TWM485162U - Vehicle lamp module - Google Patents

Vehicle lamp module Download PDF

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Publication number
TWM485162U
TWM485162U TW103206812U TW103206812U TWM485162U TW M485162 U TWM485162 U TW M485162U TW 103206812 U TW103206812 U TW 103206812U TW 103206812 U TW103206812 U TW 103206812U TW M485162 U TWM485162 U TW M485162U
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Taiwan
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focus
light
emitting element
light emitting
collecting
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TW103206812U
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Chinese (zh)
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Zheng Wang
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Zheng Wang
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Description

車燈模組Car light module

本創作係有關於一種車燈模組,尤指一種具有多個聚光弧面的車燈模組。The present invention relates to a lamp module, and more particularly to a lamp module having a plurality of concentrated arc surfaces.

習知的車用前照燈之發光模組,可分為鹵鎢燈及HID燈(氣體放電式燈,High Intensity Discharge Lamp),其中鹵鎢燈的電弧長為5.6毫米,HID燈的電弧長為4.3毫米。為配合傳統的照明燈源,其集光系統大多採用PES(Projector Ellipsoid System),其燈杯具有單一光軸及單一發光模組的特點。目前設置於車用前照燈的發光二極體模組為了要模仿鹵鎢燈絲及HID燈的電弧長度及大小,都是採用連續式的連晶式發光二極體封裝態樣,然因在單一橢球燈杯僅具有單一焦點的情況下,只能夠使用單一發光模組,因此目前大多採用1毫米*1毫米大小的發光二極體作為基礎進行封裝。而連續式的連晶式發光二極體封裝態樣所指的是通過共晶製程或其他製程將發光二極體封裝於矽基板上,因此使得發光二極體的晶粒彼此之間的距離可以為0.1毫米,甚至可以小到0.05毫米。由於發光二極體彼此之間的間距較小,因此可以將其視為連續式的發光體。然而,此種連續式的連晶式發光二極體封裝態樣,在相同亮度下,其價格為通過一般製程所製造的照明用發光二極體的10倍以上。The light-emitting module of the conventional vehicle headlight can be divided into a tungsten halogen lamp and a HID lamp (High Intensity Discharge Lamp), wherein the tungsten halogen lamp has an arc length of 5.6 mm, and the arc of the HID lamp is long. It is 4.3 mm. In order to match the traditional lighting source, most of its concentrating systems use PES (Projector Ellipsoid System), which has the characteristics of a single optical axis and a single lighting module. In order to simulate the arc length and size of the tungsten halogen filament and the HID lamp, the light-emitting diode module currently installed in the vehicle headlamp adopts a continuous continuous-crystal light-emitting diode package, but In the case where a single ellipsoidal light cup has only a single focus, only a single light-emitting module can be used. Therefore, most of the current light-emitting diodes of 1 mm * 1 mm size are used as a basis for packaging. The continuous continuous LED package package refers to the LED package being encapsulated on the germanium substrate by a eutectic process or other processes, thereby making the distance between the crystal grains of the light emitting diodes from each other. It can be 0.1 mm or even as small as 0.05 mm. Since the distance between the light-emitting diodes is small, it can be regarded as a continuous light-emitting body. However, such a continuous crystal-connected light-emitting diode package has a price of 10 times or more at the same brightness as that of the illumination light-emitting diode manufactured by a general process.

同時,習知的車燈模組因其燈杯的設計,當裝載一般製程所製造的照明用發光二極體時,其所發出的光源將會無法符合聯合國歐洲經濟委員會的規範(Regulations of United Nations Economic Commission for Europe,簡稱ECE regulations)中的ECE R112等相關法規以及美國自動機工程協會對於車燈標準之SAE J1383之法規。舉例來說,一般照明用發光二極體其封裝體較大,並無法進行連晶式的封裝,其發光二極體係封裝於金屬基印刷電路板(Metal Core Printed Circuit Board,MCPCB)上。一般而言發光二極體的最小封裝邊距為0.15毫米至0.2毫米之間,通過錫焊製程發光二極體的最小可焊間距為0.1毫米至0.2毫米之間,因此若將尺寸大小為1毫米*1毫米的一般照明用發光二極體以分散排列,使發光二極體彼此之間的距離為0.5毫米而形成一非連續式發光體的情況下,此種方式會因為其非連續式的態樣,仍無法符合法規要求。At the same time, the conventional lamp module is designed to be light-emitting diodes made by the general process, and the light source emitted by the conventional lamp module will not meet the requirements of the UN Economic Commission for Europe (Regulations of United). Nations Economic Commission for Europe (ECE regulations) and other regulations such as ECE R112 and SAE J1383 of the American Automata Engineering Association for headlight standards. For example, a general-purpose light-emitting diode has a large package and cannot be packaged in a continuous crystal form, and the light-emitting diode system is packaged on a metal-based printed circuit board (MCPCB). Generally speaking, the minimum package margin of the light-emitting diode is between 0.15 mm and 0.2 mm, and the minimum solderable pitch of the light-emitting diode through the soldering process is between 0.1 mm and 0.2 mm, so if the size is 1 In the case where the light-emitting diodes of millimeters*1 mm are arranged in a distributed manner so that the distance between the light-emitting diodes is 0.5 mm to form a discontinuous illuminant, this method is because of its discontinuity. The situation still does not meet the regulatory requirements.

鑒於以上之問題,本創作提供一種具有多個聚光弧面的車燈模組,並通過其燈杯與發光二極體之間配置關係的設計,以達到能適應一般製程所製造的照明用發光二極體,使可以避免前述先前技術所產生的問題且降低製造成本,並同時符合聯合國歐洲經濟委員會的規範(Regulations of United Nations Economic Commission for Europe,簡稱ECE regulations)中的ECE R112等相關法規以及美國自動機工程協會對於車燈標準之SAE J1383之法規。In view of the above problems, the present invention provides a vehicle lamp module having a plurality of concentrating curved surfaces, and through the design relationship between the lamp cup and the light-emitting diode, to achieve illumination suitable for general manufacturing processes. The light-emitting diodes can avoid the problems caused by the aforementioned prior art and reduce the manufacturing cost, and at the same time comply with the relevant regulations of the ECE R112 in the Regulations of the United Nations Economic Commission for Europe (ECE regulations). And the regulations of the American Automata Engineering Association for SAE J1383 for the standard of the lights.

為了達到上述之目的,本創作之其中一實施例係提供一種車燈模組,其包括一燈杯結構、一發光結構以及一透鏡結構。所述燈杯結構具有一第一聚光弧面、一第二聚光弧面、一第三聚光弧面及一第四聚光弧面,所述第一聚光弧面具有一第一焦點及一第二焦點,所述第二聚光弧面具有一第三焦點及一第四焦點,所述第三聚光弧面具有一第五焦點及一第六焦點,所述第四聚光弧面具有一第七焦點及一第八焦點,其中所述第一焦點及所述第二焦點位於一第一軸線上,所述第三焦點及所述第四焦點位於一第二軸線上,所述第五焦點及所述第六焦點位於一第三軸線上,所述 第七焦點及所述第八焦點位於一第四軸線上。所述發光結構包括一第一發光元件、一第二發光元件、一第三發光元件及一第四發光元件,其中所述第一發光元件對應於所述第一焦點,所述第二發光元件對應於所述第三焦點,所述第三發光元件對應於所述第五焦點,所述第四發光元件對應於所述第七焦點。所述透鏡結構具有一透鏡焦點、一主光軸及一基準線,其中所述透鏡焦點位於所述主光軸與所述基準線交點上,所述基準線與所述透鏡結構相互平行。其中,所述第二焦點、所述第四焦點、所述第六焦點及所述第八焦點都位於所述基準線上。其中,所述第一發光元件所產生的所述第一光源投射在所述第一聚光弧面上,以形成對應於所述第二焦點的第一反射光源,所述第二發光元件所產生的所述第二光源投射在所述第二聚光弧面上,以形成對應於所述第四焦點的第二反射光源,所述第三發光元件所產生的所述第三光源投射在所述第三聚光弧面上,以形成對應於所述第六焦點的第三反射光源,所述第四發光元件所產生的所述第四光源投射在所述第四聚光弧面上,以形成對應於所述第八焦點的第四反射光源。In order to achieve the above object, an embodiment of the present invention provides a lamp module including a lamp cup structure, a light emitting structure, and a lens structure. The lamp cup structure has a first collecting arc surface, a second collecting arc surface, a third collecting arc surface and a fourth collecting arc surface, and the first collecting arc mask has a first a focus and a second focus, the second concentrating arc mask has a third focus and a fourth focus, the third concentrating arc mask has a fifth focus and a sixth focus, the fourth gather The light arc mask has a seventh focus and an eighth focus, wherein the first focus and the second focus are on a first axis, and the third focus and the fourth focus are on a second axis The fifth focus and the sixth focus are on a third axis, The seventh focus and the eighth focus are on a fourth axis. The light emitting structure includes a first light emitting element, a second light emitting element, a third light emitting element, and a fourth light emitting element, wherein the first light emitting element corresponds to the first focus, and the second light emitting element Corresponding to the third focus, the third light emitting element corresponds to the fifth focus, and the fourth light emitting element corresponds to the seventh focus. The lens structure has a lens focus, a main optical axis and a reference line, wherein the lens focus is located at an intersection of the main optical axis and the reference line, and the reference line and the lens structure are parallel to each other. The second focus, the fourth focus, the sixth focus, and the eighth focus are all located on the reference line. The first light source generated by the first light emitting element is projected on the first light collecting curved surface to form a first reflective light source corresponding to the second focus, and the second light emitting element is The generated second light source is projected on the second collecting arc surface to form a second reflecting light source corresponding to the fourth focus, and the third light source generated by the third light emitting element is projected on Forming, on a third collecting arc surface, a third reflecting light source corresponding to the sixth focus, wherein the fourth light source generated by the fourth light emitting element is projected on the fourth collecting curved surface Forming a fourth reflected light source corresponding to the eighth focus.

本創作之其中另一實施例係提供一種車燈模組,其包括一燈杯結構、一發光結構以及一透鏡結構。所述燈杯結構具有一第一聚光弧面、一第二聚光弧面、一第三聚光弧面、一第四聚光弧面、一第一反射板及一第二反射板,所述第一反射板設置於所述第一聚光弧面與所述第二聚光弧面之間,以連接所述第一聚光弧面與所述第二聚光弧面,所述第二反射板設置於所述第三聚光弧面與所述第四聚光弧面之間,以連接所述第三聚光弧面與所述第四聚光弧面;其中所述第一聚光弧面具有一第一焦點及一第二焦點,所述第二聚光弧面具有一第三焦點及一第四焦點,所述第三聚光弧面具有一第五焦點及一第六焦點,所述第四聚光弧面具有一第七焦點及一第八焦點,所述第一焦點及所述第二焦點位於一第一軸線上,所述第三焦點及所述第四焦點位於一第二軸線上,所述 第五焦點及所述第六焦點位於一第三軸線上,所述第七焦點及所述第八焦點位於一第四軸線上。所述發光結構包括一第一發光元件、一第二發光元件、一第三發光元件及一第四發光元件,其中所述第一發光元件對應於所述第一焦點,所述第二發光元件對應於所述第三焦點,所述第三發光元件對應於所述第五焦點,所述第四發光元件對應於所述第七焦點。所述透鏡結構具有一透鏡焦點、一主光軸及一基準線,其中所述透鏡焦點位於所述主光軸與所述基準線交點上,所述基準線與所述透鏡結構相互平行。其中,所述第二焦點、所述第四焦點、所述第六焦點及所述第八焦點都位於所述基準線上。其中,所述第一發光元件所產生的所述第一光源投射在所述第一聚光弧面上,以形成對應於所述第二焦點的第一反射光源,所述第二發光元件所產生的所述第二光源投射在所述第二聚光弧面上,以形成對應於所述第四焦點的第二反射光源,所述第三發光元件所產生的所述第三光源投射在所述第三聚光弧面上,以形成對應於所述第六焦點的第三反射光源,所述第四發光元件所產生的所述第四光源投射在所述第四聚光弧面上,以形成對應於所述第八焦點的第四反射光源。Another embodiment of the present invention provides a vehicle light module including a light cup structure, a light emitting structure, and a lens structure. The lamp cup structure has a first collecting arc surface, a second collecting arc surface, a third collecting arc surface, a fourth collecting arc surface, a first reflecting plate and a second reflecting plate. The first reflecting plate is disposed between the first collecting curved surface and the second collecting curved surface to connect the first collecting curved surface and the second collecting curved surface, a second reflecting plate is disposed between the third collecting curved surface and the fourth collecting curved surface to connect the third collecting curved surface and the fourth collecting curved surface; wherein the a concentrating arc mask has a first focus and a second focus, the second concentrating arc mask has a third focus and a fourth focus, and the third concentrating arc mask has a fifth focus and a a sixth focus, the fourth focus arc mask has a seventh focus and an eighth focus, the first focus and the second focus are on a first axis, the third focus and the third The four focus is on a second axis, The fifth focus and the sixth focus are on a third axis, and the seventh focus and the eighth focus are on a fourth axis. The light emitting structure includes a first light emitting element, a second light emitting element, a third light emitting element, and a fourth light emitting element, wherein the first light emitting element corresponds to the first focus, and the second light emitting element Corresponding to the third focus, the third light emitting element corresponds to the fifth focus, and the fourth light emitting element corresponds to the seventh focus. The lens structure has a lens focus, a main optical axis and a reference line, wherein the lens focus is located at an intersection of the main optical axis and the reference line, and the reference line and the lens structure are parallel to each other. The second focus, the fourth focus, the sixth focus, and the eighth focus are all located on the reference line. The first light source generated by the first light emitting element is projected on the first light collecting curved surface to form a first reflective light source corresponding to the second focus, and the second light emitting element is The generated second light source is projected on the second collecting arc surface to form a second reflecting light source corresponding to the fourth focus, and the third light source generated by the third light emitting element is projected on Forming, on a third collecting arc surface, a third reflecting light source corresponding to the sixth focus, wherein the fourth light source generated by the fourth light emitting element is projected on the fourth collecting curved surface Forming a fourth reflected light source corresponding to the eighth focus.

