200902911 九、發明說明: 【發明所屬之技術領域】 媒^發Γ係為一種可置換透鏡之發光二極體透鏡模組結 具之可飄鏡之發光二 【先前技術】 旦Γ光ΐ極體係為—冷光源,且具有耗電量低、元件壽命 二’:』友燈時間、反應速度快...等優點,加上發光二極體體 陵丨4才震動適合置產,可配合使用需求而製作成小型或是 2式發光元件。因此發光二極體已普遍使用於資訊、通訊及 ^ 電子產品的指示及顯示裝置上。且隨著環保節能意識高 漲,使得發光二極體成為新一代燈具之選擇。 =中華民國發明專利第删379號中所揭露之—種用於路 二=發光二極體照明燈具,其包括:複數個作為光源使用 數個體聚光組件;一燈座;一燈罩;-電路板;以及複 ’、、、政熱片及發光二極體聚光組件係設置於燈座上, ,由電路板連接每—發光二極體聚光組件,又燈罩係放 燈座之上方。 物上ΐϊ燈ΐ之燈座上並設置有複數個突出物,且於每-突出 t置-發光二極體聚光組件,藉由對每—突出物設計不同 批心角度,使得每—發光二極體聚光組件偏擺-角度,藉以 控制每1光二極體聚総狀照縣域。 料 上述之前案,其係使用複數個發光二極體於照明燈具,卻 200902911 具有如以下之缺點: 獲數個具傾斜角度之突出物’藉以控制每-發 心::光組件之照明區域,而無法由每-發光二極體 4 人先組件直接控制其照明區域。 -:具,斜角度之突出物上方結合有發光二極體聚光組 二:以控制發光二極體聚光組件之照明區域,然而若是 f大出物之傾斜角度製作不良’則將影響整體照明效 率〇 右要改又發光二極體照明燈具的照明區域時,必須重新製 =燈座上之突出物’使其具有不同之傾斜角度。由於無法 複矛]用同—突出物,因此將提高發光二極體燈具之製作 成本。 【發明内容】 本發明係為一種可置換透鏡之發光二極體透鏡模組結 構其具有可於同一發光二極體之出光路徑上,藉由置換不同 之透鏡單元’以制不同A光光形之功效。 本發明係為一種可置換透鏡之發光二極體透鏡模組結 構,由於可藉由置換透鏡而調控發光二極體之出光光形,因此 不需額外增設其它元件。 本發明係為一種可置換透鏡之發光二極體透鏡模組結 構其又具有可於同一燈座上藉由置換透鏡而產生不同之出光 光形,所以可降低發光二極體燈具之製作成本。 為達上述功效’本發明係提供一種可置換透鏡之發光二極 6 200902911 體透鏡模組結構,其包括:—座體單元,其具有-平板,且平 板具有二口’又平板之一板面上係形成有一十字型凸緣;以 及-透叙早7G ’其具有-透鏡且周邊係形成有一 又十字型結構係容置於十字型凸緣中。 、、。構 藉由本發明的實施,至少可達到下列進步功效: 一、可依不同之照明需求而置換透鏡單元,使得發光二極體之 出光光形可任意調整,用以符合實際需求。 二、可使用同—發光二極體’即可達成不同之出光光形,因此 可降低發光二極體燈具之製作成本。 -由於發光-極體透鏡模組結構十字型之設計為體積最小 之結構,因此同時使用複數個透鏡模組 體燈具也不會產生體積過大之問題。 為了使任何熟習相關技藝者了解本發明之技術内容並據 以實施,且根據本說明書所揭露之内容、中請專利範圍及圖 式,任何熟習相關技藝者可輕易地理解本發明相關之目的及優 點,因此將在實施方式中詳細敘述本發明之詳細特徵以及優 點。 【實施方式】 第1圖係為本發明之一種可置換透鏡之發光二極體透鏡模 組結構10之分解實施例圖。第2圖係為本發明之一種透鏡單 元12實施例圖。第3A圖係為沿第i圖中透鏡單元丨2之八_八 剖線剖視圖。第3B圖係為沿第1圖中透鏡單元12之B_B剖 線剖視圖。第4圖係為本發明之一種可置換透鏡之發光二極體 200902911 透鏡模組結構ίο應用於發光二極體單元2〇之分解實施例圖。 第5圖係為本發明之一種可置換透鏡之發光二極體透鏡模組結 構10之應用實施例圖。 如第1圖所示,本實施例係為一種可置換透鏡之發光二極 體透鏡模組結構10,其包括:座體單元11;以及透鏡單元12。 座體單元11,其具有一平板1U ’且平板ηι形成有一開 口 112,又平板111之一板面上係形成有一十字型凸緣丨13, 且十字型凸緣113係可由平板U1之板面垂直向上延伸形成。 又為了便於固定發光二極體透鏡模組結構1〇,十字型凸緣ιι3 之㈣可形成有至少-固定板114,例如:兩個固^板114, 且每一固定板114係分別具有一固定孔丨〗5。 舉例來說,發光二極體透鏡模組結構1〇應用於發光二極 體燈具40日寺,可藉由一螺絲31 f過座體單元n固定板 之固疋孔U5’用以使得座體單元n固定於一平面燈座μ上。 而當座體單元n具有兩固定板114時,固定板ιΐ4可分別以 對角線位置相對設置,除可使座體單元u固定於平面燈座Μ 之外^可避免因外力而使座體單元Π產生旋轉移位之問題。 、秀/鏡早7° 12 ’其具有—透鏡12卜且透鏡121係可設置於 透!兄早几12之中央’又透鏡單元12周邊係、形成有—十字型結 構122,又十予型結構122係可容置於座體單元I〗之 藉以使透鏡單幻2設置於座體單幻u。又透鏡 早凡中之透鏡U1係可以為一圓形透鏡121。 形透 200902911 依不同之照明需求而·❹不_ 不同之出光光形,以更符合實際之照明^。’錯以投射出 如第1圖、第Μ圖及第3B圖所示,座體單元 型凸緣113係可進一步具有一第一 十予 4立。〇 乐卞接早兀116以及—第一丰 ,元m’且透鏡單元12中之十字型結構122 = 有-第-凹槽123以及一第二_4。又第:第 1槽m’以及第—卡接單幻16與第二卡接單幻17= 刀別相収数可相互卡接結合,帛錢得座 鏡單元12相互卡接結合。 與透 除此之外,為加強座體單元u與透鏡單元12之卡接結 合,十字型凸緣113與十字型結構122係可以進—步分別具有° 至少一第三卡接單元118以及一卡緣丨25,且第三卡接單元 係與卡緣125相互卡接結合。藉由卡接單元、凹槽、卡緣丨25 形狀皆不相同之設計,使得透鏡單元12與座體單元u結合時 具有一定之方向性,因此更能準確控制透鏡單元12與座體單 元η卡接結合之正確性。 座體單元11與透鏡單元12之十字型之設計,其優點在於 十字型中央之位置可用以安置透鏡單元12之透鏡121,且十字 型周邊可以最小面積形成座體單元n之卡接單元,以及形成 透鏡單元12之凹槽與卡緣125。因此使得由座體單元n及透 鏡單元12所組成之可置換透鏡之發光二極體透鏡模組結構1〇 具有最小之體積。 如第4圖所示,一發光二極體單元20具有一發光單元21; 以及一電路板22,且發光單元21係設置於電路板22上,用以 200902911 連接。可置㈣鏡之發光二㈣透鏡模組結 :用=光二極體單元20結合時,可藉由使用光學 々1么光—極體透鏡模組結構⑺與發光二極體單元20 板22相互黏合,而形成—發光二極體30。又由於座體 早兀η之平板⑴可與發光二極體單元如之電路板22貼合, '之開口 U2係正對於發光單元21,因此發光單元 21可外路且透過開口丨12而出光。 發光早凡21出光後係直接投射至與座體單元⑴吉合之透 =早凡12且發光二極體單元2〇之出光光形,係依所使用之 同之透鏡早το !2而改變。又座體單元u與透鏡單元⑴系 為卡接結合’因此當需要改變發光二極體單元Μ之出光光形 時’可隨時於同-座體單元n上置換另一透鏡單元η。因此 發光二極體單元20與座體單元u皆為重複使用之設計,所以 可降低發光二極體燈具4〇之製作成本。 此外’由於座體單元U之十字型凸緣113之外側可形成 有兩固定板m,且每-固定板114分別具有一固定孔115, 又發光二極體單元2〇之電路板22亦具有固定孔23。