200841116 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種積分柱與燈罩一體成形之光源裝置,尤指定位 容易、便於組裝、高光利用率、特定光路上亮度均勻、減少系統 内污染、減少元件以達到降低成之積分柱與燈罩一體成形之光源 裝置。 【先前技術】 投影顯示器的顯示原理,基本上和所有的投影機都一樣。投影機 先將光線照射到圖像顯示元件上來産生影像,然後通過鏡頭進行 投影。投影機的圖像顯示元件包括利用透光產生圖像的透過型和 利用反射光産生圖像的反射型。無論哪一種類型,都是將投影燈 的光線分成紅、綠、藍三色,再産生各種顏色的圖像。因爲元件 本身只能進行單色顯示,因此就要利用3個元件分別生成3色成 分。然後再通過棱鏡將這3色圖像合成爲一個圖像,最後通過鏡 頭投影到螢幕上。 投影機所使用的光源和透明片投影機、投影顯示裝置、背投電視、 幻燈機、光機、車燈、家庭照明等大致相仿。不過,或許是基於 偏見或其他因素’多年以來投影機所使用的光源仍存在著許多問 題0 200841116200841116 IX. Description of the invention: [Technical field of the invention] The present invention relates to a light source device integrally formed with an integral column and a lamp cover, which is particularly easy to position, easy to assemble, high light utilization efficiency, uniform brightness on a specific optical path, and reduction of pollution in the system. The component is reduced to achieve a light source device that is integrally formed by reducing the integrated column and the lamp cover. [Prior Art] The display principle of the projection display is basically the same as that of all the projectors. The projector first illuminates the image display element to produce an image, which is then projected through the lens. The image display elements of the projector include a transmissive type that produces an image by light transmission and a reflective type that produces an image by using reflected light. In either case, the light of the projector is divided into three colors of red, green, and blue, and images of various colors are produced. Since the component itself can only be displayed in a single color, it is necessary to generate three color components by using three components. The three color images are then combined into one image by a prism and finally projected onto the screen through the lens. The light source used in the projector is similar to a transparent film projector, a projection display device, a rear projection television, a slide projector, a light machine, a lamp, a home illumination, and the like. However, perhaps based on prejudice or other factors, there have been many problems with the light source used by projectors for many years. 200841116
WO 2005/017406 之 METHOD OF MANUFACTURING REFLECTOR LIGHTING APPARATUS,励PROJECTOR”,其所採用的反射鏡燈罩 可將光導肢特定方向,並_將巾_份_之管紐具加熱 後,在充入氣體後將中心反射鏡表面延展。在將此管狀燈罩從中 對切後’一次製造出兩個反射鏡置燈罩,並在其内部加了一個圓 滑狀小反射面,以少1成本的方式增加了光之使用率。 但是其方法具有以下數點缺點:⑴在置換燈源時,將一整組之 燈源換掉,包含燈泡、含反射面鏡之燈罩,以及周邊細固定支 架機構’其浪費了含反射面鏡之燈罩’以及周邊相關·支架機 構之可重翻_價值;⑵雜光源敝裝方絲成其反射鏡面 的有效區減少,即是減少反射賴面積關應組裝需要,這會使 得部分光線無法魏集;⑶由於賊為㈣方向,光線輸出 分佈不均;⑷由於反職元件-件以上,在製造成本上較一面反 射鏡燈罩高。WO 2005/017406, METHOD OF MANUFACTURING REFLECTOR LIGHTING APPARATUS, PROJECTOR, which uses a mirror lampshade to guide the light guide in a specific direction, and after heating the tube, after filling with gas The surface of the center mirror is extended. After the tubular lampshade is cut from the center, two mirror mirrors are fabricated at one time, and a rounded small reflecting surface is added inside, which increases the use of light in a cost-less manner. However, the method has the following disadvantages: (1) When replacing the light source, a whole set of light sources are replaced, including a light bulb, a light cover with a reflective mirror, and a peripheral fine fixing bracket mechanism, which wastes reflection The lampshade of the mirror and the peripheral related bracket mechanism can be re-turned _ value; (2) the effective area of the mirror surface of the miscellaneous light source is reduced, that is, the reflection area is reduced to meet the assembly requirements, which may make part of the light impossible. Wei Ji; (3) Due to the thief's (four) direction, the light output is unevenly distributed; (4) due to the counter-components, the manufacturing cost is higher than that of the mirror cover.
US6356700 ^ EFFICIENT LIGHT ENGINE SYSTEMS, COMPONENTS 獅酬圓OF M順ACTURE” ’其將一半球面鏡與橢球面鏡集 光,並將高壓放電燈作為酬絲。在這裝置中,·被置於糖 球面鏡較靠近鏡面之-焦點,同時此點也是半球面鏡之球心,由 半球面敝光赚芯,__之隽、點。最後由橢球面鏡將光投 至遠離橢球_另_餘絲,以供投職辆、或照明系統使 用。此集光方式味-般的光杯如_面、橢球面式的反射鏡集 200841116 光會得到更均勻的光源,亦提高光之使用率。 但是該系統具有以下數點缺點:(1)在置換燈源時,其燈芯與燈罩 的定位問題,以及燈芯必須調焦置於定位點上困難;(2)在置換燈 源過於繁瑣,須將兩面鏡拆開,替換燈芯後再調校兩面鏡的位置, 此一方法實為不便;(3)這樣的組裝方式也造成其反射鏡面的有效 區減少,即是減少反射鍍膜面積以因應組裝需要,這會使得部分 光線無法被收集;(4)為了置換燈源而拆開系統,容易使集光面鏡 與燈芯管受污染,灰塵、油潰…等若是附著在上面,整個系統的 投光效率將大大下降;(5)由於燈芯散熱不佳,造成燈芯使用壽命 減短(6)由於反射鏡元件一件以上,在製造成本上較一面反射鏡燈 罩兩(7)其兩面反射鏡所組成之燈罩體積較一面反射鏡之燈罩大。 US2002008972A1 之” Combining two lamps f〇r use with a rod integrator projection” ,光由燈泡 i〇6 射出,由 i〇2、i〇4鏡 片組使光聚於積分柱118使光於特定光路之中,此專利應用典型 投影機積分柱之使用,著力於兩個燈源投射於一個積分柱之應用。 而積分柱進一步之應用,如JP2003279710A之” ROD INTEGRATOR AND PROJECTOR”,積分柱不同之形狀將帶來不同積分光均勻效 但是以上如此形態之系統皆將光罩與積分柱分成兩個元件分離使 200841116 用’會有以下缺點··⑴在置換燈源時,其燈芯、燈罩與積分柱的 疋位問題’以及财賴調焦置於定健上_ ;⑵在置換燈源 過於繁瑣,須移動燈罩與積分積之位子,替換燈芯後再調校燈芯、 燈罩與積分柱的位置,此一方法實為不便;⑶為了置換燈源而 拆開系統,容易錢光峨、贼管與積分柱受污染,灰塵、油 潰···等若是附著在上面,整個系統的投光效率將大大下降;⑷由 於燈芯散鮮佳’造雜芯侧壽命減短⑸由概射鏡元件一 件以上,在製造成本上較一面反射鏡燈罩高。 總之,以往投影顯示裝置的光源,皆為使用光杯式的燈泡,如拋 物面、橢球面式的反射鏡集絲,其與積分柱分離使用,但是其 共通缺點為投光的不料,因其投光的光減奴管為同一方 向’燈芯管的軸向是不發_,所以在投光上會有中央暗場的存 在,除此之外,由於積分柱分離使用,使得部份來自燈泡的光沒 有收制’膽泡、罩與積分蚊位_。有鑑於此,遂有高效 率光源引擎的裝置提出’但是這―系統的燈芯被完全包覆於兩面 反射鏡之内,-但親壽命耗盡,要獅妨彳林拆解此一 系統,拆解易使鏡面與新的燈芯管受到污_,不利於系统運作之 散熱,光線也容易散射而損失,再加上積分柱分離使用使用部份 光沒有收集到,而燈泡、罩與積分柱定位之困難,更增加還原系 統日守組裝才父準的困難。 200841116 【發明内容】 本發明之主要目的在提供一種積分柱與燈罩一體成形之光源裝 置’其燈芯管的替換可便捷地採用插入式置換,使得無須特別考 慮燈芯、燈罩反射鏡面與積分柱校準定位問題。 本發明之次要目的在提供一種更換燈芯之光源裝置,其具有手把 4的光源可在徒手進行上述更換時,祕不會被外界污染。 ( 本發明之次要目的在提供—觀紐芯之絲裝置,其集光的兩 鏡®是為碰不分_—個反射鮮,所峨_賴區域可以 再增加,使得整體光利用效率增加。 基於上述目的,本㈣更換贼之光職置至少包含統、燈罩 在光源中則主要由燈芯管、燈芯、以及由燈芯向兩個方向延伸出 電極對所組成。燈罩為—體成型的中空球狀體,且具有十字電極 座、出光口、光源口電極座。 I 在光财’魏極對分聊燈芯管_的電極帽、十字電極有電 性連接關係’並由電極帽延伸出把手部。燈怒管大體上為中空透 明管㈣’則·罩住燈芯並固定在電極帽上,而在罩住财後而 接近燈芯的部分為球狀部。 在燈罩巾’十字_絲結構上姆於制麵十字電極,而光 源口電極座赌供統·跋續勒部且储耻相對於燈 芯管的電極帽。 當需組裝光源至燈罩時,可藉著光源的把手部可手持光源,並經 200841116 由燈罩的辆,使_ 入靡芯完全進 目^提供—鮮祕s裝置,料有手把部的光 進仃上极換時,系統不倾外界污染。 7明之次要目的在提供-種單向舰錢,其舰兩電極採以 :方向導出’因只有單—供光源置人的光源口,鏡面的鑛膜區域 :^力❿且積分柱與光罩反射鏡面為-體成型,使得整體 光利用效率增加,改進還驗裝的兩反概蚊位問題,並且進 而降低生產成本。 次要目的在提供—種單向燈芯裝置,其光源的光軸與燈 心官垂直而不會有中央暗铜問題。 