M345942 八、新型說明: 【新型所屬之技術領 域】 本創作係有關认 【先前技術】 傳統的照明設備係用來提供使用 如可用於單純照明或美化室内環境等。::要:光源,比 設備皆為固定規格(固定的散熱效果、:照明 零組件。所以傳统.者後再也不能更換其它的 間可言/ #知—備無任何更換或變化的彈性空 便斑上可知,目前習知之照職備,軸具有不 便與缺失存在,而待加以改善者。 緣是’本創作人有感上述缺失之可改善,且依據多 之事此方面之相關經驗,悉心觀察且研究之,並配合與 ^5運用而提出—種設計合理且有效改善上述缺失之本 【新型内容】 本創作之主要目的在於提供一種客制化組合式發光模 組。本創作客制切合式發域組係減可隨著使用者的 需要而任意變換之-基座單元、—發光單元及一透鏡單 元。因此,本創作客制化組合式發光模組能依據「所需散 5 M345.942 不同」而更換該基座單7^、能依據「所需發光效 序的X I」而更換该發光單元、並且能依據「所需投光角 度的不同」而更換該透鏡單元。 2 了解決上述技術問題,根據本創作之其中一種方 :、共-種客制化組合式發光模組,其包括:一基座單M345942 VIII. New Description: [New Technology Field] This creation is related to [Prior Art] Traditional lighting equipment is used to provide use, such as for simple lighting or beautifying indoor environments. ::Yes: The light source is fixeder than the equipment (fixed heat dissipation effect: lighting components. So traditional. You can't change other rooms later.) #知—There is no replacement or change of elastic space. It can be seen from the spotting that the current practice of the job, the axis has inconvenience and lack of existence, and to be improved. The reason is that 'the creator feels that the above-mentioned lack can be improved, and based on many related experiences in this aspect, Carefully observe and study, and cooperate with the use of ^5 to propose a reasonable design and effectively improve the above-mentioned lack of [new content] The main purpose of this creation is to provide a customized modular lighting module. The matching hair-type group system can be arbitrarily changed according to the needs of the user - the base unit, the light-emitting unit and a lens unit. Therefore, the customized customized light-emitting module can be based on the required M345.942 is replaced with the base unit 7^, the light unit can be replaced according to the "XI of the desired lighting effect", and the lens sheet can be replaced according to "the difference in the required projection angle" 2. To solve the above technical problems, according to one of the creations: a common-type customized lighting module, comprising: a pedestal
I*却ί光早兀及―透鏡單元。其中,該基座單元係具有 月=土座及兩個分別由該散熱基座的兩相反侧端向上延 ^弟Γ卡固結構。該發光單元係可拆卸地(detaehably) 散熱基座上。該透鏡單元係具有—透鏡及兩個分 別形成於該透鏡的兩相反侧端之第三卡固結構,1中 鏡單元係透過上述兩個第_卡固結構與上述兩個第二卡固 結構的配合而可拆卸地(detaeh物)設置於該發 上方。 ^了解決上述技術問題,根據本創作之其中一種方 二挺t、種各制化組合式發光模組,其包括:一基座單 元 發光單兀及一透鏡單元。其中,該基座單元係具有 二,熱基座及兩個分別形成於該散熱基座的兩相反側端之 第卡固結構。母一個第一卡固結構的外侧係具有一内凹 卡固邛,並且基座單元係透過上述兩個内凹卡固部,以顛 倒的方式卡固在-卡勾單元内。該發光單元係可拆却地 (detachably)設置於該散熱基座上。該透鏡單元係具有一 透鏡及兩個分別由該透鏡的兩相反侧端向下延伸之第二卡 固結構,其中該透鏡單元係透過上述兩個第一卡固結構與 上述兩個第二卡固結構㈣合而可拆卸地設 置於該發光單元的上方。此外,每—個第二卡固結構的外 6 M345.942 側係具有一内凹卡固部,益真該透鏡單元係透過上述兩個 内凹卡固部,以顛倒的方式十固在—卡勾單元的下端。 因此,本創作之客制化·组合式發光模組的優點在於: 一、 由於該基座單元的讦抽換性,所以本創作可隨著使用 者所想要的散_果來選用不同的散熱基座。 二、 由於該發光單元的町抽換性(該發光單元係可透過任 何的配合方式雨玎拆卸地(detachably)設置於該散熱 基座上),所以本創作玎隨著使用者所想要的發光效果 來選用不同間距、不同顏色、不同顆數、不同功率大 小的發光元件。 三、 由於該透鏡單元的可抽換性(該透鏡單元係透過上述 ^個第一卡固結構與上述兩個第二卡固結構的配合而 可,卸地(detachably )設置於該發光單元的上方),所 :同隨著使用者所想要呈現的投光角度來選用 係透?上述兩個内凹卡固部,以顛倒的方 的光健—卡勾早兀内。因此,該等發光元件所產生 者所可/透該透鏡而以向下投光的方式產生使用 ^ Λ 0 、Μ明效果(具有一預定投光角度之投射光 五 式卡固在Hi上34兩個内凹卡固部,以顛倒的方 產生的光因此’該等發光元件所 使用者所需的昭明效==以向下投光的方式產生 光源)。 …、 果(具有一預定投光角度之投射 7 M345942 r · ·- 為了能更進一步暸解本創作為達成預定目的所採取之 技術、手段及功效,請參閱以下有關本創作之詳細說明與 - 附圖,相信本創作之目的、特徵與特點,當可由此得一深 入且具體之暸解,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。 -【實施方式】 請參閱第一A圖至第一D圖所示,其分別本創作客制 φ 化組合式發光模組的第一實施例之立體分解示意圖、本創 作客制化組合式發光模組的第一實施例之立體組合示意圖 (其中一封蓋單元為開啟狀態)、本創作客制化組合式發光 模組的第一實施例之侧視示意圖、及本創作客制化組合式 發光模組的第一實施例之基座單元卡固在卡勾單元内之示 意圖。由上述該等圖中可知,本創作第一實施例之客制化 組合式發光模組係包括:一基座單元1 a、一發光單元2 a、複數個螺固元件3 a、一透鏡單元4 a及兩個封蓋單 元5 a。 其中,該基座單元1 a係具有一散熱基座1 0 a及兩 個分別由該散熱基座1 0 a的兩相反侧端向上延伸之第一 •卡固結構1 1 a,並且每一個第一卡固結構1 1 a的外侧 係具有一内凹卡固部1 1 0 a。