本創作之其中另一實施例係提供一種車燈模組,其包括一燈杯結構、一發光結構以及一透鏡結構。所述燈杯結構具有一第一聚光弧面、一第二聚光弧面及一第三聚光弧面,所述第一聚光弧面具有一第一焦點及一第二焦點,所述第二聚光弧面具有一第三焦點及一第四焦點,所述第三聚光弧面具有一第五焦點及一第六焦點,其中所述第一焦點及所述第二焦點位於一第一軸線上,所述第三焦點及所述第四焦點位於一第二軸線上,所述第五焦點及所述第六焦點位於一第三軸線上。所述發光結構包括一第一發光元件、一第二發光元件及一第三發光元件,其中所述第一發光元件對應於所述第一焦點,所述第二發光元件對應於所述第三焦點,所述第三發光元件對應於所述第五焦點。所述透鏡結構具有 一透鏡焦點、一主光軸及一基準線,其中所述透鏡焦點位於所述主光軸與所述基準線交點上,所述基準線與所述透鏡結構相互平行。其中,所述第二焦點、所述第四焦點及所述第六焦點都位於所述基準線上。其中,所述第一發光元件所產生的所述第一光源投射在所述第一聚光弧面上,以形成對應於所述第二焦點的第一反射光源,所述第二發光元件所產生的所述第二光源投射在所述第二聚光弧面上,以形成對應於所述第四焦點的第二反射光源,所述第三發光元件所產生的所述第三光源投射在所述第三聚光弧面上,以形成對應於所述第六焦點的第三反射光源。Another embodiment of the present invention provides a vehicle light module including a light cup structure, a light emitting structure, and a lens structure. The lamp cup structure has a first concentrating arc surface, a second concentrating arc surface and a third concentrating arc surface, and the first concentrating arc mask has a first focus and a second focus. The second concentrating arc mask has a third focus and a fourth focus, and the third concentrating arc mask has a fifth focus and a sixth focus, wherein the first focus and the second focus are located On a first axis, the third focus and the fourth focus are on a second axis, and the fifth focus and the sixth focus are on a third axis. The light emitting structure includes a first light emitting element, a second light emitting element, and a third light emitting element, wherein the first light emitting element corresponds to the first focus, and the second light emitting element corresponds to the third Focus, the third light emitting element corresponds to the fifth focus. The lens structure has a lens focus, a main optical axis, and a reference line, wherein the lens focus is located at an intersection of the main optical axis and the reference line, and the reference line and the lens structure are parallel to each other. The second focus, the fourth focus, and the sixth focus are all located on the reference line. The first light source generated by the first light emitting element is projected on the first light collecting curved surface to form a first reflective light source corresponding to the second focus, and the second light emitting element is The generated second light source is projected on the second collecting arc surface to form a second reflecting light source corresponding to the fourth focus, and the third light source generated by the third light emitting element is projected on The third collecting arc surface forms a third reflecting light source corresponding to the sixth focus.

本創作的有益效果可以在於,本創作實施例所提供的車燈模組,通過其燈杯的設計,能適用於非連續式發光模組的車燈模組,不僅可以避免前述先前技術所產生的問題且降低製造成本,並同時符合聯合國歐洲經濟委員會的規範(Regulations of United Nations Economic Commission for Europe,簡稱ECE regulations)中的ECE R112等相關法規以及美國自動機工程協會對於車燈標準之SAE J1383之法規。此外,本創作實施例所提供的車燈模組更適用於遠光燈之結構。The beneficial effect of the present invention may be that the lamp module provided by the present embodiment can be applied to the lamp module of the discontinuous lighting module through the design of the lamp cup, which can avoid the above prior art. And reduce manufacturing costs, while complying with ECE R112 and other regulations in the Regulations of United Nations Economic Commission for Europe (ECE regulations) and SAE J1383 for the standard of automotive lighting standards Regulations. In addition, the lamp module provided by the present embodiment is more suitable for the structure of the high beam.

為使能更進一步瞭解本創作的特徵及技術內容,請參閱以下有關本創作的詳細說明與附圖,然而所附圖式僅提供參考與說明用,並非用來對本創作加以限制者。In order to further understand the features and technical contents of the present invention, please refer to the following detailed description and drawings of the present invention. However, the drawings are only for reference and description, and are not intended to limit the creation.

C‧‧‧車燈模組C‧‧‧Light module

1,1’‧‧‧燈杯結構1,1'‧‧‧ lamp cup structure

11‧‧‧第一聚光弧面11‧‧‧The first concentrated arc surface

12‧‧‧第二聚光弧面12‧‧‧Second concentrated arc surface

13‧‧‧第三聚光弧面13‧‧‧The third concentrated arc surface

14‧‧‧第四聚光弧面14‧‧‧The fourth concentrated arc surface

15‧‧‧第一散光弧面15‧‧‧First astigmatism

16‧‧‧第二散光弧面16‧‧‧Second astigmatism

17‧‧‧第一反射板17‧‧‧First reflector

18‧‧‧第二反射板18‧‧‧second reflector

2,2’‧‧‧發光結構2,2’‧‧‧Lighting structure

21,21’‧‧‧第一發光元件21,21'‧‧‧First light-emitting element

22,22’‧‧‧第二發光元件22,22'‧‧‧second light-emitting element

23,23’‧‧‧第三發光元件23, 23' ‧ ‧ third illuminating element

24‧‧‧第四發光元件24‧‧‧fourth light-emitting element

3‧‧‧透鏡結構3‧‧‧Lens structure

4‧‧‧反射結構4‧‧‧Reflective structure

41‧‧‧第一反射鏡41‧‧‧First mirror

411‧‧‧第一反射面411‧‧‧First reflecting surface

412‧‧‧第二反射面412‧‧‧Second reflective surface

42‧‧‧第二反射鏡42‧‧‧second mirror

5‧‧‧光束調整結構5‧‧‧ Beam adjustment structure

51‧‧‧上反射面51‧‧‧Upper reflective surface

52‧‧‧下反射面52‧‧‧lower reflective surface

F0‧‧‧透鏡焦點F0‧‧‧ lens focus

F1‧‧‧第一焦點F1‧‧‧ first focus

F2‧‧‧第二焦點F2‧‧‧second focus

F3‧‧‧第三焦點F3‧‧‧ third focus

F4‧‧‧第四焦點F4‧‧‧ fourth focus

F5‧‧‧第五焦點F5‧‧‧ fifth focus

F6‧‧‧第六焦點F6‧‧‧ sixth focus

F7‧‧‧第七焦點F7‧‧‧ seventh focus

F8‧‧‧第八焦點F8‧‧‧ eighth focus

V‧‧‧主光軸V‧‧‧ main optical axis

H‧‧‧基準線H‧‧‧ baseline

L1‧‧‧第一軸線L1‧‧‧first axis

L2‧‧‧第二軸線L2‧‧‧second axis

L3‧‧‧第三軸線L3‧‧‧ third axis

L4‧‧‧第四軸線L4‧‧‧fourth axis

S‧‧‧基板S‧‧‧Substrate

R1,R1’‧‧‧第一光線R1, R1’‧‧‧ first light

R2,R2’‧‧‧第二光線R2, R2’‧‧‧second light

R3,R3’‧‧‧第三光線R3, R3’‧‧‧ third light

W‧‧‧間隔距離W‧‧‧ separation distance

θ1‧‧‧傾角Θ1‧‧‧ inclination

θ2‧‧‧斜度Θ2‧‧‧ slope

圖1A為本創作第一實施例的其中一立體示意圖。FIG. 1A is a perspective view of one of the first embodiments of the present invention.

圖1B為本創作第一實施例的另外一立體示意圖。FIG. 1B is another perspective view of the first embodiment of the creation.

圖1C為本創作第一實施例的其中一上視示意圖。FIG. 1C is a schematic top view of one of the first embodiments of the creation.

圖1D為本創作第一實施例的其中一側視示意圖。Figure 1D is a side elevational view of the first embodiment of the creation.

圖1E為本創作第一實施例的另外一上視示意圖。FIG. 1E is another schematic top view of the first embodiment of the creation.

圖2A為本創作第二實施例的立體示意圖。2A is a perspective view of the second embodiment of the creation.

圖2B為本創作第二實施例的其中一上視示意圖。2B is a schematic top view of one of the second embodiments of the present invention.

圖2C為本創作第二實施例的另外一上視示意圖。2C is another schematic top view of the second embodiment of the creation.

圖2D為本創作第三實施例的上視示意圖。2D is a top plan view of the third embodiment of the creation.

圖2E為本創作第三實施例中圖2D的局部放大示意圖。2E is a partially enlarged schematic view of FIG. 2D in the third embodiment of the creation.

圖3A為本創作第四實施例的立體示意圖。FIG. 3A is a perspective view of a fourth embodiment of the present invention.

圖3B為本創作第四實施例的其中一上視示意圖。FIG. 3B is a schematic top view of one of the fourth embodiments of the present invention.

圖3C為本創作第四實施例的另外一上視示意圖。FIG. 3C is another schematic top view of the fourth embodiment of the creation.

圖3D為本創作第五實施例的上視示意圖。Fig. 3D is a top plan view showing the fifth embodiment of the creation.

圖3E為本創作第五實施例中圖3D的局部放大示意圖。FIG. 3E is a partially enlarged schematic view of FIG. 3D in the fifth embodiment of the creation.

圖4A為本創作第六實施例的上視示意圖。4A is a top plan view of a sixth embodiment of the present invention.

圖4B為本創作第六實施例的側視示意圖。4B is a side elevational view of the sixth embodiment of the present invention.

以下係藉由特定的具體實例說明本創作所揭露“車燈模組”的實施方式,熟悉此技藝之人士可由本說明書所揭示的內容輕易瞭解本創作的其他優點與功效。本創作亦可藉由其他不同的具體實施例加以施行或應用,本說明書中的各項細節亦可基於不同觀點與應用,在不悖離本創作的精神下進行各種修飾與變更。又本創作的圖式僅為簡單說明,並非依實際尺寸描繪,亦即未反應出相關構成的實際尺寸,先予敘明。以下的實施方式係進一步詳細說明本創作的相關技術內容,但並非用以限制本創作的技術範疇。The following describes the implementation of the "lighting module" disclosed in the present application by a specific specific example, and those skilled in the art can easily understand other advantages and effects of the present invention by the contents disclosed in the present specification. The present invention can also be implemented or applied by various other specific embodiments. The details of the present specification can also be modified and changed without departing from the spirit of the present invention. The drawing of this creation is only a brief description, and is not depicted in actual size, that is, the actual size of the relevant composition is not reflected, which will be described first. The following embodiments are intended to further explain the related technical content of the present invention, but are not intended to limit the technical scope of the present creation.

〔第一實施例〕[First Embodiment]

首先,請參閱圖1A至圖1E所示,本創作第一實施例係提供一種車燈模組C,其包括一燈杯結構1、一發光結構2以及一透鏡結構3。如圖1A所示,燈杯結構1可由多個不同曲率之曲面所組成,例如可通過不同曲率之橢圓為基礎的曲面組成燈杯結構。以本創作第一實施例而言,燈杯結構1具有一第一聚光弧面11、一第二聚光弧面12、一第三聚光弧面13及一第四聚光弧面14,其中燈杯結構1還可具有一設置或連接於第一聚光弧面11及第二聚光弧面12之間的第一散光弧面15,以及一設置或連接於第三聚光 弧面13及第四聚光弧面14之間的第二散光弧面16。抑或是如圖1B所示,直接將第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14相連接,然本創作不以此為限。First, referring to FIG. 1A to FIG. 1E, the first embodiment of the present invention provides a lamp module C, which comprises a lamp cup structure 1, a light emitting structure 2, and a lens structure 3. As shown in FIG. 1A, the lamp cup structure 1 can be composed of a plurality of curved surfaces of different curvatures, for example, a light cup structure can be formed by ellipse-based curved surfaces of different curvatures. In the first embodiment of the present invention, the lamp cup structure 1 has a first collecting curved surface 11 , a second collecting curved surface 12 , a third collecting curved surface 13 and a fourth collecting curved surface 14 . The lamp cup structure 1 may further have a first astigmatism curved surface 15 disposed or connected between the first concentrating curved surface 11 and the second concentrating curved surface 12, and a set or connected to the third condensing light. A second astigmatism curved surface 16 between the curved surface 13 and the fourth concentrated curved surface 14. Or as shown in FIG. 1B, directly connecting the first concentrating arc surface 11, the second concentrating arc surface 12, the third concentrating arc surface 13 and the fourth concentrating arc surface 14, but the creation is not Limited.

接著,請參閱圖1C所示,圖1C為圖1B的上視示意圖。第一聚光弧面11具有一第一焦點F1及一第二焦點F2,第二聚光弧面12具有一第三焦點F3及一第四焦點F4,第三聚光弧面13具有一第五焦點F5及一第六焦點F6,第四聚光弧面14具有一第七焦點F7及一第八焦點F8,其中第一焦點F1及第二焦點F2位於一第一軸線L1上,第三焦點F3及第四焦點F4位於一第二軸線L2上,第五焦點F5及第六焦點F6位於一第三軸線L3上,第七焦點F7及第八焦點F8位於一第四軸線L4上。換言之,第一軸線L1、第二軸線L2、第三軸線L3及第四軸線L4都是由每個聚光弧面各自擁有的焦點所連線而成。Next, please refer to FIG. 1C, which is a top view of FIG. 1B. The first collecting curved surface 11 has a first focus F1 and a second focus F2, the second collecting curved surface 12 has a third focus F3 and a fourth focus F4, and the third collecting curved surface 13 has a first The fifth focus F5 and the sixth focus F6, the fourth concentrating arc surface 14 has a seventh focus F7 and an eighth focus F8, wherein the first focus F1 and the second focus F2 are located on a first axis L1, and the third The focus F3 and the fourth focus F4 are located on a second axis L2. The fifth focus F5 and the sixth focus F6 are located on a third axis L3. The seventh focus F7 and the eighth focus F8 are located on a fourth axis L4. In other words, the first axis L1, the second axis L2, the third axis L3, and the fourth axis L4 are each connected by a focal point possessed by each of the collecting curved surfaces.