因此可藉 由螺絲31穿過座體單元11之固定孔115,與發光二極體心 2〇之固定孔23 ’使得座體單元u與發光二極體單元之電 糾反22結合為-體。又在十字型凸緣113之外側且未形成固 疋板114之處,係可使得發光二極體單元加之電路板u上的 銲點24裸露在外,以利銲線步驟之進行。 如第5圖所示,可於一平面燈座41上排列複數個由可置 換透鏡12i之發光二極體透鏡模組結構1(),與發光二極體單元 10 200902911 20所組成之發光二極體30,用以構成一發光二極體燈具40。 且發光二極體燈具40係與一散熱模組42導熱連接,以及與一 電源模組43電性連接,用以幫助發光二極體燈具40散熱及提 供電源。由於使用可置換透鏡之發光二極體透鏡模組結構10 的緣故,因此每一發光二極體30之透鏡單元12皆可依需求而 置換。 舉例來說,排列於發光二極體燈具40邊緣之發光二極體 30,其出光光形可為橢圓形,而位於發光二極體燈具40中央 ( 之發光二極體30,其出光光形則可選擇為圓形。如此,每一發 光二極體30之出光光形皆可依排列位置之不同,而選擇使用 不同之透鏡單元12,使得發光二極體燈具40之出光光形可被 調整。而當發光二極體燈具40需要提供別種之出光光形時, 則可藉由選用不同之透鏡單元12,以達到不同之照明效果。 惟上述各實施例係用以說明本發明之特點,其目的在使熟 習該技術者能瞭解本發明之内容並據以實施,而非限定本發明 之專利範圍,故凡其他未脫離本發明所揭示之精神而完成之等 ^ 效修飾或修改,仍應包含在以下所述之申請專利範圍中。 【圖式簡單說明】 第1圖係為本發明之一種可置換透鏡之發光二極體透鏡模組結 構之分解實施例圖。 第2圖係為本發明之一種透鏡單元實施例圖。 第3A圖係為沿第1圖中透鏡單元之A-A剖線剖視圖。 200902911 第3 B圖係為沿第1 圖尹透鏡單元之B-B剖線剖視圖。 第4圖係為本發明之 一種可置換透鏡之發光二極體透鏡桓 苒應用於發光二極體之分解實施例圖。 第5圖係為本發明之 構之應用實施例圖。 一種可置換透鏡之發光二極體透鏡模組結 【主要元件符號說明 ] 10. *..... .發光二極體透鏡模組結構 11. .座體單元 m ... .平板 開口 "3 ..十字型凸緣 114.·...· ..固定板 Π5 ..固定孔 "6··.... .·第一卡接單元 117.... ..第二卡接單元 Π8.... ..第三卡接單元 12. ..透鏡單元 121.... ·.透鏡 !22 ..十字型結構 123.... ..第一四槽 124.... ••第二凹槽 125.... .·卡緣 20...... .· 1光一極體單元 200902911 21 ..............................發光單元 22 ..............................電路板 23 ..............................固定孔 24 ..............................銲點 30 ..............................發光二極體 31 ..............................螺絲 40 ..............................發光二極體燈具 41 ..............................平面燈座 (42..............................散熱模組 43..............................電源模組200902911 IX. Description of the invention: [Technical field of invention] The medium is a kind of light-emitting diode lens module with a replaceable lens, and the light-emitting mirror of the lens is assembled. [Prior Art] It is a cold light source, and it has the advantages of low power consumption, low component life, 'two-times light time, fast response speed, etc., plus the light-emitting diode body Ling 4 is suitable for production. It can be used together. It is made into a small or two-type light-emitting element for demand. Therefore, light-emitting diodes have been commonly used in information and communication and electronic product indication and display devices. And with the awareness of environmental protection and energy conservation, the LED is the choice of a new generation of lamps. = Republic of China Invention Patent No. 379, which is used in the road 2 = light-emitting diode lighting fixture, which comprises: a plurality of individual concentrating components used as a light source; a lamp holder; a lampshade; The board; and the complex ',, the political heat sheet and the light emitting diode concentrating component are disposed on the lamp holder, and each of the light emitting diode concentrating components is connected by the circuit board, and the lamp cover is placed above the lamp socket. The illuminating lamp holder is provided with a plurality of protrusions, and each of the protrusions is provided with a light-emitting diode concentrating assembly, and each of the protrusions is designed with different centroid angles to make each illuminating The dipole concentrating component yaw-angles, thereby controlling the area of each photodiode. In