此外,該散熱基座1 0 a ' 的底部係具有複數個散熱鰭片1 0 0 a,然而該等散熱鰭 片1 0 0 a只是用來舉例而已,本創作可依據不同的設計 需求,採用不同形狀、不同排列方式、不同尺寸或不同數 量的散熱鰭片。因此,本創作可隨著使用者所想要的散熱 8 M345.942 效果來選用不同的散熱基座。 電性:Ϊ詈3係具有一基板2 〇 “複數個 ^生地权置於祕板2 0 a上之發光元件2丄a。此外, 该基板2 0 a係具有複數個與該等螺固元件3 a相 穿孔2 0 〇 a ,並且每一個螺固元件3 a的一部分係^過 的穿孔2 Q 〇 a以將該基板2 ◦ a鎖固在該散熱 =1 ◦ 3上。另外,為了增加該發光單元2 a的敎(由 ,寺發光元件2 1 a所產生的熱量)傳導到該 〇 a的財,、本創作更進—步包括:―成形(例如以二 $ P刷的方式)於該散熱基座工〇 a與該基板2 〇 &之間 ,散熱膠A或-設置(例如以貼_方式)於該散敎基^ 與該基板之間之散熱膠貼片(圖未示)。然而,上述「利用 ,等螺固元件3 a與該等穿孔2 〇 0 a的配合以將該基板 〇 a鎖目在該散熱基座i 〇 a上的方式」只是用來舉例 而已,、任何可將該基板2 〇 a固定在該散熱基座i 〇 a上 的方式皆為本創作所保護的範疇。換言之,該發光單元2 a係可透過任何的配合方式而可拆卸地設置 於該散熱基座1 〇 a上。因此,本創作可隨著使用者所想 要的务光效果來選用不同間距、不同顏色、不同顆數、不 同功率大小的發光元件。 /此外,該透鏡單元4 a係具有一透鏡4 〇 a及兩個分 別瓜成於该透鏡4 〇 a的兩相反侧端之第二卡固結構4 1 ^,並且上述兩個第二卡固結構4 1 a係相對應上述兩個 第卡固結構1 1 a。因此,該透鏡單元4 a係透過上述 9 M345942 :個第—卡固結構lla與上述兩個第二卡固 】==;=haWy)設置於該發光如a的 係分別為兩個:二:‘一;^工::第-卡固結構1 1 a 社樓μ / α槽結構,上述兩個第二卡固 :=係分別為兩個背對背之第二滑槽結構,並且上 • 槽結構及上述兩個第二滑槽結構係彼此可滑 ==物)配合在一起。然而,上述關於「上述兩個 -兴例上述兩個第二滑槽結構的配合」只是用來 ^祕透鏡皁疋4 3係可透過任何的配合方式而可 拆卸地(detach物)言史置於該發光單元2 a的上方。 單元上^兩個封蓋單元5 3係分则於封閉該基座 二^二=反侧端,並且每—個封蓋單元^係具有 於上及一從該封蓋本體5 〇 3凸出並緊配合 述兩個弟—卡固結構1 1 a之間之凸出部5 i a。 s#iiic圖所示,該等發光元件2 1績產生的光源 透該透鏡4 〇 a而投射出—具有—狀投光角度 3 = = 1。因此,本創作可隨著使用者所想要呈現 的杈先角度來選用不同的透鏡。 如第-D圖所示’該基鮮元丨㈣透過上述兩個内 凹固部1l〇a,以顛倒的方式卡固在一卡勾單元6a 》内。舉例來說’當使用者欲將本創作客制化組合式發光模 組設置於一天花板(亦可為牆壁或任何物體)上時,使用 f可透過亡述兩個内凹卡固部工工〇 a分別與上述預先固 疋於該天花板上之卡勾單元6 a的兩個卡勾結構6 〇 a的 10 M345942 * * * ► 卡固配合,以使得該基座單元1 a以顛倒的方式卡固在上 述兩個卡勾結構6 0 a之間,其中該散熱基座1 〇 a係埋 - 藏於該卡勾單元6 a内,而該透鏡4 0 a係顯露於該卡勾 單元6 a的外部。因此,該等發光元件2 1 a所產生的光 源S係可穿透該透鏡4 0 a而以向下投光的方式產生使用I* is light and early with the lens unit. Wherein, the base unit has a month=soil and two extension structures respectively extending from opposite end ends of the heat dissipation base. The lighting unit is detaehably mounted on the heat sink base. The lens unit has a lens and two third fastening structures respectively formed at opposite ends of the lens, wherein the mirror unit passes through the two first yoke structures and the two second fastening structures The detachably (detaeh) is placed above the hair. In order to solve the above-mentioned technical problems, according to one of the creations of the present invention, a composite lighting module comprises: a base unit, a light-emitting unit and a lens unit. Wherein, the base unit has two, a thermal base and two first fixing structures respectively formed on opposite side ends of the heat dissipation base. The outer side of the first female fastening structure has a concave locking jaw, and the base unit is fastened in the - hook unit through the two concave fastening portions. The light emitting unit is detachably disposed on the heat sink base. The lens unit has a lens and two second fastening structures respectively extending downward from opposite end sides of the lens, wherein the lens unit transmits the two first fastening structures and the two second cards The solid structure (4) is detachably disposed above the light emitting unit. In addition, the outer 6 M345.942 side of each of the second fastening structures has a concave recess, and the lens unit is fixed in the reverse manner through the two concave recesses. The lower end of the hook unit. Therefore, the advantages of the customized and combined lighting module of the present invention are as follows: 1. Due to the 讦 讦 讦 of the pedestal unit, the creation can be different according to the user's desired scatter. Cooling base. Second, due to the tying of the illuminating unit (the illuminating unit can be detachably disposed on the heat dissipating base through any matching manner), the creation is as desired by the user. The illuminating effect is to select light-emitting elements with different pitches, different colors, different numbers, and different power sizes. 