進一步來說,發光結構2可設置於燈杯結構1當中,其中發光結構2包括一第一發光元件21、一第二發光元件22、一第三發光元件23及一第四發光元件24,舉例來說,第一發光元件21、第二發光元件22、第三發光元件23及第四發光元件24為發光二極體,其中第一發光元件21、第二發光元件22、第三發光元件23及第四發光元件24可以各自採用不同色溫或色光的發光二極體,以調節發光結構2所散發出的光源。其中第一發光元件21可對應於第一聚光弧面11的第一焦點F1,第二發光元件22可對應於第二聚光弧面12的第三焦點F3,第三發光元件23可對應於第三聚光弧面13的第五焦點F5,第四發光元件24可對應於第四聚光弧面14的第七焦點F7。此外,燈杯結構1及發光結構2可以與一透鏡結構3相互配合應用,以車燈模組C而言,可以採用平凸透鏡作為透鏡結構3。透鏡結構3可具有一透鏡焦點F0、一主光軸V及一基準線H,其中透鏡焦點F0位於主光軸V與基準線H的交點上,透鏡結構3與基準線H之間的距離為透鏡焦點F0至透鏡結 構3的距離,主光軸V與基準線H相互垂直的設置,而基準線H與透鏡結構3相互平行的設置。燈杯結構1中的第二焦點F2、第四焦點F4、第六焦點F6及第八焦點F8經由以橢圓為基礎的聚光弧面特性,使前述第二焦點F2、第四焦點F4、第六焦點F6及第八焦點F8都位於透鏡結構3的基準線H上。因此,第一發光元件21所產生的第一光源投射在第一聚光弧面11上時,通過第一聚光弧面11的反射,會形成對應於第二焦點F2的第一反射光源,第二發光元件22所產生的第二光源投射在第二聚光弧面12上時,通過第二聚光弧面12的反射,會形成對應於第四焦點F4的第二反射光源,第三發光元件23所產生的第三光源投射在第三聚光弧面13上時,通過第三聚光弧面13的反射,會形成對應於第六焦點F6的第三反射光源,第四發光元件24所產生的第四光源投射在第四聚光弧面14上時,通過第四聚光弧面14的反射,會形成對應於第八焦點F8的第四反射光源。Further, the light emitting structure 2 can be disposed in the light cup structure 1 , wherein the light emitting structure 2 includes a first light emitting element 21 , a second light emitting element 22 , a third light emitting element 23 , and a fourth light emitting element 24 . The first light-emitting element 21, the second light-emitting element 22, the third light-emitting element 23, and the fourth light-emitting element 24 are light-emitting diodes, wherein the first light-emitting element 21, the second light-emitting element 22, and the third light-emitting element 23 are And the fourth light-emitting element 24 can each adopt a light-emitting diode of different color temperature or color light to adjust the light source emitted by the light-emitting structure 2. The first illuminating element 21 can correspond to the first focus F1 of the first concentrating arc surface 11, the second illuminating element 22 can correspond to the third focus F3 of the second concentrating arc surface 12, and the third illuminating element 23 can correspond to At the fifth focus F5 of the third collecting curved surface 13, the fourth light emitting element 24 may correspond to the seventh focus F7 of the fourth collecting curved surface 14. In addition, the lamp cup structure 1 and the light-emitting structure 2 can be used in cooperation with a lens structure 3. For the lamp module C, a plano-convex lens can be used as the lens structure 3. The lens structure 3 may have a lens focus F0, a main optical axis V and a reference line H, wherein the lens focus F0 is located at the intersection of the main optical axis V and the reference line H, and the distance between the lens structure 3 and the reference line H is Lens focus F0 to lens junction The distance of the structure 3 is such that the main optical axis V and the reference line H are arranged perpendicular to each other, and the reference line H and the lens structure 3 are arranged in parallel with each other. The second focus F2, the fourth focus F4, the sixth focus F6, and the eighth focus F8 in the lamp cup structure 1 are made to have the second focus F2, the fourth focus F4, and the Both the six focus F6 and the eighth focus F8 are located on the reference line H of the lens structure 3. Therefore, when the first light source generated by the first light-emitting element 21 is projected on the first light-collecting curved surface 11, the first reflective light source corresponding to the second focus F2 is formed by the reflection of the first concentrated curved surface 11 . When the second light source generated by the second light-emitting element 22 is projected on the second light-collecting curved surface 12, the second reflective light source corresponding to the fourth focus F4 is formed by the reflection of the second light-converging curved surface 12, and the third When the third light source generated by the light-emitting element 23 is projected on the third light-collecting curved surface 13, the third reflective light source corresponding to the sixth focus F6 is formed by the reflection of the third concentrated curved surface 13, and the fourth light-emitting element When the fourth generated light source is projected on the fourth collecting curved surface 14, the fourth reflecting light source corresponding to the eighth focus F8 is formed by the reflection of the fourth collecting curved surface 14.

以本創作第一實施例而言,第一發光元件21可直接設置在第一焦點F1上,第二發光元件22可直接設置在第三焦點F3上,第三發光元件23可直接設置在第五焦點F5上,第四發光元件24可直接設置在第七焦點F7上。因此,第一發光元件21所產生的第一光源投射在第一聚光弧面11上時,會形成穿過第二焦點F2的第一反射光源,第二發光元件22所產生的第二光源投射在第二聚光弧面12上時,會形成穿過第四焦點F4的第二反射光源,第三發光元件23所產生的第三光源投射在第三聚光弧面13上時,會形成穿過第六焦點F6的第三反射光源,第四發光元件24所產生的第四光源投射在第四聚光弧面14上時,會形成穿過第八焦點F8的第四反射光源。因而使得透鏡焦點F0與第四焦點F4及第六焦點F6重合,第二焦點F2及第八焦點F8分別鄰近於透鏡焦點F0的兩側。而經由第一發光元件21、第二發光元件22、第三發光元件23及第四發光元件24所投射在透鏡結構3基準線H上的第一 反射光源、第二反射光源、第三反射光源及第四反射光源,對於透鏡結構3來說,將會形成一個三點相互連接的連續式光源,也因為第二發光元件22及第三發光元件23所形成的光源會沿著第二軸線L2及第三軸線L3投射在透鏡結構3的透鏡焦點F0上,使得通過透鏡結構3所投射出光源的中間亮度會最高。In the first embodiment of the present invention, the first light-emitting element 21 can be directly disposed on the first focus F1, the second light-emitting element 22 can be directly disposed on the third focus F3, and the third light-emitting element 23 can be directly disposed on the first focus. On the fifth focus F5, the fourth light-emitting element 24 can be directly disposed on the seventh focus F7. Therefore, when the first light source generated by the first light-emitting element 21 is projected on the first collecting curved surface 11, a first reflecting light source passing through the second focus F2 is formed, and the second light source generated by the second light-emitting element 22 is formed. When projected on the second collecting curved surface 12, a second reflecting light source passing through the fourth focus F4 is formed, and when the third light source generated by the third light emitting element 23 is projected on the third collecting curved surface 13, A third reflected light source passing through the sixth focus F6 is formed, and when the fourth light source generated by the fourth light emitting element 24 is projected on the fourth collecting curved surface 14, a fourth reflected light source passing through the eighth focus F8 is formed. Thus, the lens focus F0 coincides with the fourth focus F4 and the sixth focus F6, and the second focus F2 and the eighth focus F8 are respectively adjacent to both sides of the lens focus F0. The first light-emitting element 21, the second light-emitting element 22, the third light-emitting element 23, and the fourth light-emitting element 24 are projected onto the reference line H of the lens structure 3 The reflective light source, the second reflective light source, the third reflective light source and the fourth reflective light source, for the lens structure 3, a three-point interconnected continuous light source will be formed, also because of the second light-emitting element 22 and the third light-emitting element The light source formed by 23 is projected on the lens focus F0 of the lens structure 3 along the second axis L2 and the third axis L3, so that the intermediate brightness of the light source projected through the lens structure 3 is the highest.

舉例來說,此時第一聚光弧面11對於第一發光元件21而言具有聚焦的功能,第一聚光弧面11對於第二發光元件22、第三發光元件23及第四發光元件24而言則具有擴光的功能;反之第二聚光弧面12對於第二發光元件22而言具有聚焦的功能,第二聚光弧面12對於第一發光元件21、第三發光元件23及第四發光元件24而言則具有擴光的功能;第三聚光弧面13對於第三發光元件23而言具有聚焦的功能,第三聚光弧面13對於第一發光元件21、第二發光元件22及第四發光元件24而言則具有擴光的功能;第四聚光弧面14對於第四發光元件24而言具有聚焦的功能,第四聚光弧面14對於第一發光元件21、第二發光元件22及第三發光元件23而言則具有擴光的功能。值得一提的是,當燈杯結構1中還進一步包含第一散光弧面15及第二散光弧面16時,對於第一發光元件21、第二發光元件22、第三發光元件23及第四發光元件24來說,第一散光弧面15及第二散光弧面16則是會具有擴光的作用。For example, at this time, the first light collecting curved surface 11 has a function of focusing on the first light emitting element 21, and the first light collecting curved surface 11 is for the second light emitting element 22, the third light emitting element 23, and the fourth light emitting element. In the case of 24, there is a function of light-expanding; on the other hand, the second collecting surface 12 has a function of focusing on the second light-emitting element 22, and the second collecting surface 12 is for the first light-emitting element 21 and the third light-emitting element 23 And the fourth illuminating element 24 has a function of expanding light; the third concentrating arc surface 13 has a function of focusing on the third illuminating element 23, and the third concentrating arc surface 13 is for the first illuminating element 21, The second illuminating element 22 and the fourth illuminating element 24 have a function of expanding light; the fourth concentrating curved surface 14 has a function of focusing for the fourth illuminating element 24, and the fourth concentrating curved surface 14 is for the first illuminating The element 21, the second light-emitting element 22, and the third light-emitting element 23 have a function of expanding light. It is worth mentioning that when the first cup illuminating surface 15 and the second astigmatic curved surface 16 are further included in the lamp cup structure 1, the first illuminating element 21, the second illuminating element 22, the third illuminating element 23 and the For the four light-emitting elements 24, the first astigmatic curved surface 15 and the second astigmatic curved surface 16 have the function of expanding light.

值得一提的是,也可以通過改變車燈模組C中各個聚光弧面的曲面曲率,使得透鏡焦點F0與第一聚光弧面11的第二焦點F2及第四聚光弧面14的第八焦點F8重合,第二聚光弧面12的第四焦點F4及第三聚光弧面13的第六焦點F6分別鄰近於透鏡焦點F0的兩側。此外,第一發光元件21也可以鄰近於第一焦點F1的設置,第二發光元件22也可以鄰近於第三焦點F3的設置,第三發光元件23也可以鄰近於第五焦點F5的設置,第四發光元件24也可以鄰近於第七焦點F7的設置,端看燈杯結構1中的各個聚光 弧面焦點位置設計。It is worth mentioning that the curvature of the surface of each of the collecting arcs in the lamp module C can be changed, so that the lens focus F0 and the second focus F2 and the fourth collecting arc surface 14 of the first collecting curved surface 11 are The eighth focus F8 coincides, the fourth focus F4 of the second collecting curved surface 12 and the sixth focus F6 of the third collecting curved surface 13 are respectively adjacent to both sides of the lens focus F0. In addition, the first light-emitting element 21 may also be adjacent to the first focus F1, the second light-emitting element 22 may also be adjacent to the third focus F3, and the third light-emitting element 23 may also be adjacent to the fifth focus F5. The fourth illuminating element 24 may also be adjacent to the arrangement of the seventh focus F7, and each concentrating light in the lamp cup structure 1 is viewed from the end. Curved focal point position design.

接著,請參閱圖1D並同時配合圖1E所示,車燈模組C中還可以進一步包括一反射結構4,反射結構4可包括一第一反射鏡41及一第二反射鏡42,其中第一反射鏡41可設置於第一發光元件21及第二發光元件22之間,第二反射鏡42可設置於第三發光元件23及第四發光元件24之間。如圖1D所示,第一反射鏡41設置於第一發光元件21及第二發光元件22之間,第一反射鏡41具有一第一反射面411及一第二反射面412,第一反射面411朝向第一發光元件21,第二反射面412朝向第二發光元件22,其中第一發光元件21及第二發光元件22可設置於一基板S上。經由第一反射鏡41的設置,可使得第一反射面411中具有第一發光元件21的虛像,第二反射面412中具有第二發光元件22的虛像,因此經由第一反射面411所反射出的光源即如同由第一發光元件21所產生的第一光源,經由第二反射面412所反射出的光源即如同由第二發光元件22所產生的第二光源。換言之,即可以將原本相距一預定距離的不連續光源,通過反射結構4的連接,其所產生的光源型態會如同連續式的發光光源。如圖1E所示,加入反射結構4的車燈模組,與前述圖1C所示的車燈模組C相較之下,加入反射結構4後的車燈模組C所產生的集光效率會更高。同時,也因為經由反射結構4所發出的光源位置,不位於聚光弧面的焦點上,因此對於投射置透鏡焦點F0附近的光源而言,能提供更佳的集光效果。Then, referring to FIG. 1D and FIG. 1E, the lamp module C further includes a reflective structure 4, and the reflective structure 4 can include a first mirror 41 and a second mirror 42. A mirror 41 can be disposed between the first light-emitting element 21 and the second light-emitting element 22, and the second mirror 42 can be disposed between the third light-emitting element 23 and the fourth light-emitting element 24. As shown in FIG. 1D, the first mirror 41 is disposed between the first light-emitting element 21 and the second light-emitting element 22. The first mirror 41 has a first reflective surface 411 and a second reflective surface 412. The surface 411 faces the first light-emitting element 21, and the second reflective surface 412 faces the second light-emitting element 22. The first light-emitting element 21 and the second light-emitting element 22 can be disposed on a substrate S. Via the arrangement of the first mirror 41, the virtual image of the first light-emitting element 21 can be made in the first reflective surface 411, and the virtual image of the second light-emitting element 22 in the second reflective surface 412 is reflected by the first reflective surface 411. The light source is like the first light source generated by the first light-emitting element 21, and the light source reflected by the second reflecting surface 412 is like the second light source generated by the second light-emitting element 22. In other words, the discontinuous light source that is originally separated by a predetermined distance can be connected to the reflective structure 4, and the light source type produced by the light source will be like a continuous light source. As shown in FIG. 1E, the light collection efficiency generated by the lamp module C after the reflection structure 4 is added to the lamp module of the reflection structure 4, compared with the lamp module C shown in FIG. 1C. Will be higher. At the same time, because the position of the light source emitted through the reflective structure 4 is not located at the focus of the collecting curved surface, a better light collecting effect can be provided for the light source near the projected lens focus F0.

