M428663 五、新型說明: 【新型所屬之技術領域】 本創作係-種高效率節能led植物燈,制絲—種透過LED燈源 發射出照明光束,經由光學反射件來收集大角度的光,使得能量可以經由 擴散片的調裳’有效的照射在植物上,且該擴散片透過散射機制來增加照 $光束之A光肖度,達成有效縣©積的提升,並將能量均自分佈於有效 照射面積内之功效。 • 【先前技術】 光照為植物生長不可躲的要素’而許多植物栽培業者為了加速植物 的成長速度,都會藉由傳統燈具照射植物以輔助加速植物之生長,而對於 植物而言’-般輸出光照之光譜巾,缝對於紅光以及藍光的反應最為明 顯’然而傳統燈具無法具體分離出適用植物生長的波長,使得輸出光譜中 對植物生長無助益的波段產生額外之光損失,且一般傳統燈具易耗損,此 也導致其使用哥命不長,間接增加了使用者的維修及汰換成本,另外傳統 • 燈具大多含有敍、水銀等重金屬物質,亦會對環境造成相當之污染。 為此經由市場多家廠商不斷研發改良後,終於研發出一種發光LED模 組’將特定波長之藍光發光LED與紅光發光LED整合於—紐之上,利用 藍光LED及紅光LED之混合配置,用以提供植物生長需求,透過混合方式 將不同波長之LED ’赌陣綠、併排或交錯,並希望經由LED雜電量 低、使用壽命高’且不含水銀等重金屬之特性,使其更具市場競爭力。 習知傳統燈具耗電、使用壽命較短、易造成環境汗染之缺失,但改良 後之發光LED模組設計,僅是透過排列方式之變化,來達成led之光源昆 3 M428663 合之功效’但在實際制上,若欲騎面積献⑽形下,其所需運用之 LED數量將是相當‘%人_目,此也導致其設置成本增加之弊病。 有鑑於此’本創作之主要目的是希望能解決以往習知植物燈耗電使 用壽命短、易造成環境㈣及騎面積歧等缺失,因此本創作是利用光 學反射件以及擴散片之搭配,來增加有效照射面積,並將能量均勾分佈於 有效照射©_,進而提升高效料能LED働燈市場競爭力。 【新型内容】 本創作之主要目的倾決以往f知技術τ,照騎雜上有效照射面 積有限’導致使用成本上升之缺失。 為了達成上述之目的,本創作係一種高效率節能LED植物燈,其包括 一光學反射件、一 LED燈源及一擴散片,其中: 該光學反射件,其兩端分別開設有至少一入射孔及至少一出光孔; 該LED燈源,其一端設於該入射孔端部; 該擴散片,其設於該光學反射件表面且位於出光孔之出光方向,該光 學反射件係設於LED燈源及擴散片間; 藉此,該LED燈源發射出照明光束,經由該光學反射件來收集大角度 的光,使知旎量可以經由擴散片的調製,有效的照射在植物上,且該擴散 片透過散射機制來增加照明光束之出光角度,達成有效照射面積的提升, 並將能量均勻分佈於有效照射面積内之功效。 本創作該LED燈源包含有至少一波長350〜47〇rjm之藍光LED,及至 少一波長680~870nm之红光LED,達成控制植物的被照光量,以及控制 植物的生長速度,利於植物的生長發展之功效。 料此663 本創作該鮮反射縣含有-藍統㈣及—紅歧射面,該藍光反 射面絲聚錢光LED之Μ光束,該紅光反射關來料紅光led之照 明光束,達成加強聚光之功效。 本創作該LED麟可依照不同作物之光合作㈣譜,調整紅藍光led 之混合比例’以達到最佳之光合作用,達成節能效果最佳化之功效。 本創作鋪散片兩端分觀有—出絲面及—人射表面,該入射表面 餘於出光孔之出光方向,而該出光表面餘於人射表面之另—相對面。 鲁 本創作該出光表面或入射表面可分別為拋物面、球面、平面或上述之 任意結合,達成依使用者需求進行替換之功效。 本創作該舰片可經由設定深寬比,來改魏線之出光角度,達成可 依使用者所品照射面積之大小進行調整之功效。 相車乂於現行市場上之產品,本創作之高效率節能LED植物燈,其以 LED燈源發射^照明光束,經由光學反射件絲錢明絲並發射至擴散 片再由擴散片散射機制來增加照明光束之出光角度,達成有效照射面積 • 的提升,並將能量均勻分佈於有效照射面積内之功效。 【實施方式】 本創作是有關於—種高效率節能LED植碰,有關其功效及特點,以 下搭配相關式作1單實施例說明。 δ月一併參_-圖至第三圖其分別係為本創作立體分鮮意圖、本創 作。j面不思圖及本創作立體組合示意圖,於本創作實施例中包含有—光學 反射件1、— LED燈源2、及-擴散片3,其中: 光學反射件1 ’其兩端分別開設有至少一入射孔11及至少一出光孔 M428663 12 ’·而於本實施例中其是以二入射孔Ή及二出光孔12來進行說明; LED燈源2,其一端設於入射孔11端部,LED燈源2包含有至少一 波長350〜470nm之藍光LED21,及至少一波長680〜870t1m之紅光 LED22,來用以控制植物的被照光量,以及植物的生長速度,利於植物的 生長發展,其中藍光LED21可提供植物細胞的葉綠素進行光合作用,並對 植物的分化與氣孔的調節十分重要,且波長較短之藍光LED21同時具有使 植物花草矮化、呈橫向生長及使葉片肥厚等作用,再者由於植物細胞的葉 綠素對紅光LED22的吸收力最強,所以此波段光線對於植物花草進行光合 作用最有助益,而紅光LED22波長較多的光照則有利於葉片發芽及向上生 長,且LED燈源2可依照不同作物之光合作用頻譜,調整藍光及 紅光LED22之混合比例’以達到最佳之光合作用,達成節能效果最佳化之 效果,而於本實施例係以一個藍光LED21搭配紅光LED22進行混光效果 之實施’但此並不代表其僅限定於一個藍光LED21搭配紅光LED22之實 施方式,其亦可依使用需求來進行數個藍光LED21搭配數個紅光[_ED22 之實施方式,來達成其另一種混光之效果; 且光學反射件1包含有-藍光反射面及13 -红光反射面14,當藍光 LED21發射出照明光束時,會經由入射孔Ή照射至藍光反射面13,再經 由藍光反射面13絲集藍光LED21之照明光束,最後經由出光孔12射 出’而當紅光LED22發射出照明光束時’會經由另一入射孔^照射至紅 光反射面14 ’再經ά紅光反射面14來聚集紅光LED21之照明光束,最後 經由另一出光孔12射出; 擴散片3,其-端設於出光孔12端部表面,光學反射件,係設於led 糾此663 燈源2及擴散片3間,而擴散片3兩端分別設有—出光表面31及—入射表 面32 ’入射表® 32係位於出光孔12之出光方向,而出光表面31則是位 於射表面32之另;fg對面,出光表自31《入射表面32可分別為抛物 面球面、平面或上述之任意結合,而於本實施例出光表面係以平面為例, 而入射表面係以連續拋物面為例,擴散片3可經由深寬比之設定來改變 S線之妓角度,藉此讓使用者可依所需照射面積之大小來自行進行調 整’擴散片具有穿透率達90%之特性,且整體之設計更可達到耗損能量在 • 2〇%内、光學利用率達84·7%之特性,有效提升市場之競爭力; 藉此,透過LED燈源2發射出照明光束,經由光學反射件,來收集大 角度的光,使得能量可以經由擴散片3的調製,有效的照射在植物上,且 擴散片3透過散賴制來增加照明光束之出光角度,達成有效照射面積的 k升,並將此里均勻分佈於有效照射面積内之功效。 南效率節能led植物燈其相對於螢光燈以及白織燈類型之植物燈,能 夠即省50%以上之電能,將可大幅減低使用成本及降低能源之耗費。 擊請參閱第四圖其係為本創作實施狀態示意圖,此時,請一併參閱第一 圖至第三圖,於本實施例中包含有一高效率節能LED植物燈4及—土壤範 圍5 ’於此土壤範g 5雑馳物’而此些植物即在土魏圍5内形成複數 之種植區域6,而透過高效率節能LED植物燈4内之LED燈源2發射出之 藍光照明光束及紅光照明光束,經由光學反射件2來聚集藍光照明光束及 紅光照明光束並魏至織y 3’再由雛# 3散射機躲增加藍光照明光 束及紅光照明光束之出光角度,達成運用較少之LED燈源2即可達到大面 積之光,’、、區域7 ’使光照區域7與麵區域6相仿之節能效果,且擴散片3 7 M428663 之散射機制,可達紐紅細㈣錄及藍光酬光麵夠在種植區域6内 混合均勻。 