3. The removable unit of the lens unit is detachably disposed on the light emitting unit by the cooperation of the first first fastening structure and the two second fastening structures. Top), the same: with the user's desired projection angle to choose the system through? The above two concave recesses are in the opposite side of the light-healthy-kick. Therefore, the light-emitting elements can be generated by the light-emitting element through the lens, and the effect of using the ^ Λ 0, the brightening effect (the projection light having a predetermined projection angle is fixed on the Hi-34). The two concave recesses, the light generated by the inverted side, therefore, the light source required by the user of the light-emitting elements == produces a light source in a downward projection manner. ..., fruit (projection with a predetermined projection angle 7 M345942 r · ·- In order to better understand the techniques, means and effects of this creation for the intended purpose, please refer to the following detailed description of this creation and - The figure is believed to have an in-depth and specific understanding of the purpose, features and characteristics of the present invention. However, the drawings are only for reference and explanation, and are not intended to limit the creation. - [Embodiment] Referring to the first A to the first D, respectively, the stereoscopic exploded view of the first embodiment of the custom-made φ-combined illuminating module, and the first implementation of the customized customized illuminating module The three-dimensional combination diagram of the example (in which one cover unit is in an open state), the side view of the first embodiment of the present customized customized light-emitting module, and the first of the customized customized combination light-emitting module A schematic diagram of the base unit of the embodiment being fastened in the hook unit. As can be seen from the above figures, the customized combined light-emitting module of the first embodiment of the present invention comprises: a base single a light-emitting unit 2a, a plurality of screw-solid elements 3a, a lens unit 4a and two capping units 5a. The base unit 1a has a heat-dissipating base 10a and Two first fastening structures 1 1 a extending upward from opposite end sides of the heat dissipation base 110 a, and each of the outer sides of the first fastening structure 1 1 a has a concave fastening portion 1 1 0 a. In addition, the bottom of the heat dissipation base 10 a ' has a plurality of heat dissipation fins 100 a, but the heat dissipation fins 10 0 a are only used as examples, and the creation may be different. The design requirements are different shapes, different arrangements, different sizes or different numbers of heat sink fins. Therefore, this creation can use different heat sink bases according to the user's desired heat dissipation 8 M345.942 effect. Sexuality: Ϊ詈3 series has a substrate 2 〇 "a plurality of light-emitting elements 2 丄a placed on the secret board 20 a. In addition, the substrate 20 a has a plurality of the screw elements 3 a phase perforation 2 0 〇a , and a portion of each of the screw elements 3 a is passed through the perforation 2 Q 〇a to the substrate 2 a is locked in the heat dissipation = ◦ 3. In addition, in order to increase the enthalpy of the light-emitting unit 2a (the heat generated by the