二上iC目❾本發明積分柱與燈罩—體成形之光源裝置至少包 含光源、燈罩、積分柱,且光祕由燈麵定住·、,並由燈座 延伸出把手部。燈罩與積分柱職_體姻的巾纽,且具有出 光口、光源口,而光源口係提供光源的燈芯進入燈罩内部,出光 口即積分柱之光出射的地方。 需要組裝絲、燈科,可藉著絲的把手部可手持光源,並經 由燈罩的光源口,使燈芯進入燈罩内部,且在燈芯完全進入燈罩 後,燈芯大體上可對準燈罩的出光口。 關於本發明之優點與精神可以藉由以下的發明詳述及所附圖式得 到進一步的瞭解。 200841116 【實施方式】 請參閱第1 一1Α〜Μβ圖,第ha〜1-1B圖為基於本發明積分柱與 燈罩-體成形之光源裝置之投影機示意圖。如第圖所示,本 發明投影機110主要由本發明更換燈芯之光源裝置的光源112(如 第1B圖所不)、燈罩114、預定形狀之積分柱麗、投影透鏡腕 所組成。燈罩114被裝設在投影機110畴,並從投影機110的 外觀來看可觀察到其所有的光源口電極座n4b。 如第1-1B圖所不,在光源112中,主要由燈芯管n2a、燈芯n2b、 以及由燈芯112b向兩個方向延伸出電極對U2e所組成。此電極 對112e分別對燈芯管112a兩端的電極帽、十字電極112c 有包性連接關係,並由電極帽H2d延伸出把手部n2g。燈芯管 112a大體上為中空透明管狀體,且可罩住燈芯n2b並固定在電極 帽112d上’而在罩住燈芯112b後而接近燈芯12b的部分為球狀 部112f。燈罩114則主要為一體成型的中空球狀體,且具有出光 口 114a、預定形狀之積分柱114d(與出光口 114a彼此連通)、光 源口電極座114b、十字電極座14c(其在結構上相對於燈騎U2a 的十字電極112e),射料1U無定形狀之積錄114d為-體成形,而光源口電極座114b用來讓光源112的燈芯112b進入 燈罩14内部且在結構上相對於燈芯管112a的電極帽112g。 如此一來,已進入燈罩14内部的光源112被點亮時,其光源除了 經由燈罩14的出光口 i14a射出以外,更會藉著積分柱n4d内部 11 200841116 的預定反射途徑,得到特定光路之均勻光束,提高光利用率,如 第1_2圖所示。底下,將更進一步地說明光源112如何進入燈罩 14内部,以及燈罩14與積分柱U4d如何反射光源112的光束, 以便經由積分柱114d均勻射出。 當需要將光源112組合入燈罩114時,使用者可藉著光源112的 把手部112g手持著光源ι12,並經由燈罩114#光源口電極座 114b,使光源112(尤其是燈芯1121))進入燈罩114内部,且在燈 芯112b完全進入燈罩ι14後,燈芯112大體上可對準燈罩114的 出光口 114a、以及投影透鏡110a。如此一來,當光源112被點亮 時,其所射出的光線光經由預定形狀之積分柱丨丨妃之出光口 114a,出光至投影透鏡11〇a,光線經由預定形狀之積分柱ii4d 得到4寸疋光路之均勻光束,而其他部份光線會被燈罩114的内壁 反射穿過出光口 114a。反之,若光源112已組合進燈罩114,但 而更換光源112時,則仍手握把手部112g對光源112採相反方式 而取出光源112。此外,若在把手部收的表面增加有紋路或粗 糙面時,可增加上述組合、取出光源112的便利性。 如此來,由於在更換光源112時,無須拆開如第丨—丨圖所示之 杈衫機11〇就可便捷地採用插入式置換,也不會污染到投影機11〇 的内部το件等。同時也因為使用者的手沒有接_光源112的燈 芯112b,所以也不會污染到燈芯112b。 上述光源112可為發光二極體(Light Emining Di〇de,LED)、雷 12 200841116 射二極體Diode,LD)或其他發光體、預定形狀的燈泡、燈 管,且可設置在光源U2的燈芯管未端以散熱電極包覆,可同時 解決通電問題及改善散熱。 此外’燈罩114的内部表面為預定形狀,且其内部表面上具有電 鍍的反射㈣,而可其反射作用,提高穿過㈣口 _的比 例’提高光利用率。 為了讓光源112、燈罩U4能更穩固結合,在光源112的電極帽 112b、燈罩114 0光源口電極座⑽彼此之間均具有相對的固定 結構。此©定結構可為彈簧卡榫、餘卡榫或如圖示巾所描_ 螺紋凹槽。有了上述的固定結構後,亦即燈罩114的結構設計和 光源112的燈:¾應的位置設計均可事先匹配好,這使得在組合 光源112、燈罩114時,除了如便利於拆裝外,更可因此無須特別 考慮燈芯112與燈罩114之反射鏡面校準定位問題。 除了如第1-1B圖所示之光源112、料114設計外,還可略改變 燈罩114的結構形狀、組成元件或是改變罩住光源112的燈芯管 112a,尤其是接近燈芯112b的部分為球狀部mf,而達到類似的 效果,類似於如第MB圖所示之第一之一實施例。 明參閱第1-2圖,第1-2圖為本發明積分柱與燈罩一體成形之光 源裝置之第一之二實施示意圖。如第丨—2圖所示,本發明更換燈 〜之光源衣置主要仍由光源η〗、燈罩ι16、預定形狀之積分柱 114d所組成,其中燈罩116與預定形狀之積分柱為一體成 13 200841116 形’其具有出光口 114a、光源口 114b。出光口 H4a也可視為由 燈罩116的出光口延伸至積分柱114(1的出光口。 在此實施例中,燈罩116變得由半圓球反射鏡116a、平面反射鏡 116b彼此相連而組成,接近平面反射鏡116b的中心處具有凹下的 球面反射部116c,且在半圓球反射鏡116a具有出光口 114a、預 定形狀之積分柱114d,而在半圓球反射鏡11如、平面反射鏡116b 之間具有光源口電極座114b。 此實施例最大的特點在於,當點亮光源112時,其光線會被很接 近光源112的凹下的球面反射部116c反射,並經由預定形狀之積 分柱114d之出光口 U4a離開燈罩116。如此一來,當光源112 被點亮時,其所射出的光線光經由預定形狀之積分柱114d之出光 口 114a,其光線經由預定形狀之積分柱114(1得到特定光路之均勻 光束,而其他部份光線會被燈罩114的内壁反射穿過預定形狀之 積分柱114d之出光口 114a。 請參閱第1-3圖,第1-3圖為本發明積分柱與燈罩一體成形之光 源裝置之第一之三實施示意圖。如第1—3圖所示,本發明更換燈 4之光源裝置主要仍由光源112、燈罩117、預定形狀之積分柱 114d所組成,其中燈罩117與預定形狀之積分柱n4d為一體成 形,其具有出光口 114a、光源口 114b。 先前所述的實施例中’燈芯管112a不一定要有,但此實施例則必 200841116 須要有,因域㈣管112a _分顧部簡絲面上會特別 具有電鍍的反射物質117b。 在準備好此種特別的光源112後,並將之完成組合後,在光源112 被點亮時’具有紐的反射物質mb的球狀部112e的表面可在 不遮蔽 112b的光線下,反射燈芯112b的紐,並穿過半圓 球反賴117a的經由預定形狀之積分柱_之出光口 _離開 燈罩m。如此-來’當總12被點辦,其崎_光線級 由預定形狀之積分柱114d之出細114a,其光線經由預定形狀之 積分柱114d得到特定光路之均勻光束,而其他部份光線會被燈罩 114的内壁反射穿過預定形狀之積分柱⑽之出光口叫。 此外,光源H2組合至燈罩114、116、117中,除了如先前所述 的橫喪方式外’射靖料、郷_結構略作賴後,還可 用直嵌方式完成組裝、拆解。 請參閱第1-4A〜1-4B圖,第卜似,圖為本發明積分柱與燈罩 -體成形之光源裝置之第—之四實施示意圖。如第卜4a圖所示, 先騎述的燈罩114、116、117可將之改變成由燈罩_、燈罩 上蓋118a所組成,並膽罩如第卜犯_所示被固定在投影 機110中(即投影機10的開口 11〇b的相對位置)。在燈罩11肋的 上半部具有略等同於光源112大小的橫向缺口,❿此橫向缺口可 被燈罩上蓋118a完全蓋住。 ' 具體來說,當需要將光源112組合至燈罩咖時,可藉著夹治具 15 200841116 夾住光源112,並將光源112從開口 ll〇b、燈罩U8b的橫向 缺口放入燈罩118b中’並藉著電極夾座122夾住光源112兩端的 電極。 睛芩閱第2-1圖,第2-1圖為基於本發明積分柱與燈罩一體成形 之光源震置之投影機示意圖。如第2-1圖所示,本發明投影機go 主要由本發明單向燈芯裝置的光源212、燈罩214、蓋板21〇a、投 影透鏡210c所組成。燈罩214被特殊固定結構固定(不定特其結 構’只要能夠固定住燈罩214均可)並裝設在投影機21〇内部,且 面對開口 21Gb、蓋板21Ga。在光源212中,燈座⑽透過燈怒 212c的电極固定住mi2c,並由燈座212b延伸出把手部2似。 :而要將光源212固定至燈罩214時,需先將蓋板21如掀開,並 經由開π 210b將光源212插入或旋入燈罩214。光經由預定形狀 之積分柱218之出光口 214a,出光至投影透鏡则c。 請參閱第2-2圖,細圖為本發日靖分柱與燈罩—體成形之另 弟一之一實施不意圖。如第2~2圖所示’本發明單向趕 二ΓΓ源212、燈罩214和預定形狀之積分柱㈣ 鏡219所組成。燈罩214為由兩個 合而成之中空體,且燈罩214盘心 曲面反射鏡、结 I體站罩214與敢频之積分柱 形’其具有出光n214a、麵n2Ub * 定形狀之積分柱218得到特定光路之均^如恤為經由預 讓光源212的燈芯212c進入燈罩214_ — H4b用4 且罩214内部。為了強化排熱效果: 16 200841116 燈罩214還可進一步包含用來排熱之出風口 214d、入風口 214c。 由積77柱218的出光口 214a所射出的光束,仍有可能部分光束 會散射。為了解決這侧題,可在出光口 _的位置增設聚光鏡 、強化光束的t集性’提〶光數的湘性。底下,將繼續說 明光源212對入光罩214的組合、拆卸,以及光途徑。 當需要將光源212組合入光罩214時,使用者可藉著光源212的 把手部212a手持著光源212,並經由燈罩214的光源口 ,使 光源212(尤其是燈芯212c)進入燈罩214内部,且在燈芯—完 全進入燈罩214後,燈芯214大體上可對準燈罩214的預定形狀 之積为柱218出光口 214a、以及投影透鏡2i〇a。反之,若光源212 已組合進燈罩214 ’但需更換光源212時,則仍手握把手部212a 對光源212採相反方式而取出光源212。此外,若在把手部21如 的表面增加有紋路或粗糙面時,可增加上述組合、取出光源 的便利性。 當光源212被點亮時,其所射出的光線除了可直接穿過預定形狀 之積分柱218之出光口 214a、以及投影透鏡210a外,部分光線還 會被燈罩214的内壁反射穿過預定形狀之積分柱218之出光口 214a,亦即燈罩214内部兩個以上之任意自由曲面反射鏡中,部 份任意自由曲面反射鏡將光源212之光反射收集回光源212所在 處,而部份任意自由曲面反射鏡將光源212之光反射收集至預定 形狀之積分柱218之出光口 214a,使光源212之光射集中由預定 17 200841116 形狀之積分柱218之出光口 214a射出。 上述光源212的光軸與燈芯管212d(如第5圖所示)垂直而不會有 中央暗場的問題,且可為發光二極體(Light Emitting Di〇de, LED)、雷射二極體(Laser Diode, LD)或其他發光體、預定形狀的 燈泡、燈管。光源212可為單向燈芯之光源,且其兩電極於相同 方向導出。光源212連接處具有一個散熱電極(如銅電極),其可 /設置在光源212的燈芯管未端以散熱電極包覆,可同時解決通電 問題及改善散熱。 此外,燈罩214的内部表面為預定形狀,且其内部表面上具有電 鍍的反射物質,而可增強其反射作用,提高穿過出光口 2Ua的比 例,提高狀醇,而預定形狀之積分柱218亦亦為預定形狀, 其與燈罩-體成形’避免觀、料_餘找位困難。 為了讓光源212、燈罩214能更穩固結合,在光源212的燈座·、 燈罩214的光源π 214b彼此之間均具有相對的固定結構。此固定 、、σ構可為彈兴卡榫、方疋紐卡榫或如圖示中所描緣的螺紋凹槽。在 燈罩214的光源π 214b的觸具有絕緣材料(如陶磁)。有了上述 的固定結構後,亦即燈罩214的結構設計和光源212的燈芯· 的位置設計均可事先匹配好,這使得在組合光源212、燈罩214 日守除了如便利於拆裳外’更可因此無須特別考慮燈芯批紐 罩214之反射鏡面校準定位問題。 除了如第2-2圖所示之光源212、燈罩214設計外,還可略改變燈 18 200841116 罩214的結構形狀、改變預定形狀之積分桂2i8的結構形狀、也 成兀件或是改變罩住光源212的燈芯管,尤其是接近燈芯服的 部分斜空體狀中空體狀212e,而達到類似的絲,類似於如第 2-2圖所示之積分柱與料—體成狀光職置。 請參閱第2-3圖,第2-3圖為本發明積分柱與燈罩一體成形之光 源裝置之第二之二實施示意圖。如第2_3 _示,本發明單向燈 怒裝置主要仍由光源212、燈罩215、預定形狀之積分柱218所組 (成。為了強化排熱效果’燈罩215還可進一步包含用來排熱之出 風口 214d、入風口 214c。 在此實施例中,燈罩215變得由曲面形狀之反射鏡、擴圓球 反射鏡215b與預定形狀之積分柱218彼此相連而組成,且在曲面 形狀之反射鏡215a同樣相連結一預定形狀之積分柱218具有出光 口 214a、在曲面形狀之反射鏡2i5a、橢圓球反射鏡215b之間則 t 同樣具有光源口 214b。 當需要進行組合時,可同樣藉著光源212的把手部212a可手持光 源212’並經由燈罩215的光源口 214b,使燈芯212c進入燈罩215 内部,且在燈芯212完全進入該燈罩後,該燈芯大體上可對準該 燈罩的該預定形狀之積分柱218,由預定形狀之積分柱218上出光 口 214a出光。 第二實施例和第一實施例最大的差異在於,曲面形狀之反射鏡 19 200841116 咖、麵敍魏215b之間的轉差異會妹大的·,而可 適當地調整其醇後,提高光線_光罩214的比例。 當光源212被啟動時,曲面形狀之反射鏡將光源212之光反 射收集回光源212所在處,同時具有電鑛的燈罩215,會將光源 212之光反射收集至預定形狀之積分柱218之出光口恤,使光 源犯之光射集中由預定形狀之積分柱218之出光口恤射出。 