M430002 # 五、新型說明: 【新型所屬之技術領域】 本新型是涉及一種超高亮度led燈管。 【先前技術】 照明設備為日常生活中不可或缺的生活用品,改變了人們 的生活方式,現今於一般家庭中或公眾的室内場合,皆可看到 使用各式各樣的照明設備’其中又以螢光燈管,為最常見、泛 用的光源。 • 螢光燈管,或稱曰光燈、光管、螢光管,是一種照明裝置, 屬於弧光燈的一種,它使用電力在氬或氖氣中,激發水銀蒸 氣,形成電漿、並發出短波紫外線,紫外線被罐質吸收後,磷 會發出可見的光以照明,這樣發出可見光的方式屬於螢光。 螢光燈管内有水銀成份’對人體有害,胡亂棄置螢光燈管 會對環境造成損害,因此處理棄置的螢光燈管成為一個問題。 隨著生活水準的提升,傳統螢光燈管照明,因為未使用環 保材質,並且含有害毒性物「汞」,所以終將被淘汰。 然而’由於發光二極體[簡稱LED]與傳統燈泡相比,具有 鲁 更省電、使用壽命更長等優點,因此近年來led之技術,曰 、 趨成長,應用的範圍也開始增加,並於我們生活周遭的日常生 • 活用品頻繁出現。 LED光源的技術,要求高照度與發光流明增長,直流驅 動及超低功耗電光功率要求高效率,相同照明效果比傳統光源 須節能80%以上;LED壽命長被稱為長壽燈是固體冷光源, 環氧樹脂封裝燈體内固定,非燈絲形態發光LED不容易燒毁 或過熱光衰,一般使用壽命可達5萬到10萬小時,比傳統光 源壽命長10倍以上。 並且’ LED是一種綠色光源’環保效益佳,led光譜中 3 M430002 紫外線和紅外線,熱量低、無輻射,廢棄物可回收,沒有 巧杂不含汞元素,冷光源,可以安全觸摸,屬於典型的綠色照 明光源。 所以’便有業者將led與燈管做結合研發,以因應環保 t的需求,並且為了能夠通用於現有燈具,以因應目前新舊產 °°銜接之過渡時期需求,就將LED設計成符合現有燈具之結 構型態。M430002 # V. New description: [New technical field] The present invention relates to an ultra-high brightness LED tube. [Prior Art] Lighting equipment is an indispensable daily necessities in daily life, which has changed people's lifestyles. Nowadays, in general households or in public indoors, all kinds of lighting equipment can be seen. Fluorescent tubes are the most common and widely used light source. • Fluorescent tubes, or xenon lamps, tubes, and fluorescent tubes, are lighting devices that are a type of arc lamp that uses electricity in argon or helium to excite mercury vapor, form a plasma, and emit Short-wave ultraviolet light, after the ultraviolet light is absorbed by the can, the phosphorus emits visible light to illuminate, so that the way of emitting visible light belongs to fluorescence. The mercury in the fluorescent tube is harmful to the human body, and the accidental disposal of the fluorescent tube can cause damage to the environment. Therefore, disposal of the discarded fluorescent tube becomes a problem. With the improvement of living standards, traditional fluorescent tube lighting will eventually be eliminated because it does not use environmentally friendly materials and contains toxic "mercury". However, because the light-emitting diode [LED] has the advantages of power saving and longer service life compared with the traditional light bulb, the technology of led has become more and more popular in recent years, and the scope of application has also begun to increase. Everyday life and living supplies around our lives are frequent. The technology of LED light source requires high illumination and luminous lumen growth. DC drive and ultra-low power electro-optical power require high efficiency. The same lighting effect is more than 80% energy saving than traditional light source. LED long life is called long life light is solid cold light source. The epoxy resin packaged lamp is fixed in the body. The non-filament light-emitting LED is not easy to burn or overheat light decay. The service life can reach 50,000 to 100,000 hours, which is more than 10 times longer than the traditional light source. And 'LED is a kind of green light source', good environmental protection, 3 M430002 ultraviolet and infrared rays in led spectrum, low heat, no radiation, waste can be recycled, no complicated mercury-free elements, cold light source, safe touch, typical Green lighting source. Therefore, there is a combination of LED and light tube research and development, in order to meet the needs of environmental protection, and in order to be able to be used in existing lamps, in order to meet the current transition requirements of the new and old production, the LED is designed to meet the existing The structural type of the luminaire.
〜舉例而言,LED燈管即為相當典型的一種產品,所述LED 燈,之外觀型態上’為仿照傳統燈管,具有一透光管體以及設 於該透光管體兩端的導電組接端子,藉此而㈣朝於傳統燈 管用的燈座上。 惟’所述LED燈管仍舊與傳統螢光燈管具有不同之處, 亦即,為因應LED為點狀發光,因此存在光線發散不均勻的 缺憾,也就是在照明時,容易有陰影區的產生。 有鐘於此,如何提供一能解決照度和發散不均勻之問題, 達成照度均勻、無間隙陰影,可完全替代目前泛用型螢光燈管 的LED燈管,便成為本新型欲改進的目的。 【新型内容】 一、本新型的技術手段: ^本新型目的在於提供一種可完全替代目前泛用型螢光燈 管 '照度均勻、無間隙陰影的超高亮度LED燈管。 為解決前述問題及達到本新型的目的,本新型的技術手 段,為一種超高亮度LED燈管,其包括: 一- LED燈管組(1〇〇) ’該led燈管組(1〇〇)是由一紹擠鰭 官(1)、至少一片設於該鋁擠鰭管(丨)底表面處的LED燈板(2)、 -將該LED燈板(2)覆蓋的管外罩⑶、以及兩個分別設於該 LED燈板(2)之兩端處外的導電組接端子⑷所組成,該導電組 4 M430002 接端子(4)為分別與該LED燈板(2)之對應端電性連接; 其特徵在於: 所述LED燈板⑵’其一端設有一呈波浪形的凹部(21)、 另端設有一對應於該凹部(21)的凸部(22); 所述LED燈板(2)的頂端面一侧處,設有一排等間隔排 列、由數個第一 LED(51)所構成的第一 LED燈排(5); 所述LED燈板(2)的頂端面另一側處,設有一排等間隔排 列、由數個第二LED(61)所構成、對應於前述第一 LED燈排⑺ 的第二LED燈排(6); 所述第一 LED燈排⑶與第二LED燈排⑹之間,設有一 排等間隔排列、由數個第三LED(71)所構成的第三led燈排 ⑺; 所述第二LED(71),為分別為設於第一 LED(51)與第二 LED(61)的對角線中央處上。 