201217696 六、發明說明: 【發明所屬之技術領域】 本發明關於一種燈具結構,尤指一種具有異形反光罩之燈具結 構。其中異形反光罩的特點在其每個反光面的設計’能將光源產生光 線反射至預定的照明區域,並利用其特殊結構,使照明區域為一長方 形或特殊照明範圍。 【先前技術】 一般習用的燈具,會在一光源週圍設置一反光罩,由於反光罩不 同設計,使得燈具照明區域會形成不同的範圍。 請參見第一A圖,顯示了一種習用的燈具結構,其具有一反光罩, 中間為一弧形反光面(101),兩側邊為一傾斜平面反光面(102)(103), 由此二個反光面組成該反光罩結構;在兩側邊傾斜平面反光面(1〇2) (103)中,各有一穿孔(ι〇4)( 1〇5)。一燈管(1〇6)穿過此二穿孔(1〇4) (105)而裝置於反光罩中心位置。此反光罩會使照明區域為趨近正方 形範圍。 請參見第一 B圖為另一種習用的燈具結構,其具有一反光罩,樣 式是為一半橢圓形反光面(1〇7),一側邊有一穿孔(log), 一燈管(1〇9) 穿過此穿孔(1G8)而裝置於反綠内部中心位置,此反光罩使照明區 域為趨近橢圓形範圍。 請參見第-C圖為另-種習用的燈具結構,其具有—反光罩,樣 式是為侧邊為-弧形反光面(110),頂部為一平面反光面(⑴),平 面反光面UU)中心有-穿孔⑽),_燈管⑽)穿過此穿孔⑴2) 201217696 而裝置於反光罩頂部中心位置,此反光罩使照域形範圍。 在上述的習知技術中,僅能達到正方、橢圓或圓形的照明範圍, 無法適用於道路、長廊、廣告看板或流水線工作台等場所,如強行應 用,易造成照明功率過低而要增加燈具,進而浪費電力。 【發明内容】 緣此,針對習知技術的問提點,本發明提供了一種具有異形反光 ^ 罩之燈具結構,至少包括: 一光源,用以產生光線;及 一異形反光罩,該光源设於内部,其内表面為反光面,兩側面係 為外凸弧面,每一外凸弧面由多層不同傾斜角度的部份圓錐面相互連 接組成’每一該部份圓錐面的傾斜角度,是由該反光罩底部起愈往頂 部愈偏向該反光罩中心傾斜;且,該外凸弧面的寬度,是自底部最寬 愈往頂部愈窄; 鲁 該反光罩頂面為一内凹頂面,其一侧由多數不同向下傾斜角度之 部份圓錐面相互連接組成,每一向下傾斜角度之該部份圓錐面傾斜角 度是由該外凸弧面頂緣起愈往該反光罩中心愈偏向該反光罩底部傾 斜; 該反光罩的正及背面皆係為内凹面,二個該内凹面為反向内凹且 相同弧度及傾斜角度,此二内凹面由該反光罩頂部起愈往底部愈偏離 反光罩中心的角度傾斜,寬度則是底部最寬愈往頂部愈窄。 進者,本發明也提供了一種具有異形反光罩之燈具結構,至少包 201217696 括: 一光源’用以產生光線;及 一異形反光罩’該光源設於内部,其内表面為反光面,其兩側面 分別至少具有一第一階梯狀外凸弧面及一第二階梯狀外凸弧面,其間 以一第一扇形平面連接;該第一階梯狀外凸弧面及第二階梯狀外凸弧 面’是由多層不同傾斜角度的部份圓錐面相互連接組成,每一部份圓 錐面的傾斜角度’是由該反光罩底部起愈往頂部愈偏向反光罩中心傾 斜;且,其寬度是自底部最寬愈往頂部愈窄; 該反光罩的正及背二面皆係為内凹面,二個該内凹面為反向内凹 且相同弧度及傾斜角度,此二内凹面由該反光罩頂部起愈往底部愈偏 離反光罩中心的角度傾斜,寬度則是底部最寬愈往頂部愈窄; 該反光罩之頂面為"**平面β 藉由本發明所提供的一種具有異形反光罩之燈具結構,使該燈具 特別適用於道路'長廊、廣告看板或流水線工作台等場所,且充分將 該光源產生之所有光線變成有效照明光線,達到降低燈具功率還能具 有相同照明度的節能減碳需求。 以下,將依據圖面所示之各種實施例而詳加說明本發明之結構及 原理。 【實施方式】 請先參考第十三圖,係為本發明具有異形反光罩之燈具結構之其 中-種實施例之剖©示_,所顯示為一種吊掛式燈具1具結構上 201217696 方部份有一電機盒上蓋(1301),上蓋(1301)中央具有—供吊掛用的 穿孔(1303)。一電機盒底座(1302)以數個螺絲(131〇) (1311)固 定於電機盒上蓋(1301)。 一電源供應器(1304)裝置於電機盒内而設置於異形反光罩(1317) 上方,並以一鐵片(13〇5)固定於電機盒底座(13〇2)上。電源供應 器(1304)右邊有二電源線(13〇6)(1307),用以連接燈管電源線(1323) (1324);而左邊有另二電源線(丨308 )(丨3〇9),用以連接外部電源線。 • 一防塵罩(1312)包覆於異形反光罩(1317)外,底面形成出光 口;防塵罩(1312)及内部二支架(1315) (1316),以數個螺絲螺母 組件(1313) (1314)同時固定於電機盒底座(1302)下面。 一裝置發光源(1317a)的異形反光罩(1317)以二螺絲螺母組件 (1318) (1319)固定於支架(1315) (1316)上,一透光板材(1320) 以至少二個帶有螺絲的门型夾具(1321)(1322)固定於一防塵罩(1312) 之出光口底面。 % 藉由以上零件,組成一具異形反光罩之燈具結構。而本發明主要 重點係在異形反光罩之設計,隨後將予詳細說明及解釋。 請參考第二A至C圖,係為本發明之異形反光罩第一種實施例, 其中反光罩(201)内表面為反光面。反光罩(2〇1)兩側面係為外凸 弧面,每一外凸弧面由多層不同傾斜角度的部份圓錐面(2〇2a)〜 (202η)相互連接組成,每一部份圓錐面(2〇2a)〜(2〇2n)的傾斜 角度,是由反光軍(201)底部起愈往頂部愈偏向反光罩(2Q1)中心 傾斜;而且,該外凸弧形面的寬度,是自底部最寬愈往頂部愈窄,可 201217696 參見第二β圖;在此實施例中,反光罩(201)兩側面的外凸弧面為相 互對稱結構。 反光罩(201)頂面為一内凹頂面,其一側由多數不同向下傾斜角 度之部份圓錐面(204) (205)相互連接組成,每一部份圓錐面(204) (205)傾斜角度是由外凸弧面頂緣起愈往反光罩(2〇1)中心愈偏向 反光罩(201)底部傾斜。 請參考第二Β圖’其中反光罩(2〇1)相對二外凸弧形面的正及背 二面皆係為内凹面(2〇6) (207),二個内凹面(206) (207)為反向内 凹且相同弧度及傾斜角度,此二内凹面(2〇6) (2〇7)由反光罩(2〇1) 頂部起愈往底部愈偏離反光罩(2〇1)中心的角度傾斜,寬度則是底部 最寬愈往頂部愈窄,兩者為相互對稱結構。 反光罩(201)頂部中心設有一穿孔(2〇8)供作為發光源之燈管 穿越,兩外凸弧形面底部邊緣延伸出一平面(2〇9)(21〇),平面(2〇9) (210)上各設有一穿孔(211) (212)供固定反光罩(2〇1)於燈具中 使用。 請參考第二D圖,反光罩(2〇1)正及背面所形成的内凹面,每一 内凹面亦可為由至少二個平面(213、214) (215、216)或二個内凹弧 面連接而成,此二内凹面由反光罩(2〇1)頂部起愈往底部愈偏離反光 罩(201)中心的角度傾斜,寬度則是底部最寬愈往頂部愈窄。 凊參考第二Α至C圖,係為本發明之異形反光罩第二種實施例, 其中反光罩(301)兩側面係分別係由第一階梯狀外凸弧面及第二階梯 狀外凸弧面所構成,第一階梯狀外凸弧面由多層不同傾斜角度的部份 201217696 圓錐面(302a)〜(3G2n)相互連接組成,每—部份圓錐面(3〇2a) 〜(302n)的傾斜角度,是由反光罩(3〇1)底部起愈往頂部愈偏向反 光罩(301)中心傾斜;而且,該第一階梯狀外凸狐面的寬度,是自底 部最寬愈往頂部愈窄。 該第一階梯狀外凸弧面的頂緣連接一扇形平面(3〇4)外緣,扇形 平面(304)内緣則連接第二階梯狀外凸弧面。 第二階梯狀外凸弧面由多層不同傾斜角度的部份圓錐面(3〇5a) • 〜(305n)相互連接組成,每一部份圓錐面(305a)〜(305η)的傾 斜角度,是由反光罩(301)底部起愈往頂部愈偏向反光罩(3〇1)中 心傾斜;而且,該第二階梯狀外凸弧面的寬度,是自底部最寬愈往頂 部愈窄’可參見第三Β圖;在此實施例巾,反光罩(3〇1) _面為相 互對稱結構。 第二階梯狀外凸弧面頂緣再連接一平面(3〇7)。 請參考第三Β圖’其中反光罩(301)的正及背二面皆係為内凹面 % (3〇8) (309) ’二個内凹面(3〇8) (309)為反向内凹且相同弧度及傾 斜角度,此二内凹面(308) (309)由反光罩(301)頂部起愈往底部 愈偏離反光罩(301)中心的角度傾斜’寬度則是底部最寬愈往頂部愈 窄’兩者為相互對稱結構。 反光罩(301)頂部中心設有一穿孔(31〇)供作為發光源之燈管 穿越,兩第一階梯狀外凸弧面底部邊緣延伸出一平面(311) (312), 平面(311) (312)上各一穿孔(313) (314)供固定反光罩(301)於 燈具中使用。 201217696 請參考第三D圖,反光罩(301)正及背面所形成的内凹面(3〇8) (309),每一内凹面亦可為由至少二個平面(315、316) (317、318) 或二個内凹弧面連接而成,此二内凹面(308) (309)由反光罩(301) 頂部起愈往底部愈偏離反光罩(301)中心的角度傾斜,寬度則是底部 最寬愈往頂部愈窄。 請參考第四A至C圖,係為本發明之異形反光罩第三種實施例, 其中反光罩(401)兩侧面係分別由第一階梯狀外凸弧面、第二階梯狀 外凸弧面及第三階梯狀外凸弧面所構成;第一階梯狀外凸弧面由多層 不同傾斜角度的部份圓錐面(4〇2a)〜(402η)相互連接組成,每一 部份圓錐面(402a)〜(402η)的傾斜角度,是由反光罩(4〇1)底部 起愈往頂部愈偏向反光罩(4〇1)中心傾斜;而且,該第一階梯狀外凸 弧面的寬度’是自底部最寬愈往頂部愈窄。 該第一階梯狀外凸弧面的頂緣連接一第一扇形平面(4〇4)外緣’ 第一扇形平面(404)内緣則連接第二階梯狀外凸弧面。 第二階梯狀外凸弧面由多層不同傾斜角度的部份圓錐面(4〇5a) 〜(405η)相互連接組成,每一部份圓錐面(4〇5a)〜(4〇5n)的傾 斜角度,是由反光罩(401)底部起愈往頂部愈偏向反光罩(4〇1)中 心傾斜;而且,該第二階梯狀外凸弧面的寬度,是自底部最寬愈往頂 部愈窄,可參見第四B圖;在此實施例中,反光罩(4〇1)兩側面為相 互對稱結構。 該第二階梯狀外凸弧面的頂緣連接一第二扇形平面(4〇7)外緣, 第二扇形平面(407)内緣則連接第三階梯狀外凸弧面。 201217696 第三階梯狀外凸弧面由多層不同傾斜角度的部份圓錐面(4〇8a) 〜(408η)相互連接組成,每一部份圓錐面(4〇8a)〜(4〇8n)的傾 斜角度,是由反光罩(401)底部起愈往頂部愈偏向反光罩(4〇1)中 心傾斜;而且,該第三階梯狀外凸弧面的寬度,是自底部最寬愈往頂 部愈窄,可參見第四B圖;在此實施例中,反光罩(4〇1)兩側面為相 互對稱結構。 反光罩(401)第三階梯狀外凸弧面頂緣連接一平面(41〇)。 請參考第四β圖’反光罩(401)的正及背二面皆係為内凹面(411) (412)’二個内凹面(411)(412)為反向内凹且相同弧度及傾斜角度, 此二内凹面(411) (412)由反光罩(401)頂部起愈往底部愈偏離反 光罩(401)中心的角度傾斜,寬度則是底部最寬愈往頂部愈窄,兩者 為相互對稱結構。 反光罩(401)頂部中心設有一穿孔(413)供作為發光源之燈管 穿越,兩第一階梯狀外凸弧面底部邊緣延伸出一平面(414) (415)平 面上各一穿孔(416) (417)供固定反光罩(401)於燈具中使用。 請參考第五A及B圖,係為本發明之異形反光罩第四種實施例, 其中反光罩(501)與第四A及B圖所示類似,具有三階梯狀反光面, 但反光罩(501)兩側面(5〇2)(5〇3)之階梯狀反光面一側面寬度(T1) 較小(圖中為右側面)’另一側面寬度(T2)較大(圖中為左側面), 是為寬度不對稱結構,但兩側面(5〇2) (503)皆是底部最寬愈往頂部 愈窄。 反光罩(501)的正及背二面皆係為内凹面(509) (51〇),二個内 201217696 凹面(509)(510)為反向内凹且相同弧度及傾斜角度,此二内凹面(5〇9) (510)由反光罩(501)頂部起愈往底部愈偏離反光罩(5〇1)中心的 角度傾斜,寬度則是底部最寬愈往頂部愈窄,兩者為相互對稱結構。 反光罩(501)頂部中心一穿孔(504)供燈管穿越,兩外凸弧形 反光面底部邊緣延伸出一平面(505) (506),平面(505) (5〇6)上各 一穿孔(507) (508)供固定反光罩(501)用途。 請參考第六A及B圖,係為本發明之異形反光罩第五種實施例, 其中反光罩(601)與第四A及B圖所不類似,兩側面為三階梯狀反光 面(602) (603) ’但請參考第六B圖係為底部視圖,兩側邊之階梯狀 反光面(602) (603)為相互對稱結構,都是以反光罩中心綠(613) 為基準’由-寬度(T3)較小及-寬度較大(T4)的二部份連接組成 一外凸弧形反光面寬度,兩側邊皆是底部最寬愈往頂部愈窄的結構, 反光罩(601)正及背面皆係為内凹面’二個内凹面分別為不同圓心但 是相同半徑及傾斜角度之内凹弧形反光面(6〇9) (61〇),且由反光罩 (601)頂部起愈在底部愈偏離反光罩(6〇1)中心的角度傾斜,寬度 是底部最寬,愈往頂部愈窄,兩者為寬度不對稱結構。反光罩(6〇1) 頂部中心-穿孔⑽4)供燈管穿越,兩外凸弧形反光面底部邊緣延伸 出-平面(605) (606)平面上各一穿孔⑽)⑽)供固定反光罩 (601)用途。 請參考第七Α及Β @,係為本發明之異形反光罩第六種實施例, 其中反光罩(701)與細A&B讀示類似,_面為三階梯狀反光 面(702) (703),但請參考第七B圖,兩侧面為三階梯狀反光面(7〇2) (703)為相互對稱結構,都是以反光罩中心線(713)為基準,由一 201217696 寬度(T5)較小及一寬度(T6)較大的二部份連接組成—外凸弧形反 光面寬度,兩側邊皆是底部最寬愈往頂部愈窄的結構。反光罩(7〇1) 正及背面皆係為内凹面,分別為一個不同圓心、不同半徑及不同傾斜 角度之内凹弧形反光面(709) (710),兩者都是由反光罩(7〇1)頂部 起愈往底部愈偏離反光罩(701)中心的角度傾斜,寬度亦是底部最寬, 愈往頂部愈窄,兩者為完全不對稱結構。反光罩(7〇1)頂部中心一穿 孔(704)供燈管穿越’兩外凸弧形反光面底部邊緣延伸出一平面(7〇5) (706)平面上各一穿孔(707) (708)供固定反光罩(7〇1)用途。 請參考第八Α及Β圖,係為本發明之異形反光罩第七種實施例, 其中反光罩(801)與第四A及B圖所示類似,兩側面為三階梯狀反光 面(802) (803) ’但請參考第八B圖,兩側面之三階梯狀反光面(802) (803)為相互對稱結構,都是以反光罩中心線(gig)為基準,由兩 個寬度相同(T7) (T8)的二部份連接組成一外凸弧形反光面寬度,兩 侧面皆是底部最寬愈往頂部愈窄的結構。反光罩(8〇1)正及背面皆係 為内凹面,分別為一個不同圓心及不同傾斜角度但半徑相同之内凹弧 • 形反光面(8〇9) (810),兩者都是由反光罩(801)頂部起愈往底部愈 偏離反光罩(801)中心的角度傾斜,寬度亦是底部最寬,愈往頂部愈 乍’兩者為傾斜角度不對稱結構。反光罩(801)頂部中心一穿孔(804) 供燈管穿越’兩外凸弧形反光面底部邊緣延伸出一平面(8〇5) (8〇6), 平面(805) (806)上各一穿孔(807) (808)供固定反光罩用途。 請參考第九A及B圖,係為本發明之異形反光罩第八種實施例, 其中反光罩(901)與第四A及B圖所示類似’兩側面為三階梯狀反光 面(902) (903) ’但請參考第九B圖,兩側面之三階梯狀反光面(9〇2) 12 201217696 (903)為相互對稱結構,都是以反光罩中心線(913)為基準,由兩 個寬度(T9) (T10)相同的二部份連接組成一外凸弧形反光面寬度, 兩側面皆是底部最寬愈往頂部愈窄的結構。反光罩(9〇1)正及背面皆 係為内凹面’分別為一個不同圓心、不同傾斜角度及不同半徑之内凹 弧形反光面(909) (910),兩者都是由反光罩(901)頂部起愈往底部 愈偏離反光罩中心的角度傾斜,寬度亦是底部最寬,愈往頂部愈窄, 但兩者為完全不對稱結構。反光罩(9〇1)頂部中心一穿孔(9〇4)供 燈管穿越,兩外凸弧形反光面底部邊緣延伸出一平面(9〇5) (9〇6), 平面(905) (906)上各一穿孔(907) (908)供固定反光罩(901)用 途。 請參考第十圖所示,係為本發明之異形反光罩(1〇01)另一種光源 穿越穿孔結構圖’其係與第四A及B圖所示類似,在正及背面内凹反 光面( 1002) ( 1003)各有一穿孔(1〇〇4) (1〇〇5)供燈管穿越用途, 反光罩(1001)頂部中心一穿孔(1〇〇6)供固定光源燈座用途。 