201200789 六、發明說明: 【發明所屬之技術領域】 本發明大體上係關於照明應用設計之領域。特定言之’ 本發明係關於一種可容納於一插座元件中的照明模組。 【先前技術】 用於指示目的之發光二極體(LED)已使用了很長時間, 但是高亮度LED(例如,具有足夠高以實現各種場所(諸 如,房間)之一般照明之一亮度之LED)在很短時段内已引 起LED及照明應用市場的明顯發展。高亮度led通常與一 小的尺寸、一相對高的功效(及相關聯低溫)、一相對長的 壽命、一寬色域及易於控制相關聯。當然,此等lED對照 明設計者開發新的照明應用係重要的。 現今照明應用市場中的主要概念似乎是:㈣之壽命非 常長,約5·1〇4個小時’且不會過早地損壞。因此,大多數 照明器具設計使得若光源失效,%需要更換整個器具。然 而類似於其他類型之光源,一 LED可能表現出早期或過 早失效。此外’在-些應用(例如,商店、餐應及酒吧) 中’整修循環短於5.104個小時之指定㈣壽命,而在其他 應用(例如’室外 '街道、辦公室及醫院)中,LED壽命短 :整修循環。此外,由於希望改變由照明器具發射之光之 亮度、色彩或類似者,可能需要提早(亦即,在失效前)更 換咖。因此,需要—種能夠輕易更換㈣器具中的㈣ 之配置。 2009/0207609 A1揭示用於可釋放地安裝LED之插座 155272.doc 201200789 配置及使用此等插座之照明器具或總成。特定言之,其揭 示一種用於可釋放地安裝包括一封裝中的一 led晶片之一 LED燈之插座’該插座包括用於接觸該led燈上的燈電力 接觸件並且供應電力至該LED晶片之若干插座電力接觸件 及用於維持該等插座電力接觸件在操作期間與電接觸件電 接觸之一機構。該機構包括一彈簧偏置盤,該彈簧偏置盤 可用手指壓力按壓以更換該LED燈,且該盤在未經按壓時 可提供一彈力以使該等插座電力接觸件偏置抵靠該盤中的 該LED燈之該等燈電力接觸件。 【發明内容】 已參考上述考量及其他考量作出本發明。本發明試圖單 獨地或組合地減輕、緩解或消除上述不足及缺點之一或多 者。特定言之,希望達成可安裝於一插座元件中的一發光 照明模組,該照明模組分別促進該照明模組插入於該插座 兀件中及/或自該插座元件取出該照明模組。希望達成可 容納於一插座元件中的一發光照明模組,該照明模組可以 對於使用者為相對容易理解及/或對於使用者為直觀(亦 即,相對簡單的)之一方式插入於該插座元件中及/或自該 插座元件取出。 為達成此,提供具有如獨立技術方案中所定義之特徵之 -發光照明模組及一發光裝置。在從屬技術方案中定義本 發明之進一步有利實施例》 在下文中,措詞「發光照明模組」及「照明模组」可互 換使用。 I55272.doc 201200789 根據本發明之一第一態樣,提供一種經配置以安裝於一 插座元件中的發光照明模組^該發光照明模組包括用於可 釋放地耦合該照明模組與該插座元件之一耦合機構。該耦 合機構包括具有一第一彈性部件之至少一耦合元件。該第 一彈性部件包括用於與該插座元件上的一容納部分接合之 一接合區段。該接合區段係經配置以與該容納部分接合以 便施加壓力於該容納部分上以阻止該照明模組在至少一方 向上的移動。 藉由配置該第一彈性部件之該接合區段,以便在該接合 區段與S亥容納部分接合時,施加壓力於該容納部分上使得 阻止該照明模組在至少一方向上的移動,可促進該照明模 組插入於該插座元件中及/或自該插座元件取出該照明模 組。 具體言之,該配置使得該照明模組可以一拉出方式自該 插座元件取出,(例如)以便用另一照明模組更換該照明模 組。因此,可不需要額外操作,諸如,將該照明模組扭出 該插座元件中的一鎖定位置,打開一鎖或用於促進或甚至 實現自該插座元件移除該照明模組之類似操作。此進一步 使得在該照明模組(及插座)附近可需要較少空間以供使用 者能夠用他或她的手(或有效地及/或牢固地)抓住該照明模 組以自該插座元件移除該照明模組。繼而,此可實現消除 或減少對於在可用另一照明模組更換該照明模組之前移除 任何二級光學器件(諸如,一或若干個透鏡、鏡、反射 體、光束塑形器及/或色彩混合器等等)之需要,該等二級 I55272.doc 201200789 光學器件係配置於該照明模組配置於其中的一照明器具 上。 ' 具體言之,該配置使得該照明模組可以一推入方式插入 於該插座元件中,而無需額外操作,諸如,將該照明模組 扭入該插座元件中的一鎖定位置中、鎖緊一鎖或類似操 作。 因此,可使用一單手操作將該照明模組插入於該插座元 件中及/或自該插座元件取出該照明模組。 藉由該配置,可無需特定的插入及/或取出工具。 因此,藉由該配置,該照明模組插入於該插座元件中及/ 或自該插座元件移除該照明模組對於使用者可能相對容易 理解及/或對於使用者可能為直觀的(亦即,相對簡單的)。 由於可不需要如上文所討論之用於取出及/或插入之額 外操作,故該照明模組及/或該插座元件之外型因數(「佔 用面積(footprint)」)可能為相對小的。繼而,此可實現或 促進裝納用於驅動或控制該照明模組之額外組件,例如, 用於對光發射器通道(諸如,發光二極體(LE…通道)供電 之額外電通道或接觸件,其對於達成該㈣模組所發射之 光之可調整白色(例如’相對於色點)或甚至可調整色彩可 能是必需的。 —除上文所描述之該耦合元件外,該耦合機構可包括用於 實現該照明模組與該插雇元件之間之一可釋放搞合之額外 構件。 °亥照明模組可包括用於提供自配置於該照明模組中或配 I55272.doc 201200789 置於該照明模組上的任何發光元件起遠離該照明模組(例 如)至可耦合至該照明模組之一散熱器之—熱路徑的具有 一相對高導熱率之一材料。該散熱器可被包括在如下文所 描述之-照明器具或一發光裝置中。例如,該照明模組可 包括一金屬核心印刷電路板。 該發光照明模組可包括用於與該插座元件之一電連接器 模組耦合之一電連接器模組,其中該電連接器模組係至少 部分由該第一彈性部件组成。 換言之,該照明模組之電接觸構件可具有一整合式彈簧 功能,其可實現諸如前文所描述之該照明模組與該插座元 件之間之一可釋放耦合。藉由此一組態,可減少用於組裝 該照明模組所需之組件數量,此繼而可致使用於製造該照 明模組之成本降低。 該照明模組之電連接器模組或該插座元件之電連接器模 組可經組態使得其分別與該插座元件之電連接器元件或該 照明模組之電連接器元件匹配,或分別促進與該插座元件 之電連接器模組或該照明模組之電連接器模組匹配。 該第一彈性部件可經配置以便偏置抵靠該插座元件上的 該容納部分。此一組態可促進根據使用者及/或容量需求 調適該照明模組與該插座元件之間的可釋放耦合之強度。 該照明模組可包括一照明模組釋放致動器,該照明模組 釋放致動器係經配置以便在其經致動時接合該至少一耦合 元件以便減輕藉由該接合區段而施加於該容納部分上的壓 力,藉此釋放該照明模組與該插座元件之間的耦合,使得 155272.doc 201200789 促進該照明模組在至少一方向上之移動β 替代地或視情況,該照明模組釋放致動器可經配置以便 在其經致動時引起該照明模組位移一預定距離而遠離該插 座元件中的一安裝位置。該位移之方向及/或量值可使得 對於一使用者而言變得更容易地用他或她的手抓住該照明 模組以將該照明模組自該插座元件移除。換言之,該照明 模組致動器可經配置以便實現或促進以一推出方式自該插 座元件取出該照明模組。 5亥照明模組釋放致動器可(例如)包括一彈性部件,諸 如,一彈簧元件。 該照明模組可包括一發光單元。 S玄照明模組可包括用於傳輸由該發光單元所產生之熱使 其遠離該照明模組之一熱介面。 «亥第彈性部件之该接合區段可經配置以與該插座元件 之S亥容納部分接合以便施加壓力於該容納部分上,以藉由 作用於4插座元件上的一所得彈力而阻止該照明模組在至 ;一方向上之移動。該熱介面可在位置上經配置使得由於 作用於該插座元件上的該彈力而致使施加一預定壓力於該 熱介面之至少一部分上。 該照明模組可包括在位置上經配置以便施加壓力於該熱 介面之至少一部分上之至少一第二彈性部件。替代地或視 凊況,該至;一第二彈性部件可在位置上經配置使得壓力 係施加於整個熱介面上(例如,使得壓力係更均一地或均 勻地施加於整個熱介面上)。藉由此等組態之各者,在該 155272.doc 201200789 發光單元與耦合至該熱介面以便自其接收熱之一組件(諸 如 政熱器)之間的一熱路徑之一效率可增加(與經由該 熱路徑之熱傳遞有關)。 . 例如,該發光單元可包括至少一 LED(其可為有機或無 機的)、包括複數個LED晶粒之一多晶粒LED單元及/或任 何其他固態光源(亦即,藉由固態電致發光而發射光之一 光源)。 如上文所描述之一多晶粒LED單元可「裸露」使用或與 一罩蓋搭配使用,該罩蓋用於保護該LED單元本身,促進 該LED單元之處理及/或對該LED單元提供至該照明模組之 其他組件或包括該照明模組之一發光裝置的一介面。 該發光單元可包括經調適以至少反射、聚焦、重新引導 及/或修改由該發光單元所發射之光之波長之至少一光學 兀件及至;一光學元件可(例如)包含一或若干個透鏡、 鏡、反射體、光束塑形器及/或色彩混合器等等。 該接合區段可經配置 於s玄谷納部分上,以藉 力而阻止該照明模組在 可包括在其上配置該第 對於έ亥第一表面部分而 第二表面部分。該彈力 件接合以阻止該照明模 該第一彈性部件及一 包含一(壓力)彈簧。 以與该谷納部分接合以便施加壓力 由作用於該插座元件上的一所得彈 至少一方向上之移動。該耦合元件 一彈性部件之一第一表面部分及相 位於該耦合元件之一相對側上的一 可引起該第二表面部分與該插座元 組在至少一方向上之移動。 第二彈性部件之至少一者可(例如) 155272.doc 201200789 根據本發明之—第二_樣,提供__種包括—發光照明模 組、一插座70件及一耦合機構之發光裝置。該耦合機構係 經配置以可釋放地耦合該照明模組與該插座元件。該耦合 機構包括具有配置於該照明模組上的一第一彈性部件之至 少一輕合元件。該第一彈性部件包括用於與該插座元件上 的4納部分接合之一接合區段,其中該接合區段係經配 置以與該容納部分接合以便施加壓力於該容納部分上以阻 止該照明模組在至少一方向上之移動。 關於如上文所描述之本發明之第一態樣及/或第二態 樣,該接合區段可(例如)經配置以與該容納部分接合以便 施加壓力於該容納部分上,使得藉由作用於該插座元件上 的一所得彈力而阻止該照明模組在至少一方向上之移動。 該發光裝置可包括用於與配置於該插座元件上的一電連 接器模組耦合之配置於該照明模組上之一電連接器模組, 其中配置於該照明模組上之該電連接器模組係至少部分由 該第一彈性部件組成。 換言之,該照明模組之電接觸構件可具有一整合式彈簧 功能,其可實現諸如前文所描述之該照明模組與該插座元 件之間之一可釋放搞合。藉由此一組態,可減少用於組裝 該照明模組所需之組件冑量’ &繼而可致使用力製造該照 明模組/發光裝置之成本降低。 S亥發光裝置之該照明模組可包括一發光單元。 該發光裝置之該照明模組可包括用於傳輸由該發光單元 所產生之熱使其遠離該照明模組之一熱介面。 155272.doc •10- 201200789 該發光裝置可包括在位置上經配置以便自該熱介面接收 熱之一散熱器。 該熱介面可(例如)包括一可壓縮材料及/或一彈性材料, 諸如,聚氧矽。藉由此一組態,在該發光單元與耦合至該 熱介面以便自其接收熱之一組件(諸如,如上文所描述之 一散熱器)之間的一熱路徑之容量(與經由該熱路徑之熱傳 遞之效率有關)可能對位於該熱介面與該組件(例如,一散 熱器)之間的不規則體或微粒(諸如污垢)較不敏感。因此, 此一組態可使得該熱介面能夠在耦合至該熱介面的一組件 (諸如,一散熱器)上的表面不規則體(諸如,微粒污染物) 之周圍塑形,且可提供穩健抵抗刮擦及塵埃之一介面。 該熱介面可(例如)包括具有矽黏著性之一金屬膜。 根據另-實例’該熱介面可包括聚氧矽層或聚氧矽部件 或包括一彈性材料之另一部件及配置於包括一彈性材料之 該部件之一側上的包括展現一相對低摩擦之材料之一層 (諸如,鋁箔)。 本發明係關於請求項中所敘述之特徵之所有可能組合。 在下文中將經由例示性實施例描述本發明之各種實施例 之進一步目的及優點。 【實施方式】 在下文中將參考附圖描述本發明之例示性實施例。 在附圖中,相同參考數字表示視圖各處的相同或類似元 件。 現將參考附圖在下文中更完全地描述本發明,附圖中展 155272.doc -11 - 201200789 示本發明之例示性實施例。然而,本發明可以許多不同形 式體現且不應將本發明視為限於本文所闡述之實施例;確 切言之,此等實施例係經由實例而提供使得本揭示内容將 本發明之範疇傳達給熟悉此項技術者。此外,相同數字係 指各處的相同或類似元件。 現參考圖1 ’其展示根據本發明之一例示性實施例之— 照明模組100及該照明模組1 〇〇經配置以安裝於其中之一插 座元件110之一示意性透視圖。 該照明模組100包括用於可釋放地耦合該照明模組1〇〇與 該插座元件110之一耦合機構(其整體由參考數字1〇2引 用)。該耦合機構102包括具有一第一彈性部件106之一耦 合元件104 ’該第一彈性部件1〇6擁有用於與該插座元件 110上的一容納部分丨12接合之一接合區段1〇8 ^該接合區 段108係經配置以與該容納部分112接合以便施加壓力於該 容納部分112上以阻止該照明模組n〇在至少一方向上之移 動。 例如,在圖1中,該至少一方向可包括插入及/或取出該 照明模組100之方向(亦即,分別為向上及/或向下)。 s亥照明模組1 〇〇包括經調適以發射光之一發光單元i丨8。 §亥發光單元118包括許多發光二極體(LED)。