M424461 五、新型說明: 【新型所屬之技術領域】 本創作為槔供一種蠟燭燈透鏡,尤指一種應用於蠟燭燈Jl,可更有效 率將發光二極體所散發光線呈現近似蠟燭效果之蠟燭燈透鏡。 【先前技術】 發光二極體是一種半導體元件’其可透過電源的通過而產生光源,由 於技術的瓶頸,發光二極體剛問世時通常做為電器用品之指示燈用途,近 • 年來’隨著白光發光二極體的出現,使得發光二極體有著更多的應用,由 其是室内照明應用。 發光二極體與傳統光源相較之下,有著以下優點: —、於低光度下能量轉換效率高:由於發光二極體有著此特性,非常適合 用在低光度的背光源中使用’例如使用於手機的背光源,電視的背光 源等等應用。 —結構堅固耐衝擊·由於發光一極體為固態元件,相較於鶴絲燈泡、螢 ® 光燈管’可以承受更大的衝擊,結構更為堅固。 三、 結構小:發光二極體之單體可以非常小,而且可以根據需求自由的進 行排顺合’例如數悔光二減拼裝組合作鱗列形態進行發 光,應用範圍更為廣泛。 四、 使用壽命長:賴發光二減與傳統統她之下其成本較高,但若 發光二極觀適當的散熱與顧環境之τ,發光二輔之使用壽命更 長。 五、 反應時間快:發光二極體反應速度可達lus,可以相料高的閃燦頻 3 M424461 事此行業之相關廠商所亟欲研究改善之方向所在者。 【新型内容】 故本創作之創作人有鑑於上述缺失,乃搜集相關資料,經由多方評 估及考量,並以從事於此行«積之料經驗,經由不斷試作及修改,始 設計出此漏賴燈上,可輕光二極_散發光紅現近似義效 果之壤燭燈透鏡新型專利者。 本新型之主要目的在於提供-種發光效率更佳之_燈透鏡。 為了達到上述目的,本創作包括燈本體、至少—發光二極體以及 透鏡。該發光二_設置於該稿燈本體上,該透鏡設置於該發光二極體 上’將發光二極體所發出光線進行折射與反射,包括—接收光線之收光部、 -引導光線之導光部以及-折射與反射光線之出光部,其中,該收光部包 括一非 >圼爾透鏡(Fresnel Lens ) 〇 其中’本創作之透鏡包括有收光部,該收光部包括一雜爾透鏡,藉 由此種結構,當發光二極體發光時,即可以藉由菲即透鏡輯光線進行 折射,使得發光二極體職發光線經舰光腫騎為平行光線或小角度 之光線’改善了習㈣燭燈透鏡當發光二極體散發之光線經過導光部時, 會有-部分光錄逸到導光料,造成了發光效率不佳的問題;本創作當 發光二極體散發光線時,即透過收光部之菲關透鏡對光線進行折射為平 行光線或小角度之光線,而平行光線經過導光部時,即不會有光線散逸的 問題,而小肖紅规_導光㈣,也因為界面折射率_係造成光 線之全反射,而減少光線之散逸。最後該出光部即可以折射與反射完整的 發光二極體光線,而在收光部使用菲涅爾透鏡後,可方便使用不同種類的 5 M424461 増加使用上的彈性 LED可產生同樣的效果, 佳之貫用進步性。 。藉此,本創作具有發光效率 【實施方式】 為達成上述目的及功效,本創作所_之技術手段及構造,茲繪圖就 本創作較健補詳減與魏如下,制完全了解。, 請參閱第三圖與第四圖所示,係為本創作較佳實施例之立體圖與局部 剖視圖,由圖中可清楚看出,本創作包括:M424461 V. New description: [New technical field] This creation is for a candle light lens, especially a candle that is applied to the candle light Jl, which can more effectively light the light emitting diode of the light-emitting diode to approximate the candle effect. Lamp lens. [Prior Art] A light-emitting diode is a semiconductor element that can generate a light source through the passage of a power source. Due to the technical bottleneck, the light-emitting diode is usually used as an indicator light for electrical appliances when it was first introduced. With the advent of white light-emitting diodes, light-emitting diodes have more applications, which are used for indoor lighting applications. Compared with traditional light sources, light-emitting diodes have the following advantages: - High energy conversion efficiency at low light levels: Because of the characteristics of light-emitting diodes, it is very suitable for use in low-light backlights. For mobile phone backlights, TV backlights and more. -Strong structure and impact resistance. Because the light-emitting body is a solid-state component, it can withstand greater impact than the crane light bulb and the fluorescent light tube. Third, the structure is small: the single body of the light-emitting diode can be very small, and can be freely arranged according to the demand, such as the number of repentance and subtraction assembly groups for luminescence, and the application range is wider. Fourth, the long service life: Lai luminescence minus and the traditional system under her cost is higher, but if the illuminating dipole view proper heat dissipation and environmental considerations, the life of the illuminating two auxiliary is longer. Fifth, the reaction time is fast: the reaction speed of the light-emitting diode can reach lus, and the flashing frequency can be high. 3 M424461 The relevant manufacturers in this industry are eager to study the direction of improvement. [New content] Therefore, the creators of this creation, in view of the above-mentioned shortcomings, are collecting relevant information, and through multi-party evaluation and consideration, and by engaging in the experience of this industry, through continuous trial and modification, we have designed this evasion. On the lamp, there is a new patent for the light candle dipole _ scatter red light that is similar to the effect of the magnetic candle lens. The main purpose of the present invention is to provide a lamp lens with better luminous efficiency. In order to achieve the above object, the present invention includes a lamp body, at least a light emitting diode, and a lens. The light-emitting diode is disposed on the body of the document lamp, and the lens is disposed on the light-emitting diode to refract and reflect light emitted by the light-emitting diode, comprising: a light-receiving portion for receiving light, and a guiding light guide. a light portion and a light-emitting portion that refracts and reflects light, wherein the light-receiving portion includes a non->Gresnel lens (Fresnel Lens), wherein the lens of the present invention includes a light-receiving portion, and the light-receiving portion includes a miscellaneous portion With this structure, when the light-emitting diode emits light, it can be refracted by the Philippine lens, so that the light-emitting diode light beam rides through the ship's light and is a parallel light or a small angle of light. 