由上所述者僅用以解釋本創作之較佳實施例,並非企圖具以對本創作 作任何形式上之限制’是以’凡有在相同之創作精神下所做有關本創作之 任何修贼變更者’皆仍應包括在本創作意圖保護之麟内。 綜上所述’本創作「高效率節能LED植物燈」其實用性及成本效益上, 確貫是完全符合產業上發展所需,且賴露之結_作亦是具有前所未有 的創新構造’所以其具有「购性」應無疑慮,又本創作可較習用之結構 更具功效之增進’ S此亦具有「進步性」,其完全符合細專利法有關創作 專利之申凊要件的規定,乃依法提起專利申請,並敬請釣局早曰審查, 並給予肯定。 — 【圖式簡單說明】 第—圖係為本創作謂分解示意圖。 第二圖係為本創作剖面示 意圖。 第二圖係為本創作立體組合示意圖。 第四圖係為本_實職態示意圖。 【主要元件符號說明】 光學反射件1 入射孔11 出光孔12 藍光反射面13 紅光反射面14 LED燈源2 藍光LED21 紅光LED22 擴散片3 出光表面31M428663 V. New description: [New technical field] This creative department is a high-efficiency and energy-saving led plant lamp. The silk-type emits an illumination beam through an LED light source, and collects large-angle light through an optical reflector. The energy can be effectively irradiated on the plant through the applicator of the diffuser, and the diffuser transmits the A-light transmittance of the light beam through the scattering mechanism, achieves an effective increase of the county, and distributes the energy to the effective one. The effect within the illuminated area. • [Prior Art] Illumination is an unavoidable element of plant growth' and many plant growers use traditional lamps to illuminate plants to accelerate the growth of plants in order to accelerate the growth of plants. The spectral towel, the slit has the most obvious response to red light and blue light. However, traditional lamps cannot specifically separate the wavelengths suitable for plant growth, so that the band in the output spectrum that does not contribute to plant growth produces additional light loss, and conventional lamps It is easy to wear, which also leads to the use of his life is not long, which indirectly increases the user's maintenance and replacement costs. In addition, most of the traditional lamps and lanterns contain heavy metals such as Syrian and mercury, which will also cause considerable pollution to the environment. To this end, after continuous research and development and improvement by many manufacturers in the market, a light-emitting LED module has been developed to integrate a blue-emitting LED with a specific wavelength and a red-emitting LED on the New Zealand, using a hybrid configuration of blue LEDs and red LEDs. In order to provide plant growth requirements, LEDs of different wavelengths can be gambling green, side by side or staggered through a hybrid approach, and it is hoped that the characteristics of heavy metals such as low carbon content, high lifetime, and no mercury, etc., make it more Market Competitiveness. Conventional traditional lamps consume less power, have a shorter service life, and are prone to cause lack of environmental pollution. However, the improved LED module design is only through the change of arrangement, to achieve the effect of LED light source 3 M428663 However, in actual production, if you want to ride the area (10), the number of LEDs that you need to use will be quite '% of people', which also leads to the disadvantage of increasing its installation cost. In view of this, the main purpose of this creation is to solve the problem that the conventional plant lamp consumes a short life, is easy to cause the environment (four) and the area of the ride is missing. Therefore, the creation uses the combination of the optical