睛麥閱第2-4目,第2-4圖為本發明積分柱與燈罩一體成形之光 源叙置之第二貫施示意圖。如第2_4圖所示,本發明積分柱與燈 罩一體成形之光源裝置要仍由光源212、燈罩216、預定形狀之積 分柱218所組成。為了強化排熱效果,燈罩216還可進一步包含 用來排熱之出風口 214d、入風口 214c。 在此實施例中,燈罩216變得由曲面形狀之反射鏡216a、平面反 射鏡216b彼此相連而組成,接近平面反射鏡216b的中心處具有 凹下的球面反射部216c,且在曲面形狀之反射鏡216a相連接預定 开/狀之積分柱218具有出光口 214a、而在曲面形狀之反射鏡 216a、平面反射鏡216b之間具有光源口 214b。 此實施例最大的特點在於,當點亮光源212時,其光線會被很接 近光源212的凹下的球面反射部216c反射,並經由預定形狀之積 分柱218之出光口 214a離開光罩216。 請參閱第2-5圖,第2-5圖為本發明積分柱與燈罩一體成形之光 20 200841116 源裝置之第四實施示意圖。如第2-5圖所示,本發明積分柱與燈 罩一體成形之光源裝置主要仍由光源212、燈罩217、燈芯管(中 空透明管狀體212d、中空體狀中空體狀212e)、預定形狀之積分 柱218所組成。中空透明管狀體212d可罩住燈芯212c並固定在 燈座212b上,在罩住燈芯212c後而接近燈芯212c的部分為中空 體狀中空體狀212e。 先前所述的實施例中,燈芯管不一定要有,但此實施例則必須要 有,因為此燈芯管的部分中空體狀中空體狀212e的表面上會特別 具有電鍍的反射物質217b。 在準備好此種特別的光源212後,並將之完成組合後,在光源212 被點亮時,具有電鍍的反射物質217b的中空體狀中空體狀212e 的表面可在不遮蔽燈芯212c的光線下,反射燈芯212c的光線, 並穿過曲面形狀之反射鏡217a之預定形狀之積分柱218的出光口 214a離開光罩217。 【圖式簡單說明】 第1-1A〜1-1B圖為基於本發明積分柱與燈罩一體成形之光源裝置 之投影機示意圖。 第1-2圖為本發明積分柱與燈罩一體成形之光源裝置之第一之二 實施不意圖。 第1-3圖為本發明積分柱與燈罩一體成形之光源裝置之第一之三 21 200841116 實施示意圖。 第1-4A〜1-4B圖為本發明積分柱與燈罩一體成形之光源裝置之第 一之四實施示意圖。 第2-1圖為基於本發明積分柱與燈罩一體成形之光源裝置之投影 機示意圖。 第2-2圖為本發明積分柱與燈罩一體成形之光源裝置之第二之— 實施示意圖。 " 第2-3圖為本發明積分柱與燈罩一體成形之光源裝置之第二之二 實施示意圖。 第2-4圖為本發明積分柱與燈罩一體成形之光源裝置之第二之= 實施不意圖。 第2-5圖為本發明積分柱與燈罩一體成形之光源裝置之第一 之四 實施示意圖。 I 【主要元件符號說明】 - 110投影機 110a透鏡 110b 開口 112光源 112a燈芯管 112b燈芯 22 200841116 112c燈芯 112d電極帽 112e電極對 112f球狀部 112g把手部 114燈罩 114a出光口 114b光源口電極座 114c十字電極座 114d積分柱 116燈罩 116a半圓球反射鏡 116b平面反射鏡 116c球面反射部 117a半圓球反射鏡 117b反射物質 118a燈罩上蓋 118b燈罩 120夾治具 122電極爽座 210投影機 200841116 210a蓋板 210b 開口 210c透鏡 212光源 212a把手部 212b燈座 212c燈芯 212e中空體狀 214燈罩 214a出光口 214b光源口 214c入風口 214d出風口 215燈罩 215a曲面形狀之反射鏡 215b橢圓球反射鏡 216燈罩 216a曲面形狀之反射鏡 216b平面反射鏡 216c球面反射部 217a曲面形狀之反射鏡 200841116 217b反射物質 218積分柱 219聚光鏡US6356700 ^ EFFICIENT LIGHT ENGINE SYSTEMS, COMPONENTS 狮金圆 OF M 顺ACTURE" 'It combines a half-spherical mirror with an ellipsoidal mirror and uses a high-pressure discharge lamp as a compensation wire. In this device, it is placed near the mirror of the sugar sphere mirror - the focus, at the same time this point is also the center of the hemispherical mirror, from the hemispherical surface to earn the core, __ 隽, point. Finally, the ellipsoidal mirror will cast light away from the ellipsoid _ other _ Yusi for the job The vehicle or the lighting system is used. This light-collecting-like light cup, such as the _ face and ellipsoidal mirror set 200841116, will obtain a more uniform light source and improve the light usage. However, the system has the following numbers. Point disadvantages: (1) When replacing the light source, the positioning problem of the wick and the lamp cover, and the fact that the wick must be adjusted to be placed on the positioning point; (2) the replacement lamp source is too cumbersome, the two-sided mirror must be disassembled and replaced. After adjusting the position of the two mirrors after the wick, this method is inconvenient; (3) such an assembly method also reduces the effective area of the mirror surface, that is, reduces the reflective coating area to meet the assembly needs, which will make part Light can not be collected; (4) to disassemble the system in order to replace the light source, it is easy to make the collecting mirror and the wick tube contaminated, dust, oil collapse, etc. If it is attached to the above, the light-emitting efficiency of the whole system will be greatly reduced; (5) Due to the poor heat dissipation of the wick, the service life of the wick is shortened. (6) Due to more than one mirror component, the manufacturing cost is higher than that of the mirror reflector (7). The reflector of the mirror is large. US2002008972A1 "Combined two lamps f〇r use with a rod integrator projection", the light is emitted by the bulb i〇6, and the light is concentrated by the i〇2, i〇4 lens group on the integrating column 118 to make the light Among the specific optical paths, this patent applies the use of a typical projector integrator column, focusing on the application of two light sources to an integrating column. Further applications of the integrating column, such as JP2003279710A "ROD INTEGRATOR AND PROJECTOR", integral column Different shapes will bring different integral light uniformity. However, the system of the above form divides the mask and the integral column into two components to separate the 200841116. Disadvantages··(1) When replacing the light source, the wicking problem of the wick, the lampshade and the integral column' and the focus adjustment are placed on the fixed _; (2) the replacement lamp source is too cumbersome, and the position of the lampshade and the integral product must be moved. After replacing the wick, the position of the wick, the lampshade and the integral column is adjusted. This method is inconvenient; (3) to disassemble the system in order to replace the light source, it is easy for the money, the thief tube and the integral column to be contaminated, dust and oil ··· If it is attached to the top, the light-emitting efficiency of the whole system will be greatly reduced; (4) Because the wick is scattered, the life of the core is shortened (5) More than one piece of the mirror element, and the reflection cost is more than one side. The mirror cover is high. In short, in the past, the light source of the projection display device is a light bulb type light bulb, such as a parabolic or ellipsoidal mirror collection wire, which is used separately from the integral column, but its common disadvantage is that the light projection is unexpected, because of its investment. The light-reducing light tube is in the same direction. The axial direction of the wick tube is not _, so there will be a central dark field on the light projection. In addition, due to the separation column, the part is from the bulb. Light did not contain 'cholester, hood and integral mosquito bit _. In view of this, the device with high-efficiency light source engine proposes 'but this system wick is completely covered in the double-sided mirror, but the pro-life is exhausted, and the lion will dismantle the system and dismantle it. The solution makes the mirror surface and the new wick tube stained _, which is not conducive to the heat dissipation of the system operation, and the light is easily scattered and lost. In addition, the partial column separation is used, and some light is not collected, but the bulb, the cover and the integral column are positioned. The difficulty has increased the difficulty of the restoration system. 