此外,可透過一控制模組控制以控制發光結構2中第一發光元件21、第二發光元件22、第三發光元件23及第四發光元件24,進而控制發光結構2所發出的光源型態、色溫或色光。因此,若以不同色光的發光二極體進行搭配,即可以混出不同顏色的光源,以白光為例,可以是3000K的暖白光配上460奈米左右的藍光,可以混出其他色溫的白光。也可以3000K的暖白光,配上6500K 的冷白光,而調配出4000K左右的色光。值得一提的是,車燈模組C中還可以進一步包括一明暗截止線遮版,可以通過明暗截止線遮板鄰近或直接設置於透鏡結構3的透鏡焦點F0上以控制車燈模組C中所發出的光形。In addition, the first light-emitting element 21, the second light-emitting element 22, the third light-emitting element 23, and the fourth light-emitting element 24 in the light-emitting structure 2 can be controlled by a control module to control the light source type emitted by the light-emitting structure 2. , color temperature or shade. Therefore, if the light-emitting diodes of different color lights are used for matching, the light sources of different colors can be mixed. For example, white light can be 3000K warm white light with 460 nm blue light, and other color temperature white light can be mixed. . Can also be 3000K warm white light, with 6500K The cool white light, and the color light of about 4000K is formulated. It is worth mentioning that the lamp module C can further include a cut-off line mask, which can be controlled by the light-dark cut-off line adjacent to or directly disposed on the lens focus F0 of the lens structure 3 to control the lamp module C. The light shape emitted by the medium.

本創作第一實施例所提供之車燈模組C,可藉由燈杯結構1中第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14的曲率設計及發光結構2對應地設置於第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14的焦點上,能特別適用於非連續式光源的車燈模組C,不僅可以符合相關法規且能夠降低製造成本,同時能夠增加照度、流明數及光源的照射距離。The lamp module C provided in the first embodiment of the present invention can be configured by the first collecting arc surface 11, the second collecting arc surface 12, the third collecting curved surface 13 and the fourth gathering in the lamp cup structure 1. The curvature design of the curved surface 14 and the light-emitting structure 2 are correspondingly disposed on the focal points of the first collecting curved surface 11, the second collecting curved surface 12, the third collecting curved surface 13 and the fourth collecting curved surface 14, The lamp module C, which is particularly suitable for a discontinuous light source, can not only comply with relevant regulations but also reduce manufacturing costs, and can increase the illuminance, the number of lumens, and the illumination distance of the light source.

〔第二實施例〕[Second embodiment]

首先,請參閱圖2A至圖2C所示,本創作第二實施例係提供一種車燈模組C,其包括一燈杯結構1、一發光結構2以及一透鏡結構3。如圖2A所示,燈杯結構1可由多個不同曲率之曲面所組成,例如可通過不同曲率之橢圓為基礎的曲面組成燈杯結構1。由圖2A及圖2B與圖1B及圖1C的比較可以了解,第二實施例與第一實施例最大的差別在於各個聚光弧面設計,並通過聚光弧面的曲率改變使得各個聚光弧面所投射於透鏡結構3基準線H的軸線產生改變。First, referring to FIG. 2A to FIG. 2C , the second embodiment of the present invention provides a vehicle lamp module C including a lamp cup structure 1 , a light emitting structure 2 , and a lens structure 3 . As shown in FIG. 2A, the lamp cup structure 1 can be composed of a plurality of curved surfaces of different curvatures, for example, the lamp cup structure 1 can be composed of curved surfaces based on ellipse of different curvatures. It can be understood from the comparison between FIG. 2A and FIG. 2B and FIG. 1B and FIG. 1C that the biggest difference between the second embodiment and the first embodiment lies in the design of each concentrated arc surface, and the respective spotlights are changed by the curvature of the collecting curved surface. The axis of the curved surface projected on the reference line H of the lens structure 3 changes.

如圖2A所示,以本創作第二實施例而言,燈杯結構1具有一第一聚光弧面11、一第二聚光弧面12、一第三聚光弧面13及一第四聚光弧面14,其中燈杯結構1還可具有一設置或連接於第二聚光弧面12及第三聚光弧面13之間的第一散光弧面15。抑或是直接將第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14彼此相連,然本創作不以此為限。As shown in FIG. 2A, in the second embodiment of the present invention, the lamp cup structure 1 has a first collecting curved surface 11, a second collecting curved surface 12, a third collecting curved surface 13 and a first The light collecting cup surface 14 further has a first astigmatism curved surface 15 disposed or connected between the second collecting curved surface 12 and the third collecting curved surface 13. Or directly connecting the first collecting curved surface 11, the second collecting curved surface 12, the third collecting curved surface 13 and the fourth collecting curved surface 14 to each other, but the creation is not limited thereto.

接著,請參閱圖2B所示,圖2B為圖2A的上視示意圖。第一聚光弧面11具有一第一焦點F1及一第二焦點F2,第二聚光弧 面12具有一第三焦點F3及一第四焦點F4,第三聚光弧面13具有一第五焦點F5及一第六焦點F6,第四聚光弧面14具有一第七焦點F7及一第八焦點F8,其中第一焦點F1及第二焦點F2位於一第一軸線L1上,第三焦點F3及第四焦點F4位於一第二軸線L2上,第五焦點F5及第六焦點F6位於一第三軸線L3上,第七焦點F7及第八焦點F8位於一第四軸線L4上。換言之,第一軸線L1、第二軸線L2、第三軸線L3及第四軸線L4都是由每個弧面各自擁有的焦點所連線而成。Next, please refer to FIG. 2B, which is a top view of FIG. 2A. The first collecting curved surface 11 has a first focus F1 and a second focus F2, and the second collecting arc The surface 12 has a third focus F3 and a fourth focus F4. The third collecting curved surface 13 has a fifth focus F5 and a sixth focus F6. The fourth collecting curved surface 14 has a seventh focus F7 and a The eighth focus F8, wherein the first focus F1 and the second focus F2 are located on a first axis L1, the third focus F3 and the fourth focus F4 are located on a second axis L2, and the fifth focus F5 and the sixth focus F6 are located On a third axis L3, the seventh focus F7 and the eighth focus F8 are located on a fourth axis L4. In other words, the first axis L1, the second axis L2, the third axis L3, and the fourth axis L4 are all connected by a focal point each of the respective curved faces.

進一步來說,發光結構2可設置於燈杯結構1當中,其中發光結構2包括一第一發光元件21、一第二發光元件22、一第三發光元件23及一第四發光元件24。其中,第一發光元件21可對應於第一聚光弧面11的第一焦點F1,第二發光元件22可對應於第二聚光弧面12的第三焦點F3,第三發光元件23可對應於第三聚光弧面13的第五焦點F5,第四發光元件24可對應於第四聚光弧面14的第七焦點F7。此外,燈杯結構1及發光結構2可以與一透鏡結構3相互配合應用。其中,透鏡結構3可具有一透鏡焦點F0、一主光軸V及一基準線H,其中透鏡焦點F0位於主光軸V與基準線H的交點上,透鏡結構3與基準線H之間的距離為透鏡焦點F0至透鏡結構3的距離,主光軸V與基準線H相互垂直的設置,而基準線H與透鏡結構3相互平行的設置。燈杯結構1中的第二焦點F2、第四焦點F4、第六焦點F6及第八焦點F8經由以橢圓為基礎的聚光弧面特性,使前述第二焦點F2、第四焦點F4、第六焦點F6及第八焦點F8都位於透鏡結構3的基準線H上。以本創作第二實施例而言,經由第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14的曲率設計,使得透鏡焦點F0與第二焦點F2及第八焦點F8重合,第四焦點F4及第六焦點F6分別鄰近於透鏡焦點F0的兩側,然本創作不以此為限。請參閱圖2C所示,可以通過改變第一聚光弧面11、第二聚光弧面12、第三聚 光弧面13及第四聚光弧面14的曲率,使得透鏡焦點F0與第四焦點F4及第六焦點F6重合,第二焦點F2及第八焦點F8分別鄰近於透鏡焦點F0的兩側。因此,對於透鏡結構3來說,將會形成一個三點相互連接的連續式光源。Further, the light emitting structure 2 can be disposed in the lamp cup structure 1 , wherein the light emitting structure 2 includes a first light emitting element 21 , a second light emitting element 22 , a third light emitting element 23 , and a fourth light emitting element 24 . The first illuminating element 21 can correspond to the first focus F1 of the first concentrating arc surface 11, the second illuminating element 22 can correspond to the third focus F3 of the second concentrating arc surface 12, and the third illuminating element 23 can be Corresponding to the fifth focus F5 of the third collecting curved surface 13, the fourth light emitting element 24 may correspond to the seventh focus F7 of the fourth collecting curved surface 14. In addition, the lamp cup structure 1 and the light emitting structure 2 can be used in cooperation with a lens structure 3. The lens structure 3 may have a lens focus F0, a main optical axis V and a reference line H, wherein the lens focus F0 is located at the intersection of the main optical axis V and the reference line H, between the lens structure 3 and the reference line H. The distance is the distance from the lens focus F0 to the lens structure 3, the main optical axis V and the reference line H are arranged perpendicular to each other, and the reference line H and the lens structure 3 are arranged parallel to each other. The second focus F2, the fourth focus F4, the sixth focus F6, and the eighth focus F8 in the lamp cup structure 1 are made to have the second focus F2, the fourth focus F4, and the Both the six focus F6 and the eighth focus F8 are located on the reference line H of the lens structure 3. In the second embodiment of the present invention, the curvature of the first concentrating arc surface 11, the second concentrating arc surface 12, the third concentrating arc surface 13 and the fourth concentrating arc surface 14 is designed such that the lens focus F0 The second focus F4 and the sixth focus F6 are coincident with each other, and the fourth focus F4 and the sixth focus F6 are respectively adjacent to both sides of the lens focus F0. However, the creation is not limited thereto. Referring to FIG. 2C, the first concentrating arc surface 11, the second concentrating arc surface 12, and the third concentrating layer can be changed. The curvature of the curved surface 13 and the fourth concentrated curved surface 14 is such that the lens focus F0 coincides with the fourth focus F4 and the sixth focus F6, and the second focus F2 and the eighth focus F8 are respectively adjacent to both sides of the lens focus F0. Therefore, for the lens structure 3, a continuous light source of three points connected to each other will be formed.

值得一提的是,本創作第二實施例中的車燈模組還可以進一步包括一如同第一實施例所述的反射結構4,請同時配合圖1D所示,反射結構4可包括一第一反射鏡41,其中第一反射鏡41可設置於本創作第二實施例中的第二發光元件22及第三發光元件23之間。經由第一反射鏡41的設置,可使得第一反射鏡41中具有第二發光元件22及第三發光元件23所產生的虛像。換言之,即可以將原本相距一預定距離的不連續光源,通過反射結構4的連接,其所產生的光源型態會如同連續式的發光光源。It is to be noted that the lamp module of the second embodiment of the present invention may further include a reflective structure 4 as described in the first embodiment. Please also refer to FIG. 1D. The reflective structure 4 may include a first A mirror 41, wherein the first mirror 41 can be disposed between the second light-emitting element 22 and the third light-emitting element 23 in the second embodiment of the present invention. Through the arrangement of the first mirror 41, the virtual image generated by the second light-emitting element 22 and the third light-emitting element 23 can be made in the first mirror 41. In other words, the discontinuous light source that is originally separated by a predetermined distance can be connected to the reflective structure 4, and the light source type produced by the light source will be like a continuous light source.

本創作第二實施例所提供之車燈模組C,可藉由燈杯結構1中各個聚光弧面的曲率設計及發光結構2對應地設置於各個聚光弧面的焦點上,能特別適用於非連續式的發光二極體封裝結構,不僅可以符合相關法規且能夠降低製造成本,同時能夠增加照度、流明數及光源的照射距離。The lamp module C provided in the second embodiment of the present invention can be disposed on the focus of each collecting curved surface by the curvature design of each collecting curved surface in the lamp cup structure 1 and the light emitting structure 2 correspondingly. Applicable to the discontinuous LED package structure, not only can comply with relevant regulations and can reduce manufacturing costs, but also can increase the illumination, lumens and illumination distance of the light source.

〔第三實施例〕[Third embodiment]

請參閱圖2D所示,圖2D為本創作第三實施例的上視示意圖。由圖2C及圖2D的比較可以了解,本創作第三實施例與第二實施例最大的差別在於聚光弧面的設計以及聚光弧面與各個發光元件之間的配置關係。以第三實施例而言,可以改變原本第二實施例中第二聚光弧面12及第三聚光弧面13的曲率,使得第二聚光弧面12與第三聚光弧面13的曲率相同,使之具有相同的焦點。Referring to FIG. 2D, FIG. 2D is a top view of the third embodiment of the creation. It can be understood from the comparison of FIG. 2C and FIG. 2D that the biggest difference between the third embodiment and the second embodiment of the present invention is the design of the collecting curved surface and the arrangement relationship between the collecting curved surface and the respective light emitting elements. In the third embodiment, the curvatures of the second collecting arc surface 12 and the third collecting arc surface 13 in the second embodiment can be changed, so that the second collecting curved surface 12 and the third collecting curved surface 13 are The curvature is the same, giving it the same focus.