根據上述的超尚壳度LED燈管,所述凹部(21),其是由一 位於LED燈板(2)—側處的第一凹端峰部(2U)、 一位於LED燈板(2)另一側處的第二凹端峰部(212)、以及 一位於s亥第一凹端峰部(211)與第二凹端峰部(212)之間的 凹端谷部(213)所組成; 刖述第一凹端峰部(211)與第二凹端峰部(212)的最外端 處,皆分別設有一凹端導電焊點(23); 而所述第-LED燈排⑺,其為由前述第一凹端峰部(211) 對應處,開始設置第一 LED(51); 所述第—LED燈排⑹’其為由前述第二凹端峰部(212) 對應處,開始設置第二LED(61)。 根據上述的超高亮度LED燈管,所述凸部⑽,其是由一 位於LED燈板(2)-側處的第一凸端谷部(如)、 位於LED燈板⑺另一侧處的第二凸端谷部(22幻、以及 5 M430002 — -- * 一位於該第一凸端谷部(221)與第二凸端谷部(222)之間的 凸端峰部(223)所組成; 前述第一凸端谷部(221)與第二凸端谷部(222)的最底端 處’皆分別設有一凸端導電焊點(24); 而前述凸端峰部(223)處,對應設置有一第三LED(71)。 根據上述的超尚亮度LED燈管,所述LED燈板(2)與铭擠 鰭管(1)之間,更設有一能將LED燈板(2)所產生之熱量、傳遞 . 至鋁擠鰭管(1)處後散出的導熱片(8)。 根據上述的超高亮度LED燈管,所述LED燈管組(1〇〇), 更包括一與該LED燈板(2)電性連接、能選擇切換驅動瓦數的 鲁 可調變流式驅動電源(200)。 根據上述的超高亮度LED燈管,所述可調變流式驅動電 源(200) ’其内更包括有相互電性連接的至少一過電流保護模 組(10)、至少一過電壓保護模組(20)、至少一過溫度保護模組 (30)、及至少一自恢復保護模組(4〇)。 根據上述的超高亮度LED燈管,所述可調變流式驅動電 源(200) ’其是為設於下列之一處:LED燈管組(1〇〇)内燈具 (300)外、燈具(3〇〇)内。 ’、 根據上述的超高亮度LED燈管,所述鋁擠鰭管(丨)的外表 φ 面處,佈設有數片能供增加散熱面積用的散熱鰭片(H)。 根據上述的超尚亮度LED燈管,所述第一 led燈排(5)、 第一 LED燈排⑹、及第二LED燈排⑺相互之間,為以並聯 電性連接的方式而設置。 根據上述的超高亮度LED燈管,所述第一 LED燈排(5) 内’更包括有至少一個以上、相互串聯、分別具有等同數量之 第一 LED(51)的第一 LED發光區塊(52); 而所述第二LED燈排⑹内,更包括有至少一個以上、相 互串聯、分別具有等同數量之第二LED⑹)的第二LED發光 6 M430002 區塊(62); 另所述第三LED燈排(7)内,更包括有至少一個以上、相 互串聯、分別具有等同數量之第三LED(71)的第三LED發光 區塊(72); 又所述第一 LED燈排(5)、第二LED燈排(6)、及第三LED 燈排⑺相互之間’為以並聯電性連接的方式而設置。 一、對照先前技術之功效: 1. 本新型中,透過LED燈板(2)的凹部(21)及凸部(22)之設 計’配合上第一 LED燈排(5)、第二LED燈排⑹、及第三LED 燈排(7)後,能解決照度和發散不均勻的問題,因為第一 LED(51)、第二LED(61)、及第三LK)(71)之間,錯開狀的設 置,彼此之間的照明範圍緊密相接,將間隙陰影消除,因此使 用上,完全可以替代目前泛用型螢光燈管,更能提供一有別與 傳統LED燈管的超尚.亮度,真正的實用化。 2. 本新型中’ LED燈板(2)的凹部(21)及凸部(22)之設計, 除了用來配合第一 LED燈排(5)、第二LED燈排⑹、及第三 LED燈排⑺之外’更能方便多片LED燈板(2)相互連接,達成 模組化應用的效果,而且更不用擔心相連接後,會有間隙陰 影產生,一舉多得。 ί 3·在LED照明領域中,要體現出更具環保節能、壽命長、 高照度、安全的特點,就選擇好led驅動電源,而且PCB印 刷電路設計、LED晶片串並聯排列、照明安全機制等,也是 至關重要的,沒有好的組合匹配,LED照明的優勢無法體現, 但是現今技彳标’尚未跳脫傳統燈源照明框架,不論在led光 源編排選用或搭配驅動電源、燈具規劃設計等等整體效率都有 很大進步空間待努力,所以本新型中,透過前述的應用之後, 先解決了 LED光源編排選用的問題,另外,再透過可調變济 式驅動電源(200)的配合,以其内更包括的過電流保護模組 7 M430002 (10)、過電壓保護模組(20)、過溫度保護模組(30)、及自恢復保 «4模組(40),此解決傳統尚低壓差過大,產生過多功耗、過熱'、' 過流等問題,讓LED照明的優勢完整的體現。 【實施方式】 以下依據圖面所示的實施例詳細說明如後: 如圖1所示為本新型LED燈板的立體示意圖,如圖2所 示為本新型LED燈板的俯視示意圖,如圖3所示為本新型第 一型態的立體示意圖,如圖4所示為本新型第一型態的立體分 解示意圖。 圖中揭示出,為一種超高亮度LED燈管,其包括: 鲁 一 LED燈管組(100),該LED燈管組(100)是由一鋁擠鰭 管(1)、至少一片設於該鋁擠鰭管(1)底表面處的LED燈板(2)、 一將該LED燈板(2)覆蓋的管外罩(3)、以及兩個分別設於該 LED燈板(2)之兩端處外的導電組接端子(4)所組成,該導電組 接端子(4)為分別與該LED燈板(2)之對應端電性連接; 其特徵在於: 所述LED燈板(2),其一端設有一呈波浪形的凹部(Μ)、 另端設有一對應於該凹部(21)的凸部(22); 所述LED燈板(2)的頂端面一側處,設有一排等間隔排鲁 列、由數個第一 LED(51)所構成的第一 LED燈排(5) ; * 所述LED燈板(2)的頂端面另一側處,設有一排等間隔排 列、由數個第二LED(61)所構成、對應於前述第一 led 的第二LED燈排(6); ^ 所述第一 LED燈排(5)與第二LED燈排(6)之間,設有一 排等間隔排列、由數個第三LED(71)所構成的第三led燈 ⑺; 所述第三LED(71),為分別為設於第一 LED(51)與第二 8 LED(61)的對角線中央處上。 其中,本新型的重點一,為藉由LED燈板(2)的凹部(21) 及凸部(22)之設計,配合上第一 LED燈排⑺、第二LED燈排 ⑹、及第三LED燈排⑺後,先解決了 LED光源編排選用的 問題,以同時解決照度和發散不均勻的問題,因為第一 LED(51)、第二LED(61)、及第三LED(71)之間,為呈現出一 錯開狀的設置,讓第一 LED燈排(5)、第二LED燈排(6)、及 第三LED燈排(7)彼此之間的照明範圍,十分的緊密相接,將 間隙陰影消除’同時提供了—有別與傳統LED燈管的超高亮 度,真正的達到實用化之效果。 其次’本新型的重點二’ LED燈板(2)的凹部(21)及凸部(22) 之"又。十除了月b解决間隙陰影的問題之外,更能方便多片led 燈板(2)相互連接,不但能達成一模組化應用的效果,而且更 因為第- LED燈排(5)、第二LED燈排⑹、及第三LED燈排 ⑺的獨特設置方式,不用擔心相連接後,會有_ 一舉多得。 上述中’所述凹部(21),其是由一位於LED燈板(2)—侧 處的第一凹端峰部(211)、 一位於LED難(2)卜侧處的第二凹端峰部(212)、以及 心、位於該第-凹端峰部(2⑴與第二凹端峰部即)之間的 凹端谷部(213)所組成; ^第;凹端峰部(211)與第二凹端峰部㈣的最外端 处,白为別設有一凹端導電焊點(23); 而所述第- LED燈排⑺’其為由前述第一 對應處,開始設置第-LED(51) ; ^凹私峰。_) 另所述第一 LED燈排⑹,其為由前述第 對應處,開始設置第二LED(61)。 W —叫峰挪12) 又上述中,所述凸部(22),其是由一位於LED燈板(2)- 側處的第一凸端谷部(221)、 一位於LED燈板(2)另一側處的第二凸端谷部(222)、以及 一位於該第一凸端谷部(221)與第二凸端谷部(222)之間的 凸端峰部(223)所組成; 前述第一凸端谷部(221)與第二凸端谷部(222)的最底端 處’皆分別設有一凸端導電焊點(24); 而前述凸端峰部(223)處,對應設置有一第三LED(71)。 其中,透過此種設置方式,當欲以LED燈板(2)配合另一 塊LED燈板⑺時’能透過凹部(叫來配合另一塊LED燈板(2) 的凸部(22),或是以凸部(22)來配合另一塊LED燈板(2)的凹部 (21),組裝上十分的方便。 其次,當以凹部(21)來配合另一塊LED燈板(2)的凸部(22) 時,第一凹端峰部(211)能正對另一塊LED燈板(2)的第一凸端 谷部(221)配合、第二凹端峰部(212)能正對另一塊LED燈板(2)For example, an LED tube is a typical product. The LED lamp has a shape similar to that of a conventional lamp tube, and has a light-transmissive tube body and a conductive layer disposed at both ends of the light-transmitting tube body. The terminals are connected, thereby (4) facing the lamp holder for the conventional lamp. However, the LED tube still has a difference from the conventional fluorescent tube, that is, in order to respond to the LED as a point-like illumination, there is a defect that the light is unevenly distributed, that is, when the illumination is easy, there is a shadow area. produce. There is a clock here, how to provide a solution to the problem of illuminance and uneven divergence, to achieve uniform illumination, no gap shadow, can completely replace the LED tube of the current general-purpose fluorescent tube, it becomes the purpose of this new type of improvement . [New content] 1. The technical means of this new type: ^ The purpose of the