請參考第十一 A圖係為本發明之異形反光罩兩外凸弧面反射光線 路徑圖示,反光罩(1101)結構同第四人及8圖所示,一燈管(11〇2) 設於反光罩(1101)内,燈管(11〇2)產生的光線中,部份光線(11〇3) (1104)直接經由反光罩(iioi)出光面到達照明區域(1114);部份 光線(1105) (1106)經由第一階梯狀外凸弧面(11〇7)反射至照明區 域(1114);部份光線(11〇8)經由第二階梯狀外凸弧面(11〇9)第一 次反射至另一邊的第一階梯狀外凸弧面(111〇)後第二次反射至照明 區域(1114);部份光線(ini)經由第三階梯狀外凸弧面(1112)第 一次反射至另一邊的第一階梯狀外凸弧面(111〇)後第二次反射至照 13 201217696 明區域(1114);部份光線(1113)經由第三階梯狀外凸弧面(1112) 之頂部平面第一次反射至第一階梯狀外凸弧面(11〇7)後第二次反射 至照明區域(1114 )。 請參考第十一 B圖係為光線經上述反光罩(11〇1)兩側邊外凸弧 面反射至照明區域的照明範圍(1115)’由圖中可看出照明範圍(1115) 為二個對稱扇形且光線互為交叉狀,照明寬度(T11)可決定於反光罩 (1101)兩側邊外凸弧形反光面的寬度,兩者成正比比例,亦可決定 於反光罩(1101)兩側邊外凸弧形反光面的半徑大小,半徑愈大則寬 度愈小,半徑愈小則寬度愈大,照明長度(Τ12)決定於反光罩兩側邊 外凸弧面的傾斜角度。 請參考第十二Α圖係為本發明之異形反光罩另兩側邊内凹面反射 光線路徑圖示,反光罩(1201)結構同第十一 a圖所示,一燈管(1202) 設於反光罩(1201)内,燈管(1202)產生的光線中,部份光線(1205) 直接經由反光罩(1201)出光面到達照明區域(1216);部份光線(1206) (1207)經由右側内凹弧面(1203)反射至照明區域(1216);部份光 線(1208)經由右側内凹弧面(1203)第一次反射至左側内凹弧面(1204) 後第二次反射至照明區域(1216);部份光線(1209)經由左右兩側内 凹弧面(1203) (1204)各二次反射後至照明區域(1216)。 請參考第十二B圖係為光線經上述反光罩(1201)正背面之内凹 面反射至照明區域的照明範圍(1211),由圖中可看出照明範圍(1211) 為二個對稱扇形且光線互為交叉狀,其中二個扇形照明光線(1212) (1213)各別呈現由中央往二外側分散的光線互不交叉或重疊,是因 為正及背面是一内凹弧面所構成的反光面,自然使反射光線往二外側 201217696 分散’同樣的原理’當正及背面皆是由二個平面連接成内凹反光面亦 可使反射光線往二外側分散,照明寬度(T13)決定於反光罩(12〇1) 正及背面之内凹面的傾斜角度,角度愈大則照明寬度愈寬反之則愈 窄’照明長度(Τ14)決定於反光罩(12〇1)正及背面之内凹面的弧形 面半徑大小,半徑愈大則照明長度度愈短反之則愈長。 將第十一 Β圖及第十二β圖的照明範圍重疊後即成為一光線分佈 均勻的長方形照明範圍(1211)。 • 請參考第十四圖係為本發明具異形反光罩之燈具結構之另一種實 施例圖示,係應用於一路燈燈具中,其具有一燈罩上蓋(14〇1),一燈 罩底座(1402)以一螺絲(U03)固定裝置於燈罩上蓋(14〇1) —可 旋轉結構上,一扣合件(1404)將燈罩上蓋(1401)與燈罩底座(14〇2) 活動式扣住,燈罩上蓋(1401)與燈罩底座(14〇2)中間相對位置各 一咼牆(1405) ( 1422)將内部分隔為第一空間(1406)與第二空間 (1407),第一空間(1406)内裝置一電源供應器(14〇8),並以一鐵 片(1409)及螺絲(1410)固定於燈罩底座(1402)上,電源供應器 ® (1408) —邊有一電源線(1412)可穿越高牆(1405) (1422)中間一 穿孔(1413)連接於燈管,另一邊有二電源線(1411)供連接外部電 源線用,第二空間( 1407)燈罩底部一出光穿孔裝置一透光板材 (1414) ’ 以至少二鐵片(1415) (1416)及二螺絲(1417) (1418)固 定於燈罩底座(1402),一裝置發光源的異形反光罩(1419)以至少二 個帶有螺絲的门型夾具(1420)固定於透光板材(1414)上,組成一 裝置異形反光罩的路燈燈具結構。 藉由本發明所提供的具有異形反光罩之燈具結構,使該燈具特別 15 201217696 適用於道路、長廊、廣告看板或流水駐作台等場所,且充分將該光 源產生之所有練變成有效照明光線,達崎低燈具功率還能具有相 同照明度的節能減碳需求。 上述第五圖至第九圖結構皆是關第四A圖結構制,是為了簡 化圖示及說_容,同樣的在第二圖和第三_異形反光罩結構也有 如是的結構變化以達到特殊照喊_效果於此不再重複敘述,另外 本說明内容中對於異形反光罩之兩側邊外絲形反光面由多數不同 傾斜角度的部份圓錐面相互連接組成階梯狀反光面,亦是為了簡化圖 示及說明内容才以數個線段顯示,在於實際產品運用中可以是非常多 數的不同傾斜角度小線段連接組成,其外觀將趨近於一弧線亦是包含 於本發明範圍中。 本說明内容以第十三圖和第十四圖二個燈具實施例做說明,此二 實施例皆疋一個燈具裝置一光源及一異形反光罩,在實際運用中例如 光源為LED的燈具,可在一燈具内裝置數個異形反光罩,每一該反光 罩内部裝置一 LED光源,亦是包含於本發明範圍中。 請參考第十五圖及第十五A圖,係為本發明異形反光罩第九種實 施例,其中反光罩(1501)内表面為反光面,反光罩(15〇1)兩側面 (1502)(1503)係為外凸弧面,每一外凸娘面由多層不同傾斜角度的部 份圓錐面相互連接組成。每一部份圓錐面的傾斜角度,是由反光罩 (1501)底部起愈往頂部愈偏向反光罩(1501)中心傾斜;而且,該外凸 弧面的寬度,是自底部愈寬愈往頂部愈窄,反光罩(1501)的正面(1504) 及背面(1505)係為兩侧面(1502)(1503)兩外凸弧面相接合之封閉面, 反光罩(1501)頂面一個大穿孔(1506)供LED發光模組或燈管穿越進入 201217696 反光罩(1501)内部,二個小穿孔(15〇7)(15〇8)供固定燈管支架,或固 疋LED發光模組,在前述反光罩第二及第三實施例之至少二個階梯狀 外凸弧面組成結構,亦可成形如本實施例樣式於此不再重複敘述。 請參考第十六圖及第十六A圖’係為本發明異形反光罩第十種 實施例,其中反光罩(1601)内表面為反光面,反光罩(16〇1)兩側面 (1602)(1603)係為外凸弧面,每一外凸弧面由多層不同傾斜角度的部 份圓錐面相互連接組成。每一部份圓錐面的傾斜角度,是由反光罩 (1601)底部起愈往頂部愈偏向反光罩(1601)中心傾斜;而且,該外凸 弧形面的寬度,是自底部愈寬愈往頂部愈窄,反光罩(16〇1)的正面 (1604)係為兩側面(1602)(1603)兩外凸孤面相接合之封閉面,反光罩 (1601)的背面(1605)係為一穿孔供燈管穿越進入反光罩(16〇1)内部, 反光罩(1601)頂面二個小穿孔(1607)(1608)供固定燈管支架,在前述 反光罩第二及第三實施例之至少二個階梯狀外凸弧面組成結構,亦可 成形如本實施例樣式於此不再重複敘述。 請參考第十七圖及第十七A圖,係為本發明異形反光罩第十一種 實施例,其中反光罩(1701)内表面為反光面,反光罩(1701)兩側面 (1702)(1703)係為外凸弧面,每一外凸弧面由多層不同傾斜角度的部 份圓錐面相互連接組成。每一部份圓錐面的傾斜角度,是由反光罩 (1701)底部起愈往頂部愈偏向反光罩(1701)中心傾斜;而且,該外凸 弧形面的寬度,是自底部愈寬愈往頂部愈窄,反光罩(1701)的正面 (1704)及背面(1705)係為兩穿孔,供燈管穿越反光罩内部,反光罩 (1701)頂面二個小穿孔(1706)(1707)供固定燈管支架,在前述反光罩 第二及第三實施例之至少二個階梯狀外凸弧面組成結構,亦可成形如 201217696 本實施例樣式於此不再重複敘述。 請參考第十八A及第十八B圖,係為本發明之異形反光罩第十 二種實施例,其中反光罩(1801)兩側邊的外凸弧面及正背面同第二 圖結構’反光罩(1801)頂面為一平面(1802),頂面中心一大穿孔(18〇3) 供燈管或LED模組穿越,二小穿孔(1804) (1805)供固定燈管支架或 LED模組。 上述之外凸弧面上的多層圓錐面可以是同圓心或非同圓心。 • 綜上所陳,本發明所提供的具有異形反光罩之燈具結構,應用於 路燈或吊掛燈具中,確可達到特殊照明範圍之預期功效,完全符合專 利要件,爰依法提出申請。 【圖式簡單說明】 第一A圖至第一c圖係為三種習用反光罩圖示, 第二A圖為本發明之異形反光罩第一種實施例之平面視圖, 第二B圖為本發明之異形反光罩第一種實施例之仰視圖, 籲 帛二C圖為本發明之異形反光罩第_種實施例之立體圖, 第二D圖為本發明之異形反光罩第一種實施例變化之仰視圖, 第三A圖為本發明之異形反光罩第二種實施例之平面視圖, 第^圖為本發明之異形反光罩第二種實施例之仰視圖, 第三(:圖為本發明之異形反光罩第二種實施例之立體圖, 第-D圖為本發明之異形反光罩第二種實施例變化之仰視圖, 第四A圖為本發明之異形反光罩第三種實施例之平面視圖, 第四B圖為本發明之異形反光罩第三種實施例之仰視圖, 第四C圖為本發明之異形反光罩第三種實施例之立體圖, 201217696 第五A圖為本發明之異形反光罩第四種實施例之平面視圖, 第五B圖為本發明之異形反光罩第四種實施例之仰視圖, 第六A圖為本發明之異形反光罩第五種實施例之平面視圖, 第六B圖為本發明之異形反光罩第五種實施例之仰視圖, 第七A圖為本發明之異形反光罩第六種實施例之平面視圖, 第七B圖為本發明之異形反光罩第六種實施例之仰視圖, 第八A圖為本發明之異形反光罩第七種實施例之平面視圖’ 第八B圖為本發明之異形反光罩第七種實施例之仰視圖, 第九A圖為本發明之異形反光罩第八種實施例之平面視圖, 第九B圖為本發明之異形反光罩第八種實施例之仰視圖, 第十圖係為本發明之異形反光罩另一種供光源穿越的穿孔之立體圖, 第十一 A圖係為本發之異形反光罩兩外凸弧面反射光線路徑圖, 第十一 B圖係為本發明之異形反光罩兩外凸弧面反射光線的照明範圍 圖, 第十一 Α圖係為本發明之異形反光罩兩内凹面反射光線路徑圖, % 第十二B圖係為本發明之異形反光罩兩内凹面反射光線的照明範圍圖, 第十三圖係為本發明應用於吊掛式燈具之剖面示意圖, 第十四圖係為本發明應用於路燈燈具之剖面示意圖, 第十五圖為本發明之異形反光罩第九種實施例之立體圖, 第十五A圖為本發明之異形反光罩第九種實施例之平面視圖, 第十六圖為本發明之異形反光罩第十種實施例之立體圖, 第十六A圖為本發明之異形反光罩第十種實施例之平面視圖, 第十七圖為本發明之異形反光罩第十一種實施例之立體圖, 第十七A圖為本發明之異形反光罩第十一種實施例之平面視圖, 201217696 第十八圖為本發明之異形反光罩第十一種實施例之立體圖, 第十八A圖為本發明之異形反光罩第十一種實施例之平面視圖。 【主要元件符號說明】 弧形反光面(101) (110) 傾斜平面反光面(102) (103) 穿孔(104) (105) (108) (112) 燈管(106) ( 109) ( 113) 半橢圓形反光面(107) 平面反光面(111) 反光罩(201) 部份圓錐面(202a)〜(202η) 部份圓錐面(204) (205) 内凹面(206) (207) 穿孔(208) 平面(209) (210) 穿孔(211) (212) 平面(213、214) (215、216) 反光罩(301) 部份圓錐面(302a)〜(302η) 扇形平面(304) 部份圓錐面(305a)〜(305η) 平面(307) 201217696 内凹面(308) (309) 穿孔(310) 平面(311) (312) 穿孔(313) (314) 平面(315、316) (317、318) 反光罩(401)201217696 VI. Description of the Invention: [Technical Field] The present invention relates to a lamp structure, and more particularly to a lamp structure having a profiled reflector. Among them, the special-shaped reflector is characterized in that each of the reflective surfaces is designed to reflect the light source to a predetermined illumination area, and the special structure is used to make the illumination area a rectangular or special illumination range. [Prior Art] A commonly used luminaire will have a reflector around a light source. Due to the different design of the reflector, the illumination area of the luminaire will form a different range. Referring to FIG. 1A, there is shown a conventional lamp structure having a reflector with a curved reflecting surface (101) in the middle and an inclined planar reflecting surface (102) (103) on both sides. The two reflective surfaces constitute the reflector structure; in each of the inclined flat reflective surfaces (1〇2) (103), there is a perforation (ι〇4) (1〇5). A tube (1〇6) passes through the two perforations (1〇4) (105) and is placed at the center of the reflector. This reflector will bring the illuminated area closer to the square. Please refer to the first B diagram for another conventional lamp structure, which has a reflector, the pattern is a half-elliptical reflective surface (1〇7), one side has a perforation (log), and one tube (1〇9) Passing through this perforation (1G8) and placing it in the center of the anti-green interior, this reflector makes the illumination area approach the elliptical range. Please refer to the figure-C for another conventional lamp structure, which has a reflector, the pattern is a side-arc reflective surface (110), the top is a flat reflective surface ((1)), and the plane reflective surface UU The center has a perforated (10), _ tube (10) through the perforation (1) 2) 201217696 and is placed in the center of the top of the reflector, the reflector makes the range of the field. In the above-mentioned prior art, only the square, elliptical or circular illumination range