通常,該發光 單7G118可(例如)包括至少一LED、包括複數個LED晶粒之 一多晶粒LED單元或任何其他固態光源。 根據圖1中所描繪之實施例,該接合區段108可經配置以 與忒容納部分112接合以便施加壓力於該容納部分丨12上, 155272.doc •12- 201200789 使得藉由作用於該插座元件110上的一所得彈力而阻止該 照明模組100在至少一方向上之移動。就這一點而言該 耦合元件104包括在其上配置該第一彈性部件1〇6之一第一 表面部分11 la及相對於圖1中面對觀察者之該第一表面部 分111a而位於該耦合元件104之一相對側上之一第二表面 部分mb,其中該彈力引起該第二表面部分11113與該插座 元件110接合以阻止該照明模組100在至少一方向上之移 動。圖1令未展示使該第二表面部分11113與之接合的該插 座元件110之部分。 該照明模組包括用於與該插座元件1 1 〇之一電連接器模 組116耦合之一電連接器模組。根據圖丨中所描繪之該實施 例’該照明模組1〇〇之該電連接器模組係至少部分由該第 一彈性部件106組成。 現參考圖2a,其展示根據本發明之一例示性實施例之一 發光裝置200之一示意性透視圖。該發光裝置2〇〇包括一發 光照明模組220及一插座元件21 〇。該照明模組220係經配 置以女裝於該插座元件210中。圖2a描繪該照明模組220係 安裝於該插座元件210中的一案例。 §亥照明模組220包括經調適以發射光之一發光單元228及 用於傳輸由該發光單元228所產生之熱使其遠離該照明模 組220之一熱介面229。 該插座元件210包括用於與該照明模組22〇之一電連接器 模組(圖2a中未展示)耦合之一電連接器模組216。 該發光裝置200包括在位置上經配置以便自該照明模組 155272.doc -13- 201200789 220之該熱介面229接收熱之一散熱器232。 參考圖1 ’該接合區段108可經配置以與該插座元件之該 容納部分112接合以便施加壓力於該容納部分112上,以此 一方式’藉由作用於該插座元件上的一所得彈力而阻止該 照明模組在至少一方向上之移動。 進一步參考圖2a,該熱介面229可在位置上經配置使得 由於諸如上文所描述之作用於該插座元件21〇上的一彈力 而致使施加一預定壓力於該熱介面229之至少一部分上。 替代地或視情況,根據圖2a中所描繪之實施例,該照明 模組220可包括在位置上經配置以便施加壓力於該熱介面 229之部分上之一第二彈性部件236。該第二彈性部件236 可在位置上經配置使得壓力係施加於整個熱介面229上(例 如,使得壓力係大體上均勻地施加於該熱介面229之部分 上)。藉由此等組態,在該發光單元228與耦合至該熱介面 229以便自其接收熱之散熱器232之間的一熱路徑之容量 (與經由該熱路徑之熱傳遞之效率有關)可得以改良。 該發光裝置200可包括圖2a中未繚示之額外組件,諸 如,一外殼、用於供應電力之電路等等。此等額外組件可 能同樣重要,但是其對本發明之實施例並非必要且因此未 參考圖式作進一步描述。 現參考圖2b及圖2c,其展示根據本發明之另一例示性實 施例之一發光裝置200之示意性透視圖。 該發光裝置200包括一發光照明模組22〇及一插座元件 210。該照明模組220係經配置以安裝於該插座元件21〇 155272.doc -14· 201200789 中。圖2b描繪該照明模組220待安裴於該插座元件21〇中的 一案例,而圖2c描繪該照明模組22〇係安裝於該插座元件 210中的一案例。 3玄照明模組2 2 0包括經調適以發射光之一發光單元2 2 $。 該發光裝置200包括在位置上經配置以便自該照明模組22〇 之一熱介面(圖2b及圖2c中未展示,參見圖2a)接收熱之一 散熱器232。 藉由诸如圖2b及圖2c中所描繪的一組態,可在該發光單 元228與該散熱器232之間達成一經改良熱路徑(與經由該 熱路徑之熱傳遞之效率有關)。 圖2b及圖2c中所描繪之該照明模組22〇可包括諸如參考 圖2a所描述之額外組件。然而,由於在前文中已參考圖2a 而描述此等額外組件,故並未參考圖2b及圖2c而進一步描 述此等額外組件。 現參考圖3a及圖3b ’其分別展示根據本發明之例示性實 施例之發光裝置300之示意性透視圖。 該發光裝置300包括一照明模組32〇、一插座元件3 !〇、 一發光單元328及一散熱器332。此等組件相同或類似於參 • 考圖1及/或圖2a至圖2c所描述之各自組件,且因此未參考 - 圖3a及圖3b之任一者而作進一步描述。 該發光裝置300可包括經調適以至少反射、聚焦、重新 引導及/或修改由該發光單元328所發射之光之波長之至少 一光學元件。參考圖3a及圖3b,提供兩個特定實例。 參考圖3a ’該發光裝置3〇〇包括一光學元件334,該光學 155272.doc -15- 201200789 元件334包括經調適以反射由該發光單元328所發射之光之 一反射體單元334。 參考圖3b,該發光裝置300包括一光學元件334,該光學 元件334包括一透明燈泡334a及位於該燈泡334a内的一所 謂的遠端發射器334b,該遠端發射器334b可發射具有類似 於一白熾光源之一空間強度分佈之光。在此内文中,藉由 術語「遠端發射器」意指一光發射器,諸如一或多個 LED,一光導及一反射體,其中該光發射器之發光區域大 體上係偏移或更換至該反射體配置於其上的該光導之一 端。 該光學元件334可耦合至該照明模組320及/或耦合至該 插座元件3 10。 現參考圖4,其展示根據本發明之一例示性實施例之一 照明模組420及該照明模組420經配置以安裝於其中的一插 座元件410之一示意性方塊圆。 該照明模組420包括用於可釋放地耦合該照明模組42〇與 該插座元件410之一耦合機構402。該耦合機構4〇2包括具 有第一彈性部件406之一麵合元件404,該第一彈性部件 406擁有用於與該插座元件410上的一容納部分412接合之 一接合區段408。該照明模組420包括用於與該插座元件 41〇之一電連接器模組416耦合之一電連接器模組4〇7。此 等組件類似或相同於參考圖1及/或圖2a至圖2C所描述之各 自組件’且因此未參考圖4而作進一步描述。 進一步參考圆4,該照明模組420包括一照明模組釋放致 155272.doc -16- 201200789 動器419 ’該照明模組釋放致動器419係經配置以便在其經 致動時接合該至少一耦合元件4〇4以便減輕由該接合區段 408施加於該容納部分412上的壓力,藉此釋放該照明模組 420與該插座元件41〇之間的耦合使得促進該照明模組42〇 在至少一方向上之移動。 此一照明模組釋放致動器可(例如)包括一彈性部件(諸 如,可經由一體地配置於該照明模組中的一按鈕而致動之 一彈簣),該彈性部件係至少經配置以接合該耦合元件以 便減輕由該接合區段施加於該容納部分上的壓力。 根據一實例,該插座元件可配置於該發光裝置上,使得 八為了樞轉,(例如)使得該插座元件可自一第一位置轉動 、’、勺90 (或轉動另一角度)至另一位置。取決於發光裝置之特 定幾何配置,此一組態可促進照明模組插入於插座元件中 及/或自插座元件取出照明模組,及/或增加關於插座元件 及/或發光裝置之設計之靈活性。 此後該照明模組被 例如,可將該插座元件轉動約9〇。 插入於該插座元件中,且隨後將該插座元件轉回至其原始 位置。此可實現將該照明模組安置或安裝於該插座元件中 的額外設計可能性。 如該等圖式中所描繪之該插座元件之電連接器模組及該 照、明模組之電連接器模組白扛&加雨.....201200789 VI. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention generally relates to the field of lighting application design. DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a lighting module that can be housed in a socket component. [Prior Art] A light-emitting diode (LED) for indicating purposes has been used for a long time, but a high-brightness LED (for example, an LED having a brightness high enough to achieve one of general illumination of various places such as a room) ) has caused significant development in the LED and lighting application market in a short period of time. High brightness LEDs are typically associated with a small size, a relatively high power (and associated low temperature), a relatively long lifetime, a wide color gamut, and ease of control. Of course, these lEDs are important for designers to develop new lighting applications. The main concepts in today's lighting application market seem to be: (iv) The lifespan is very long, about 5.2 hours 4 hours and will not be damaged prematurely. Therefore, most lighting fixtures are designed so that if the light source fails, the % of the entire appliance needs to be replaced. However, similar to other types of light sources, an LED may exhibit early or premature failure. In addition, 'in some applications (for example, shops, meals and bars), the 'renovation cycle is shorter than the 5.104 hours of designated (four) life, while in other applications (such as 'outdoor' streets, offices and hospitals), LED life is short. : Renovation cycle. In addition, since it is desirable to change the brightness, color or the like of the light emitted by the lighting fixture, it may be necessary to change the coffee earlier (i.e., before failure). Therefore, it is necessary to be able to easily replace (4) the configuration of (4) in the appliance. 