200841116 SUMMARY OF THE INVENTION The main object of the present invention is to provide a light source device in which an integral column and a lamp cover are integrally formed. The replacement of the wick tube can be conveniently replaced by a plug-in replacement, so that the wick, the mirror mirror surface and the integral column calibration positioning need not be specially considered. problem. A secondary object of the present invention is to provide a light source device for replacing a wick, which has a light source of the handlebar 4 which can be prevented from being contaminated by the outside when the above-mentioned replacement is performed by hand. (The secondary purpose of the present invention is to provide a wire-drawing device for the core of the core. The two-mirror of the light-collecting device is for reflection. The reflection zone can be increased, so that the overall light utilization efficiency is increased. Based on the above purposes, the (4) replacement thief's light position is at least included, and the lampshade is mainly composed of a wick tube, a wick, and an electrode pair extending from the wick in two directions. The lampshade is a hollow body. Spherical body, and has a cross electrode seat, a light exit port, and a light source port electrode seat. I is electrically connected to the electrode cap and the cross electrode of the wick core tube _ _ _ _ _ _ _ _ _ _ _ _ _ The lamp anger tube is generally a hollow transparent tube (four)' then covers the wick and is fixed on the electrode cap, and the portion close to the wick after covering the fortune is a spherical portion. In the face of the cross electrode, and the light source port electrode gambling for the system, and the shame is stored relative to the electrode cap of the wick tube. When the light source needs to be assembled to the lamp cover, the light source can be held by the handle portion of the light source. And by 200841116 by the lampshade The vehicle, so that the _ core into the eyes ^ provide - fresh secret s device, the material has the light of the hand into the pole when the pole is replaced, the system does not pour the external pollution. 7 Ming's secondary purpose is to provide - kind of one-way ship money The two electrodes of the ship are taken as follows: the direction is derived. 'Because there is only a single light source for the light source to be placed, the mirror film area: ^ force and the integral column and the reticle mirror surface are formed, so that the overall light utilization efficiency Increasing, improving the two-way mosquito position problem of the inspection, and further reducing the production cost. The secondary purpose is to provide a one-way wick device whose optical axis is perpendicular to the center of the lamp without a central dark copper problem. The second light source device of the present invention comprises at least a light source, a lamp cover and an integral column, and the light secret is fixed by the lamp surface, and extends from the lamp holder to the handle portion. _ The body of the scarf has a light exit and a light source port, and the light source provides a wick for the light source to enter the inside of the lampshade, and the light exit is the place where the light of the integral column is emitted. It is necessary to assemble the wire, the lamp, and the wire. The handle can hold the light source, The wick enters the interior of the lampshade through the light source port of the lampshade, and after the wick completely enters the lampshade, the wick is substantially aligned with the light exit of the lampshade. The advantages and spirit of the present invention can be illustrated by the following detailed description and drawings The method is further understood. 200841116 [Embodiment] Please refer to the first 1Α~Μβ diagram, and the ha to 1-1B diagram is a schematic diagram of a projector based on the integral column and the lampshade-body forming light source device of the present invention. As shown, the projector 110 of the present invention is mainly composed of a light source 112 (not shown in FIG. 1B) of the light source device for replacing the wick of the present invention, a lamp cover 114, an integral column of a predetermined shape, and a projection lens wrist. The lamp cover 114 is installed at The projector 110 is in a domain, and all of the light source port electrode holders n4b can be observed from the appearance of the projector 110. As shown in Fig. 1-1B, in the light source 112, mainly by the wick tube n2a, the wick n2b, and The electrode pair 112b is formed by extending the electrode pair U2e in two directions. The electrode pair 112e has an inclusive connection relationship with the electrode caps and the cross electrodes 112c at both ends of the wick tube 112a, and the handle portion n2g extends from the electrode cap H2d. The wick tube 112a is substantially a hollow transparent tubular body and can cover the wick n2b and is fixed to the electrode cap 112d. The portion close to the wick 12b after covering the wick 112b is a spherical portion 112f. The lampshade 114 is mainly an integrally formed hollow spherical body, and has a light exiting opening 114a, a predetermined shape of the integral column 114d (connecting with the light exiting opening 114a), a light source port electrode