can be achieved, and it is not applicable to roads, corridors, advertising billboards or pipeline worktables, etc., such as forced application, it is easy to cause the lighting power to be too low. Adding lights and then wasting power. SUMMARY OF THE INVENTION Accordingly, the present invention provides a luminaire structure having a shaped reflector, comprising at least: a light source for generating light; and a profiled reflector, the light source is provided for a conventional technique. Internally, the inner surface is a reflective surface, and the two sides are convex curved surfaces, and each convex curved surface is connected by a plurality of partial conical surfaces of different inclination angles to form an inclination angle of each of the partial conical surfaces. The top of the reflector is tilted toward the top toward the center of the reflector; and the width of the convex curved surface is narrower from the bottom to the top; the top surface of the reflector is a concave top a side surface of which a plurality of conical surfaces of different downward inclination angles are connected to each other, and the inclination angle of the conical surface of each of the downward inclination angles is increased from the top edge of the convex arc surface to the center of the reflector The back of the reflector is inclined; the front and back sides of the reflector are concave surfaces, and the two concave surfaces are reversely concave and have the same curvature and inclination angle. The two concave surfaces are bottomed from the top of the reflector. The more offset from the center of the reflector inclined at an angle, the width is the widest at the bottom to the top of the narrower more. In addition, the present invention also provides a lamp structure having a special-shaped reflector, at least 201217696 includes: a light source 'for generating light; and a profiled reflector'. The light source is disposed inside, and the inner surface thereof is a reflective surface, The two sides have at least a first stepped convex arc surface and a second stepped outer convex arc surface respectively connected by a first sector plane; the first stepped convex curved surface and the second stepped convex surface The arc surface 'is composed of a plurality of partial conical surfaces of different inclination angles, and the inclination angle of each conical surface is inclined from the bottom of the reflector to the top toward the center of the reflector; and the width thereof is The narrower from the bottom to the top is narrower; the front and back sides of the reflector are concave, and the two concave surfaces are reversely concave and have the same curvature and inclination angle. The two concave surfaces are covered by the reflector. The top is more inclined to the bottom from the angle of the center of the reflector, and the width is the widest at the bottom and the narrower toward the top; the top surface of the reflector is "** plane β by the invention provided by a kind of reflective The luminaire structure makes the luminaire particularly suitable for roads such as promenades, advertising billboards or assembly lines, and fully converts all the light generated by the light source into effective illumination light, thereby reducing energy consumption of the luminaire and energy saving with the same illumination. Carbon reduction needs. Hereinafter, the structure and principle of the present invention will be described in detail in accordance with various embodiments shown in the drawings. [Embodiment] Please refer to the thirteenth drawing, which is a cross-sectional view of the embodiment of the lamp structure having the special-shaped reflector of the present invention, which is shown as a hanging type lamp 1 structure 201217696 square part There is a motor box upper cover (1301), and the upper cover (1301) has a perforation (1303) for hanging in the center. A motor box base (1302) is fixed to the motor box upper cover (1301) with a plurality of screws (131〇) (1311). A power supply (1304) is disposed in the motor casing and disposed above the profiled reflector (1317) and fixed to the motor casing base (13〇2) by an iron piece (13〇5). On the right side of the power supply (1304), there are two power cables (13〇6) (1307) for connecting the lamp power cable (1323) (1324); and the other power cable (丨308) on the left (丨3〇9) ) to connect an external power cord. • A dust cover (1312) is wrapped around the profiled reflector (1317), and the bottom surface forms an optical port; the dust cover (1312) and the inner two brackets (1315) (1316) are provided with several screw and nut assemblies (1313) (1314). ) is fixed at the same time under the motor box base (1302). The profiled reflector (1317) of a device illumination source (1317a) is fixed to the bracket (1315) (1316) by two screw nut assemblies (1318) (1319), and at least two of the light transmissive plates (1320) are provided with screws. The door clamp (1321) (1322) is fixed to the bottom surface of the light exit of a dust cover (1312). % With the above parts, a luminaire structure with a profiled reflector is formed. The main focus of the present invention is on the design of the profiled reflector, which will be described and explained in detail later. Please refer to the second embodiment A to C, which is a first embodiment of the profiled reflector of the present invention, wherein the inner surface of the reflector (201) is a reflective surface. The two sides of the reflector (2〇1) are convex curved surfaces, and each convex curved surface is composed of a plurality of partial conical surfaces (2〇2a)~(202η) of different inclination angles, and each partial cone is connected. The inclination angle of the surface (2〇2a)~(2〇2n) is inclined from the bottom of the reflective army (201) to the top toward the center of the reflector (2Q1); moreover, the width of the convex curved surface is The narrowest from the bottom to the top is narrower, and can be seen as a second β-pattern in 201217696; in this embodiment, the convex curved surfaces on both sides of the reflector (201) are mutually symmetrical. The top surface of the reflector (201) is a concave top surface, and one side of the reflector is composed of a plurality of conical surfaces (204) (205) of different downward inclination angles, and each partial conical surface (204) (205) The inclination angle is inclined from the top edge of the convex arc surface toward the bottom of the reflector (201) toward the center of the reflector (2〇1). Please refer to the second diagram 'The reflective cover (2〇1) is the inner concave surface (2〇6) (207) and the two concave surfaces (206) with respect to the two convex curved surfaces. 