2009/0207609 A1 discloses a socket for releasably mounting an LED 155272.doc 201200789 A lighting fixture or assembly for configuring and using such sockets. In particular, it discloses a socket for releasably mounting an LED lamp including one of a led wafer in a package, the socket including a light power contact for contacting the LED lamp and supplying power to the LED chip A plurality of receptacle power contacts and a mechanism for maintaining electrical contact of the receptacle power contacts with the electrical contacts during operation. The mechanism includes a spring biasing disk that can be pressed with finger pressure to replace the LED light, and the disk can provide an elastic force when unpressed to bias the socket power contacts against the disk The lamp power contacts of the LED lamp in the middle. SUMMARY OF THE INVENTION The present invention has been made with reference to the above considerations and other considerations. The present invention seeks to mitigate, alleviate or eliminate one or more of the above disadvantages and disadvantages, either individually or in combination. In particular, it is desirable to have an illumination module that can be mounted in a socket component that facilitates insertion of the illumination module into the socket assembly and/or removal of the illumination module from the socket component. It is desirable to achieve an illumination module that can be housed in a socket component that can be inserted into the user in a manner that is relatively easy for the user to understand and/or intuitive to the user (ie, relatively simple) The socket element is removed from and/or from the socket element. To achieve this, an illuminating illumination module and a illuminating device are provided having the features as defined in the independent technical solution. Further advantageous embodiments of the invention are defined in the subordinate technical solutions. In the following, the terms "lighting lighting module" and "lighting module" are interchangeable. I55272.doc 201200789 According to a first aspect of the present invention, a lighting lighting module configured to be mounted in a socket component is provided. The lighting lighting module includes a releasable coupling coupling of the lighting module to the socket One of the components is coupled to the mechanism. The coupling mechanism includes at least one coupling element having a first resilient member. The first resilient member includes an engagement section for engaging a receiving portion on the socket member. The engagement section is configured to engage the receiving portion to apply pressure to the receiving portion to prevent movement of the lighting module in at least one direction. By arranging the joint section of the first elastic member so as to apply pressure to the accommodating portion when the joint portion is engaged with the S hai receiving portion, the movement of the lighting module in at least one direction is prevented, thereby facilitating The lighting module is inserted into the socket component and/or the lighting module is removed from the socket component. In particular, the configuration allows the lighting module to be removed from the socket member in a pull-out manner, for example, to replace the lighting module with another lighting module. Thus, no additional operations may be required, such as twisting the lighting module out of a locked position in the socket member, opening a lock or similar operation for facilitating or even effecting removal of the lighting module from the socket member. This further allows less space to be provided near the lighting module (and socket) for the user to grasp (or effectively and/or securely) the lighting module from the socket component with his or her hand Remove the lighting module. This, in turn, eliminates or reduces the removal of any secondary optics (such as one or several lenses, mirrors, reflectors, beam shapers, and/or prior to replacement of the illumination module with another illumination module). A secondary color I55272.doc 201200789 optical device is disposed on a lighting fixture in which the lighting module is disposed. Specifically, the configuration allows the lighting module to be inserted into the socket member in a push-in manner without additional operations, such as twisting the lighting module into a locked position in the socket member, locking A lock or similar operation. Thus, the lighting module can be inserted into the socket component and/or removed from the socket component using a one-handed operation. With this configuration, no specific insertion and/or removal tools are required. Therefore, with the configuration, the lighting module is inserted into the socket component and/or the lighting module is removed from the socket component, which may be relatively easy for the user to understand and/or may be intuitive to the user (ie, , relatively simple). The profile factor ("footprint") of the lighting module and/or the socket component may be relatively small, as additional operations for removal and/or insertion as discussed above may not be required. In turn, this may enable or facilitate the inclusion of additional components for driving or controlling the lighting module, for example, additional electrical pathways or contacts for powering light emitter channels, such as light emitting diodes (LE... channels). Piece, which may be necessary to achieve an adjustable white (eg, 'relative to color point') or even an adjustable color of the light emitted by the (4) module. - In addition to the coupling element described above, the coupling mechanism An additional component for enabling releasable engagement between the lighting module and the interposing component can be included. The ambient lighting module can be included for providing self-configuration in the lighting module or with I55272.doc 201200789 Any illuminating element disposed on the lighting module is a material having a relatively high thermal conductivity away from the lighting module, for example, to a heat path that can be coupled to a heat sink of the lighting module. It can be included in a lighting fixture or a lighting device as described below. For example, the lighting module can include a metal core printed circuit board. The lighting lighting module can include a socket for the socket One of the electrical connector modules is coupled to one of the electrical connector