seat 114b, and a cross electrode seat 14c (which are structurally opposite) In the cross electrode 112e) where the lamp rides U2a, the unloaded item 114d of the projectile 1U is formed into a body, and the source port electrode 114b is used to allow the wick 112b of the light source 112 to enter the inside of the lamp cover 14 and is structurally opposed to the wick. The electrode cap 112g of the tube 112a. In this way, when the light source 112 that has entered the inside of the lamp cover 14 is illuminated, the light source is emitted through the light exit port i14a of the lamp cover 14, and the specific light path is evenly obtained by the predetermined reflection path of the inner portion 11200841116 of the integral column n4d. Beam, improve light utilization, as shown in Figure 1_2. Bottom, it will be further explained how the light source 112 enters the interior of the globe 14, and how the globe 14 and the integrating post U4d reflect the light beam of the source 112 for uniform injection through the integrating column 114d. When the light source 112 needs to be incorporated into the lamp cover 114, the user can hold the light source ι12 by the handle portion 112g of the light source 112, and enter the light source 112 (especially the wick 1121) through the lamp cover 114# light source port electrode holder 114b. 114, and after the wick 112b has completely entered the lamp cover ι14, the wick 112 is substantially alignable with the light exit opening 114a of the lamp cover 114, and the projection lens 110a. In this way, when the light source 112 is illuminated, the light beam emitted by the light source 112 is emitted to the projection lens 11A via the light-emitting port 114a of the integral column of the predetermined shape, and the light is obtained through the integral column ii4d of a predetermined shape. The uniform light beam of the light path is reflected, and other portions of the light are reflected by the inner wall of the light shield 114 through the light exit opening 114a. On the other hand, if the light source 112 has been incorporated into the globe 114, but the light source 112 is replaced, the handle portion 112g is still held in the opposite manner to the light source 112 to take out the light source 112. Further, when a texture or a rough surface is added to the surface of the handle portion, the convenience of combining the above and extracting the light source 112 can be increased. In this way, since the insertion type replacement can be conveniently performed without disassembling the 杈 机 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 11 . At the same time, since the user's hand is not connected to the wick 112b of the light source 112, it does not contaminate the wick 112b. The light source 112 may be a Light Emitting Diode (LED), a Ray 12 200841116 Diode (LD) or other illuminant, a bulb of a predetermined shape, a lamp tube, and may be disposed at the light source U2. The end of the wick tube is covered with a heat-dissipating electrode, which can simultaneously solve the power-on problem and improve heat dissipation. Further, the inner surface of the globe 114 has a predetermined shape and has an electroplated reflection (4) on its inner surface, and its reflection effect enhances the ratio of passing through the (four) port to improve light utilization. In order to make the light source 112 and the lampshade U4 more firmly coupled, the electrode cap 112b of the light source 112 and the light source port electrode holder (10) of the light source 112 have an opposite fixed structure with each other. This © structure can be a spring clip, a residual cassette or a threaded groove as shown in the illustration. With the above-mentioned fixed structure, that is, the structural design of the lamp cover 114 and the position design of the lamp of the light source 112 can be matched in advance, which makes the combination of the light source 112 and the lamp cover 114, in addition to facilitating disassembly and assembly. Therefore, it is not necessary to specifically consider the mirror alignment positioning problem of the wick 112 and the lamp cover 114. In addition to the design of the light source 112 and the material 114 as shown in FIG. 1-1B, the structural shape of the lamp cover 114, the constituent elements, or the wick tube 112a covering the light source 112 may be slightly changed, especially the portion close to the wick 112b. The spherical portion mf achieves a similar effect, similar to the first embodiment as shown in the MB diagram. Referring to Figures 1-2, the first 1-2 is a schematic diagram of the first embodiment of the light source device in which the integrating column and the lamp cover are integrally formed. As shown in FIG. 2, the light source of the replacement lamp of the present invention is mainly composed of a light source η, a lamp cover ι16, and an integral column 114d of a predetermined shape, wherein the lamp cover 116 is integrated with the integral column of a predetermined shape. 