如圖2D所示,本創作第三實施例係提供一種車燈模組C,其包括一燈杯結構1、一發光結構2以及一透鏡結構3。燈杯結構1具有一第一聚光弧面11、一第二聚光弧面12及一第三聚光弧面13,第一聚光弧面11具有一第一焦點F1及一第二焦點F2,第二 聚光弧面12具有一第三焦點F3及一第四焦點F4,第三聚光弧面13具有一第五焦點F5及一第六焦點F6,其中第一焦點F1及第二焦點F2位於一第一軸線L1上,第三焦點F3及第四焦點F4位於一第二軸線L2上,第五焦點F5及第六焦點F6位於一第三軸線L3上,換言之,第一軸線L1、第二軸線L2及第三軸線L3都是由每個弧面各自擁有的焦點所連線而成。As shown in FIG. 2D, the third embodiment of the present invention provides a lamp module C, which includes a lamp cup structure 1, a light emitting structure 2, and a lens structure 3. The lamp cup structure 1 has a first collecting curved surface 11 , a second collecting curved surface 12 and a third collecting curved surface 13 . The first collecting curved surface 11 has a first focus F1 and a second focus. F2, second The concentrating arc surface 12 has a third focus F3 and a fourth focus F4. The third concentrating arc surface 13 has a fifth focus F5 and a sixth focus F6, wherein the first focus F1 and the second focus F2 are located at one On the first axis L1, the third focus F3 and the fourth focus F4 are located on a second axis L2, and the fifth focus F5 and the sixth focus F6 are located on a third axis L3, in other words, the first axis L1 and the second axis L2 and the third axis L3 are each formed by the focal point of each curved surface.

接著,燈杯結構1可以與一發光結構2相互配合應用,其中,發光結構2可包括一第一發光元件21、一第二發光元件22及一第三發光元件23,其中第一發光元件21對應於第一焦點F1,第二發光元件22對應於第三焦點F3,第三發光元件23對應於第五焦點F5。此外,燈杯結構1及發光結構2可以與一透鏡結構3相互配合應用。其中,透鏡結構3可具有一透鏡焦點F0、一主光軸V及一基準線H,其中透鏡焦點F0位於主光軸V與基準線H的交點上,透鏡結構3與基準線H之間的距離為透鏡焦點F0至透鏡結構3的距離,主光軸V與基準線H相互垂直的設置,而基準線H與透鏡結構3相互平行的設置。燈杯結構1中的第二焦點F2、第四焦點F4及第六焦點F6經由以橢圓為基礎的聚光弧面特性,使前述第二焦點F2、第四焦點F4及第六焦點F6都位於透鏡結構3的基準線H上。因此,第一發光元件21所產生的第一光源投射在第一聚光弧面11上時,通過第一聚光弧面11的反射,會形成對應於第二焦點F2的第一反射光源,第二發光元件22所產生的第二光源投射在第二聚光弧面12上時,通過第二聚光弧面12的反射,會形成對應於第四焦點F4的第二反射光源,第三發光元件23所產生的第三光源投射在第三聚光弧面13上時,通過第三聚光弧面13的反射,會形成對應於第六焦點F6的第三反射光源。舉例來說,在應用上透鏡焦點F0可以與第四焦點F4重合,第二焦點F2及第六焦點F6分別鄰近於透鏡焦點F0的兩側,第一發光元件21直接設置在第一焦點F1上,第二發光元件22直接設置在第三 焦點F3上,第三發光元件23直接設置在第五焦點F5上,使得對於透鏡結構3來說,將會形成一個三點相互連接的連續式光源直接投射在透鏡結構3上,然本創作不以此為限。The light-emitting structure 2 can be used in conjunction with a light-emitting structure 2, wherein the light-emitting structure 2 can include a first light-emitting element 21, a second light-emitting element 22, and a third light-emitting element 23, wherein the first light-emitting element 21 Corresponding to the first focus F1, the second light-emitting element 22 corresponds to the third focus F3, and the third light-emitting element 23 corresponds to the fifth focus F5. In addition, the lamp cup structure 1 and the light emitting structure 2 can be used in cooperation with a lens structure 3. The lens structure 3 may have a lens focus F0, a main optical axis V and a reference line H, wherein the lens focus F0 is located at the intersection of the main optical axis V and the reference line H, between the lens structure 3 and the reference line H. The distance is the distance from the lens focus F0 to the lens structure 3, the main optical axis V and the reference line H are arranged perpendicular to each other, and the reference line H and the lens structure 3 are arranged parallel to each other. The second focus F2, the fourth focus F4, and the sixth focus F6 in the lamp cup structure 1 are disposed such that the second focus F2, the fourth focus F4, and the sixth focus F6 are located via an elliptical-based concentrated arc surface characteristic. On the reference line H of the lens structure 3. Therefore, when the first light source generated by the first light-emitting element 21 is projected on the first light-collecting curved surface 11, the first reflective light source corresponding to the second focus F2 is formed by the reflection of the first concentrated curved surface 11 . When the second light source generated by the second light-emitting element 22 is projected on the second light-collecting curved surface 12, the second reflective light source corresponding to the fourth focus F4 is formed by the reflection of the second light-converging curved surface 12, and the third When the third light source generated by the light-emitting element 23 is projected on the third light-collecting curved surface 13, the third reflected light source corresponding to the sixth focus F6 is formed by the reflection of the third light-converging curved surface 13. For example, in application, the lens focus F0 may coincide with the fourth focus F4, the second focus F2 and the sixth focus F6 are respectively adjacent to both sides of the lens focus F0, and the first light-emitting element 21 is directly disposed on the first focus F1. The second light emitting element 22 is directly disposed in the third At the focus F3, the third light-emitting element 23 is directly disposed on the fifth focus F5, so that for the lens structure 3, a continuous light source with three points connected to each other is directly projected on the lens structure 3, but the creation is not This is limited to this.

請參閱圖2D所示,以本創作第二實施例來說,透鏡焦點F0可以與第二焦點F2、第四焦點F4及第六焦點F6重合,使得第一軸線L1、第二軸線L2及第三軸線L3彼此交錯於透鏡焦點F0上。此外,將第一發光元件21鄰近於第一焦點F1的設置,第二發光元件22直接設置在第三焦點F3上,第三發光元件23鄰近於第五焦點F5的設置。換言之,如圖2E所示,圖2E為圖2D中A部分的局部放大示意圖,圖2D中發光結構2的第一發光元件21、第二發光元件22及第三發光元件23所投射於基準線H上的光源,對於透鏡結構3來說,將會形成一個由第一發光元件21’、第二發光元件22’及第三發光元件23’所相互連接的連續式光源。Referring to FIG. 2D, in the second embodiment of the present invention, the lens focus F0 may coincide with the second focus F2, the fourth focus F4, and the sixth focus F6 such that the first axis L1, the second axis L2, and the first The three axes L3 are interlaced with each other on the lens focus F0. Further, the first light-emitting element 21 is disposed adjacent to the first focus F1, the second light-emitting element 22 is directly disposed on the third focus F3, and the third light-emitting element 23 is adjacent to the fifth focus F5. In other words, as shown in FIG. 2E, FIG. 2E is a partially enlarged schematic view of a portion A of FIG. 2D, in which the first light-emitting element 21, the second light-emitting element 22, and the third light-emitting element 23 of the light-emitting structure 2 are projected on the reference line. The light source on H, for the lens structure 3, will form a continuous light source that is connected to each other by a first light-emitting element 21', a second light-emitting element 22' and a third light-emitting element 23'.

本創作第三實施例所提供之車燈模組C,可藉由燈杯結構1中第一聚光弧面11、第二聚光弧面12及第三聚光弧面13的曲率設計及發光結構2對應地設置於各個聚光弧面的焦點上,能夠使投射於透鏡結構3上的光源形成一連續式光源。The lamp module C provided in the third embodiment of the present invention can be designed by the curvature of the first collecting arc surface 11, the second collecting arc surface 12 and the third collecting curved surface 13 in the lamp cup structure 1 The light-emitting structure 2 is correspondingly disposed at the focus of each of the collecting curved surfaces, so that the light source projected on the lens structure 3 can form a continuous light source.

〔第四實施例〕[Fourth embodiment]

請參閱圖3A至圖3C所示,本創作第四實施例係提供一種車燈模組C,其包括一燈杯結構1、一發光結構2及一透鏡結構3。由圖3A及圖2A的比較可以了解,本創作第四實施例與第二實施例最大的差別在於第四實施例的燈杯結構1還進一步包括了一第一反射板17及一第二反射板18。Referring to FIG. 3A to FIG. 3C , a fourth embodiment of the present invention provides a vehicle lamp module C including a lamp cup structure 1 , a light emitting structure 2 , and a lens structure 3 . It can be understood from the comparison of FIG. 3A and FIG. 2A that the maximum difference between the fourth embodiment and the second embodiment of the present invention is that the lamp cup structure 1 of the fourth embodiment further includes a first reflector 17 and a second reflection. Board 18.

請參閱圖3A及圖3B所示,燈杯結構1具有一第一聚光弧面11、一第二聚光弧面12、一第三聚光弧面13、一第四聚光弧面14、一第一反射板17及一第二反射板18。第一反射板17可設置於第一聚光弧面11與第二聚光弧面12之間,以連接第一聚光弧面11與第二聚光弧面12,第二反射板18可設置於第三聚光弧面13與 第四聚光弧面14之間,以連接第三聚光弧面13與第四聚光弧面14。其中燈杯結構1還可具有一設置或連接於第二聚光弧面12及第三聚光弧面13之間的第一散光弧面15。接著,第一聚光弧面11具有一第一焦點F1及一第二焦點F2,第二聚光弧面12具有一第三焦點F3及一第四焦點F4,第三聚光弧面13具有一第五焦點F5及一第六焦點F6,第四聚光弧面14具有一第七焦點F7及一第八焦點F8,其中第一焦點F1及第二焦點F2位於一第一軸線L1上,第三焦點F3及第四焦點F4位於一第二軸線L2上,第五焦點F5及第六焦點F6位於一第三軸線L3上,第七焦點F7及第八焦點F8位於一第四軸線L4上。換言之,第一軸線L1、第二軸線L2、第三軸線L3及第四軸線L4都是由每個聚光弧面各自擁有的焦點所連線而成。值得一提的是,通過置入第一反射板17及第二反射板18後可增加燈杯結構1對於發光結構2的集光效率。Referring to FIG. 3A and FIG. 3B , the lamp cup structure 1 has a first collecting curved surface 11 , a second collecting curved surface 12 , a third collecting curved surface 13 , and a fourth collecting curved surface 14 . a first reflecting plate 17 and a second reflecting plate 18. The first reflecting plate 17 can be disposed between the first collecting curved surface 11 and the second collecting curved surface 12 to connect the first collecting curved surface 11 and the second collecting curved surface 12, and the second reflecting plate 18 can be Set on the third collecting curved surface 13 and The fourth collecting arc surface 14 is connected to connect the third collecting arc surface 13 and the fourth collecting arc surface 14. The lamp cup structure 1 can also have a first astigmatism curved surface 15 disposed or connected between the second collecting curved surface 12 and the third collecting curved surface 13. Then, the first collecting curved surface 11 has a first focus F1 and a second focus F2, the second collecting curved surface 12 has a third focus F3 and a fourth focus F4, and the third collecting curved surface 13 has a fifth focus F5 and a sixth focus F6, the fourth focus arc surface 14 has a seventh focus F7 and an eighth focus F8, wherein the first focus F1 and the second focus F2 are located on a first axis L1, The third focus F3 and the fourth focus F4 are located on a second axis L2, and the fifth focus F5 and the sixth focus F6 are located on a third axis L3, and the seventh focus F7 and the eighth focus F8 are located on a fourth axis L4. . In other words, the first axis L1, the second axis L2, the third axis L3, and the fourth axis L4 are each connected by a focal point possessed by each of the collecting curved surfaces. It is worth mentioning that the light collecting efficiency of the lamp cup structure 1 for the light emitting structure 2 can be increased by inserting the first reflecting plate 17 and the second reflecting plate 18.

接著,燈杯結構1可與一發光結構2及一透鏡結構3相互配合使用。其中發光結構2中的第一發光元件21對應於第一焦點F1,第二發光元件22對應於第三焦點F3,第三發光元件23對應於第五焦點F5,第四發光元件24對應於第七焦點F7。此外,燈杯結構1的第二焦點F2、第四焦點F4、第六焦點F6及第八焦點F8都位於透鏡結構3的基準線H上。因此,第一發光元件21所產生的第一光源投射在第一聚光弧面11上時,通過第一聚光弧面11的反射,會形成對應於第二焦點F2的第一反射光源,第二發光元件22所產生的第二光源投射在第二聚光弧面12上時,通過第二聚光弧面12的反射,會形成對應於第四焦點F4的第二反射光源,第三發光元件23所產生的第三光源投射在第三聚光弧面13上時,通過第三聚光弧面13的反射,會形成對應於第六焦點F6的第三反射光源,第四發光元件24所產生的第四光源投射在第四聚光弧面14上時,通過第四聚光弧面14的反射,會形成對應於第八焦點F8的第四反射光源。Then, the lamp cup structure 1 can be used in cooperation with a light emitting structure 2 and a lens structure 3. Wherein the first light-emitting element 21 in the light-emitting structure 2 corresponds to the first focus F1, the second light-emitting element 22 corresponds to the third focus F3, the third light-emitting element 23 corresponds to the fifth focus F5, and the fourth light-emitting element 24 corresponds to the first Seven focus F7. Further, the second focus F2, the fourth focus F4, the sixth focus F6, and the eighth focus F8 of the lamp cup structure 1 are all located on the reference line H of the lens structure 3. Therefore, when the first light source generated by the first light-emitting element 21 is projected on the first light-collecting curved surface 11, the first reflective light source corresponding to the second focus F2 is formed by the reflection of the first concentrated curved surface 11 . When the second light source generated by the second light-emitting element 22 is projected on the second light-collecting curved surface 12, the second reflective light source corresponding to the fourth focus F4 is formed by the reflection of the second light-converging curved surface 12, and the third When the third light source generated by the light-emitting element 23 is projected on the third light-collecting curved surface 13, the third reflective light source corresponding to the sixth focus F6 is formed by the reflection of the third concentrated curved surface 13, and the fourth light-emitting element When the fourth generated light source is projected on the fourth collecting curved surface 14, the fourth reflecting light source corresponding to the eighth focus F8 is formed by the reflection of the fourth collecting curved surface 14.

