圖1)可搭配圖6的形態作改良。設置單一個透鏡1時,同樣可由該出光面113觀察到位於該透視面112後方的景物所形成的縮小倒立虛像。Referring to FIG. 6, in the implementation of the present invention, the number of lenses 1 is not necessary. The fluoroscopic lamp can also include a lens 1 as shown in FIG. 6. The lamp including the single lens 1 can be applied to the front indicator light or the rear. The indicator light, at this time, the outer casing 4 (Fig. 1) can be modified in combination with the form of Fig. 6. When a single lens 1 is provided, the reduced inverted virtual image formed by the scene located behind the see-through surface 112 can also be observed by the light-emitting surface 113.
綜上所述,藉由該反射面111周圍設置該透視面112,且該透視面112與該出光面113為前後對應設置,因此自該出光面113觀察該透鏡1時,就能看到該透視面112後方景物所形成的像,產生獨特、炫麗的視覺效果,可提升車燈的特殊性與產品價值,從而提升產品競爭力。而且該透視面112搭配該反射面111、該等入光面121、131、出光面113等元件的排列佈局,使出光區域與透視區域整合為一,而不須設置額外的區域來作為透視區域,如此可避免車燈體積增加與成本提高。In summary, the see-through surface 112 is disposed around the reflective surface 111, and the see-through surface 112 and the light-emitting surface 113 are disposed in front and rear. Therefore, when the lens 1 is viewed from the light-emitting surface 113, the surface can be seen. The image formed by the rear view of the see-through surface 112 produces a unique and dazzling visual effect, which can enhance the speciality and product value of the lamp, thereby enhancing the competitiveness of the product. Moreover, the see-through surface 112 is matched with the arrangement of the reflective surface 111, the light-incident surfaces 121, 131, and the light-emitting surface 113, so that the light-emitting area and the see-through area are integrated into one without setting an additional area as a see-through area. This can avoid the increase in the volume of the lamp and the increase in cost.
惟以上所述者,僅為本新型之實施例而已,當不能以此限定本新型實施之範圍,凡是依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本新型專利涵蓋之範圍內。However, the above is only the embodiment of the present invention, and when it is not possible to limit the scope of the present invention, all the simple equivalent changes and modifications according to the scope of the patent application and the contents of the patent specification are still This new patent covers the scope.
1‧‧‧透鏡
11‧‧‧本體部
111‧‧‧反射面
112‧‧‧透視面
113‧‧‧出光面
114‧‧‧反射面部
12‧‧‧第一入光部
121‧‧‧第一入光面
122‧‧‧第一連接面
13‧‧‧第二入光部
131‧‧‧第二入光面
132‧‧‧第二連接面
2‧‧‧第一發光件
3‧‧‧第二發光件
4‧‧‧外殼
41‧‧‧框繞部
L‧‧‧光軸1‧‧‧ lens
11‧‧‧ Body Department
111‧‧‧reflecting surface
112‧‧ ‧ perspective
113‧‧‧Glossy
114‧‧‧Reflecting the face
12‧‧‧ First Light Department
121‧‧‧First entrance
122‧‧‧First connection surface
13‧‧‧Second Light Department
131‧‧‧Second entrance
132‧‧‧second connection surface
2‧‧‧First light-emitting parts
3‧‧‧second illuminating parts
4‧‧‧ Shell
41‧‧‧ frame winding
L‧‧‧ optical axis
本新型之其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中: 圖1是本新型可透視車燈的一實施例的一立體圖; 圖2是該實施例的部分元件的一個俯視剖視圖; 圖3是該實施例的一透鏡的一前視立體圖; 圖4是該實施例的另一透鏡的一後視立體圖; 圖5是一前視示意圖,說明由該實施例的一出光面可觀察到位於該實施例後方的景物所形成的倒立的像;及 圖6是一俯視剖視圖,說明該實施例的一個變化態樣包含一個所述透鏡、一個第一發光件與一個第二發光件。Other features and advantages of the present invention will be apparent from the embodiments of the present invention, wherein: Figure 1 is a perspective view of an embodiment of the present invention; FIG. 2 is a partial view of the embodiment Figure 3 is a front perspective view of a lens of the embodiment; Figure 4 is a rear perspective view of another lens of the embodiment; Figure 5 is a front elevational view of the front view of the embodiment An inverted image formed by the scene behind the embodiment can be observed on a light exiting surface; and FIG. 6 is a top cross-sectional view showing a variation of the embodiment including a lens, a first light emitting member and a The second illuminating member.
Claims (10)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106215223U TWM559981U (en) | 2017-10-17 | 2017-10-17 | Perspective vehicle lamp |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106215223U TWM559981U (en) | 2017-10-17 | 2017-10-17 | Perspective vehicle lamp |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| TWM559981U true TWM559981U (en) | 2018-05-11 |
Family
ID=62949975
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW106215223U TWM559981U (en) | 2017-10-17 | 2017-10-17 | Perspective vehicle lamp |
Country Status (1)
| Country | Link |
|---|---|
| TW (1) | TWM559981U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI656367B (en) * | 2018-12-12 | 2019-04-11 | 大陸商光寶電子〈廣州〉有限公司 | Optical lens and light source module |
-
2017
- 2017-10-17 TW TW106215223U patent/TWM559981U/en unknown
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI656367B (en) * | 2018-12-12 | 2019-04-11 | 大陸商光寶電子〈廣州〉有限公司 | Optical lens and light source module |
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