200841116 has a light exit 114a and a light source port 114b. The light exit port H4a can also be regarded as extending from the light exit opening of the lamp cover 116 to the light exit opening of the integrating column 114 (1). In this embodiment, the light cover 116 is formed by the semicircular ball mirror 116a and the plane mirror 116b being connected to each other, close to each other. The plane mirror 116b has a concave spherical reflecting portion 116c at the center, and the semicircular mirror 116a has a light exiting opening 114a, a predetermined shape of the integral column 114d, and between the semicircular spherical mirror 11 such as the plane reflecting mirror 116b. The light source port electrode holder 114b. The most important feature of this embodiment is that when the light source 112 is lit, its light is reflected by the concave spherical reflection portion 116c which is very close to the light source 112, and is emitted through the integral column 114d of a predetermined shape. The mouth U4a leaves the lamp cover 116. In this way, when the light source 112 is illuminated, the light beam emitted by the light source 112 passes through the light exit opening 114a of the integral column 114d of a predetermined shape, and the light beam passes through the integral column 114 of the predetermined shape (1 to obtain a specific light path). The uniform light beam, and other portions of the light are reflected by the inner wall of the lamp cover 114 through the light exit opening 114a of the integral column 114d of a predetermined shape. Please refer to Figure 1-3, Figure 1-3 The first three-part implementation of the light source device integrally formed with the lamp integral cover and the lamp cover. As shown in Figures 1-3, the light source device of the replacement lamp 4 of the present invention is mainly composed of the light source 112, the lamp cover 117, and the integral column 114d of a predetermined shape. The lampshade 117 is integrally formed with an integral column n4d of a predetermined shape, and has a light exit opening 114a and a light source port 114b. In the previously described embodiment, the 'wicking tube 112a does not have to be, but this embodiment must be 200841116 It is necessary to have a plated reflective material 117b especially on the surface of the field (4) tube 112a _ branching portion. After the special light source 112 is prepared and combined, when the light source 112 is illuminated The surface of the spherical portion 112e having the reflective material mb having a ridge can reflect the wick of the wick 112b under the light that does not shield 112b, and passes through the optical slab of the predetermined shape of the spheroidal ball 117a. The lampshade m. So - when 'the total 12 is ordered, its ray level is from the predetermined shape of the integral column 114d, the light 114a, the light beam is obtained through the integral column 114d of the predetermined shape to obtain a uniform beam of the specific optical path, and A part of the light is reflected by the inner wall of the lamp cover 114 through the light exit port of the integral column (10) of the predetermined shape. Further, the light source H2 is combined into the lamp covers 114, 116, 117, except for the transverse sorrow mode as previously described. After the structure of the material and the 郷 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ A fourth embodiment of the light source device. As shown in Figure 4a, the caps 114, 116, 117 can be changed to be composed of a lampshade _, a lampshade cover 118a, and a bile such as a The _ is shown fixed in the projector 110 (i.e., the relative position of the opening 11 〇b of the projector 10). The upper half of the rib of the lampshade 11 has a lateral notch that is slightly equivalent to the size of the light source 112, so that the lateral notch can be completely covered by the lamp cover upper cover 118a. Specifically, when the light source 112 needs to be combined to the lampshade, the light source 112 can be clamped by the fixture 15 200841116, and the light source 112 can be placed into the lampshade 118b from the opening 〇b and the lateral gap of the lampshade U8b. The electrodes at both ends of the light source 112 are sandwiched by the electrode holder 122. 2-1 is a schematic view of a projector based on the light source integrally formed by the integral column and the lamp cover of the present invention. As shown in Fig. 2-1, the projector go of the present invention is mainly composed of a light source 212, a lamp cover 214, a cover 21a, and a projection lens 210c of the unidirectional wick apparatus of the present invention. The lamp cover 214 is fixed by a special fixing structure (uneven the structure is fixed as long as the lamp cover 214 can be fixed) and is installed inside the projector 21, and faces the opening 21Gb and the cover 21Ga. In the light source 212, the socket (10) is fixed to the mi2c through the electrode of the lamp anger 212c, and extends from the socket 212b to the handle portion 2. When the light source 212 is to be fixed to the lamp cover 214, the cover plate 21 is first opened, and the light source 212 is inserted or screwed into the lamp cover 214 via the opening π 210b. The light is emitted to the projection lens c via the light exit opening 214a of the integral column 218 of a predetermined shape. Please refer to Figure 2-2. The detailed diagram is not intended for the implementation of the Japanese Jingzhu column and the lampshade-body forming one. As shown in Figs. 2 to 2, the present invention comprises a one-way source 212, a lamp cover 214, and an integral column (four) mirror 219 of a predetermined shape. The lampshade 214 is a hollow body composed of two, and the lampshade 214 has a core curved mirror, a junction body station cover 214 and an integral column of the dare frequency. The integral column 218 has a light-emitting n214a and a surface n2Ub* shape. The uniform light path is obtained by entering the lamp cover 214_-H4b 4 and the inside of the cover 214 via the wick 212c of the pre-arrangement light source 212. In order to enhance the heat rejection effect: 16 200841116 The lampshade 214 may further include an air outlet 214d for exhausting heat, and an air inlet 214c. It is still possible that a part of the light beam is scattered by the light beam emitted from the light exit port 214a of the 77-column 218. In order to solve this problem, a concentrating mirror can be added at the position of the light exit port _, and the t-collection of the light beam can be enhanced. Bottom, the combination, disassembly, and light path of the light source 212 into the reticle 214 will continue. When the light source 212 needs to be incorporated into the reticle 214, the