207) is the reverse concave and the same curvature and inclination angle. The two concave surfaces (2〇6) (2〇7) are offset from the top of the reflector (2〇1) to the bottom of the reflector (2〇1). The angle of the center is inclined, and the width is the widest at the bottom and the narrower at the top, and the two are symmetric structures. The center of the top of the reflector (201) is provided with a perforation (2〇8) for the tube to pass through as the illumination source, and the bottom edge of the two convex curved surfaces extends out of a plane (2〇9) (21〇), plane (2〇) 9) Each of (210) is provided with a perforation (211) (212) for fixing the reflector (2〇1) for use in the luminaire. Please refer to the second D picture, the inner concave surface formed by the front and back sides of the reflector (2〇1), and each concave surface may also be composed of at least two planes (213, 214) (215, 216) or two concave surfaces. The arcuate faces are connected, and the two concave surfaces are inclined from the top of the reflector (2〇1) to the bottom of the reflector (201), and the width is the widest at the bottom and the narrower toward the top. 2 is a second embodiment of the profiled reflector of the present invention, wherein the two sides of the reflector (301) are respectively formed by a first stepped convex arc surface and a second stepped convex surface. The curved surface is composed of a first stepped convex curved surface composed of a plurality of layers of different inclination angles 201217696 conical surfaces (302a) to (3G2n), each of which is partially conical (3〇2a)~(302n) The angle of inclination is inclined from the bottom of the reflector (3〇1) to the top toward the center of the reflector (301); and the width of the first stepped convex surface is from the bottom to the top The narrower. The top edge of the first stepped convex arc surface is connected to a fan-shaped plane (3〇4) outer edge, and the inner edge of the fan-shaped plane (304) is connected to the second stepped outer convex arc surface. The second stepped convex curved surface is composed of a plurality of partial conical surfaces (3〇5a) • 〜(305n) of different inclination angles, and the inclination angle of each partial conical surface (305a) to (305η) is From the bottom of the reflector (301), the top is inclined toward the center of the reflector (3〇1); and the width of the second stepped convex curved surface is narrower from the bottom to the top. The third figure; in this embodiment, the reflector (3〇1) _ faces are mutually symmetrical structures. The top edge of the second stepped convex curved surface is connected to a plane (3〇7). Please refer to the third diagram 'where the front and back sides of the reflector (301) are concave concave %(3〇8) (309) 'two concave surfaces (3〇8) (309) are reversed Concave and the same curvature and inclination angle, the two concave surfaces (308) (309) are inclined from the top of the reflector (301) to the bottom of the reflector (301). The width is the width of the bottom and the width is the top. The narrower the two are symmetric structures. The center of the top of the reflector (301) is provided with a perforation (31〇) for the tube to pass through as a light source, and the bottom edges of the two first stepped convex curved surfaces extend out of a plane (311) (312), plane (311) ( 312) Each of the upper perforations (313) (314) is for use in fixing the reflector (301) in the luminaire. 201217696 Please refer to the third D picture, the concave surface (3〇8) (309) formed on the front and back of the reflector (301), and each concave surface may also be composed of at least two planes (315, 316) (317, 318) or two concave curved surfaces are connected. The two concave surfaces (308) (309) are inclined from the top of the reflector (301) to the bottom of the reflector (301) from the center of the reflector (301), and the width is the bottom. The narrowest is the narrower the top. Please refer to the fourth embodiment A to C, which is a third embodiment of the special-shaped reflector of the present invention, wherein the two sides of the reflector (401) are respectively formed by a first stepped convex arc surface and a second stepped outer convex arc. The surface is formed by a third stepped convex curved surface; the first stepped convex curved surface is composed of a plurality of partial conical surfaces (4〇2a) to (402η) of different inclination angles, and each partial conical surface The inclination angle of (402a)~(402η) is inclined from the bottom of the reflector (4〇1) toward the top toward the center of the reflector (4〇1); moreover, the width of the first stepped convex curved surface 'It is the narrowest from the bottom to the top. The top edge of the first stepped convex arc surface is connected to a first sector plane (4〇4) outer edge. The inner edge of the first sector plane (404) is connected to the second stepped outer convex arc surface. The second stepped convex curved surface is composed of a plurality of partial conical surfaces (4〇5a)~(405η) of different inclination angles, and each of the conical surfaces (4〇5a)~(4〇5n) is inclined. The angle is inclined from the bottom of the reflector (401) toward the top toward the center of the reflector (4〇1); and the width of the second stepped convex curved surface is narrower from the bottom to the top. See Fig. 4B; in this embodiment, the two sides of the reflector (4〇1) are symmetric with each other. The top edge of the second stepped convex curved surface is connected to the outer edge of a second sector plane (4〇7), and the inner edge of the second sector plane (407) is connected to the third stepped outer convex curved surface. 201217696 The third stepped convex arc surface is composed of a plurality of partial conical surfaces (4〇8a)~(408η) of different inclination angles, and each partial conical surface (4〇8a)~(4〇8n) The inclination angle is inclined from the bottom of the reflector (401) toward the top toward the center of the reflector (4〇1); and the width of the third stepped convex curved surface is the width from the bottom to the top. Narrow, see Figure 4B; in this embodiment, the two sides of the reflector (4〇1) are mutually symmetrical. The top edge of the third stepped convex curved surface of the reflector (401) is connected to a plane (41 〇). Please refer to the fourth β diagram. The front and back sides of the reflector (401) are concave (411) (412). The two concave surfaces (411) (412) are inverted concave and have the same curvature and inclination. Angle, the two concave surfaces (411) (412) are inclined from the top of the reflector (401) to the bottom of the reflector (401), and the width is the widest at the bottom and the narrower toward the top, the two are Symmetrical structure. The center of the top of the reflector (401) is provided with a through hole (413) for the tube to pass through as a light source, and the bottom edges of the two first stepped convex curved surfaces extend out of a plane (414) (415) in a plane (416). (417) The fixed reflector (401) is used in the luminaire. Please refer to the fifth embodiment A and B, which is a fourth embodiment of the special-shaped reflector of the present invention, wherein the reflector (501) is similar to the fourth A and B drawings, and has a three-step reflective surface, but the reflector (501) The stepped reflective surface of the two side faces (5〇2) (5〇3) has