modules, wherein the electrical connector module is at least partially composed of the first elastic component. In other words, the electrical contact member of the lighting module can have an integrated a spring function that enables releasable coupling between the lighting module and the socket member, such as described above. With this configuration, the number of components required to assemble the lighting module can be reduced, The cost of manufacturing the lighting module can be reduced. The electrical connector module of the lighting module or the electrical connector module of the socket component can be configured such that it is electrically connected to the electrical component of the socket component Or the electrical connector components of the lighting module are matched or respectively promoted to match the electrical connector module of the socket component or the electrical connector module of the lighting module. The first elastic component can be configured to be offset Relying on the receiving portion of the socket member. This configuration facilitates adapting the strength of the releasable coupling between the lighting module and the socket member in accordance with user and/or capacity requirements. An illumination module release actuator can be included, the illumination module release actuator configured to engage the at least one coupling element when it is actuated to relieve application to the receiving portion by the engagement section The pressure thereby releasing the coupling between the lighting module and the socket member such that 155272.doc 201200789 facilitates movement of the lighting module in at least one direction. Alternatively, or as appropriate, the lighting module releases the actuator The illumination module can be configured to cause the illumination module to be displaced a predetermined distance away from a mounting position in the socket member when it is actuated. The direction and/or magnitude of the displacement can be made more for a user Easily grasping the lighting module with his or her hand to remove the lighting module from the socket member. In other words, the lighting module actuator can be configured to implement or facilitate a push-out from the socket The component removes the lighting module. The 5 hai lighting module release actuator can, for example, comprise a resilient member, such as a spring member. The lighting module can include a lighting unit. The S-small lighting module can include a heat transfer device for transmitting heat generated by the light-emitting unit away from the thermal interface of the lighting module. The engagement section of the Hi-elastic component can be configured to engage the S-hull receiving portion of the socket member to apply pressure to the receiving portion to prevent the illumination by a resultant spring force acting on the 4-socket member The module is moving in; one side is moving upwards. The thermal interface can be configured in position such that a predetermined pressure is applied to at least a portion of the thermal interface due to the spring force acting on the socket member. The lighting module can include at least one second resilient member operatively configured to apply pressure to at least a portion of the thermal interface. Alternatively or as the case may be, a second resilient member may be positionally configured such that pressure is applied to the entire thermal interface (e.g., such that the pressure system is applied more uniformly or uniformly across the thermal interface). By means of such a configuration, the efficiency of one of the thermal paths between the 155272.doc 201200789 illuminating unit and one of the components (such as the temper) from which the thermal interface is coupled to receive heat may be increased ( Related to heat transfer via the thermal path). For example, the illumination unit can include at least one LED (which can be organic or inorganic), a multi-die LED unit including a plurality of LED dies, and/or any other solid state light source (ie, by solid state electrophoresis) Illuminating and emitting one of the light sources). A multi-die LED unit as described above can be used "naked" or used in conjunction with a cover for protecting the LED unit itself, facilitating processing of the LED unit and/or providing the LED unit to The other component of the lighting module or an interface including a lighting device of the lighting module. The illumination unit can include at least one optical component adapted to at least reflect, focus, redirect, and/or modify the wavelength of light emitted by the illumination unit; and an optical component can, for example, comprise one or several lenses , mirrors, reflectors, beam shapers and/or color mixers, etc. The engagement section can be configured on the sigma portion to prevent the illumination module from including the first surface portion and the second surface portion on the illumination module. The resilient member engages to block the illumination mold from the first resilient member and includes a (pressure) spring. Engaging with the portion of the valley to apply pressure is caused by at least one upward movement of a resulting projectile acting on the socket member. The coupling element, a first surface portion of one of the resilient members, and a portion on an opposite side of the coupling member, causes movement of the second surface portion and the socket tuple in at least one direction. At least one of the second elastic members can be, for example, 155272.doc 201200789. According to the second aspect of the present invention, a light-emitting device comprising a light-emitting illumination module, a socket 70, and a coupling mechanism