user can hold the light source 212 by the handle portion 212a of the light source 212, and the light source 212 (especially the wick 212c) enters the inside of the lamp cover 214 via the light source port of the lamp cover 214. And after the wick - fully entering the shade 214, the wick 214 is generally aligned with the predetermined shape of the shade 214 as the post 218 exit 214a, and the projection lens 2i 〇 a. On the other hand, if the light source 212 has been incorporated into the lamp cover 214' but the light source 212 needs to be replaced, the light source 212 is taken out by holding the handle portion 212a in the opposite manner to the light source 212. Further, when a texture or a rough surface is added to the surface of the handle portion 21, for example, the convenience of combining the above and extracting the light source can be increased. When the light source 212 is illuminated, the light emitted by the light source 212 is directly passed through the light exit opening 214a of the integral column 218 of the predetermined shape and the projection lens 210a, and part of the light is reflected by the inner wall of the light cover 214 through the predetermined shape. In the light exit port 214a of the integrating column 218, that is, any two or more free-form surface mirrors inside the lamp cover 214, some of the free-form surface mirrors reflect the light of the light source 212 back to the light source 212, and some arbitrary free-form surfaces The mirror reflects the light from the light source 212 to the light exit port 214a of the integral column 218 of a predetermined shape, so that the light source of the light source 212 is concentrated by the light exit port 214a of the integral column 218 of the predetermined shape of 200804116116. The optical axis of the light source 212 is perpendicular to the wick tube 212d (as shown in FIG. 5) without a central dark field problem, and may be a Light Emitting Diode (LED) or a laser diode. Laser Diode (LD) or other illuminant, bulb of predetermined shape, tube. Light source 212 can be a light source of a unidirectional wick with its two electrodes oriented in the same direction. The light source 212 has a heat dissipating electrode (such as a copper electrode) at the junction of the light source 212, which can be disposed at the end of the wick of the light source 212 to be covered by the heat dissipating electrode, thereby simultaneously solving the power supply problem and improving heat dissipation. In addition, the inner surface of the lampshade 214 has a predetermined shape, and has an electroplated reflective material on the inner surface thereof, which can enhance the reflection effect, increase the ratio of passing through the light exit port 2Ua, and enhance the alcohol, and the integral column 218 of the predetermined shape is also It is also a predetermined shape, which is difficult to find with the lampshade-body forming. In order to enable the light source 212 and the lamp cover 214 to be more firmly coupled, the lamp holder of the light source 212 and the light source π 214b of the lamp cover 214 have an opposite fixed structure with each other. The fixed, σ-structure can be a snap-on card, a square button, or a threaded groove as depicted in the drawings. The contact of the light source π 214b of the globe 214 has an insulating material (e.g., ceramic). With the above-mentioned fixed structure, that is, the structural design of the lamp cover 214 and the position design of the wick of the light source 212 can be matched in advance, which makes it possible to combine the light source 212 and the lamp cover 214 in addition to facilitating the splitting of the skirt. Therefore, there is no need to specifically consider the problem of mirror alignment positioning of the wick blank 214. In addition to the design of the light source 212 and the lamp cover 214 as shown in FIG. 2-2, the structural shape of the cover 18 200841116 cover 214 may be slightly changed, the structural shape of the integral shape of the cover 2i8 may be changed, or the cover may be changed or the cover may be changed. The wick tube of the light source 212, especially the partially slanted hollow body 212e close to the wick garment, achieves a similar filament, similar to the integral column and the material-like shape as shown in Figure 2-2. Set. Please refer to FIG. 2-3. FIG. 2-3 is a second embodiment of the light source device integrally formed by the integral column and the lamp cover of the present invention. As shown in FIG. 2_3, the one-way lamp anger device of the present invention is mainly composed of a light source 212, a lamp cover 215, and an integral column 218 of a predetermined shape. The lamp cover 215 may further include a heat exhausting device. The air outlet 214d and the air inlet 214c. In this embodiment, the lamp cover 215 is formed by a curved mirror, a spherical mirror 215b, and an integral column 218 of a predetermined shape, and is formed in a curved mirror. The integrating column 218, which is also connected to a predetermined shape, has a light exit opening 214a, and between the curved mirror 2i5a and the elliptical spherical mirror 215b, the light source port 214b is also provided. When the combination is required, the light source port 214b can also be used. The handle portion 212a of the 212 can hold the light source 212' and pass the light source port 214b of the lamp cover 215 to cause the wick 212c to enter the inside of the lamp cover 215, and after the wick 212 fully enters the lamp cover, the wick can be substantially aligned with the predetermined shape of the lamp cover. The integral column 218 is emitted by the light exit opening 214a of the integral column 218 of a predetermined shape. The biggest difference between the second embodiment and the first embodiment is that the curved shape mirror 19 2008 41116 The difference