the above case, it uses a plurality of light-emitting diodes for the lighting fixtures, but 200902911 has the following disadvantages: a plurality of protrusions with inclined angles are used to control the illumination area of each of the cores:: It is not possible to directly control the illumination area by the 4-component first component of each LED. -: With the oblique angle of the protrusion above the light-emitting diode concentrating group 2: to control the illumination area of the light-emitting diode concentrating component, however, if the angle of inclination of the large output of the f is poor, it will affect the whole Lighting efficiency 〇 When you want to change the lighting area of the LED lighting fixture, you must re-make the protrusion on the lamp holder to have different inclination angles. Since it is impossible to use the same protrusion, the manufacturing cost of the light-emitting diode lamp will be increased. SUMMARY OF THE INVENTION The present invention is a light-emitting diode lens module structure of a replaceable lens which has a different A-light shape by replacing different lens units on a light-emitting path of the same light-emitting diode. The effect. The present invention is a light-emitting diode lens module structure with a replaceable lens. Since the light-emitting shape of the light-emitting diode can be adjusted by replacing the lens, no additional components need to be added. The invention is a light-emitting diode lens module structure with a replaceable lens, which has different light-emitting shapes by replacing the lens on the same lamp holder, so that the manufacturing cost of the light-emitting diode lamp can be reduced. In order to achieve the above-mentioned effects, the present invention provides a light-emitting diode 6 200902911 body lens module structure of a replaceable lens, which comprises: a seat unit having a flat plate, and the flat plate has two ports and one plate surface. The upper system is formed with a cross-shaped flange; and - the early 7G' has a lens and the peripheral portion is formed with a cross-shaped structure to be received in the cross-shaped flange. ,,. By the implementation of the present invention, at least the following advancements can be achieved: 1. The lens unit can be replaced according to different lighting requirements, so that the light-emitting shape of the light-emitting diode can be arbitrarily adjusted to meet actual needs. Second, the same light-emitting diode can be used to achieve different light-emitting shapes, thus reducing the manufacturing cost of the light-emitting diode lamp. - Since the illuminating-polar lens module structure cross-shaped design is the smallest structure, the use of a plurality of lens module lamps at the same time does not cause excessive volume. In order to make the technical content of the present invention known to those skilled in the art and to implement it, and according to the content disclosed in the specification, the scope of the patent and the drawings, the relevant objects of the present invention can be easily understood by those skilled in the art and The detailed features and advantages of the present invention are described in detail in the embodiments. [Embodiment] Fig. 1 is a view showing an exploded embodiment of a light-emitting diode lens module structure 10 of a replaceable lens of the present invention. Fig. 2 is a view showing an embodiment of a lens unit 12 of the present invention. Fig. 3A is a cross-sectional view taken along line VIII of the lens unit 丨2 in Fig. i. Fig. 3B is a cross-sectional view taken along line B_B of the lens unit 12 in Fig. 1. 