temple light-emitting element 21a) is transmitted to the money of the 〇a, the creation is further improved. Steps include: "forming (for example, in the form of a two-P brush) between the heat sink base process a and the substrate 2 〇 & the heat-dissipating glue A or - setting (for example, in a manner of affixing) a heat-dissipating adhesive patch (not shown) between the substrate and the substrate. However, the above-mentioned "utilization, etc., of the screwing member 3a cooperates with the perforations 2 〇0 a to lock the substrate 〇a The manner of the heat sink base i 〇a is merely an example, and any manner in which the substrate 2 〇a can be fixed to the heat sink base i 〇 a is protected by the present invention. In other words, the light-emitting unit 2a can be detachably disposed on the heat-dissipating base 1a through any matching manner. Therefore, this creation can select light-emitting elements with different pitches, different colors, different numbers, and different power sizes according to the desired light effect of the user. In addition, the lens unit 4 a has a lens 4 〇 a and two second fastening structures 4 1 ^ respectively formed at opposite end sides of the lens 4 〇 a, and the two second fastenings The structure 4 1 a corresponds to the above two first fastening structures 1 1 a. Therefore, the lens unit 4a is disposed through the above-mentioned 9 M345942: the first-stuck structure 11a and the two second-clampings=============================================================== '一;^工::第-卡固结构1 1 a 社μμ / α slot structure, the above two second carding: = are two back-to-back second chute structures, and the upper trough structure And the two second chute structures are slidably coupled to each other. However, the above-mentioned "coupling of the above two second chute structures" is only used to detachably use the lens saponin 4 3 system to be detachable. Above the light emitting unit 2a. The two capping units 5 3 are arranged to close the base 2 and the opposite end, and each capping unit has a top and a protruding from the cap body 5 〇 3 and Tightly fit the two brothers - the projection 5 ia between the 1 1 a of the fastening structure. As shown in the s#iiic diagram, the light source generated by the light-emitting elements 21 is projected through the lens 4 〇 a to have a light-like projection angle of 3 == 1. Therefore, this creation can use different lenses depending on the angle of the user's desired angle. As shown in Fig. D, the base element (4) is locked in a hook unit 6a" by the two recessed solid portions 11a. For example, when the user wants to set the custom-made modular lighting module on a ceiling (which can also be a wall or any object), the use of f can be used to describe two recessed fastening workers. 〇a is respectively fitted with 10 M345942 * * * ► of the two hook structures 6 〇 a of the hook unit 6 a previously fixed to the ceiling, so that the base unit 1 a is reversed The heat sink base 1 〇a is buried in the hook unit 6 a, and the lens 40 a is exposed to the hook unit 6 . The outside of a. Therefore, the light source S generated by the light-emitting elements 2 1 a can penetrate the lens 40 a and be used in a downward projection manner.