new model is to provide a super high brightness LED tube which can completely replace the current general-purpose fluorescent tube with uniform illumination and no gap shadow. In order to solve the foregoing problems and achieve the object of the present invention, the technical means of the present invention is an ultra-high brightness LED tube, which comprises: a-LED tube group (1〇〇) 'The LED tube group (1〇〇) Is a squeezing fin (1), at least one LED light panel (2) disposed at the bottom surface of the aluminum extruded fin (丨), a tube cover (3) covering the LED light panel (2), And two conductive group terminals (4) respectively disposed at two ends of the LED light board (2), the conductive group 4 M430002 connecting terminal (4) is respectively corresponding to the LED light board (2) Electrically connected; characterized in that: the LED lamp panel (2) has a wavy recess (21) at one end and a convex portion (22) corresponding to the recess (21) at the other end; A side of the top end surface of the plate (2) is provided with a row of first LED rows (5) arranged at equal intervals and composed of a plurality of first LEDs (51); a top end surface of the LED lamp plate (2) On the other side, there is a row of second LED light bars (6) arranged at equal intervals and composed of a plurality of second LEDs (61) corresponding to the first LED light row (7); the first LED light row (3) is provided between the second LED lamp row (6) and the second LED lamp row (6) a third LED array (7) consisting of a plurality of third LEDs (71) arranged at equal intervals; the second LEDs (71) being respectively disposed on the first LED (51) and the second LED (61) ) at the center of the diagonal. According to the above-mentioned super-shell LED tube, the recess (21) is composed of a first concave end (2U) located at the side of the LED panel (2), and a LED panel (2). a second concave end peak portion (212) at the other side, and a concave end valley portion (213) between the first concave end peak portion (211) and the second concave end peak portion (212) The first concave end peak portion (211) and the outermost end portion of the second concave end peak portion (212) are respectively provided with a concave end conductive pad (23); and the first LED lamp Row (7), which is provided by the aforementioned first concave end peak portion (211), and is provided with a first LED (51); the first LED light row (6)' is a second concave end peak portion (212) Correspondingly, the second LED (61) is set. According to the ultra-high brightness LED tube described above, the convex portion (10) is located at a first convex end portion (for example) located at the side of the LED light panel (2), at the other side of the LED light panel (7) a second convex end valley portion (22 phantom, and 5 M430002 — -- * a convex end peak portion (223) between the first convex end valley portion (221) and the second convex end valley portion (222) The first convex end valley portion (221) and the second end portion of the second convex end valley portion (222) are respectively provided with a convex end conductive pad (24); and the convex end peak portion (223) a third LED (71) is provided correspondingly. According to the above-mentioned super bright LED tube, between the LED light board (2) and the Ming extruded fin tube (1), there is further provided an LED light board (2) Heat generated and transmitted. The thermal conductive sheet (8) is discharged after the aluminum extruded fin tube (1). According to the above-mentioned ultra-high brightness LED tube, the LED tube group (1〇〇) The utility model further comprises a Lu adjustable variable current driving power source (200) electrically connected to the LED light board (2) and capable of selectively switching the driving wattage. According to the above ultra-high brightness LED tube, the adjustable variable The flow drive power supply (200) 'includes electrically connected to each other At least one overcurrent protection module (10), at least one overvoltage protection module (20), at least one over temperature protection module (30), and at least one self-recovery protection module (4〇). High-brightness LED tube, the adjustable variable-flow driving power supply (200) 'is one of the following: LED tube group (1〇〇) inside the lamp (300), lamp (3〇〇 In the above-mentioned ultra-high-brightness LED tube, the surface of the aluminum extruded fin tube (丨) is provided with a plurality of fins (H) for increasing the heat dissipating area. The