4 is a light-emitting diode of a replaceable lens of the present invention. 200902911 Lens module structure ίο is applied to an exploded embodiment of a light-emitting diode unit 2〇. Fig. 5 is a view showing an application example of a light-emitting diode lens module structure 10 of a replaceable lens of the present invention. As shown in Fig. 1, the present embodiment is a light-emitting diode lens module structure 10 of a replaceable lens, comprising: a base unit 11; and a lens unit 12. The base unit 11 has a flat plate 1U′ and the flat plate η1 is formed with an opening 112. One of the flat plates 111 has a cross-shaped flange 13 formed on one surface thereof, and the cross-shaped flange 113 can be a flat surface of the flat plate U1. Formed vertically upwards. In order to facilitate the fixing of the LED module structure 1 , the cross-shaped flange ιι3 may be formed with at least a fixing plate 114, for example, two fixing plates 114, and each fixing plate 114 has one respectively. Fixed hole 丨〗 5. For example, the light-emitting diode lens module structure 1〇 is applied to a 40-day temple of a light-emitting diode lamp, and the fixing body U5' of the fixing plate of the fixing unit n can be used to make the seat body by a screw 31 f The unit n is fixed to a flat lamp holder μ. When the seat unit n has two fixing plates 114, the fixing plates ι4 can be respectively disposed at opposite diagonal positions, except that the seat unit u can be fixed to the flat lamp holder ^ to avoid the external body due to external force. The unit Π produces a problem of rotational displacement. , show / mirror early 7 ° 12 ' it has - lens 12 and the lens 121 can be set in the center of the brother ~ 12 early 'and the lens unit 12 around the system, formed with - cross structure 122, and ten pre-type The structure 122 can be accommodated in the block unit I to make the lens single illusion 2 set to the single body u. Further, the lens U1 of the lens can be a circular lens 121. Shaped through 200902911 Depending on the lighting needs, ❹ ❹ _ different light patterns to better match the actual lighting ^. The error is projected as shown in Fig. 1, Fig. 3, and Fig. 3B, and the seat unit type flange 113 can further have a first ten.