a smaller side width (T1) (the right side in the figure) and the other side has a larger width (T2) (the left side in the figure) The surface is an asymmetrical structure, but both sides (5〇2) (503) are the widest at the bottom and narrower toward the top. The front and back sides of the reflector (501) are concave (509) (51〇), and the two concaves (509) (510) of the 201217696 are inverted and have the same curvature and inclination angle. The concave surface (5〇9) (510) is inclined from the top of the reflector (501) to the bottom toward the center of the reflector (5〇1), and the width is the widest at the bottom and the narrower toward the top, the two are mutual Symmetrical structure. The top of the reflector (501) has a perforation (504) for the tube to pass through, and the bottom edges of the two convex curved surfaces extend out of a plane (505) (506), and a perforation on the plane (505) (5〇6) (507) (508) For fixed reflector (501) use. Please refer to the sixth embodiment A and B, which is a fifth embodiment of the special-shaped reflector of the present invention, wherein the reflector (601) is different from the fourth A and B drawings, and the two sides are three-step reflective surfaces (602). (603) 'But please refer to the bottom view of Figure B for the bottom view. The stepped reflective surfaces (602) on both sides (603) are symmetrical structures, which are based on the center of the reflector (613). - The two parts of the width (T3) and the width (T4) are connected to form a convex curved width, and the sides are the widest at the bottom and the narrower the top, the reflector (601) Both the front and the back are concave surfaces. The two concave surfaces are respectively different centers but concave curved reflectors (6〇9) (61〇) with the same radius and inclination angle, and are from the top of the reflector (601). The more the bottom is inclined away from the center of the reflector (6〇1), the width is the widest at the bottom, and the narrower toward the top, the two are asymmetrical structures. Reflector (6〇1) Top Center - Perforation (10) 4) For the tube to pass through, the bottom edges of the two convex curved reflectors extend out - plane (605) (606) (150) (10) a perforation (10)) for fixing the reflector (601) Use. Please refer to the seventh and Β@, which are the sixth embodiment of the special-shaped reflector of the present invention, wherein the reflector (701) is similar to the thin A&B reading, and the _ surface is a three-step reflective surface (702) ( 703), but please refer to Figure 7B, the three-step reflective surface (7〇2) (703) on both sides is a mutually symmetrical structure, which is based on the center line of the reflector (713) and has a width of 201217696 ( T5) is smaller and has a larger width (T6). The two parts are connected—the width of the convex curved surface, and the sides are the widest and widener at the bottom. The reflector (7〇1) is a concave surface on the front and back sides, respectively a concave curved reflecting surface (709) (710) with different centers, different radii and different inclination angles, both of which are made of reflectors ( 7〇1) The top of the top is tilted away from the center of the reflector (701), and the width is also the widest at the bottom, and the narrower the top, the two are completely asymmetrical. The center of the reflector (7〇1) has a perforation (704) for the tube to pass through the bottom edge of the two convex curved surfaces to extend out of a plane (7〇5) (706) a perforation in the plane (707) (708) ) For fixed reflectors (7〇1) use. Please refer to the eighth embodiment and the drawings, which are the seventh embodiment of the special-shaped reflector of the present invention, wherein the reflector (801) is similar to the fourth A and B diagrams, and the two sides are three-step reflective surfaces (802). (803) 'But please refer to Figure 8B. The three stepped reflective surfaces (802) (803) on both sides are symmetrical structures, which are based on the center line of the reflector (gig) and are the same width. The two parts of (T7) (T8) are connected to form a convex curved reflecting surface width, and both sides are the structure with the widest bottom and the narrower to the top. The reflector (8〇1) is a concave surface on the front and back sides, respectively a concave arc-shaped reflective surface (8〇9) (810) with different centers and different inclination angles but the same radius. The top of the reflector (801) is inclined toward the bottom from the center of the reflector (801), and the width is also the widest at the bottom, and the more it goes to the top, the two are inclined structures with an oblique angle. The center of the reflector (801) has a perforation (804) for the lamp to pass through the bottom edge of the two convex curved reflectors to extend a plane (8〇5) (8〇6), plane (805) (806) A perforation (807) (808) is provided for securing the reflector. Please refer to the ninth embodiment A and B, which is an eighth embodiment of the special-shaped reflector of the present invention, wherein the reflector (901) is similar to the fourth A and B drawings, and the two sides are three-step reflective surfaces (902). ) (903) 'But please refer to Figure IX, the three stepped reflective surfaces on both sides (9〇2) 12 201217696 (903) are mutually symmetrical structures, based on the center line of the reflector (913). Two two parts of the same width (T9) (T10) are connected to form a convex curved reflecting surface width, and both sides are the structure with the bottom being the widest and the narrower toward the top. The reflector (9〇1) has a concave surface on both the front and the back. They are respectively a concave center (909) (910) with different centers, different inclination angles and different radii, both of which are made of reflectors ( 901) The top is inclined toward the bottom of the reflector from the angle of the center of the reflector, the width is also the widest at the bottom, the narrower the top, but the two are completely asymmetric structures. The top of the reflector (9〇1) has a perforation (9〇4) for the tube to pass through, and the bottom edge of the two convex curved reflectors extends out of a plane (9〇5) (9〇6), plane (905) ( 906) A perforation (907) (908) for fixing the reflector (901). Please refer to the tenth figure, which is a special-shaped reflector (1〇01) of the present invention, and another light source traversing the perforated structure diagram, which is similar to that shown in the fourth and fourth figures, and has a concave reflective surface on the front and back sides. (1002) (1003) Each has a perforation (1〇〇4) (1〇〇5) for the lamp to pass through, and the top of the reflector (1001) has a perforation (1〇〇6) for the fixed light source socket. Please refer to the eleventh A picture for the reflection path of the two convex curved surfaces of the special-shaped reflector of the present invention. The structure of the reflector (1101) is the same as that of the fourth and eighth figures, and one tube (11〇2) In the