is provided. The coupling mechanism is configured to releasably couple the lighting module to the socket member. The coupling mechanism includes at least one light engaging component having a first resilient member disposed on the lighting module. The first resilient member includes an engagement section for engaging a 4 nanopart portion on the socket member, wherein the engagement portion is configured to engage the receiving portion to apply pressure on the receiving portion to block the illumination The module moves in at least one direction. With regard to the first aspect and/or the second aspect of the invention as described above, the engagement section can be configured, for example, to engage the receiving portion to apply pressure to the receiving portion such that A resulting spring force on the socket member prevents movement of the lighting module in at least one direction. The illuminating device can include an electrical connector module disposed on the lighting module coupled to an electrical connector module disposed on the socket component, wherein the electrical connection is disposed on the lighting module The module is at least partially comprised of the first resilient member. In other words, the electrical contact member of the lighting module can have an integrated spring function that enables releasable engagement between the lighting module and the socket member, such as previously described. With this configuration, the amount of components required to assemble the lighting module can be reduced, and the cost of manufacturing the lighting module/lighting device can be reduced. The lighting module of the S-lighting device may include a lighting unit. The illumination module of the illumination device can include heat for transmitting heat generated by the illumination unit away from a thermal interface of the illumination module. 155272.doc • 10- 201200789 The illumination device can include a heat sink configured to receive heat from the thermal interface. The thermal interface can, for example, comprise a compressible material and/or an elastomeric material, such as a polyoxon. With this configuration, the capacity of a thermal path between the illumination unit and one of the components (such as a heat sink as described above) coupled to the thermal interface to receive heat therefrom (and via the heat) The efficiency of the heat transfer of the path may be less sensitive to irregularities or particles (such as dirt) located between the thermal interface and the component (eg, a heat sink). Thus, this configuration can enable the thermal interface to be shaped around surface irregularities (such as particulate contaminants) on a component (such as a heat sink) coupled to the thermal interface, and can provide robustness One interface against scratches and dust. The thermal interface can, for example, comprise a metal film having a ruthenium adhesion. According to another example, the thermal interface may comprise a polyoxon layer or a polyoxon component or another component comprising an elastomeric material and disposed on a side of the component comprising an elastomeric material comprising exhibiting a relatively low friction One layer of material (such as aluminum foil). The present invention is directed to all possible combinations of features recited in the claims. Further objects and advantages of various embodiments of the present invention are described below by way of illustrative embodiments. [Embodiment] Hereinafter, an exemplary embodiment of the present invention will be described with reference to the drawings. In the figures, the same reference numerals are used to refer to the The invention will now be described more fully hereinafter with reference to the accompanying drawings in which, FIG. However, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments described herein. This technology. In addition, the same numbers refer to the same or similar elements throughout. Referring now to Figure 1, there is shown a schematic perspective view of a lighting module 100 and a lighting module 1 configured to be mounted to one of the socket members 110, in accordance with an illustrative embodiment of the present invention. The lighting module 100 includes a coupling mechanism for releasably coupling the lighting module 1 to the socket member 110 (which is generally referred to by reference numeral 1〇2). The coupling mechanism 102 includes a coupling member 104 having a first resilient member 106. The first resilient member 1-6 has an engagement section 1 〇 8 for engaging one of the receiving portions 12 of the receptacle member 110. The engagement section 108 is configured to engage the receiving portion 112 to apply pressure to the receiving portion 112 to prevent movement of the lighting module n〇 in at least one direction. For example, in Figure 1, the at least one direction can include the direction in which the lighting module 100 is inserted and/or removed (i.e., up and/or down, respectively). The shai lighting module 1 includes an illumination unit i丨8 adapted to emit light. The illuminating unit 118 includes a plurality of light emitting diodes (LEDs). Typically, the illuminating unit 7G118 can, for example, comprise at least one LED, a multi-die LED unit comprising a plurality of LED dies or any other solid state light source. According to the embodiment depicted in FIG. 1, the engagement section 108 can be configured to engage the ankle receiving portion 112 for applying pressure to the receiving portion 12, 155272.doc • 12-201200789 such that by acting on the socket A resulting spring force on the component 110 prevents the illumination module 100 from moving in at least one direction. In this