'Improved the light of the (4) candle light lens. When the light emitted by the light-emitting diode passes through the light guiding portion, there will be a part of the light recorded to the light guiding material, which causes a problem of poor luminous efficiency; the present invention is a light-emitting diode. When the light is scattered, the light is refracted into a parallel light or a small angle light through the Philippine lens of the light receiving portion, and when the parallel light passes through the light guiding portion, there is no problem that the light is dissipated, and the Xiaoxiao red light _ light guide (4), also Causing total reflection of light rays is the refractive index of the interface _ lines of reduced light dissipation. Finally, the light exiting portion can refract and reflect the complete light emitting diode light, and after using the Fresnel lens in the light receiving portion, it is convenient to use different types of 5 M424461 増 plus the use of the elastic LED to produce the same effect, preferably Adoptive progress. . Therefore, the creation has luminous efficiency [Embodiment] In order to achieve the above-mentioned purpose and effect, the technical means and structure of the creation of the creation of the creation of the creation of the creation of the book is more complete and detailed. Please refer to the third and fourth figures, which are perspective views and partial cross-sectional views of the preferred embodiment of the present invention. It can be clearly seen from the figure that the creation includes:
壤燭燈本體2,該獅_ 2與_群21進行組構,紐罩Μ為傳 統蠟燭之火焰外觀態樣並; 至少一發光二極體22,該發本-枚μ μ 發先—極體22設置於該蠟燭燈本體2上, 發光二極體22設置於一基板221上, 上,並透過電線連接至電源(圖中未示 該電源可收容於該蠟燭燈本體2內邱. 瓶2内。ρ,以對發光二極體22進行電力供應 透鏡23 ’該透鏡23設置於該發光二極體Μ上,將發光二極體η所發 出光線進行折射與反射,包括一接收光線之收光部Μ、一引導光線之導光 部25以及-折射與反射光線之出光部%,其中,該導光部25包括一弧形 部251,該收光部24包括-菲淫爾透鏡241 (FresndLens),該菲埋爾透鏡 241為圓型菲淫爾透鏡24卜為-平凸透鏡,且該菲埋爾透鏡加之凸面係 面向該發光二極體22。 請同時參閱第五圖所示,係為本創作較佳實施例之實施示意圖,由圖 中可清楚看出,當本創作之發光二極體22發光時,光線係自發光二極體22 外表面均勻進行散發,經過收光部24之菲涅爾透鏡241後,由於該菲涅爾 透鏡24卜為一平凸透鏡,且該菲涅爾透鏡24丨之凸面係面向該發光二極體 6 M424461 . 第一圖係為習用蠟燭燈透鏡之剖視圖。 • 第二圖係為習用蠟燭燈透鏡之實施示意圖。 第三圖係為本創作較佳實施例之立體圖。 第四圖係為本創作較佳實施例之局部剖視圖。 第五圖係為本創作較佳實施例之實施示意圖。 【主要元件符號說明】 1、2蠟燭燈本體 φ 21燈罩 12、22發光二極體 221基板 13、 23透鏡 14、 24收光部 141凹槽 241菲涅爾透鏡The body of the candlelight 2, the lion _ 2 and the _ group 21 are organized, the hood is the appearance of the traditional candle flame; and at least one illuminating diode 22, the hair-mu μ μ The body 22 is disposed on the candle lamp body 2, and the light-emitting diode 22 is disposed on a substrate 221, and is connected to a power source through a wire (the power source is not shown in the lamp body 2). 2, ρ, to supply the light-emitting diode 22 to the power supply lens 23'. The lens 23 is disposed on the light-emitting diode ,, refracting and reflecting the light emitted by the light-emitting diode η, including receiving light. a light-receiving portion Μ, a light guiding portion 25 for guiding light, and a light-emitting portion % for refracting and reflecting light, wherein the light guiding portion 25 includes an arc-shaped portion 251, and the light-receiving portion 24 includes a Philippine lens 241 (FresndLens), the Philippine lens 241 is a circular lenticular lens 24, which is a plano-convex lens, and the Philippine lens and the convex surface face the light-emitting diode 22. Please also refer to the fifth figure. A schematic diagram of the implementation of the preferred embodiment of the present invention, as can be clearly seen from the figure, when When the light-emitting diode 22 emits light, the light is uniformly emitted from the outer surface of the light-emitting diode 22, and after passing through the Fresnel lens 241 of the light-receiving portion 24, the Fresnel lens 24 is a plano-convex lens, and the The convex surface of the Fresnel lens 24 is facing the light-emitting diode 6 M424461. The first figure is a cross-sectional view of a conventional candle light lens. The second figure is a schematic diagram of the implementation of a conventional candle light lens. The fourth drawing is a partial cross-sectional view of a preferred embodiment of the present invention. The fifth drawing is a schematic diagram of the implementation of the preferred embodiment of the present invention. [Main component symbol description] 1, 2 candle lamp body φ 21 lampshade 12, 22 light-emitting diode 221 substrate 13, 23 lens 14, 24 light-receiving portion 141 groove 241 Fresnel lens
15、 25導光部 251弧形部 16、 26出光部 815, 25 light guide 251 curved section 16, 26 light exit section 8