superb brightness LED tube, the first LED lamp row (5), the first LED lamp row (6), and the second LED lamp row (7) are mutually connected in a manner of being electrically connected in parallel. An ultra-high-brightness LED lamp tube, wherein the first LED lamp row (5) further includes at least one first LED light-emitting block (52) having a plurality of first LEDs (51) connected in series with each other. And the second LED light row (6) further includes at least one second LED light emitting light 6 having a second LED (6) connected in series and having an equal number of LEDs (6) M430002 block (62); in the third LED lamp row (7), further comprising at least one third LED light-emitting block (72) having three or more LEDs (71) connected in series with each other. Further, the first LED lamp row (5), the second LED lamp row (6), and the third LED lamp row (7) are disposed in a manner of being electrically connected in parallel. 1. Compared with the effects of the prior art: 1. In the present invention, the design of the concave portion (21) and the convex portion (22) of the LED light panel (2) is matched with the first LED light row (5) and the second LED light. After the row (6) and the third LED row (7), the problem of illuminance and divergence unevenness can be solved because between the first LED (51), the second LED (61), and the third LK) (71), The staggered arrangement, the illumination range of each other is closely connected, and the gap shadow is eliminated, so that it can completely replace the current general-purpose fluorescent tube, and can provide a superb and traditional LED tube. . Brightness, really practical. 2. In the present invention, the design of the recess (21) and the projection (22) of the LED panel (2) is used in addition to the first LED strip (5), the second LED strip (6), and the third LED. Outside the lamp row (7), it is more convenient to connect multiple LED light panels (2) to each other to achieve the effect of modular application, and it is not necessary to worry about the occurrence of gap shadows after the connection, which is more than one. ί 3·In the field of LED lighting, to reflect the characteristics of more environmental protection, energy saving, long life, high illumination and safety, choose the LED driver power supply, and PCB printed circuit design, LED chip series and parallel arrangement, lighting safety mechanism, etc. , is also crucial, without a good combination of matching, the advantages of LED lighting can not be reflected, but today's technical standards 'have not jumped away from the traditional light source lighting frame, whether in the led light source programming or with the drive power, lighting planning and design, etc. The overall efficiency has a lot of room for improvement, so in this new type, after the aforementioned application, the problem of the arrangement of the LED light source is solved first, and in addition, through the cooperation of the adjustable variable-speed driving power supply (200), The over-current protection module 7 M430002 (10), the over-voltage protection module (20), the over-temperature protection module (30), and the self-recovery protection «4 module (40) are included therein. The low voltage difference is too large, resulting in excessive power consumption, overheating ', 'overcurrent and other issues, so that the advantages of LED lighting is fully reflected. [Embodiment] The following is a detailed description of the following embodiments according to the drawings: Figure 1 is a perspective view of the novel LED lamp panel, as shown in Fig. 2, which is a schematic view of the LED lamp panel of the present invention. 3 is a perspective view showing the first type of the present invention, and FIG. 4 is a perspective exploded view showing the first type of the present invention. The figure discloses an ultra-high brightness LED tube, which comprises: a Lu LED tube set (100), the LED tube set (100) is composed of an aluminum extruded fin tube (1), at least one piece is arranged An LED light board (2) at a bottom surface of the aluminum extruded fin tube (1), a tube outer cover (3) covering the LED light board (2), and two of the LED light board (2) respectively disposed on the LED light board (2) The conductive assembly terminal (4) is disposed at the two ends, and the conductive assembly terminal (4) is electrically connected to the corresponding end of the LED light panel (2) respectively; the LED light board ( 2) one end is provided with a wavy