者所需的照明效果(具有一預定投光角度之投射光源P \ .1 ),並且可配合該透鏡4 0 a的更換而得到不同的投光角 度。 _ 請參閱第一E圖所示,其係為本創作客制化組合式發 光模組的第一實施例使用另一種透鏡單元之侧視示意圖。 由上述圖中可知,第一E圖與第一C圖最大的不同在於: 在第一E圖中,第一實施例原先的透鏡4 0 a被更換為另 一種透鏡L,該等發光元件2 1 a所產生的光源S係可穿 透該透鏡4 0 a而投射出一具有一預定投光角度之投射光 源P 2。 請參閱第二A圖至第二D圖所示,其分別本創作客制 φ 化組合式發光模組的第二實施例之立體分解示意圖、本創 .作客制化組合式發光模組的第二實施例之立體組合示意圖 (其中一封蓋單元為開啟狀態)、本創作客制化組合式發光 _模組的第二實施例之侧視示意圖、及本創作客制化組合式 發光模組的第二實施例之透鏡單元卡固在卡勾單元的下端 之示意圖。由上述該等圖中可知,本創作第一實施例之客 制化組合式發光模組係包括:一基座單元1 b、一發光單 元2 b、複數個螺固元件3 b、一透鏡單元4 b及兩個封 蓋單元5 b。 11 M345942 其中’該基座單元1b係具有—散熱基W 〇 b及兩 •:为別形成於該散熱基座1 〇 b的兩相反側端之第一卡固 ' 、'"構1 1 b。此外,該散熱基座1 〇 b的底部係具有複數 ^散_片或一散熱體iOQb,然而該等散熱鰭片或該 放熱體1 〇 〇 b只是用來舉例而已,例如本創 •同的設計需求,採用不同形狀、不同排列方式、不同= 或不同數I的散熱鰭片。因此,本創作可隨著使用者所想 鲁 要的放熱效果來選用不同的散熱基座。 •再者,該發光單元2b係具有-基板2〇μ複數個 ^性地设置於該基板2 Q b上之發光元件2丄b。此外, f基板2 G b係时複數個與料職元件3⑽對應之 牙孔2 0 〇 b,並且每一個螺固元件3 b的一部分係穿過 ^目對應的穿孔2 0 Q b以將該基板2 Q b個在該散熱 :=1 〇 b上。另外,為了增加該發光單元2 b的熱(由 ^等毛光70件2 1 b所產生的熱量)傳導到該散熱基座丄 鲁丄b的效率,本創作更進一步包括:一成形(例如以塗佈 或p刷的方式)於該散熱基座工0b與該基板2〇b之間 =3膠^一設置(例如以貼附的方式)於該散熱基座 ' 基板之間之散熱膠貼片(圖未示)。然而,上述「利用 =螺固it件3 b與該等穿孔2 〇 〇 b的配合以將該基板 20b鎖固在該散熱基座工〇b上的方式」只是用來舉例 :已,任何可將該基板2 〇 b固定在該散熱基座工〇 b上 勺方式皆為本創作所保護的料。換言之,該發光單元2 係可透過任何的配合方式而可拆卸地(如滅卿)設置 12 M345942 於該散熱基座i 〇 b上。因此,本創作可隨著使用 要的發先效果來選用不同間距、不同顏色、不同顆數= 同功率大小的發光元件。 、 不 別二透鏡單元4 b係具有一透鏡他及兩個分 ^1=透鏡的兩相反側端向下延伸之第二卡固二 内凹卡固:第二卡固結構4 1 5的外側係具有- h心卡^ 外,上述兩個第二卡固結構4 1 b係相對應上述兩個第—卡固結構丄丄b τ係透過上述兩個第一卡固結構llb與上二 配合而可拆卸地㈤,設置於 1先早兀2 b的上方。以第一實施例而言,上 一卡固結構11b係分別為兩個面對面之第一滑样弟 第二卡固結構41b係分別為兩個背對^第二 ,月扣…構,亚且上述兩個第一滑槽結構及上述兩個第二 槽結構係彼此可滑動地(杨bly)配合在—起。_,上 述關於「上述兩個第-滑槽結構及上述兩個第 ,合」只是用來舉例而已,該透鏡單元4b係;= 何的配合方式而可拆卸地(detachably)設置於該發光單元 2 b的上方。 一,外,上述兩個封蓋單元5 b係分則於封閉該基座 二兀土 b的兩相反側端,並且每一個封蓋單元5 b係具有 —封蓋本體5 0 b及-從該封蓋本體5 〇 b凸出並緊配合 於上述兩個第二卡固結構41 b之間之凸出部5 1匕。 ^如第二C圖所示,該等發光元件2ib所產生的光源 S係可牙透g亥透鏡4 〇 b而投射出一具有一預定投光角度 13 M345942 之投射光源p3。因此,本創作 的投光角度來選用不同的透鏡。 者使用者所想要呈現 如弟—D圖所示,兮读并一 凹卡固部4 1 0 b,以顛“透過上述兩個内 的下端。舉例來說,當 在—卡勾單元6 b 光模組設置於一天花板於=作各制化組合式發 使用者可透過上述兩個内凹物體)上時, 先固定於該天花板上之卡勾單 b分別與上述預 b的卡固配合,以使得該基座單元i ^:卡勾結構6 〇 在上述兩個卡勾結構6 ^ 〜稍方式卡固 係埋藏於該卡勾單元6 h 0 、/、中該散熱基座1 〇 b 卡勾單元6 b的冰 ,而該透鏡4 0 b係顯露於該 的光源s係可穿透光元件21b所產生 使用者所需的照二鏡2b而以向下投光的方式產生 p 3 ),祐曰叮…、 有—預定投光角度之投射光源 角度。”配合該透鏡40b的更換而得到不同的投光 需^ 4 ’本翁客制她合輕域减依據「所 光果的不同」而更換該基座單元、能依據「所需發 ’ Q不同」而更換該發光單元、並且能依據「所需投 =的不同」而更換該透鏡單元。因此,本創作之客制 、、、&式發光模組的優點在於: 由於該基座單元的可抽換性,所以本創作可隨著使用 者所想要的散熱效果來選用不同的散熱基座。 由於該發光單元的可抽換性(該發光單元係可透過任 何的配合方式而可拆卸地(detachably)設置於該散熱 14 M345942 基座上)’所以本創作可隨著使用者所想要的發光效果 來選用不同間距、不同顏色、不同顆數、不 小的發光元件。 二、由於該透鏡單元的可抽換性(該透鏡單元係透過上述 兩個第一卡固結構與上述兩個第二卡固結構的配合而 可拆卸地(detachably)設置於該發光單元的上方),所 以本創作可隨著使用者所想要呈現的投光角度來選用 不同的透鏡。 四、該基座單元1 a係透過上述兩個内凹卡固部丄丄〇 3,以顛倒的方式卡固在一卡勾單元6 a内。因此, 該等發光元件2 1 a戶斤產生的光源s係可穿透該透鏡 4 0 a而以向下投光的方式產生使用者所需的照明效 果(具有一預定投光角度之投射光源p 1 )。 五"亥匕鏡單元4 b係透過上述兩個内凹卡固部4 1 〇 b,以顛倒的方式卡固在—卡勾單元6 b的下端。因 此,該等發光元件2 1 b所產生的光源s係可穿透該 透鏡4 0 b而以向下投光的方式產生使用者所需的照 明效果(具有一預定投光角度之投射光源p 3 )。 士、,惟,以上所述,僅為本創作最佳之一的具體實施例之 4細祝明與圖式,惟本創作之特徵並不侷限於此,並 本創作,本創作之所有範圍應以下述之申請專利範 為準,凡合於本創作申料雜ffi之精神與其類似變化 = 皆應包含於本創作之範缚中,任何熟悉該項技The desired illumination effect (projection source P \ .1 with a predetermined projection angle), and different projection angles can be obtained in conjunction with the replacement of the lens 40 a. _ See FIG. E, which is a side view of another lens unit used in the first embodiment of the present custom-made combined light-emitting module. As can be seen from the above figures, the maximum difference between the first E map and the first C map is: In the first E diagram, the original lens 40 a of the first embodiment is replaced with another lens L, and the light emitting elements 2 The light source S generated by 1 a can penetrate the lens 40 a to project a projection light source P 2 having a predetermined projection angle. Please refer to the second embodiment to the second figure D, which is a three-dimensional exploded schematic view of the second embodiment of the custom-made φ-combined illuminating module, and the second is a custom-made combined illuminating module. A schematic view of a three-dimensional combination of two embodiments (in which one cover