between the coffee and the face wei 215b will be larger, and the alcohol can be adjusted appropriately to increase the proportion of the light ray 214. When the light source 212 is activated, the curved shape mirror will light the light source. The light reflection of 212 is collected back to the light source 212, and has a lampshade 215 of the electric ore, and the light of the light source 212 is reflected and collected to the light-emitting shirt of the integral column 218 of the predetermined shape, so that the light source is concentrated by the predetermined shape. The light-emitting t-shirt of the integral column 218 is emitted. The eye 2-4 is the eye, and the second to fourth figures are the second embodiment of the light source integrated forming of the integral column and the lamp cover of the present invention. As shown in the second drawing, The light source device integrally formed by the integral column and the lamp cover of the present invention is still composed of the light source 212, the lamp cover 216, and the integral column 218 of a predetermined shape. In order to enhance the heat exhausting effect, the lamp cover 216 may further include an air outlet 214d for exhausting heat, In the embodiment, the lamp cover 216 is formed by the curved mirror 216a and the plane mirror 216b connected to each other, and has a concave spherical reflecting portion 216c near the center of the planar mirror 216b, and The curved mirror 216a is connected to the predetermined opening/shaped integral column 218 having the light exit opening 214a, and has a light source port 214b between the curved shape mirror 216a and the plane mirror 216b. The biggest feature of this embodiment is that when When the light source 212 is turned on, the light is reflected by the concave spherical reflecting portion 216c which is very close to the light source 212, and exits the reticle 216 through the light exit opening 214a of the integral column 218 of a predetermined shape. See Fig. 2-5, 2-5 is a view showing the fourth embodiment of the source device in which the integral column and the lamp cover are integrally formed. As shown in FIG. 2-5, the light source device integrally formed by the integrating column and the lamp cover of the present invention is mainly composed of a light source 212, a lamp cover 217, a wick tube (a hollow transparent tubular body 212d, a hollow hollow body shape 212e), and a predetermined shape. The integral column 218 is composed of. The hollow transparent tubular body 212d covers the wick 212c and is fixed to the socket 212b. The portion close to the wick 212c after covering the wick 212c is a hollow hollow body 212e. In the previously described embodiment, the wick tube is not necessarily required, but this embodiment is necessary because the surface of the hollow body-shaped hollow body 212e of the wick tube particularly has an electroplated reflective substance 217b. After the special light source 212 is prepared and combined, when the light source 212 is illuminated, the surface of the hollow body-shaped hollow body 212e having the plated reflective substance 217b can be shielded from the light of the wick 212c. Next, the light of the wick 212c is reflected, and exits the reticle 217 through the light exit opening 214a of the integrating column 218 of a predetermined shape of the curved mirror 217a. BRIEF DESCRIPTION OF THE DRAWINGS FIGS. 1-1A to 1-1B are schematic views of a projector of a light source device integrally formed by an integrating post and a lamp cover according to the present invention. Fig. 1-2 is a first embodiment of the light source device in which the integrating column and the lamp cover are integrally formed according to the present invention. 1 to 3 are the first three of the light source devices integrally formed by the integral column and the lamp cover of the present invention. 21 200841116 Implementation diagram. Figures 1-4A to 1-4B are schematic views showing the fourth embodiment of the light source device in which the integrating column and the lamp cover are integrally formed. Fig. 2-1 is a schematic view of a projector of a light source device integrally formed by an integrating column and a lamp cover according to the present invention. 2-2 is a second embodiment of the light source device integrally formed by the integral column and the lamp cover of the present invention. " Fig. 2-3 is a second embodiment of the light source device integrally formed by the integral column and the lamp cover of the present invention. Fig. 2-4 is a second embodiment of the light source device integrally formed by the integral column and the lamp cover of the present invention. 2 to 5 are schematic views showing the first embodiment of the light source device in which the integrating column and the lamp cover are integrally formed. I [Description of main component symbols] - 110 projector 110a lens 110b opening 112 light source 112a wick tube 112b wick 22 200841116 112c wick 112d electrode cap 112e electrode pair 112f spherical portion 112g handle portion 114 lamp cover 114a light exit port 114b light source port electrode holder 114c Cross electrode holder 114d integration column 116 lampshade 116a semicircular ball mirror 116b plane mirror 116c spherical reflection portion 117a semicircular ball mirror 117b reflective material 118a lampshade cover 118b lampshade 120 clamp fixture 122 electrode sink 210 projector 200841116 210a cover plate 210b Opening 210c lens 212 light source 212a handle portion 212b lamp holder 212c wick 212e hollow body 214 lamp cover 214a light exit port 214b light source port 214c air inlet port 214d air outlet port 215 lamp cover 215a curved shape mirror 215b elliptical ball mirror 216 lampshade 216a curved shape Mirror 216b Planar Mirror 216c Spherical Reflection 217a Curved Shape Mirror 200841116 217b Reflective Material 218 Integral Column 219 Condenser