concave portion (Μ), and the other end is provided with a convex portion (22) corresponding to the concave portion (21); at the side of the top end surface of the LED light panel (2), a row of first LEDs arranged in equal rows and arranged by a plurality of first LEDs (51); * a row of the other side of the top surface of the LED panel (2) Arranged at intervals, consisting of a plurality of second LEDs (61), corresponding to the first LED strip (6) of the first LED; ^ the first LED strip (5) and the second LED strip (6) Between) is provided with a row of third LEDs (7) arranged at equal intervals and composed of a plurality of third LEDs (71); Said third LED (71), respectively, is provided in the upper (51) and the second 8 LED (61) at the center of a diagonal line of the first LED. Among them, the first focus of the present invention is to match the first LED light row (7), the second LED light row (6), and the third by the design of the concave portion (21) and the convex portion (22) of the LED light board (2). After the LED lamp row (7), the problem of selecting the LED light source is solved first, so as to solve the problem of illuminance and divergence unevenness at the same time, because the first LED (51), the second LED (61), and the third LED (71) In order to present a staggered arrangement, the illumination range between the first LED lamp row (5), the second LED lamp row (6), and the third LED lamp row (7) is very close. Connected, the gap shadow is eliminated 'at the same time - the difference between the ultra-high brightness of the traditional LED tube and the real practical effect. Next, the concave portion (21) and the convex portion (22) of the "second focus" LED panel (2) of the present invention are further. In addition to the problem of gap shadows in the month b, it is more convenient to connect multiple pieces of led light boards (2) to each other, not only to achieve the effect of a modular application, but also because of the - LED light row (5), the first The unique setting of the two LED light row (6) and the third LED light row (7), there is no need to worry about the connection, there will be more than one. The above-mentioned recessed portion (21) is a first concave end peak portion (211) located at the side of the LED light panel (2), and a second concave end portion located at the side of the LED hard (2) side. a peak portion (212), and a core, a concave end valley portion (213) located between the first concave end peak portion (2 (1) and the second concave end peak portion); ^; concave end peak portion (211) And at the outermost end of the second concave end peak (four), white is provided with a concave end conductive pad (23); and the first LED lamp row (7)' is set by the first corresponding position No. - LED (51); ^ concave private peak. Further, the first LED lamp row (6) is provided with the second LED (61) from the first corresponding portion. W - called peak shift 12) In the above, the convex portion (22) is composed of a first convex end valley portion (221) located at the side of the LED light panel (2) - and an LED light panel ( 2) a second convex end valley portion (222) at the other side, and a convex end peak portion (223) between the first convex end valley portion (221) and the second convex end valley portion (222) The first convex end valley portion (221) and the second end portion of the second convex end valley portion (222) are respectively provided with a convex end conductive pad (24); and the convex end peak portion (223) At the same time, a third LED (71) is provided correspondingly. Through this arrangement, when the LED light board (2) is to be matched with another LED light board (7), it can pass through the concave portion (called the convex portion (22) of another LED light board (2), or It is very convenient to assemble the concave portion (21) of the other LED light plate (2) with the convex portion (22). Secondly, when the concave portion (21) is used to fit the convex portion of the other LED light plate (2) ( 22), the first concave end peak (211) can be matched to the first convex end valley portion (221) of the other LED light board (2), and the second concave end peak portion (212) can face the other block LED light board (2)