unit is in an open state), a side view of a second embodiment of the customized customized light-emitting module, and a custom-made combined light-emitting module of the present invention The lens unit of the second embodiment is fixed to the lower end of the hook unit. As can be seen from the above figures, the customized modular light-emitting module of the first embodiment of the present invention comprises: a base unit 1 b, a light-emitting unit 2 b, a plurality of screw-solid elements 3 b, and a lens unit. 4 b and two cover units 5 b. 11 M345942, wherein the base unit 1b has a heat dissipating base W 〇b and two: a first clamping ', '1' formed on the opposite side ends of the heat dissipating base 1 〇b b. In addition, the bottom of the heat dissipation pedestal 1 〇b has a plurality of slabs or a heat sink iOQb. However, the heat dissipation fins or the heat dissipation body 1 〇〇b are only used as an example, for example, the same Design requirements, using fins of different shapes, different arrangements, different = or different numbers I. Therefore, this creation can use different heat sinks as the user thinks of the desired heat release effect. Further, the light-emitting unit 2b has a light-emitting element 2丄b provided on the substrate 2 Qb in a plurality of substrates. In addition, the f substrate 2 G b is a plurality of dental holes 2 0 〇b corresponding to the material element 3 (10), and a part of each screw solid element 3 b is passed through the corresponding perforation 2 0 Q b to The substrate 2 Q b is on the heat dissipation: = 1 〇 b. In addition, in order to increase the efficiency of the heat of the light-emitting unit 2 b (the heat generated by the hair 70 pieces 2 1 b) to the heat dissipation base, the present invention further includes: forming (for example, Applying or p-brushing between the heat sink base 0b and the substrate 2〇b=3 glue (for example, attaching) to the heat sink base between the heat sink base Patch (not shown). However, the above "the manner of using the screwing member 3b to cooperate with the perforations 2 〇〇b to lock the substrate 20b to the heat sink base b" is merely an example: The manner in which the substrate 2 〇b is fixed on the heat sink base b is the material protected by the creation. In other words, the light-emitting unit 2 can be detachably (e.g., sterilized) to be disposed on the heat-dissipating base i 〇 b by any means of cooperation. Therefore, this creation can use different spacing, different colors, different numbers = the same power size of the light-emitting elements with the use of the first effect. , the second lens unit 4 b has a lens and two sub-1 = two opposite side ends of the lens extending downwardly, the second carding two concave locking: the outer side of the second fastening structure 4 1 5 The two second fastening structures 4 1 b are corresponding to the two first-knot structures 丄丄b τ through the two first fastening structures 11b and the upper two And detachably (5), set above 1 early 兀 2 b. In the first embodiment, the first fastening structure 11b is a two-face-to-face first sliding type second fastening structure 41b, which are respectively two opposite pairs, a second buckle, and a second buckle. The two first chute structures and the two second trough structures are slidably coupled to each other. _, the above-mentioned "the above two first-slot structures and the above two combinations" are merely used as an example, and the lens unit 4b is detachably disposed on the light-emitting unit. Above the 2 b. First, the two capping