卞 卞 卞 兀 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且 且Further, the first slot m' and the first card-connected single phantom 16 and the second card-connected single phantom 17=the knives can be snap-fitted together, and the mirror unit 12 is coupled to each other. In addition, in order to enhance the snap-fit combination of the base unit u and the lens unit 12, the cross-shaped flange 113 and the cross-shaped structure 122 can further have at least one third clamping unit 118 and one respectively. The card edge 25 and the third card unit are coupled to the card edge 125. The design of the snap-fit unit, the groove, and the card edge 25 is different, so that the lens unit 12 has a certain directivity when combined with the base unit u, so that the lens unit 12 and the seat unit η can be more accurately controlled. The correctness of the card combination. The cross-shaped design of the base unit 11 and the lens unit 12 has the advantage that the position of the center of the cross type can be used to position the lens 121 of the lens unit 12, and the cross-shaped periphery can form the snap-fit unit of the base unit n with a minimum area, and The groove of the lens unit 12 and the card edge 125 are formed. Therefore, the light-emitting diode lens module structure 1 of the replaceable lens composed of the base unit n and the lens unit 12 has a minimum volume. As shown in FIG. 4, a light-emitting diode unit 20 has a light-emitting unit 21; and a circuit board 22, and the light-emitting unit 21 is disposed on the circuit board 22 for connection with 200902911. The illuminating (four) mirror illuminating two (four) lens module junction: when combined with the photodiode unit 20, the optical phantom lens module structure (7) and the illuminating diode unit 20 board 22 can be mutually Bonding, forming a light-emitting diode 30. Moreover, since the flat plate (1) of the seat body can be attached to the light-emitting diode unit such as the circuit board 22, the opening U2 of the body is adjacent to the light-emitting unit 21, so that the light-emitting unit 21 can be externally and through the opening 丨12. . After the light is emitted, the light is directly projected to the base unit (1), and the light pattern of the light-emitting diode unit 2 is changed according to the same lens used by the lens. . Further, the body unit u and the lens unit (1) are snap-fitted together. Therefore, when it is necessary to change the light-emitting shape of the light-emitting diode unit ’, the other lens unit η can be replaced at any time on the same-body unit n. Therefore, both the LED unit 20 and the base unit u are designed to be reused, so that the manufacturing cost of the LED lamp 4 can be reduced. In addition, since the two fixing plates m can be formed on the outer side of the cross-shaped flange 113 of the base unit U, and each of the fixing plates 114 has a fixing hole 115, the circuit board 22 of the light-emitting diode unit 2 also has Fixing hole 23. Therefore, the fixing hole 23 of the LED body 2 can be passed through the fixing hole 115 of the base unit 11 by the screw 31, so that the seat unit u and the electric rectification 22 of the LED unit are combined into a body. . Also on the outer side of the cross-shaped flange 113 and where the solid plate 114 is not formed, the light-emitting diode unit and the solder joint 24 on the circuit board u are exposed to facilitate the wire bonding step. As shown in FIG. 5, a plurality of light-emitting diode lens module structures 1 () of the replaceable lens 12i and the light-emitting diode unit 10 200902911 20 can be arranged on a flat lamp holder 