的第一凸端谷部(222)配合、凸端峰部(223)能正對另一塊LED 燈板(2)的凹端谷部(213)配合,如此一來,第一凹端峰部(211) 和第二凹端峰部(212)處的第一 LED(51)和第二LED(61)e,就能 與位於另一塊LED燈板(2)之凹端谷部(213)處的第三LFDr7n 配合,將此連接處的間隙陰影消除。 再者’當以凸部(22)來配合另-塊LED燈板(2)的凹部 時,第-凸端谷部(221)能正對另一塊LED燈板(2)的凹 ♦部(211)配合、第二凸端谷部(222)能正對另—塊咖燈板⑺ 的第二凹端峰部(212)配合 '凹端谷部(213)能正對另 燈板(2)的凸端峰部(223)配合,如此一來,位於另一塊^严 板(2)之第一凹端峰部(211)和第二凹端峰 且 卿1}和第二卿丨),就能與凹 LED⑼配合,將此連接處的間隙陰影消除處的第二 還有’透過此種凹端導料點(23)與凸端導電輝點⑼的 其LED燈板(2)與另-塊led燈板(2)的連接,也 只要透過凹端導電焊點(23)與凸端導電焊點 (乂,就月:與另一塊LED ^^板⑺電性連接更不用擔 的設置,加大LED _距離,而有觸陰影產生的問 ’讓本新贱提供真正無_陰影的可糊光源。 上述中,所述第_ LED燈排(5)内,更包括有至少一個以 上、相互串聯、分別具有等同數量之第- LED(51)的第- LED 發光區塊(52); 而所述第二LED燈排⑹内,更包括有至少一個以上、相 互串聯、分別具有等同數量之第二LED(61)的第三LED發光 區塊(62); 另所述第三LED麵⑺内,更包括有至少一個以上、相 互串聯 '分別具有等同數量之第三LED(71)的第三LED發光 區塊(72); 又所述第- LED燈排(5)、第二LED燈排(6)、及第三LED 燈排(7)相互之間,為以並聯電性連接的方式而設置。 其中,透過此種設置,以設計低壓輸入AC9〇〜15〇v為例, 第一 LED燈排(5)、第二LED燈排(6)、及第三LED燈排(7), 为別设置36顆LED晶片,以18顆進行串聯後,第一 led燈 排(5)、第二LED燈排(6)、及第三LED燈排⑺,皆可區分為 兩發光區塊,能再與其他LED燈板(2)串聯使用,當LED燈板 (2)共使用4片時,如此一來,就等於有24個串聯燈排,432 顆LED晶片,解決直流驅動會因壓差過大與限流内阻壓降2 〇 % 不必要的功耗,用低功耗高照度精算效率規劃設計,耗能可設 定為24W/800Lux[照度],每瓦擁有i〇〇Lm/w[流明]高亮度, 等同於2400Lm[流明]以上的光通量,超越現今螢光燈管照明 二、三種 如圖5、6、7所示為本新型第一型態配合第一、 可調變流式驅動電源_謂實施示,如圖8所示為本新 型可調變流式驅動魏的電路方塊示意圖。 圖中揭不出,上述兩者中,所述LED燈管組(1〇〇),更包 括-與該LED⑨板⑵電性連接、能選擇切換驅紅數的可調 變流式驅動電源(2〇〇)。 凡其中,透過可調變流式驅動電源(2〇〇)的應用,可選擇多 段變動驅動瓦絲細,如13〜32W,讓本翻更環保節能。 上述兩者中,所述可調變流式驅動電源(200),其内更包 =有相互電性連接的至少—過電流保賴組⑽、至少一過電 壓保護模組(20)、至少一過溫度保護模組(3〇)、及至少一自恢 復保護模組(40)。 其中,藉由低通線性、無干擾頻設計的可調變流式驅動電 源(200)之使用,能依負載需求自動調壓,透過過電流保護模 組(10)、過電壓保護模組(2〇)、過溫度保護模組(3〇)、及自恢復 保護模組(40)的組合,解決傳統高低壓差過大產生過多功耗、 過熱、過流等問題,成為一有溫度保護、過壓保護、過流保護 的恆流源供應LED照明。 上述兩者中,所述可調變流式驅動電源(2〇〇),其是為設 於下列之一處:LED燈管組(1〇〇)内、燈具(300)外、燈具(3〇〇) 内。 其中,透過此種設置應用方式,讓業者與消費者,能有更 多的應用選擇,方便業者生產,以及方便消費者安裝使用。 如圖9所示為本新型另種LED燈板的立體示意圖,如圖 10所示為本新型第二型態的立體示意圖,如圖11所示為本新 型第二型態的立體實施示意圖。 圖中揭示出,上述中,所述第一 LED燈排(5)、第二:LED 燈排(6)、及第三LED燈排(7)相互之間,為以並聯電性連接的 方式而設置。 M430002 其中’透過此種設置,以設計高壓輸入AC150〜300V為 例’第一 LED燈排(5)、第二LK)燈排⑹、及第三LED燈排 (7) ’分別設置36顆LED晶片,進行串聯後,能再與其他LED 燈板(2)串聯使用’當LED燈板(2)共使用4片時,如此一來, 就等於有12個串聯燈排,432顆LED晶片,可適用於一般舊 式日光燈燈具[具鎮流器]’直接更換傳統螢光燈管使用。 上述兩者中,所述LED燈板(2)與鋁擠鰭管(1)之間,更設 有一能將LED燈板(2)所產生之熱量、傳遞至鋁擠鰭管⑴處後 散出的導熱片(8)。 其中’透過此導熱片⑻的應用,使LED燈板(2)與鋁擠鰭 管⑴之間的接觸面積增加,讓LED燈板(2)所產生的熱量,能 夠順利的傳遞至鋁擠鰭管(1)處,讓熱量能快速的被導出。 上述兩者中,所述鋁擠鰭管(1)的外表面處,佈設有數片 能供增加散熱面積用的散熱鰭片(11)。 其中,透過散熱鰭片(11)的應用,增加鋁擠鰭管的散熱 面積,讓LED燈板(2)能快速的穩定溫度,避免發LED光衰問 題。 綜上所述,本新型的LED燈板(2),藉由凹部(21)及凸部 (22)的設計,配合第一 LED燈排(5)、第二LED燈排(6)、及第 二LED燈排(7)獨特排列應用,一舉解決間隙陰影、亮度不足 的問題,同時提供-餘化細的功能,達成可以替代目前泛 用型螢光燈f ’真正實用化的目標’而且當g[合可調變流式驅 動電源(200)之後’更是提供了 一環保、省電、可調光、安全 的絕佳功能性,讓本新型更具有應用、實用、功效與產業之利 用性。 ' /以上赠®式所示的實糊詳細說明瞭本新型的構造、特 徵及作用絲’由於符合龍及進步性要件,遂纽 型專利帽;惟以上所述僅為本新型之較佳實施例,但本新型 13 Μ4Τ000Γ 不以圖面所示限定實施範圍,因此舉凡與本新型意旨相符的修 飾性變化,只要在均等範圍内都應涵屬於本新型專利範圍内。The first convex end valley portion (222) is fitted, and the convex end peak portion (223) can be fitted to the concave end valley portion (213) of the other LED light panel (2), so that the first concave end peak portion The first LED (51) and the second LED (61)e at (211) and the second concave end peak (212) can be located at the concave end valley (213) of the other LED light panel (2). At the third LFDr7n, the gap shadow at this joint is eliminated. Furthermore, when the convex portion (22) is used to fit the concave portion of the other LED light panel (2), the first convex end valley portion (221) can face the concave portion of the other LED light panel (2) ( 211) The mating, second convex end valley portion (222) can face the second concave end peak portion (212) of the other block light board (7). The concave end valley portion (213) can face the other light board (2) The convex end peak (223) is matched, so that the first concave end peak (211) and the second concave end peak of the other thin plate (2) and the second concave end and the second clear) , can cooperate with the concave LED (9), and the second part of the gap shadow elimination at the joint is also 'through its concave end guiding point (23) and the convex end conductive bright point (9) of its LED light board (2) The connection of the other-block LED board (2) is also required to pass through the concave-end conductive pad (23) and the bump-side conductive pad (乂, on the moon: it is not necessary to electrically connect with another LED ^^ board (7). Set, increase the LED _ distance, and the problem caused by the touch of the shadow 'Let this new 贱 provide a true _ shadow-free pasteable light source. In the above, the _ LED light row (5), including at least one The above-mentioned, in series, and each of the same number of LED-LEDs Block (52); and the second LED light row (6) further includes at least one third LED light-emitting block (62) having two or more LEDs (61) connected in series with each other; The third LED surface (7) further includes at least one third LED light-emitting block (72) having an equal number of third LEDs (71) connected in