units 5b are arranged to close opposite end sides of the base bauxite b, and each capping unit 5b has a capping body 50b and a The cover body 5 〇b protrudes and tightly fits the projection 5 1 之间 between the two second fastening structures 41 b. As shown in the second C diagram, the light source S generated by the light-emitting elements 2ib is oscillated to project a projection light source p3 having a predetermined projection angle 13 M345942. Therefore, the projection angle of this creation uses different lenses. The user wants to present as shown in the figure-D, reading and recessing the recessed portion 4 1 0 b to "pass through the lower ends of the two inner ends. For example, when in the - hook unit 6 b. When the optical module is disposed on a ceiling of the two concave objects, the hooks b fixed to the ceiling are respectively fastened with the pre-b Cooperating so that the base unit i ^: the hook structure 6 is buried in the hook unit 6 h 0 , /, the heat sink base 1 in the two hook structures 6 ^ ~ b the ice of the hook unit 6 b, and the lens 4 0 b is exposed to the light source s which is transparent to the light-emitting element 21 b and is generated by the light-emitting element 21 b 3), You曰叮..., Yes—the projected light source angle of the predetermined projection angle.” The different projections required for the replacement of the lens 40b need to be used. Replace the base unit and replace the light unit according to the "required 'Q difference", and can be based on the required investment Replace the lens unit with the difference of =. Therefore, the advantages of the custom-made, ", & type lighting module of the present invention are: due to the removable nature of the base unit, the creation can select different heat dissipation according to the heat dissipation effect desired by the user. Pedestal. Due to the slavability of the illuminating unit (the illuminating unit can be detachably disposed on the radiant 14 M345942 pedestal by any means of cooperation), the creation can be as desired by the user. The illuminating effect is to select different illuminating elements with different pitches, different colors, different numbers, and no small size. Second, due to the replaceability of the lens unit, the lens unit is detachably disposed above the light emitting unit through the cooperation of the two first fastening structures and the two second fastening structures. ), so this creation can choose different lenses according to the projection angle that the user wants to present. 4. The base unit 1a is inserted into the hook unit 6a in an inverted manner through the two recessed fastening portions 3a. Therefore, the light source s generated by the light-emitting elements 2 1 a can penetrate the lens 40 a to generate a lighting effect required by the user in a downward projection manner (a projection light source having a predetermined projection angle) p 1 ). The five "helium mirror unit 4b is fastened to the lower end of the hook unit 6b in an inverted manner through the two recessed fastening portions 4 1 〇 b described above. Therefore, the light source s generated by the light-emitting elements 2 1 b can penetrate the lens 40 b to generate a lighting effect desired by the user in a downward projection manner (a projection light source having a predetermined projection angle p 3).士,,,,, the above, is only the best example of one of the best examples of this creation, but the characteristics of this creation are not limited to this, and this creation, all scope of this creation The following patent application model shall prevail, and the spirit of the ff and the similar changes in this creation shall be included in the scope of this creation, and any familiarity with the technique shall be