reflector (1101), part of the light (11〇3) (1104) in the light generated by the tube (11〇2) directly passes through the illuminating surface of the reflector (ioi) to reach the illumination area (1114); Light (1105) (1106) is reflected to the illumination area (1114) via the first stepped convex arc surface (11〇7); part of the light (11〇8) is via the second stepped convex surface (11〇9) The first time is reflected to the other side of the first stepped convex arc surface (111〇) and then reflected to the illumination area (1114) for the second time; part of the light (ini) passes through the third stepped convex surface (1112) The first time is reflected to the first stepped convex arc surface (111〇) on the other side and then reflected a second time to the 13 201217696 bright area (1114); part of the light (1113) passes through the third stepped convex arc The top plane of the face (1112) is reflected to the illumination area (1114) a second time after being reflected for the first time to the first stepped convex arc surface (11〇7). Please refer to the eleventh B diagram for the illumination range (1115) where the light is reflected by the convex arc surface on both sides of the reflector (11〇1). The illumination range (1115) is two. The symmetrical fan shape and the light cross each other, the illumination width (T11) can be determined by the width of the convex curved surface on both sides of the reflector (1101), which is proportional to the ratio, and can also be determined by the reflector (1101). The radius of the convex curved surface on both sides is larger. The larger the radius is, the smaller the width is. The smaller the radius is, the larger the width is. The illumination length (Τ12) is determined by the inclination angle of the convex curved surface on both sides of the reflector. Please refer to the twelfth map for the concave light reflecting path on the other side of the deformed reflector of the present invention. The structure of the reflector (1201) is the same as that shown in FIG. 11a, and a tube (1202) is provided. In the reflector (1201), part of the light (1205) directly passes through the light exit surface of the reflector (1201) to the illumination area (1216); part of the light (1206) (1207) passes through the right side. The concave curved surface (1203) is reflected to the illumination area (1216); part of the light (1208) is first reflected to the left concave surface (1204) via the right concave curved surface (1203) and then reflected to the illumination for the second time. Area (1216); part of the light (1209) is reflected twice by the concave arc surface (1203) (1204) on the left and right sides to the illumination area (1216). Please refer to the twelfth Bth diagram for the illumination range (1211) where the light is reflected by the concave surface on the front and back sides of the reflector (1201) to the illumination area. It can be seen that the illumination range (1211) is two symmetrical sectors and The light rays are cross-shaped, and the two fan-shaped illumination rays (1212) (1213) respectively show that the light scattered from the center to the outside of the two does not cross or overlap each other because the front and back surfaces are reflected by a concave curved surface. The surface naturally reflects the reflected light to the outer side of the second layer 201217696. The same principle is used. When the front and back sides are connected by two planes into a concave reflective surface, the reflected light can be dispersed to the outside. The illumination width (T13) is determined by the reflection. The angle of inclination of the concave surface between the front and the back of the cover (12〇1). The larger the angle, the wider the illumination width and the narrower the opposite. The illumination length (Τ14) is determined by the concave surface of the reflector (12〇1) and the back surface. The radius of the curved surface, the larger the radius, the shorter the illumination length and vice versa. By overlapping the illumination ranges of the eleventh and twelfth beta images, it becomes a rectangular illumination range (1211) with uniform light distribution. Please refer to FIG. 14 for another embodiment of the lamp structure of the present invention having a profiled reflector, which is applied to a street lamp fixture having a lamp cover (14〇1) and a lampshade base (1402). A screw (U03) fixing device is attached to the lamp cover (14〇1) - a rotatable structure, and a fastening member (1404) is used to fasten the lamp cover (1401) and the lampshade base (14〇2). A wall (1405) (1422) separating the upper cover (1401) from the base of the lamp cover (14〇2) is divided into a first space (1406) and a second space (1407), in the first space (1406) A power supply (14〇8) is mounted on the base (1402) of the lamp cover with a piece of iron (1409) and screws (1410). The power supply unit (1408) has a power line (1412) traversable. In the middle of the high wall (1405) (1422), a perforation (1413) is connected to the lamp tube, and on the other side, there are two power lines (1411) for connecting the external power line, and a light perforating device at the bottom of the second space (1407) is transparent. Plate (1414) ' is fixed to at least two iron pieces (1415) (1416) and two screws (1417) (1418) A cover base (1402), a shaped reflector of the device illumination source (1419) is fixed on the light-transmitting plate (1414) with at least two door-type clamps (1420) with screws to form a street lamp of a device shaped reflector structure. The lamp structure with the special-shaped reflector provided by the invention makes the lamp special 15 201217696 suitable for roads, promenades, advertising billboards or water standing stations, and fully converts all the light generated by the light source into effective illumination light. , Tasaki low lamp power can also have the same illumination for energy saving and carbon reduction. The above-mentioned fifth to ninth structures are all closed in the fourth A-picture structure, in order to simplify the illustration and the description, and the same structural changes in the second and third-shaped reflector structures are also achieved. The special singer _ effect will not be repeated here. In addition, in the present description, the outer side wire-shaped reflecting surface of the different-shaped reflector is connected with a plurality of conical surfaces of different inclination angles to form a stepped reflective surface, which is also In order to simplify the illustration and description, the content is displayed in a plurality of line segments. In actual product application, a very large number of different oblique angle small line segment connections may be formed, and the appearance thereof will be close to an arc and is also included in the scope of the present invention. The description of the present invention is illustrated by the two lamp embodiments of the thirteenth and fourteenth embodiments. The second embodiment is a lamp device, a light source and a special-shaped reflector. In