regard, the coupling element 104 includes a first surface portion 11 la on which the first elastic member 116 is disposed and which is located relative to the first surface portion 111a facing the viewer in FIG. One of the second surface portions mb on one of the opposite sides of the coupling element 104, wherein the spring force causes the second surface portion 11113 to engage the socket member 110 to prevent movement of the lighting module 100 in at least one direction. Figure 1 illustrates a portion of the receptacle member 110 that engages the second surface portion 11113 with it. The lighting module includes an electrical connector module for coupling with an electrical connector module 116 of the receptacle component 1 1 . According to the embodiment depicted in the drawings, the electrical connector module of the illumination module 1 is at least partially comprised of the first resilient member 106. Referring now to Figure 2a, a schematic perspective view of one of the illumination devices 200 in accordance with an exemplary embodiment of the present invention is shown. The illumination device 2 includes a light illumination module 220 and a socket element 21 〇. The lighting module 220 is configured to be worn in the socket member 210. Figure 2a depicts an example of the lighting module 220 being mounted in the socket member 210. The illumination module 220 includes a light-emitting unit 228 adapted to emit light and a heat source 229 for transmitting heat generated by the light-emitting unit 228 away from the illumination module 220. The socket component 210 includes an electrical connector module 216 for coupling with an electrical connector module (not shown in Figure 2a) of the lighting module 22. The illumination device 200 includes a heat sink 232 that is configured to receive heat from the thermal interface 229 of the illumination module 155272.doc -13 - 201200789 220. Referring to FIG. 1 'the engagement section 108 can be configured to engage the receiving portion 112 of the socket member to apply pressure to the receiving portion 112 in such a manner as to obtain a resulting elastic force on the socket member. And preventing the lighting module from moving in at least one direction. With further reference to Fig. 2a, the thermal interface 229 can be configured to cause a predetermined pressure to be applied to at least a portion of the thermal interface 229 due to an elastic force acting on the receptacle member 21A, such as described above. Alternatively or optionally, the illumination module 220 can include a second resilient member 236 that is configured to apply pressure to a portion of the thermal interface 229, in accordance with the embodiment depicted in Figure 2a. The second resilient member 236 can be positionally configured such that a pressure system is applied over the entire thermal interface 229 (e.g., such that a pressure system is applied substantially uniformly over portions of the thermal interface 229). By this configuration, the capacity of a thermal path between the illumination unit 228 and the heat sink 232 coupled to the thermal interface 229 to receive heat therefrom can be related to the efficiency of heat transfer via the thermal path. Improved. The illumination device 200 can include additional components not shown in Figure 2a, such as a housing, circuitry for supplying power, and the like. Such additional components may be equally important, but are not essential to embodiments of the invention and are therefore not further described with reference to the drawings. Referring now to Figures 2b and 2c, there is shown a schematic perspective view of a lighting device 200 in accordance with another exemplary embodiment of the present invention. The illuminating device 200 includes an illuminating lighting module 22 and a socket member 210. The lighting module 220 is configured to be mounted in the socket member 21 155 155272.doc -14· 201200789. Figure 2b depicts an example of the lighting module 220 to be mounted in the socket member 21, and Figure 2c depicts an example of the lighting module 22 being mounted in the socket member 210. 3 Xuan lighting module 2 2 0 includes one of the lighting units 2 2 $ that is adapted to emit light. The illumination device 200 includes a heat sink 232 that is configured to receive heat from a thermal interface (not shown in Figures 2b and 2c, see Figure 2a) of the illumination module 22A. An improved thermal path (depending on the efficiency of heat transfer through the thermal path) can be achieved between the illumination unit 228 and the heat sink 232 by a configuration such as that depicted in Figures 2b and 2c. The lighting module 22A depicted in Figures 2b and 2c can include additional components such as those described with reference to Figure 2a. However, since these additional components have been described above with reference to Figure 2a, such additional components are further described without reference to Figures 2b and 2c. Referring now to Figures 3a and 3b', respectively, schematic perspective views of a lighting device 300 in accordance with an illustrative embodiment of the present invention are shown. The illuminating device 300 includes a lighting module 32A, a socket component 3, a light emitting unit 328, and a heat sink 332. These components are identical or similar to the respective components described in reference to Figure 1 and/or Figures 2a to 2c and are therefore further described without reference to any of Figures 3a and 3b. The illumination device 300 can include at least one optical element adapted to at least reflect, focus, redirect, and/or modify the wavelength of light emitted by the illumination unit 328. Referring to Figures 3a and 3b, two