:者在本創作之領域内,可輕易思及之變化或修飾皆可$ 盍在以下本案之專利範圍。 /M 15 M345942 * > ^ , 【圖式簡单說明】 第一A圖係為本創作客制化組合式發光模組的第一實施例 之立體分解示意圖; - 第一 B圖係為本創作客制化組合式發光模組的第一實施例 之立體組合示意圖(其中一封蓋單元為開啟狀 態); .第一 C圖係為本創作客制化組合式發光模組的第一實施例 之侧視不意圖, φ 第一 D圖係為本創作客制化組合式發光模組的第一實施例 之基座單元卡固在卡勾單元内之示意圖; 第一 E圖係為本創作客制化組合式發光模組的第一實施例 使用另一種透鏡單元之侧視示意圖; 第二A圖係為本創作客制化組合式發光模組的第二實施例 之立體分解示意圖; 第二B圖係為本創作客制化組合式發光模組的第二實施例 之立體組合示意圖(其中一封蓋單元為開啟狀 態); ® 第二C圖係為本創作客制化組合式發光模組的第二實施例 • 之側視示意圖;以及 -第二D圖係為本創作客制化組合式發光模組的第二實施例 • 之透鏡單元卡固在卡勾單元的下端之示意圖。 【主要元件符號說明】 - (第一實施例) 基座單元 la 散熱基座 10a 16 M345.942 散熱鰭片 10 0 第一卡固結構 11a 内凹卡固部 110 發光單元 2 3 基板 2 0a 穿孔 2 0 0 發光元件 2 1a 螺固元件 3 a 透鏡單元 4 a 透鏡 4 0a 透鏡 L 第二卡固結構 4 1a 封蓋單元 5 a 封蓋本體 5 0a 卡勾單元 6 凸出部 3. 卡勾結構 5 1a 6 0a: In the field of this creation, you can easily think about changes or modifications that can be found in the following patent scope of this case. /M 15 M345942 * > ^ , [Simple Description of the Drawings] The first A picture is a three-dimensional exploded view of the first embodiment of the customized customized light-emitting module; A three-dimensional combination diagram of a first embodiment of a custom-made combined light-emitting module (in which a cover unit is in an open state); the first C-picture is the first implementation of the customized customized light-emitting module For example, the first D picture is a schematic diagram of the base unit of the first embodiment of the creative customized light-emitting module being clamped in the hook unit; A first side view of a custom-made combined light-emitting module uses a side view of another lens unit; a second A-picture is a perspective exploded view of a second embodiment of the custom-made combined light-emitting module; The second B-picture is a three-dimensional combination diagram of the second embodiment of the customized customized light-emitting module (the one cover unit is in an open state); the second C-picture is a customized combination of the creation Second embodiment of a light-emitting module ; And - a second D-based customized FIG combined light-emitting module of the present embodiment • creation of a second embodiment of the lens retaining means in a schematic view of the lower end of the hook unit. [Description of Main Components] - (First Embodiment) Base unit la Heat sink base 10a 16 M345.942 Heat sink fins 10 0 First hook structure 11a Inner recessed portion 110 Light-emitting unit 2 3 Substrate 2 0a Perforation 2 0 0 light-emitting element 2 1a screw-solid element 3 a lens unit 4 a lens 4 0a lens L second fastening structure 4 1a cover unit 5 a cover body 5 0a hook unit 6 projection 3. hook structure 5 1a 6 0a
散熱膠 AHeat sink A
光源 SLight source S
投射光源 PI 投射光源 P 2 (第四實施例) 基座單元 lb 散熱基座 10b 散熱體 10 0b 策一卡固結構 lib 發光單元 2 b 基板 2 0b 穿孔 2 0 0 b 發光元件 2 1b 螺固元件 3 b 透鏡單元 4 b 17 M345942 • · 透鏡 4 0 b 第二卡固結構 4 1 b 内凹卡固部 4 1 Ob 封蓋單元 5 b 封盍本體 5 0 b 凸出部 5 1 b 卡勾單元 6 b 卡勾結構 6 0 b 散熱膠 A 光源 S 投射光源 P 3 18Projection light source PI Projection light source P 2 (Fourth embodiment) Base unit lb Heat sink base 10b Heat sink 10 0b Card structure lib Light unit 2 b Board 2 0b Perforation 2 0 0 b Light-emitting element 2 1b Screw-solid element 3 b Lens unit 4 b 17 M345942 • · Lens 4 0 b Second fastening structure 4 1 b Concave fastening part 4 1 Ob Capping unit 5 b Enclosing body 5 0 b Protruding part 5 1 bucking unit 6 b hook structure 6 0 b heat sink A light source S projection light source P 3 18