series; and the first LED light row (5) The second LED lamp row (6) and the third LED lamp row (7) are arranged in parallel with each other. In this way, the low voltage input AC9〇15 is designed. For example, 第一v, the first LED lamp row (5), the second LED lamp row (6), and the third LED lamp row (7), for setting 36 LED chips, 18 series, first, The led light row (5), the second LED light row (6), and the third LED light row (7) can be divided into two light-emitting blocks, which can be used in series with other LED light plates (2), when the LED light board (2) When a total of 4 pieces are used, this is equivalent to 24 series lamp rows and 432 LED chips. The DC drive will have excessive voltage difference and current limit internal resistance drop 2 〇%. , with low power and high illumination Efficiency planning and design, energy consumption can be set to 24W/800Lux [illuminance], each watt has i〇〇Lm/w [lumen] high brightness, equivalent to 2400Lm [lumen] above the luminous flux, beyond the current fluorescent tube lighting The three types shown in Figures 5, 6 and 7 are the first type of the first type, and the adjustable variable-current driving power supply is shown in the figure. As shown in Fig. 8, the circuit of the novel adjustable variable-current driving Wei is shown. Block diagram. As shown in the figure, in the above two, the LED tube group (1〇〇) further includes an adjustable variable current driving power source electrically connected to the LED9 board (2) and capable of switching the number of red driving ( 2〇〇). Among them, through the application of adjustable variable-flow drive power supply (2〇〇), you can choose multi-stage variable drive wire, such as 13~32W, which makes this turn more environmentally friendly and energy-saving. In the above two, the adjustable variable current driving power supply (200) further includes at least one overcurrent protection group (10), at least one overvoltage protection module (20), and at least A temperature protection module (3〇) and at least one self-recovery protection module (40). Among them, the use of adjustable variable current driving power supply (200) with low-pass linear and interference-free frequency design can automatically adjust voltage according to load demand, through over-current protection module (10) and over-voltage protection module ( 2〇), over temperature protection module (3〇), and self-recovery protection module (40) combination, to solve the problem of excessive high power consumption, overheating, overcurrent, etc. caused by excessive high and low voltage difference, becoming a temperature protection, The constant current source for overvoltage protection and overcurrent protection supplies LED illumination. In the above two, the adjustable variable current driving power supply (2〇〇) is disposed in one of the following: an LED tube group (1〇〇), a lamp (300), and a lamp (3) 〇〇) inside. Among them, through this set of application methods, the industry and consumers can have more application choices, facilitate the production of the industry, and facilitate the installation and use of consumers. FIG. 9 is a perspective view showing a second type of LED lamp board of the present invention. FIG. 10 is a perspective view showing a second type of the second type of the present invention. The figure shows that, in the above, the first LED lamp row (5), the second LED lamp row (6), and the third LED lamp row (7) are electrically connected in parallel with each other. And set. M430002 where 'through this setting, design high voltage input AC150~300V as an example 'first LED light row (5), second LK) light row (6), and third LED light row (7) ' respectively set 36 LED After the chips are connected in series, they can be used in series with other LED panels (2). When the LED panels (2) are used in total, 4 is equivalent to 12 series lamps and 432 LED chips. Can be applied to the general old fluorescent lamp [with ballast] 'direct replacement of traditional fluorescent tube. In the above two, between the LED lamp board (2) and the aluminum extruded fin tube (1), there is further provided that the heat generated by the LED light board (2) can be transmitted to the aluminum extruded fin tube (1). Out of the thermal pad (8). Among them, through the application of the thermal conductive sheet (8), the contact area between the LED light board (2) and the aluminum extruded fin tube (1) is increased, so that the heat generated by the LED light board (2) can be smoothly transmitted to the aluminum