specific examples are provided. Referring to Figure 3a', the illumination device 3A includes an optical element 334 that includes a reflector unit 334 that is adapted to reflect light emitted by the illumination unit 328. Referring to Figure 3b, the illumination device 300 includes an optical element 334 that includes a transparent bulb 334a and a so-called distal transmitter 334b located within the bulb 334a that can emit a similar A light of a spatial intensity distribution of an incandescent light source. In this context, the term "remote transmitter" means a light emitter, such as one or more LEDs, a light guide and a reflector, wherein the light emitting area of the light emitter is substantially offset or replaced. To one end of the light guide on which the reflector is disposed. The optical component 334 can be coupled to and/or coupled to the lighting module 320. Referring now to Figure 4, there is shown a schematic block circle of a lighting module 420 and a socket member 410 that is configured to be mounted therein in accordance with an exemplary embodiment of the present invention. The lighting module 420 includes a coupling mechanism 402 for releasably coupling the lighting module 42 to the socket member 410. The coupling mechanism 4〇2 includes a facing member 404 having a first resilient member 406 having an engagement section 408 for engaging a receiving portion 412 on the receptacle member 410. The lighting module 420 includes an electrical connector module 4〇7 for coupling with an electrical connector module 416 of the socket component 41. These components are similar or identical to the respective components described with reference to Figures 1 and/or Figures 2a through 2C and are therefore further described without reference to Figure 4. With further reference to circle 4, the lighting module 420 includes a lighting module release 155272.doc -16 - 201200789 actuator 419 'The lighting module release actuator 419 is configured to engage the at least when it is actuated A coupling element 4〇4 is provided to relieve the pressure exerted by the engaging section 408 on the receiving portion 412, thereby releasing the coupling between the lighting module 420 and the socket member 41〇 to facilitate the lighting module 42〇 Move in at least one direction. The illumination module release actuator can, for example, include an elastic component (such as a spring that can be actuated via a button that is integrally disposed in the illumination module), the elastic component being at least configured The coupling element is engaged to relieve pressure applied by the engagement section to the receiving portion. According to an example, the socket element can be disposed on the illumination device such that eight are pivoted, for example, such that the socket element can be rotated from a first position, ', spoon 90 (or another angle of rotation) to another position. Depending on the particular geometry of the lighting device, this configuration may facilitate insertion of the lighting module into and/or removal of the lighting module from the socket component and/or increase flexibility in the design of the socket component and/or the lighting device. Sex. Thereafter, the lighting module is rotated, for example, by about 9 turns. It is inserted into the socket element and the socket element is then rotated back to its original position. This can achieve additional design possibilities for placing or mounting the lighting module in the socket element. The electrical connector module of the socket component and the electrical connector module of the photo and the module as described in the drawings are white and humid....
情況包括其他電接觸件,例如, 是接器模組可替代地或視 以提供用於對光發射器通 155272.doc •17· 201200789 道(諸如,LED通道)供電之額外電通道或接觸件,其對於 達成該照明模組所發射之光之可調整白色(例如,相對於 色點)或甚至可調整色彩可能是必需的。根據其他實例,' 該插座元件之電連接器模組及/或該照明模組之電連接器 模組可替代地或視情況包括用於在該照明模組與該插座元 件之間傳送控制信號、資料封包等等(例如)以用於控制該 照明模組之光發射、量測光發射位準等等之其他電接觸件 或連接器。 諸如前文中所描述之一照明模組及/或一插座元件可包 括額外設備,諸如,電源電路、一LED驅動器、用於在感 測溫度超過一預定臨限值時藉由該照明模組調暗或切斷照 明之一溫度感測器/回饋電路等等。(此等額外設備未展示 於圖式中。) 例如,一溫度感測器/回饋電路可用於防止由於某些原 因而未發生來自該發光單元之充分熱消散,藉此使該照明 模組因過高溫度而處於失效及/或損壞之風險中的情況。 該照明模組之高度可不受該插座元件固定或限制,且因 此•亥照明模組之局度可朝向所需功能性而調適^例如,額 外空間可用於將LED驅動器電子器件整合於包括一基於 LED之發光單元之一照明模組中,添加光束塑形光學器件 (靜態及/或動態)’添加無線通信,建立連接一反射體之一 構件,添加用於組態該照明模組之按鈕(靜態及/或動態), 建立用於保護之一構件等等。該照明模組之尺寸亦可藉由 移除電子器件以建立大體上平坦之一照明模組而減小。此 155272.doc 201200789 靈活性使該照明模組可經調適以用於許多不同照明應用 例如,在諸如軌道照明之應 提供用於將230 V AC轉換成 用中,可藉由在該照明模組外 一LED電流的一轉換器而在該 插座元件與該照明模組之間的—電介面處供應—低AM DC電壓’藉此實現具有一相對小尺寸的一照明模組。此 外’在該照明模組中提供LED驅動器電子器件可有利於未 來備用及電子器件失效之情況。 總之,本發明揭示一種經配置以安裝於一插座元件中的 照明模組。該照明模組包括用於可釋放地輕合該照明模組 與該插座元件之-耗合機構。提供具有諸與該插座元件 上的一容納部分接合之一接合區段之一第一彈性部件,其 中該接合區段係經配置以與該容納部分接合以便施加壓力 於該容納部分上以阻止該照明模組在至少一方向上之移 動。 儘管本文已描述本發明之例示性實施例,但一般技術者 應瞭解,對如本文所描述之發明可作許多改變、修改或變 更。因此,應將本發明之各種實施例之以上描述及附圖視 為本發明之非限制性實例且保護範疇係藉由隨附申請專利 範圍所界定。在申請專利範圍中的任何參考符號不應被視 為限制範疇。 【圖式簡單說明】 圖1係根據本發明之一例示性實施例之一照明模組及該 照明模組經配置以安裝於其中之一插座元件之一示意性透 視圖; 155272.doc -19· 201200789 圖2a係根據本發明之一例示性實施例之一發光裝置之一 示意性透視圖; 圖2 b係根據本發明之一例示性實施例之一發光裝置之一 示意性透視圖; 圖2c係根據本發明之一例示性實施例之一發光裝置之一 示意性透視圖; 圖3a係根據本發明之一例示性實施例之一發光裝置之一 示意性透視圖; 圖3b係根據本發明之一例示性實施例之一發光裝置之一 示意性透視圖;及 圖4係根據本發明之一例示性實施例之一照明模組及該 照明模組經配置以安裝於其中之一插座元件之—示意性方 塊圖。 