值得一提的是,以本創作第二實施例而言,經由第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14的曲率設計,使得透鏡焦點F0與第二焦點F2及第八焦點F8重合,第四焦點F4及第六焦點F6分別鄰近於透鏡焦點F0的兩側,然本創作不以此為限。請參閱圖3C所示,可以通過改變第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14的曲率,使得透鏡焦點F0與第四焦點F4及第六焦點F6重合,第二焦點F2及第八焦點F8分別鄰近於透鏡焦點F0的兩側。因此,對於透鏡結構3來說,將會形成一個三點相互連接的連續式光源。It is worth mentioning that, in the second embodiment of the present invention, the curvatures of the first collecting curved surface 11, the second collecting curved surface 12, the third collecting curved surface 13 and the fourth collecting curved surface 14 are obtained. The design is such that the lens focus F0 coincides with the second focus F2 and the eighth focus F8, and the fourth focus F4 and the sixth focus F6 are respectively adjacent to both sides of the lens focus F0, but the creation is not limited thereto. Referring to FIG. 3C, the curvature of the first concentrating arc surface 11, the second concentrating arc surface 12, the third concentrating arc surface 13 and the fourth concentrating arc surface 14 can be changed to make the lens focus F0 and the first The four focal points F4 and the sixth focus F6 coincide, and the second focus F2 and the eighth focus F8 are respectively adjacent to both sides of the lens focus F0. Therefore, for the lens structure 3, a continuous light source of three points connected to each other will be formed.

本創作第四實施例所提供之車燈模組C,可藉由燈杯結構1中第一聚光弧面11、第二聚光弧面12、第三聚光弧面13及第四聚光弧面14的曲率與第一反射板17及第二反射板18設計,能夠使投射於透鏡結構3上的光源形成一連續式光源且能夠增強其發光結構2的集光效率。The lamp module C provided in the fourth embodiment of the present invention can be configured by the first collecting arc surface 11, the second collecting arc surface 12, the third collecting curved surface 13 and the fourth gathering in the lamp cup structure 1. The curvature of the curved surface 14 and the design of the first reflecting plate 17 and the second reflecting plate 18 enable the light source projected on the lens structure 3 to form a continuous light source and enhance the light collecting efficiency of the light emitting structure 2.

〔第五實施例〕[Fifth Embodiment]

請參閱圖3D至圖3E所示,由圖3D及圖3C的比較可以了解,本創作第五實施例與第四實施例最大的差別在於聚光弧面的設計以及聚光弧面與各個發光元件之間的配置關係。以第五實施例而言,可以改變原本第四實施例中第二聚光弧面12及第三聚光弧面13的曲率,使得第二聚光弧面12與第三聚光弧面13的曲率相同,使之具有相同的焦點。Referring to FIG. 3D to FIG. 3E , it can be understood from the comparison of FIG. 3D and FIG. 3C that the biggest difference between the fifth embodiment and the fourth embodiment of the present invention is the design of the concentrated arc surface and the concentrated arc surface and the respective illumination. The configuration relationship between components. In the fifth embodiment, the curvatures of the second concentrating arc surface 12 and the third concentrating arc surface 13 in the fourth embodiment can be changed, so that the second concentrating arc surface 12 and the third concentrating arc surface 13 The curvature is the same, giving it the same focus.

如圖3D所示,本創作第五實施例係提供一種車燈模組C,其包括一燈杯結構1、一發光結構2及一透鏡結構3。燈杯結構1具有一第一聚光弧面11、一第二聚光弧面12、一第三聚光弧面13、一第一反射板17及一第二反射板18。第一反射板17可設置於第一聚光弧面11與第二聚光弧面12之間,以連接第一聚光弧面11與第二聚光弧面12,第二反射板18可設置於第二聚光弧面12與第三聚光弧面13之間,以連接第二聚光弧面12與第三聚光弧面 13。通過置入第一反射板17及第二反射板18後可增加燈杯結構1對於發光結構2的集光效率。其中,第一聚光弧面11具有一第一焦點F1及一第二焦點F2,第二聚光弧面12具有一第三焦點F3及一第四焦點F4,第三聚光弧面13具有一第五焦點F5及一第六焦點F6,其中第一焦點F1及第二焦點F2位於一第一軸線L1上,第三焦點F3及第四焦點F4位於一第二軸線L2上,第五焦點F5及第六焦點F6位於一第三軸線L3上,換言之,第一軸線L1、第二軸線L2及第三軸線L3都是由每個弧面各自擁有的焦點所連線而成。As shown in FIG. 3D, the fifth embodiment of the present invention provides a lamp module C, which includes a lamp cup structure 1, a light emitting structure 2, and a lens structure 3. The lamp cup structure 1 has a first collecting curved surface 11 , a second collecting curved surface 12 , a third collecting curved surface 13 , a first reflecting plate 17 and a second reflecting plate 18 . The first reflecting plate 17 can be disposed between the first collecting curved surface 11 and the second collecting curved surface 12 to connect the first collecting curved surface 11 and the second collecting curved surface 12, and the second reflecting plate 18 can be And disposed between the second collecting curved surface 12 and the third collecting curved surface 13 to connect the second collecting curved surface 12 and the third collecting curved surface 13. By incorporating the first reflecting plate 17 and the second reflecting plate 18, the light collecting efficiency of the lamp cup structure 1 with respect to the light emitting structure 2 can be increased. The first collecting curved surface 11 has a first focus F1 and a second focus F2, the second collecting curved surface 12 has a third focus F3 and a fourth focus F4, and the third collecting curved surface 13 has a fifth focus F5 and a sixth focus F6, wherein the first focus F1 and the second focus F2 are located on a first axis L1, and the third focus F3 and the fourth focus F4 are located on a second axis L2, the fifth focus F5 and the sixth focus F6 are located on a third axis L3. In other words, the first axis L1, the second axis L2, and the third axis L3 are each connected by a focal point possessed by each of the curved faces.

接著,燈杯結構1可以與一發光結構2相互配合應用,其中,發光結構2可包括一第一發光元件21、一第二發光元件22及一第三發光元件23,其中第一發光元件21對應於第一焦點F1,第二發光元件22對應於第三焦點F3,第三發光元件23對應於第五焦點F5。此外,燈杯結構1及發光結構2可以與一透鏡結構3相互配合應用。其中,透鏡結構3可具有一透鏡焦點F0、一主光軸V及一基準線H,其中透鏡焦點F0位於主光軸V與基準線H的交點上,透鏡結構3與基準線H之間的距離為透鏡焦點F0至透鏡結構3的距離,主光軸V與基準線H相互垂直的設置,而基準線H與透鏡結構3相互平行的設置。燈杯結構1中的第二焦點F2、第四焦點F4及第六焦點F6經由以橢圓為基礎的聚光弧面特性,使前述第二焦點F2、第四焦點F4及第六焦點F6都位於透鏡結構3的基準線H上。因此,第一發光元件21所產生的第一光源投射在第一聚光弧面11上時,通過第一聚光弧面11的反射,會形成對應於第二焦點F2的第一反射光源,第二發光元件22所產生的第二光源投射在第二聚光弧面12上時,通過第二聚光弧面12的反射,會形成對應於第四焦點F4的第二反射光源,第三發光元件23所產生的第三光源投射在第三聚光弧面13上時,通過第三聚光弧面13的反射,會形成對應於第六焦點F6的第三反射光源。舉例 來說,如圖3D所示,透鏡焦點F0可以與第二焦點F2、第四焦點F4及第六焦點F6重合,使得第一軸線L1、第二軸線L2及第三軸線L3彼此交錯於透鏡焦點F0上。接著,將第一發光元件21鄰近於第一焦點F1的設置,第二發光元件22直接設置在第三焦點F3上,第三發光元件23鄰近於第五焦點F5的設置。換言之,如圖3E所示,圖3E為圖3D中B部分的局部放大示意圖,圖3D中發光結構2的第一發光元件21、第二發光元件22及第三發光元件23所投射於基準線H上的光源,對於透鏡結構3來說,將會形成一個由第一發光元件21’、第二發光元件22’及第三發光元件23’所相互連接的連續式光源。The light-emitting structure 2 can be used in conjunction with a light-emitting structure 2, wherein the light-emitting structure 2 can include a first light-emitting element 21, a second light-emitting element 22, and a third light-emitting element 23, wherein the first light-emitting element 21 Corresponding to the first focus F1, the second light-emitting element 22 corresponds to the third focus F3, and the third light-emitting element 23 corresponds to the fifth focus F5. In addition, the lamp cup structure 1 and the light emitting structure 2 can be used in cooperation with a lens structure 3. The lens structure 3 may have a lens focus F0, a main optical axis V and a reference line H, wherein the lens focus F0 is located at the intersection of the main optical axis V and the reference line H, between the lens structure 3 and the reference line H. The distance is the distance from the lens focus F0 to the lens structure 3, the main optical axis V and the reference line H are arranged perpendicular to each other, and the reference line H and the lens structure 3 are arranged parallel to each other. The second focus F2, the fourth focus F4, and the sixth focus F6 in the lamp cup structure 1 are disposed such that the second focus F2, the fourth focus F4, and the sixth focus F6 are located via an elliptical-based concentrated arc surface characteristic. On the reference line H of the lens structure 3. Therefore, when the first light source generated by the first light-emitting element 21 is projected on the first light-collecting curved surface 11, the first reflective light source corresponding to the second focus F2 is formed by the reflection of the first concentrated curved surface 11 . When the second light source generated by the second light-emitting element 22 is projected on the second light-collecting curved surface 12, the second reflective light source corresponding to the fourth focus F4 is formed by the reflection of the second light-converging curved surface 12, and the third When the third light source generated by the light-emitting element 23 is projected on the third light-collecting curved surface 13, the third reflected light source corresponding to the sixth focus F6 is formed by the reflection of the third light-converging curved surface 13. Example As shown in FIG. 3D, the lens focus F0 may coincide with the second focus F2, the fourth focus F4, and the sixth focus F6 such that the first axis L1, the second axis L2, and the third axis L3 are interlaced with each other at the lens focus. F0. Next, the first light-emitting element 21 is disposed adjacent to the first focus F1, the second light-emitting element 22 is directly disposed on the third focus F3, and the third light-emitting element 23 is adjacent to the fifth focus F5. In other words, as shown in FIG. 3E, FIG. 3E is a partially enlarged schematic view of a portion B of FIG. 3D, in which the first light-emitting element 21, the second light-emitting element 22, and the third light-emitting element 23 of the light-emitting structure 2 are projected on a reference line. The light source on H, for the lens structure 3, will form a continuous light source that is connected to each other by a first light-emitting element 21', a second light-emitting element 22' and a third light-emitting element 23'.

本創作第五實施例所提供之車燈模組C,可藉由改變燈杯結構1中第一聚光弧面11、第二聚光弧面12及第三聚光弧面13的曲率與第一反射板17及第二反射板18設計,並同時通過改變發光結構2設置於燈杯結構上的位置,能夠使投射於透鏡結構3上的光源形成一連續式光源且能夠增強其發光結構2的集光效率。The lamp module C provided in the fifth embodiment of the present invention can change the curvature of the first collecting arc surface 11, the second collecting arc surface 12 and the third collecting curved surface 13 in the lamp cup structure 1 The first reflecting plate 17 and the second reflecting plate 18 are designed, and at the same time, by changing the position of the light emitting structure 2 on the lamp cup structure, the light source projected on the lens structure 3 can form a continuous light source and can enhance the light emitting structure thereof. 2 collection efficiency.