practical applications, for example, the light source is an LED lamp. It is also within the scope of the present invention to provide a plurality of shaped reflectors in a luminaire, and an LED light source within each of the reflectors is also included in the scope of the present invention. Please refer to the fifteenth and fifteenth drawings, which are the ninth embodiment of the special-shaped reflector of the present invention, wherein the inner surface of the reflector (1501) is a reflective surface, and the two sides of the reflector (15〇1) (1502) (1503) is a convex curved surface, and each outer convex surface is composed of a plurality of partial conical surfaces of different inclination angles connected to each other. The inclination angle of each conical surface is inclined from the bottom of the reflector (1501) to the center of the reflector (1501); and the width of the convex arc is wider from the bottom to the top. The narrower, the front side (1504) and the back side (1505) of the reflector (1501) are the closed faces of the two convex sides of the two sides (1502) (1503), and a large perforation on the top surface of the reflector (1501) (1506) ) for the LED lighting module or tube to enter into the interior of the 201217696 reflector (1501), two small perforations (15〇7) (15〇8) for fixing the lamp holder, or solid-state LED lighting module, in the aforementioned reflection The at least two stepped convex curved surfaces of the second and third embodiments of the cover may be formed into a structure as in the embodiment, and the description thereof will not be repeated. Please refer to FIG. 16 and FIG. 16A for a tenth embodiment of the profiled reflector of the present invention, wherein the inner surface of the reflector (1601) is a reflective surface, and the two sides of the reflector (16〇1) (1602) (1603) is a convex curved surface, and each convex curved surface is composed of a plurality of partial conical surfaces of different inclination angles connected to each other. The inclination angle of each conical surface is inclined from the bottom of the reflector (1601) to the center of the reflector (1601); and the width of the convex curved surface is wider from the bottom. The narrower the top, the front side (1604) of the reflector (16〇1) is the closed side of the two sides (1602) (1603) with the two convex faces joined together, and the back side (1605) of the reflector (1601) is a perforation. The lamp tube passes through into the interior of the reflector (16〇1), and two small perforations (1607) (1608) on the top surface of the reflector (1601) are used to fix the lamp holder, at least in the second and third embodiments of the reflector. The structure of the two stepped convex curved surfaces can also be formed as in the embodiment, and the description will not be repeated here. Please refer to FIG. 17 and FIG. 17A for the eleventh embodiment of the profiled reflector of the present invention, wherein the inner surface of the reflector (1701) is a reflective surface, and the two sides of the reflector (1701) are (1702) ( 1703) is a convex curved surface, and each convex curved surface is composed of a plurality of partial conical surfaces of different inclination angles connected to each other. The inclination angle of each conical surface is inclined from the bottom of the reflector (1701) to the center of the reflector (1701); and the width of the convex curved surface is wider from the bottom. The narrower the top, the front side (1704) and the back side (1705) of the reflector (1701) are two perforations for the tube to pass through the inside of the reflector, and two small perforations (1706) (1707) on the top surface of the reflector (1701) are provided. The fixed lamp holder is composed of at least two stepped convex curved surfaces of the second and third embodiments of the reflector, and can also be formed as in 201217696. The embodiment is not repeated here. Please refer to the eighteenth and eighteenth Bth drawings, which are the twelfth embodiment of the special-shaped reflector of the present invention, wherein the convex curved surface and the front and back sides of the two sides of the reflector (1801) are the same as the second structure. 'The top surface of the reflector (1801) is a flat surface (1802), a large perforation (18〇3) is provided at the center of the top surface for the lamp tube or LED module to pass through, and two small perforations (1804) (1805) are used to fix the lamp holder or LED module. The multi-layered conical surfaces on the convex arc surface described above may be the same center or different centers. • In summary, the lamp structure with the special-shaped reflector provided by the invention is applied to the street lamp or the hanging lamp, and can achieve the expected effect of the special illumination range, fully meets the patent requirements, and applies in accordance with the law. BRIEF DESCRIPTION OF THE DRAWINGS The first A to the first c are three conventional reflectors, and the second A is a plan view of the first embodiment of the profiled reflector of the present invention, and the second B is The bottom view of the first embodiment of the invention is a perspective view of the first embodiment of the profiled reflector of the present invention, and the second diagram is the first embodiment of the profiled reflector of the present invention. FIG. 3 is a plan view showing a second embodiment of the shaped reflector of the present invention, and FIG. 4 is a bottom view of the second embodiment of the profiled reflector of the present invention, the third (: A perspective view of a second embodiment of the profiled reflector of the present invention, a first view of a second embodiment of the profiled reflector of the present invention, and a fourth embodiment of the profiled reflector of the present invention FIG. 4B is a bottom view of a third embodiment of the profiled reflector of the present invention, and FIG. 4C is a perspective view of a third embodiment of the profiled reflector of the present invention, 201217696 Planar view of the fourth embodiment of the shaped reflector of the present invention Figure 5 is a bottom plan view of a fourth embodiment of the profiled reflector of the present invention, and Figure 6A is a plan view of a fifth embodiment of the profiled reflector of the present invention, and Figure 6B is a view of the present invention. A bottom view of a fifth embodiment of the profiled reflector, a seventh view of the sixth embodiment of the profiled reflector of the present invention, and a seventh block view of the sixth embodiment of the profiled reflector of the present invention Figure 8 is a plan view of a seventh embodiment of the profiled reflector of the present invention. Figure 8 is a bottom view of a seventh embodiment of the profiled reflector of the present invention, and Figure 9A is a view of the present invention. A plan view of an eighth embodiment of a profiled reflector, a ninth B is a bottom view of an eighth embodiment of the profiled reflector of