41. The pole body 30 is used to form a light-emitting diode lamp 40. The light-emitting diode lamp 40 is thermally connected to a heat-dissipating module 42 and electrically connected to a power module 43 for helping the light-emitting diode lamp 40 to dissipate heat and provide power. Since the light-emitting diode lens module structure 10 of the replaceable lens is used, the lens unit 12 of each of the light-emitting diodes 30 can be replaced as needed. For example, the light-emitting diodes 30 arranged at the edge of the light-emitting diode lamp 40 may have an elliptical shape, and are located in the center of the light-emitting diode lamp 40 (the light-emitting diode 30 of the light-emitting diode) In this case, the light-emitting shape of each of the light-emitting diodes 30 can be selected according to different arrangement positions, and the different lens units 12 are selected, so that the light-emitting shape of the light-emitting diode lamp 40 can be When the light-emitting diode lamp 40 needs to provide other kinds of light-emitting shapes, different lens units 12 can be selected to achieve different illumination effects. However, the above embodiments are used to illustrate the characteristics of the present invention. The purpose of the present invention is to enable those skilled in the art to understand the present invention and to implement the invention, and not to limit the scope of the invention, and other modifications or modifications may be made without departing from the spirit of the invention. It should be included in the scope of the patent application described below. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded view of a structure of a light-emitting diode lens module of a replaceable lens of the present invention. Fig. 3A is a cross-sectional view taken along line AA of the lens unit in Fig. 1. 200902911 Fig. 3B is a cross-sectional view taken along line BB of Fig. 1 of the lens unit. Fig. 4 is a view showing an exploded embodiment of a light-emitting diode lens of a replaceable lens applied to a light-emitting diode according to the present invention. Fig. 5 is a view showing an application example of the structure of the present invention. Lens LED lens module junction [main component symbol description] 10. *..... Light-emitting diode lens module structure 11. . Block unit m ... . Flat opening " 3 . Cross-shaped flange 114.·...·..Fixed plateΠ5..Fixed hole"6··....·First snap-in unit 117......Second snap-on unitΠ8 .... .. third snap-on unit 12 . . . lens unit 121..... lens! 22 .. cross-shaped structure 123..... first four slots 124.... •• Second groove 125.. . . card edge 20... .. 1 light one pole unit 200902911 21 ..................... .........Lighting unit 22..............................Circuit board 23 ..... ..... ....................Fixed holes 24 ........................... ...welding point 30 ..............................Lighting diode 31 ......... ..................... screw 40 ........................... ...light-emitting diode lamps 41 .............................. flat lamp holders (42... ........................The heat dissipation module 43...................... ........Power Module