〔第六實施例〕[Sixth embodiment]

請參閱圖4A至圖4B所示,本創作第六實施例係提供一種車燈模組C,其包括兩個燈杯結構1,1’、兩組發光結構2,2’、一透鏡結構3及一光束調整結構5,由圖4A、圖4B及圖1C的比較可以了解,第六實施例相較於第一實施例還進一步包括一光束調整結構5及另一組燈杯結構1’與另一組發光結構2’,需說明的是,第六實施例中的燈杯結構1可以直接使用前述第一實施例至第五實施例中的任一組燈杯結構1使用。以本創作第六實施例而言,光束調整結構5設置於主光軸V上且鄰近於透鏡焦點F0,光束調整結構5的形狀可以為楔形狀的椎體,光束調整結構5可具有一反射面以反射發光模組2,2’所發出的光源,舉例來說,反射面可具有一上反射面51及一下反射面52,其中上反射面51及下反射面52為鏡面。當發光結構2,2’所產生的光源投射在聚光弧面上 時,通過聚光弧面的反射,會形成一反射光源,而光束調整結構5的其中一個作用在於將原本不穿過透鏡結構3而投射於透鏡結構3兩側的反射光源,通過光束調整結構5的上反射面51及下反射面52的鏡面反射,使反射光源藉由鏡面反射的效果而穿過透鏡結構3,以提升集光效率。Referring to FIG. 4A to FIG. 4B , the sixth embodiment of the present invention provides a vehicle lamp module C, which comprises two lamp cup structures 1 , 1 ′, two sets of light-emitting structures 2, 2 ′, and a lens structure 3 . And a beam adjusting structure 5, as can be seen from the comparison of FIG. 4A, FIG. 4B and FIG. 1C, the sixth embodiment further includes a beam adjusting structure 5 and another set of lamp cup structures 1' and the first embodiment. Another group of light-emitting structures 2', it should be noted that the lamp cup structure 1 of the sixth embodiment can be directly used by any of the above-described first to fifth embodiments of the lamp cup structure 1. In the sixth embodiment of the present invention, the beam adjustment structure 5 is disposed on the main optical axis V and adjacent to the lens focus F0. The shape of the beam adjustment structure 5 may be a wedge-shaped vertebral body, and the beam adjustment structure 5 may have a reflection. For example, the reflecting surface may have an upper reflecting surface 51 and a lower reflecting surface 52, wherein the upper reflecting surface 51 and the lower reflecting surface 52 are mirror surfaces. When the light source 2, 2' produces a light source projected on the collecting curved surface When the reflection of the concentrated arc surface is formed, a reflection light source is formed, and one of the functions of the beam adjustment structure 5 is to reflect the reflection light source that is not projected through the lens structure 3 on both sides of the lens structure 3 through the beam adjustment structure. The specular reflection of the upper reflecting surface 51 and the lower reflecting surface 52 causes the reflected light source to pass through the lens structure 3 by the effect of specular reflection to enhance the light collecting efficiency.

請參閱圖4B所示,燈杯結構1及燈杯結構1’沿著主光軸V的兩側排列,燈杯結構1及燈杯結構1’與主光軸V之間形成一傾角θ1,光束調整結構5的上反射面51與主光軸V之間形成一斜度θ2,其中光束調整結構5的斜度θ2可以與燈杯結構1的傾角θ1相同,光束調整結構5的斜度θ2也可以大於燈杯結構1的傾角θ1或小於燈杯結構1的傾角θ1,然而,較佳地,光束調整結構5的斜度θ2不大於燈杯結構1的傾角θ1的兩倍,光束調整結構5的斜度θ2不小於燈杯結構1的傾角θ1的1/4倍。值得一提的是,光束調整結構5鄰近地設置於透鏡結構3的透鏡焦點F0,光束調整結構5的前端,也就是楔形狀的椎體的頂點與透鏡結構3的透鏡焦點F0可相距一間隔距離W,其中間隔距離W的距離約為0.5毫米至1毫米之間。值得一提的是,燈杯結構1與燈杯結構1’之間可設置一散熱結構,並於散熱結構上設置一基板S以設置發光結構2及發光結構2’並通過散熱結構將發光結構2,2’的熱能散發出去。Referring to FIG. 4B, the lamp cup structure 1 and the lamp cup structure 1' are arranged along both sides of the main optical axis V, and the lamp cup structure 1 and the lamp cup structure 1' form an inclination angle θ1 with the main optical axis V. A slope θ2 is formed between the upper reflecting surface 51 of the beam adjusting structure 5 and the main optical axis V, wherein the slope θ2 of the beam adjusting structure 5 can be the same as the tilt angle θ1 of the lamp cup structure 1, and the slope θ2 of the beam adjusting structure 5 It may also be larger than the inclination angle θ1 of the lamp cup structure 1 or smaller than the inclination angle θ1 of the lamp cup structure 1. However, preferably, the inclination θ2 of the beam adjustment structure 5 is not more than twice the inclination angle θ1 of the lamp cup structure 1, and the beam adjustment structure The inclination θ2 of 5 is not less than 1/4 times the inclination angle θ1 of the lamp cup structure 1. It is worth mentioning that the beam adjusting structure 5 is disposed adjacent to the lens focus F0 of the lens structure 3, and the front end of the beam adjusting structure 5, that is, the apex of the wedge-shaped vertebral body and the lens focus F0 of the lens structure 3 may be spaced apart from each other. The distance W, wherein the distance W is between about 0.5 mm and 1 mm. It is worth mentioning that a heat dissipation structure can be disposed between the lamp cup structure 1 and the lamp cup structure 1 ′, and a substrate S is disposed on the heat dissipation structure to provide the light emitting structure 2 and the light emitting structure 2 ′ and the light emitting structure is adopted through the heat dissipation structure. 2, 2' heat is emitted.

接著,請同時參閱圖4A及圖4B所示,如同第一實施例所述,燈杯結構1具有一第一聚光弧面11、一第二聚光弧面12、一第三聚光弧面13及一第四聚光弧面14,以及一設置或連接於第一聚光弧面11及第二聚光弧面12之間的第一散光弧面15,一設置或連接於第三聚光弧面13及第四聚光弧面14之間的第二散光弧面16,同樣的,燈杯結構1’也具有該些聚光弧面。發光結構2也同樣的如同第一實施般對應地設置於燈杯結構1中,同時,發光結構2’也對應地設置於燈杯結構1’當中。舉例來說,發光結構2所 產生的第一光線R1、第二光線R2及第三光線R3,經由燈杯結構1的聚光弧面反射,使得第一光線R1’、第二光線R2’及第三光線R3’都夠穿過透鏡結構3,其中,發光結構2所產生的第二光線R2係是通過光束調整結構5的鏡面反射,而產生一第二光線R2’反射至透鏡結構3,進而穿過透鏡結構3。Next, as shown in FIG. 4A and FIG. 4B, as shown in the first embodiment, the lamp cup structure 1 has a first collecting arc surface 11, a second collecting arc surface 12, and a third collecting arc. a surface 13 and a fourth concentrating arc surface 14, and a first astigmatism curved surface 15 disposed or connected between the first concentrating curved surface 11 and the second concentrating curved surface 12, one disposed or connected to the third The second astigmatism curved surface 16 between the collecting curved surface 13 and the fourth collecting curved surface 14 also has the collecting curved surface 1'. The light-emitting structure 2 is also similarly disposed in the lamp cup structure 1 as in the first embodiment, and the light-emitting structure 2' is also correspondingly disposed in the lamp cup structure 1'. For example, the light-emitting structure 2 The generated first light R1, the second light R2, and the third light R3 are reflected by the concentrated arc surface of the lamp cup structure 1, so that the first light R1', the second light R2', and the third light R3' are all penetrated. The lens structure 3, wherein the second light ray R2 generated by the light-emitting structure 2 is specularly reflected by the beam-adjusting structure 5, generates a second light ray R2' to be reflected to the lens structure 3, and then passes through the lens structure 3.

本創作第六實施例所提供之車燈模組C,可藉由光束調整結構5的設置,同時與兩組燈杯結構1,1’及發光結構2,2’的配合,通過光束調整結構5的上反射面51及下反射面52的反射,將原本不會穿過透鏡結構3的反射光源,藉由光束調整結構5的反射而使其穿過透鏡結構3,以提升集光效率。同時,本創作第六實施例的車燈模組C特別適用於遠光燈系統,相較於傳統的遠光燈系統,能夠縮小車燈模組的尺寸,同時能夠通過多個聚光弧面的設置,而使用多個發光元件,以提升照度、流明數及光源的照射距離。The lamp module C provided in the sixth embodiment of the present invention can be combined with the two sets of lamp cup structures 1, 1' and the light-emitting structures 2, 2' by the beam adjusting structure 5, and the beam adjusting structure is adopted. The reflection of the upper reflecting surface 51 and the lower reflecting surface 52 of 5 causes the reflecting light source which does not originally pass through the lens structure 3 to pass through the lens structure 3 by the reflection of the beam adjusting structure 5 to improve the light collecting efficiency. Meanwhile, the lamp module C of the sixth embodiment of the present invention is particularly suitable for a high beam system, which can reduce the size of the lamp module and can pass through a plurality of collecting curved surfaces as compared with the conventional high beam system. The setting uses a plurality of light-emitting elements to increase the illumination, the number of lumens, and the illumination distance of the light source.

〔實施例的可能功效〕[Possible effects of the examples]

綜上所述,本創作的有益效果可以在於,通過本創作所提供的車燈模組C,其可以特別適用於非連續式的發光二極體封裝結構,且通過將發光元件對應地與燈杯結構1中的各個杯面焦點的設置方式,不僅可以符合相關法規且能夠降低製造成本,同時能夠增加照度、流明數及光源的照射距離。In summary, the beneficial effect of the present invention may be that the lamp module C provided by the present invention can be particularly suitable for a discontinuous light-emitting diode package structure, and by correspondingly illuminating the light-emitting element with the light The arrangement of the respective cup faces in the cup structure 1 can not only comply with relevant regulations but also reduce the manufacturing cost, and can increase the illuminance, the number of lumens, and the irradiation distance of the light source.

以上所述僅為本創作的較佳可行實施例,非因此侷限本創作的專利範圍,故舉凡運用本創作說明書及圖式內容所做的等效技術變化,均包含於本創作的保護範圍內。The above description is only a preferred and feasible embodiment of the present invention, and thus does not limit the scope of the patent of the present invention. Therefore, any equivalent technical changes made by using the present specification and the contents of the schema are included in the scope of protection of the present creation. .

C‧‧‧車燈模組C‧‧‧Light module

1‧‧‧燈杯結構1‧‧‧light cup structure

11‧‧‧第一聚光弧面11‧‧‧The first concentrated arc surface

12‧‧‧第二聚光弧面12‧‧‧Second concentrated arc surface

13‧‧‧第三聚光弧面13‧‧‧The third concentrated arc surface

14‧‧‧第四聚光弧面14‧‧‧The fourth concentrated arc surface

2‧‧‧發光結構2‧‧‧Lighting structure

21‧‧‧第一發光元件21‧‧‧First light-emitting element

22‧‧‧第二發光元件22‧‧‧Second light-emitting element

23‧‧‧第三發光元件23‧‧‧ Third light-emitting element

24‧‧‧第四發光元件24‧‧‧fourth light-emitting element

3‧‧‧透鏡結構3‧‧‧Lens structure

F0‧‧‧透鏡焦點F0‧‧‧ lens focus

F1‧‧‧第一焦點F1‧‧‧ first focus

F2‧‧‧第二焦點F2‧‧‧second focus

F3‧‧‧第三焦點F3‧‧‧ third focus

F4‧‧‧第四焦點F4‧‧‧ fourth focus

F5‧‧‧第五焦點F5‧‧‧ fifth focus

F6‧‧‧第六焦點F6‧‧‧ sixth focus

F7‧‧‧第七焦點F7‧‧‧ seventh focus

F8‧‧‧第八焦點F8‧‧‧ eighth focus

V‧‧‧主光軸V‧‧‧ main optical axis

H‧‧‧基準線H‧‧‧ baseline

L1‧‧‧第一軸線L1‧‧‧first axis

L2‧‧‧第二軸線L2‧‧‧second axis

L3‧‧‧第三軸線L3‧‧‧ third axis

L4‧‧‧第四軸線L4‧‧‧fourth axis

Claims (11)