the present invention, and a tenth view of the profiled reflector of the present invention is another perforation for the light source to pass through. The perspective view of the eleventh A is a reflection path of the two convex curved surfaces of the profiled reflector of the present invention, and the eleventh diagram is the illumination range of the two convex curved surfaces of the profiled reflector of the present invention. The eleventh map is the variant of the invention. The inner surface of the cover has a concave light reflecting light path diagram, and the twelfth B is a lighting range diagram of the concave light reflected by the concave shaped reflector of the present invention, and the thirteenth drawing is a schematic sectional view of the hanging light type of the present invention. Figure 14 is a schematic cross-sectional view of a luminaire for a street lamp according to the present invention. Figure 15 is a perspective view of a ninth embodiment of the profiled reflector of the present invention, and Figure 15 is a ninth embodiment of the profiled reflector of the present invention. FIG. 16 is a perspective view of a tenth embodiment of the profiled reflector of the present invention, and FIG. 16A is a plan view of a tenth embodiment of the profiled reflector of the present invention, Figure 11 is a perspective view of a eleventh embodiment of the profiled reflector of the present invention, and Figure 17A is a plan view of the eleventh embodiment of the profiled reflector of the present invention, 201217696 A perspective view of a eleventh embodiment of the cover, and an eighteenth embodiment is a plan view of a eleventh embodiment of the profiled reflector of the present invention. [Explanation of main component symbols] Curved reflective surface (101) (110) Inclined plane reflective surface (102) (103) Perforation (104) (105) (108) (112) Lamp (106) ( 109) ( 113) Semi-elliptical reflective surface (107) Plane reflective surface (111) Reflector (201) Partial conical surface (202a) ~ (202η) Partial conical surface (204) (205) Concave surface (206) (207) Perforation ( 208) Plane (209) (210) Perforation (211) (212) Plane (213, 214) (215, 216) Reflector (301) Partial conical surface (302a) ~ (302η) Sector plane (304) Part Conical surface (305a) ~ (305η) Plane (307) 201217696 Concave surface (308) (309) Perforation (310) Plane (311) (312) Perforation (313) (314) Plane (315, 316) (317, 318 Reflector (401)
部份圓錐面(402a)〜(402η) 第一扇形平面(404) 部份圓錐面(405a)〜(405η) 第二扇形平面(407) 部份圓錐面(408a)〜(408η) 平面(410) 内凹面(411) (412) 穿孔(413) 平面(414) (415) 穿孔(416) (417) 反光罩(501) 側面(502) (503) 穿孔(504) 平面(505) (506) 穿孔(507) (508) 内凹面(509) (510) 反光罩(601) 201217696 階梯狀反光面(602) (603) 穿孔(604)Partial conical surface (402a)~(402η) First sector plane (404) Partial conical surface (405a)~(405η) Second sector plane (407) Partial conical surface (408a)~(408η) Plane (410 ) Concave surface (411) (412) Perforation (413) Plane (414) (415) Perforation (416) (417) Reflector (501) Side (502) (503) Perforation (504) Plane (505) (506) Perforation (507) (508) Concave (509) (510) Reflector (601) 201217696 Stepped Reflective (602) (603) Perforation (604)
I 平面(605) (606) 穿孔(607) (608) 内凹弧形反光面(609) (610) 反光罩中心線(613) 反光罩(701) ^ 階梯狀反光面(702) (703) 穿孔(704) 平面(705) (706) 穿孔(707) (708) 内凹弧形反光面(709) (710) 反光罩中心線(713) 反光罩(801) 階梯狀反光面(802) (803) 穿孔(804) 平面(805) (806) 穿孔(807) (808) 内凹弧形反光面(809) (810) 反光罩中心線(813) 反光罩(901) 階梯狀反光面(902) (903) 穿孔(904) 201217696 平面(905) (906) 穿孔(907) (908) 内凹弧形反光面(909) (910) 反光罩中心線(913) 反光罩(1001) 内凹反光面(1002) (1003) 穿孔(1004) (1005) 穿孔( 1006) 反光罩(1101) 燈管(1102) 光線(1103) (1104) 光線( 1105) (1106) 第一階梯狀外凸弧面(1107) 光線(1108) 第二階梯狀外凸弧面(1109) 第一階梯狀外凸弧面(1110) 光線(1111) 第三階梯狀外凸弧面(1112) 光線(1113) 照明區域(1114) 照明範圍(1115) 反光罩(1201) 燈管(1202) 201217696 光線(1205) 照明區域(1216) 光線(1206) (1207) 右側内凹弧面(1203) 光線( 1208) 左側内凹弧面(1204) 光線( 1209) 光線(1212) (1213) 照明範圍(1211) 上蓋(1301) 穿孔(1303) 底座( 1302) 螺絲(1310) (1311) 電源供應器(1304) 異形反光罩(1317) 鐵片(1305) 電源線(1306) (1307) 燈管電源線(1323) (1324) 電源線(1308) (1309) 防塵罩(1312) 支架(1315) (1316) 螺絲螺母組件(1313) (1314) 發光源(1317a) 螺絲螺母組件(1318) (1319) 透光板材(1320) 201217696 门型夾具(1321 ) (1322) 燈罩上蓋(1401) 燈罩底座(1402) 螺絲(1403) 扣合件(1404) 高牆(1405) (1422) 第一空間(1406) 第二空間(1407) 電源供應器(1408) 鐵片(1409) 螺絲(1410) 電源線(1412) 穿孔(1413) 電源線(1411) 透光板材(1414) 鐵片(1415) (1416) 螺絲(1417) (1418) 異形反光罩(1419) 门型夾具(1420) 反光罩(1501) 兩側面(1502)(1503) 正面(1504) 背面(1505) 大穿孔(1506) 201217696 小穿孔(1507)(1508) 反光罩(1601) 兩側面(1602)(1603) 正面(1604) 背面(1605) 小穿孔(1606)(1607) 反光罩(1701) 兩側面(1702)(1703) 正面(1704) 背面(1705) 小穿孔(1706)(1707) 反光罩(1801) 平面(1802) 大穿孔(1803) 小穿孔(1804) (1805)I Plane (605) (606) Perforation (607) (608) Concave curved reflective surface (609) (610) Reflector centerline (613) Reflector (701) ^ Stepped reflective surface (702) (703) Perforation (704) Plane (705) (706) Perforation (707) (708) Concave curved reflective surface (709) (710) Reflector centerline (713) Reflector (801) Stepped reflective surface (802) ( 803) Perforation (804) Plane (805) (806) Perforation (807) (808) Concave curved reflective surface (809) (810) Reflector centerline (813) Reflector (901) Stepped reflective surface (902 (903) Perforation (904) 201217696 Plane (905) (906) Perforation (907) (908) Concave curved reflective surface (909) (910) Reflector centerline (913) Reflector (1001) Concave reflective Face (1002) (1003) Perforation (1004) (1005) Perforation (1006) Reflector (1101) Lamp (1102) Light (1103) (1104) Light (1105) (1106) First stepped convex curved surface (1107) Light (1108) Second stepped convex curved surface (1109) First stepped convex curved surface (1110) Light (1111) Third stepped convex curved surface (1112) Light (1113) Illuminated area (1114) Lighting range (111 5) Reflector (1201) Lamp (1202) 201217696 Light (1205) Illuminated area (1216) Light (1206) (1207) Right concave curved surface (1203) Light (1208) Left concave curved surface (1204) Light ( 1209 ) Light (1212) (1213) Illumination range (1211) Upper cover (1301) Perforation (1303) Base (1302) Screw (1310) (1311) Power supply (1304) Shaped reflector (1317) Iron piece (1305 Power cord (1306) (1307) Lamp power cord (1323) (1324) Power cord (1308) (1309) Dust cover (1312) Bracket (1315) (1316) Screw nut assembly (1313) (1314) Light source (1317a) Screw and nut assembly (1318) (1319) Translucent sheet (1320) 201217696 Door clamp (1321) (1322) Shade cover (1401) Shade base (1402) Screw (1403) Fastener (1404) High wall (1405) (1422) First space (1406) Second space (1407) Power supply (1408) Iron piece (1409) Screw (1410) Power line (1412) Perforation (1413) Power line (1411) Translucent sheet (1414) Iron Plate (1415) (1416) Screw (1417) (1418) Shaped Reflector (1419) Door Type Clamp (1420) Reflector (15 01) Both sides (1502) (1503) Front (1504) Back (1505) Large perforations (1506) 201217696 Small perforations (1507) (1508) Reflector (1601) Both sides (1602) (1603) Front (1604) Back (1605) Small perforation (1606) (1607) Reflector (1701) Both sides (1702) (1703) Front (1704) Back (1705) Small perforation (1706) (1707) Reflector (1801) Plane (1802) Large Perforation (1803) Small perforation (1804) (1805)