【主要元件符號說明】 100 照明模組 102 耦合機構 104 耗合元件 106 第一彈性部件 108 接合區段 110 插座元件 111a 第一表面部分 111b 第二表面部分 112 容納部分 116 電連接器模組 155272.doc -20- 201200789 118 發光單元 200 發光裝置 210 插座元件 216 電連接器模組 220 發光照明模組 228 發光單元 229 熱介面 232 散熱器 236 第二彈性部件 300 發光裝置 310 插座元件 320 照明模組 328 發光單元 332 散熱器 334 光學元件/反射體單元 334a 透明燈泡 334b 遠端發射器 402 耦合機構 404 耦合元件 406 第一彈性部件 407 電連接器模組 408 接合區段 410 插座元件 412 容納部分 155272.doc -21 - 201200789 416 電連接器模組 419 照明模組釋放致動器 420 照明模組 155272.doc -22-The case includes other electrical contacts, for example, a connector module that may alternatively or alternatively provide additional electrical pathways or contacts for powering the light emitters, such as LED channels. It may be necessary to achieve an adjustable white (eg, relative to a color point) or even an adjustable color of the light emitted by the illumination module. According to other examples, the electrical connector module of the socket component and/or the electrical connector module of the lighting module may alternatively or optionally include a control signal for transmitting between the lighting module and the socket component. Data packets, etc., for example, for controlling other light contacts or connectors of the light emitting, measuring light emission levels, etc. of the lighting module. A lighting module and/or a socket component such as described above may include additional equipment, such as a power supply circuit, an LED driver, for adjusting by the lighting module when the sensed temperature exceeds a predetermined threshold Dark or cut off one of the temperature sensor/return circuits and so on. (These additional devices are not shown in the drawings.) For example, a temperature sensor/feedback circuit can be used to prevent sufficient heat dissipation from the lighting unit to occur for some reason, thereby causing the lighting module to Excessive temperature and the risk of failure and / or damage. The height of the lighting module is not fixed or limited by the socket component, and thus the degree of the lighting module can be adapted towards the desired functionality. For example, additional space can be used to integrate the LED driver electronics into a In one of the illumination modules of the LED illumination unit, a beam shaping optics (static and/or dynamic) is added to add wireless communication, establish a component that connects a reflector, and add a button for configuring the illumination module ( Static and / or dynamic), established to protect one of the components and so on. The size of the lighting module can also be reduced by removing the electronics to create a substantially flat illumination module. This 155272.doc 201200789 flexibility allows the lighting module to be adapted for use in many different lighting applications, for example, where rail lighting should be provided for converting 230 V AC into use, by means of the lighting module A converter of the external LED current is supplied at the interface between the socket component and the illumination module - a low AM DC voltage to thereby achieve a lighting module having a relatively small size. In addition, providing LED driver electronics in the lighting module can facilitate future backup and electronic device failure. In summary, the present invention discloses a lighting module configured to be mounted in a socket component. The lighting module includes a consuming mechanism for releasably engaging the lighting module with the socket member. Providing a first resilient member having one of the engaging sections engaged with a receiving portion on the receptacle member, wherein the engaging portion is configured to engage the receiving portion to apply pressure on the receiving portion to block the The lighting module moves in at least one direction. Although an exemplary embodiment of the invention has been described herein, it will be understood by those skilled in the art The above description of the various embodiments of the present invention and the accompanying drawings are intended to be a non-limiting example of the invention and the scope of the invention is defined by the scope of the appended claims. Any reference signs in the scope of the patent application should not be construed as limiting. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic perspective view of a lighting module and a lighting module configured to be mounted to one of the socket members in accordance with an exemplary embodiment of the present invention; 155272.doc -19 2a is a schematic perspective view of a light emitting device according to an exemplary embodiment of the present invention; and FIG. 2b is a schematic perspective view of a light emitting device according to an exemplary embodiment of the present invention; 2c is a schematic perspective view of one of the light-emitting devices according to an exemplary embodiment of the present invention; FIG. 3a is a schematic perspective view of one of the light-emitting devices according to an exemplary embodiment of the present invention; A schematic perspective view of one of the illumination devices of one exemplary embodiment of the invention; and FIG. 4 is a lighting module and the illumination module configured to be mounted to one of the sockets in accordance with an exemplary embodiment of the present invention Elemental - schematic block diagram. [Main component symbol description] 100 lighting module 102 coupling mechanism 104 consuming component 106 first elastic component 108 joint section 110 socket component 111a first surface portion 111b second surface portion 112 accommodating portion 116 electrical connector module 155272. Doc -20- 201200789 118 illuminating unit 200 illuminating device 210 socket element 216 electrical connector module 220 illuminating lighting module 228 illuminating unit 229 thermal interface 232 heat sink 236 second elastic component 300 illuminating device 310 socket component 320 lighting module 328 Light-emitting unit 332 heat sink 334 optical element/reflector unit 334a transparent light bulb 334b distal end transmitter 402 coupling mechanism 404 coupling element 406 first elastic member 407 electrical connector module 408 joint section 410 socket element 412 housing part 155272.doc -21 - 201200789 416 Electrical Connector Module 419 Lighting Module Release Actuator 420 Lighting Module 155272.doc -22-