extruded fin. At the tube (1), heat can be quickly exported. In the above two, at the outer surface of the aluminum extruded fin tube (1), a plurality of heat dissipating fins (11) for increasing the heat dissipating area are disposed. Among them, through the application of the heat dissipation fins (11), the heat dissipation area of the aluminum extruded fin tube is increased, so that the LED light board (2) can quickly stabilize the temperature and avoid the LED light decay problem. In summary, the LED light panel (2) of the present invention cooperates with the first LED light row (5), the second LED light row (6), and the recess (21) and the convex portion (22), and The second LED lamp row (7) is uniquely arranged to solve the problem of insufficient gap shadow and insufficient brightness, and at the same time provides a function of refining and thinning, and can achieve the goal of replacing the current general-purpose fluorescent lamp f 'true practical use' When g[with adjustable variable-current drive power supply (200), it provides an excellent function of environmental protection, power saving, dimming and safety, which makes the new application more practical, practical, effective and industrial. Utilization. The actual paste shown in the '/Gift® formula details the structure, characteristics and action of the new type's because of the dragon and progressive requirements, the new type patent cap; but the above is only the preferred implementation of the present invention. For example, the present invention does not limit the scope of implementation as shown in the drawings, so any modification that is consistent with the meaning of the present invention should be within the scope of the present patent as long as it is within the scope of the present invention.
14 M430002 【圖式簡單說明】 圖1 :本新型LED燈板的立體示意圖。 圖2 :本新型LED燈板的俯視示意圖。 圖3 :本新型第一型態的立體示意圖。 圖4:本新型第一型態的立體分解示意圖。 圖5:本新型第一型態配合第一種可調變流式驅動電源時 的立體實施示意圖。 圖6:本新型第一型態配合第二種可調變流式驅動電源時 的立體實施示意圖。 圖7:本新型第一型態配合第三種可調變流式驅動電源時 的立體實施不意圖。 圖8:本新型可調變流式驅動電源的電路方塊示意圖。 圖9 :本新型另種LED燈板的立體示意圖。 圖10 :本新型第二型態的立體示意圖。 圖11 :本新型第二型態的立體實施示意圖。 【主要元件符號說明】 1 鋁擠鰭管 11 散熱鰭片 2 LED燈板 21 凹部 211 第一凹端峰部 212 第二凹端峰部 213 凹端谷部 22 凸部 221 第一凸端谷部 222 第二凸端谷部 223 凸端峰部 23 凹端導電焊點 24 凸端導電焊點 15 ¥430002 3 管外罩 4 導電組接端子 5 第一 LED燈排 51 第一 LED 52 第一 LED發光區塊 6 第二LED燈排 61 第二 LED 62 第二LED發光區塊 7 第三LED燈排 71 第三LED 72 第三LED發光區塊 8 導熱片 10 過電流保護板組 20 過電壓保護模組 30 過溫度保護模組 40 自恢復保護模組 100 LED燈管組 200 可調變流式驅動電源 300 燈具 1614 M430002 [Simple diagram of the diagram] Figure 1: Stereoscopic diagram of the new LED panel. Figure 2: A top view of the novel LED panel. Figure 3 is a perspective view of the first type of the present invention. Figure 4 is a perspective exploded view of the first type of the present invention. Fig. 5 is a perspective view showing the first embodiment of the present invention in combination with the first adjustable variable current driving power supply. Fig. 6 is a perspective view showing the stereoscopic implementation of the first type of the present invention in combination with the second adjustable variable current driving power supply. Fig. 7 is a schematic perspective view of the first type of the present invention in combination with the third adjustable variable current driving power supply. Figure 8 is a block diagram of the circuit of the novel adjustable variable current driving power supply. Figure 9 is a perspective view of another alternative LED panel of the present invention. Figure 10 is a perspective view of the second type of the present invention. Figure 11 is a perspective view showing the second embodiment of the present invention. [Description of main component symbols] 1 Aluminum extruded fin tube 11 Heat sink fin 2 LED light board 21 recessed portion 211 First concave end peak portion 212 Second concave end peak portion 213 concave end valley portion 22 convex portion 221 First convex end valley portion 222 second convex end valley portion 223 convex end peak portion 23 concave end conductive pad 24 convex end conductive pad 15 ¥430002 3 tube cover 4 conductive assembly terminal 5 first LED lamp row 51 first LED 52 first LED illumination Block 6 second LED light row 61 second LED 62 second LED light emitting block 7 third LED light row 71 third LED 72 third LED light emitting block 8 heat conductive sheet 10 over current protection board group 20 over voltage protection mode Group 30 over temperature protection module 40 self-recovery protection module 100 LED tube set 200 adjustable variable flow drive power supply 300 lamps 16