一種車燈模組,其包括:一燈杯結構,所述燈杯結構具有一第一聚光弧面、一第二聚光弧面、一第三聚光弧面及一第四聚光弧面,所述第一聚光弧面具有一第一焦點及一第二焦點,所述第二聚光弧面具有一第三焦點及一第四焦點,所述第三聚光弧面具有一第五焦點及一第六焦點,所述第四聚光弧面具有一第七焦點及一第八焦點,其中所述第一焦點及所述第二焦點位於一第一軸線上,所述第三焦點及所述第四焦點位於一第二軸線上,所述第五焦點及所述第六焦點位於一第三軸線上,所述第七焦點及所述第八焦點位於一第四軸線上;一發光結構,所述發光結構包括一第一發光元件、一第二發光元件、一第三發光元件及一第四發光元件,其中所述第一發光元件對應於所述第一焦點,所述第二發光元件對應於所述第三焦點,所述第三發光元件對應於所述第五焦點,所述第四發光元件對應於所述第七焦點;以及一透鏡結構,所述透鏡結構具有一透鏡焦點、一主光軸及一基準線,其中所述透鏡焦點位於所述主光軸與所述基準線交點上,所述基準線與所述透鏡結構相互平行;其中,所述第二焦點、所述第四焦點、所述第六焦點及所述第八焦點都位於所述基準線上;其中,所述第一發光元件所產生的所述第一光源投射在所述第一聚光弧面上,以形成對應於所述第二焦點的第一反射光源,所述第二發光元件所產生的所述第二光源投射在所述第二聚光弧面上,以形成對應於所述第四焦點的第二反射光源,所述第三發光元件所產生的所述第三光源投射在所述第三聚光弧面上,以形成對應於所述第六焦點的第三反射光 源,所述第四發光元件所產生的所述第四光源投射在所述第四聚光弧面上,以形成對應於所述第八焦點的第四反射光源。A lamp module includes: a lamp cup structure having a first collecting arc surface, a second collecting arc surface, a third collecting arc surface, and a fourth collecting arc The first concentrating arc mask has a first focus and a second focus, the second concentrating arc mask has a third focus and a fourth focus, and the third concentrating arc mask has a a fifth focus and a sixth focus, the fourth focus arc mask has a seventh focus and an eighth focus, wherein the first focus and the second focus are on a first axis, the The third focus and the fourth focus are on a second axis, the fifth focus and the sixth focus are on a third axis, and the seventh focus and the eighth focus are on a fourth axis a light emitting structure, the light emitting structure comprising a first light emitting element, a second light emitting element, a third light emitting element and a fourth light emitting element, wherein the first light emitting element corresponds to the first focus, The second light emitting element corresponds to the third focus, and the third light emitting element corresponds to the first a focus, the fourth light-emitting element corresponding to the seventh focus; and a lens structure having a lens focus, a main optical axis, and a reference line, wherein the lens focus is located on the main optical axis The reference line and the lens structure are parallel to each other at an intersection with the reference line; wherein the second focus, the fourth focus, the sixth focus, and the eighth focus are both located in the reference a first light source generated by the first light emitting element is projected on the first light collecting arc surface to form a first reflective light source corresponding to the second focus, the second light emitting The second light source generated by the component is projected on the second collecting arc surface to form a second reflecting light source corresponding to the fourth focus, and the third light source generated by the third light emitting element Projecting on the third collecting arc surface to form a third reflected light corresponding to the sixth focus a source, the fourth light source generated by the fourth light emitting element is projected on the fourth light collecting arc surface to form a fourth reflected light source corresponding to the eighth focus. 如請求項1所述之車燈模組,其中所述透鏡焦點與所述第四焦點及所述第六焦點重合,所述第二焦點及所述第八焦點分別鄰近於所述透鏡焦點的兩側。The lamp module of claim 1, wherein the lens focus coincides with the fourth focus and the sixth focus, and the second focus and the eighth focus are respectively adjacent to the lens focus On both sides. 如請求項1所述之車燈模組,其中所述透鏡焦點與所述第二焦點及所述第八焦點重合,所述第四焦點及所述第六焦點分別鄰近於所述透鏡焦點的兩側。The lamp module of claim 1, wherein the lens focus coincides with the second focus and the eighth focus, and the fourth focus and the sixth focus are respectively adjacent to the lens focus On both sides. 如請求項1所述之車燈模組,其中所述第一發光元件鄰近於所述第一焦點或直接設置在所述第一焦點上,所述第二發光元件鄰近於所述第三焦點或直接設置在所述第三焦點上,所述第三發光元件鄰近於所述第五焦點或直接設置在所述第五焦點上,所述第四發光元件鄰近於所述第七焦點或直接設置在所述第七焦點上。The vehicle light module of claim 1, wherein the first light emitting element is adjacent to the first focus or directly disposed on the first focus, and the second light emitting element is adjacent to the third focus Or directly disposed on the third focus, the third light-emitting element is adjacent to the fifth focus or directly disposed on the fifth focus, the fourth light-emitting element is adjacent to the seventh focus or directly Set at the seventh focus. 如請求項1所述之車燈模組,還進一步包括一反射結構,所述反射結構包括一第一反射鏡及一第二反射鏡,其中所述第一反射鏡設置於所述第一發光元件及所述第二發光元件之間,所述第二反射鏡設置於所述第三發光元件及所述第四發光元件之間。The vehicle lamp module of claim 1, further comprising a reflective structure, the reflective structure comprising a first mirror and a second mirror, wherein the first mirror is disposed on the first light The second mirror is disposed between the element and the second light emitting element between the third light emitting element and the fourth light emitting element. 如請求項1所述之車燈模組,還進一步包括一光束調整結構,其中所述光束調整結構設置於所述主光軸上且鄰近於所述透鏡焦點,所述光束調整結構具有一反射面。The lamp module of claim 1, further comprising a beam adjustment structure, wherein the beam adjustment structure is disposed on the main optical axis and adjacent to the lens focus, and the beam adjustment structure has a reflection surface. 一種車燈模組,其包括:一燈杯結構,所述燈杯結構具有一第一聚光弧面、一第二聚光弧面、一第三聚光弧面、一第四聚光弧面、一第一反射板及一第二反射板,所述第一反射板設置於所述第一聚光弧面與所述第二聚光弧面之間,以連接所述第一聚光弧面與所述第 二聚光弧面,所述第二反射板設置於所述第三聚光弧面與所述第四聚光弧面之間,以連接所述第三聚光弧面與所述第四聚光弧面;其中所述第一聚光弧面具有一第一焦點及一第二焦點,所述第二聚光弧面具有一第三焦點及一第四焦點,所述第三聚光弧面具有一第五焦點及一第六焦點,所述第四聚光弧面具有一第七焦點及一第八焦點,所述第一焦點及所述第二焦點位於一第一軸線上,所述第三焦點及所述第四焦點位於一第二軸線上,所述第五焦點及所述第六焦點位於一第三軸線上,所述第七焦點及所述第八焦點位於一第四軸線上;一發光結構,所述發光結構包括一第一發光元件、一第二發光元件、一第三發光元件及一第四發光元件,其中所述第一發光元件對應於所述第一焦點,所述第二發光元件對應於所述第三焦點,所述第三發光元件對應於所述第五焦點,所述第四發光元件對應於所述第七焦點;以及一透鏡結構,所述透鏡結構具有一透鏡焦點、一主光軸及一基準線,其中所述透鏡焦點位於所述主光軸與所述基準線交點上,所述基準線與所述透鏡結構相互平行;其中,所述第二焦點、所述第四焦點、所述第六焦點及所述第八焦點都位於所述基準線上;其中,所述第一發光元件所產生的所述第一光源投射在所述第一聚光弧面上,以形成對應於所述第二焦點的第一反射光源,所述第二發光元件所產生的所述第二光源投射在所述第二聚光弧面上,以形成對應於所述第四焦點的第二反射光源,所述第三發光元件所產生的所述第三光源投射在所述第三聚光弧面上,以形成對應於所述第六焦點的第三反射光源,所述第四發光元件所產生的所述第四光源投射在所述第四聚光弧面上,以形成對應於所述第八焦點的第四反射光 源。A lamp module includes: a lamp cup structure having a first collecting arc surface, a second collecting arc surface, a third collecting arc surface, and a fourth collecting arc a first reflecting plate and a second reflecting plate disposed between the first collecting curved surface and the second collecting curved surface to connect the first collecting light Arc surface and said a second concentrating arc surface, the second reflecting plate is disposed between the third concentrating arc surface and the fourth concentrating arc surface to connect the third concentrating arc surface with the fourth concentrating surface a light arc surface; wherein the first light collecting arc mask has a first focus and a second focus, and the second light collecting arc mask has a third focus and a fourth focus, the third concentrated arc The mask has a fifth focus and a sixth focus, the fourth focus arc mask has a seventh focus and an eighth focus, and the first focus and the second focus are on a first axis. The third focus and the fourth focus are on a second axis, the fifth focus and the sixth focus are on a third axis, and the seventh focus and the eighth focus are located at a fourth An illumination structure, the illumination structure comprising a first illumination element, a second illumination element, a third illumination element and a fourth illumination element, wherein the first illumination element corresponds to the first focus The second light emitting element corresponds to the third focus, and the third light emitting element corresponds to the first a focus, the fourth light-emitting element corresponding to the seventh focus; and a lens structure having a lens focus, a main optical axis, and a reference line, wherein the lens focus is located on the main optical axis The reference line and the lens structure are parallel to each other at an intersection with the reference line; wherein the second focus, the fourth focus, the sixth focus, and the eighth focus are both located in the reference a first light source generated by the first light emitting element is projected on the first light collecting arc surface to form a first reflective light source corresponding to the second focus, the second light emitting The second light source generated by the component is projected on the second collecting arc surface to form a second reflecting light source corresponding to the fourth focus, and the third light source generated by the third light emitting element Projecting on the third collecting arc surface to form a third reflecting light source corresponding to the sixth focus, and the fourth light source generated by the fourth light emitting element is projected on the fourth collecting arc Face to form corresponding to the eighth The fourth reflected light point source. 如請求項7所述之車燈模組,其中所述透鏡焦點與所述第二焦點、所述第四焦點、所述第六焦點及所述第八焦點重合,所述第一發光元件鄰近於所述第一焦點,所述第四發光元件鄰近於所述第七焦點。The vehicle light module of claim 7, wherein the lens focus coincides with the second focus, the fourth focus, the sixth focus, and the eighth focus, the first light emitting element is adjacent to The fourth light emitting element is adjacent to the seventh focus at the first focus. 如請求項7所述之車燈模組,其中所述第一發光元件鄰近於所述第一焦點或直接設置在所述第一焦點上,所述第二發光元件鄰近於所述第三焦點或直接設置在所述第三焦點上,所述第三發光元件鄰近於所述第五焦點或直接設置在所述第五焦點上,所述第四發光元件鄰近於所述第七焦點或直接設置在所述第七焦點上。The vehicle light module of claim 7, wherein the first light emitting element is adjacent to the first focus or directly disposed on the first focus, and the second light emitting element is adjacent to the third focus Or directly disposed on the third focus, the third light-emitting element is adjacent to the fifth focus or directly disposed on the fifth focus, the fourth light-emitting element is adjacent to the seventh focus or directly Set at the seventh focus. 一種車燈模組,其包括:一燈杯結構,所述燈杯結構具有一第一聚光弧面、一第二聚光弧面及一第三聚光弧面,所述第一聚光弧面具有一第一焦點及一第二焦點,所述第二聚光弧面具有一第三焦點及一第四焦點,所述第三聚光弧面具有一第五焦點及一第六焦點,其中所述第一焦點及所述第二焦點位於一第一軸線上,所述第三焦點及所述第四焦點位於一第二軸線上,所述第五焦點及所述第六焦點位於一第三軸線上;一發光結構,所述發光結構包括一第一發光元件、一第二發光元件及一第三發光元件,其中所述第一發光元件對應於所述第一焦點,所述第二發光元件對應於所述第三焦點,所述第三發光元件對應於所述第五焦點;以及一透鏡結構,所述透鏡結構具有一透鏡焦點、一主光軸及一基準線,其中所述透鏡焦點位於所述主光軸與所述基準線交點上,所述基準線與所述透鏡結構相互平行;其中,所述第二焦點、所述第四焦點及所述第六焦點都位於所述基準線上; 其中,所述第一發光元件所產生的所述第一光源投射在所述第一聚光弧面上,以形成對應於所述第二焦點的第一反射光源,所述第二發光元件所產生的所述第二光源投射在所述第二聚光弧面上,以形成對應於所述第四焦點的第二反射光源,所述第三發光元件所產生的所述第三光源投射在所述第三聚光弧面上,以形成對應於所述第六焦點的第三反射光源。A lamp module includes: a lamp cup structure having a first collecting arc surface, a second collecting arc surface and a third collecting arc surface, the first collecting light The arc mask has a first focus and a second focus, the second concentrated arc mask has a third focus and a fourth focus, and the third concentrated arc mask has a fifth focus and a sixth focus The first focus and the second focus are on a first axis, the third focus and the fourth focus are on a second axis, and the fifth focus and the sixth focus are located a third axis; a light emitting structure, the light emitting structure comprising a first light emitting element, a second light emitting element and a third light emitting element, wherein the first light emitting element corresponds to the first focus, a second light emitting element corresponding to the third focus, the third light emitting element corresponding to the fifth focus; and a lens structure having a lens focus, a main optical axis, and a reference line, wherein The lens focus is located at an intersection of the main optical axis and the reference line The reference line parallel with the lens structure; wherein the second focal point, the fourth and the sixth focal point of the focal point are located on a reference line; The first light source generated by the first light emitting element is projected on the first light collecting curved surface to form a first reflective light source corresponding to the second focus, and the second light emitting element is The generated second light source is projected on the second collecting arc surface to form a second reflecting light source corresponding to the fourth focus, and the third light source generated by the third light emitting element is projected on The third collecting arc surface forms a third reflecting light source corresponding to the sixth focus. 如請求項10所述之車燈模組,其中所述第一發光元件鄰近於所述第一焦點或直接設置在所述第一焦點上,所述第二發光元件直接設置在所述第三焦點上,所述第三發光元件鄰近於所述第五焦點或直接設置在所述第五焦點上。The vehicle light module of claim 10, wherein the first light emitting element is adjacent to the first focus or directly disposed on the first focus, and the second light emitting element is directly disposed at the third In focus, the third illuminating element is adjacent to the fifth focus or directly disposed on the fifth focus.
TW103206812U 2014-04-18 2014-04-18 Vehicle lamp module TWM485162U (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI558943B (en) * 2014-04-18 2016-11-21 王正 Vehicle lamp module
TWI579488B (en) * 2014-10-20 2017-04-21 錼創科技股份有限公司 Optical module
TWI583578B (en) * 2015-02-17 2017-05-21 世正光電股份有限公司 Distance-adjustable vehicle lamp device
TWI588403B (en) * 2015-01-05 2017-06-21 隆達電子股份有限公司 Light emitting diode vehicle headlight
TWI601908B (en) * 2016-08-10 2017-10-11 T Y C Brother Industrial Co Ltd Projection headlights
TWI626402B (en) * 2017-03-31 2018-06-11 誠益光電科技股份有限公司 Light projection device
TWI635975B (en) * 2015-04-15 2018-09-21 世正光電股份有限公司 Distance-adjustable vehicle lamp device
TWI650256B (en) * 2018-01-29 2019-02-11 誠益光電科技股份有限公司 Smart headlight

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI558943B (en) * 2014-04-18 2016-11-21 王正 Vehicle lamp module
TWI579488B (en) * 2014-10-20 2017-04-21 錼創科技股份有限公司 Optical module
TWI588403B (en) * 2015-01-05 2017-06-21 隆達電子股份有限公司 Light emitting diode vehicle headlight
US9964274B2 (en) 2015-01-05 2018-05-08 Lextar Electronics Corporation Light emitting diode vehicle headlight
TWI583578B (en) * 2015-02-17 2017-05-21 世正光電股份有限公司 Distance-adjustable vehicle lamp device
US9982863B2 (en) 2015-02-17 2018-05-29 Adi Optics Co., Ltd. Light distance-adjustable vehicle lamp device
TWI635975B (en) * 2015-04-15 2018-09-21 世正光電股份有限公司 Distance-adjustable vehicle lamp device
TWI601908B (en) * 2016-08-10 2017-10-11 T Y C Brother Industrial Co Ltd Projection headlights
TWI626402B (en) * 2017-03-31 2018-06-11 誠益光電科技股份有限公司 Light projection device
TWI650256B (en) * 2018-01-29 2019-02-11 誠益光電科技股份有限公司 Smart headlight
CN110094688A (en) * 2018-01-29 2019-08-06 诚益光电科技股份有限公司 Intelligent head lamp
CN110094688B (en) * 2018-01-29 2021-07-23 诚益光电科技股份有限公司 Intelligent head lamp

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