reflector and the diffusion sheet. Increase the effective irradiation area, and distribute the energy to the effective irradiation ©_, thereby improving the competitiveness of the high-performance energy-saving LED xenon lamp market. [New content] The main purpose of this creation is to rely on the prior art to know that the effective illumination area is limited, which leads to the lack of rising cost of use. In order to achieve the above object, the present invention is a high-efficiency and energy-saving LED plant lamp, comprising an optical reflector, an LED light source and a diffusion sheet, wherein: the optical reflector has at least one entrance hole respectively at two ends thereof And at least one light-emitting hole; the LED light source has one end disposed at the end of the incident hole; the diffuser is disposed on the surface of the optical reflector and located in a light-emitting direction of the light-emitting hole, and the optical reflector is disposed on the LED light Between the source and the diffusion sheet; thereby, the LED light source emits an illumination beam, and the large-angle light is collected through the optical reflection member, so that the amount of knowledge can be effectively irradiated on the plant through the modulation of the diffusion sheet, and the The diffuser transmits the light extraction angle of the illumination beam through the scattering mechanism, achieves an effective illumination area improvement, and uniformly distributes the energy in the effective illumination area. The LED light source comprises at least one blue LED with a wavelength of 350~47〇rjm, and at least one red LED with a wavelength of 680~870nm, which can control the amount of illumination of the plant and control the growth speed of the plant, which is beneficial to the plant. The effect of growth and development. This 663 creation of the fresh reflex county contains - blue (four) and - red ambiguous surface, the blue reflecting surface of the silk light beam of the LED light, the red light reflects the red light led illumination beam, to strengthen The effect of concentrating light. In this creation, the LED Lin can adjust the mixing ratio of red and blue LEDs according to the light cooperation (four) spectrum of different crops to achieve the best photosynthesis and achieve the effect of optimizing the energy saving effect. At the two ends of the present composition sheet, there are a plurality of sides, a silk surface and a human surface, the incident surface is in the direction of the light exiting the light exiting hole, and the light emitting surface is left on the opposite side of the human surface. Ruben created the light-emitting surface or the incident surface to be a paraboloid, a sphere, a plane, or any combination of the above, to achieve the effect of replacing according to the user's needs. In this creation, the ship can change the light angle of the Wei line by setting the aspect ratio, and achieve the effect of adjusting according to the size of the area illuminated by the user. The high-efficiency and energy-saving LED plant lamp produced by the car in the current market, which emits the illumination beam by the LED light source, emits the wire through the optical reflector and emits it to the diffusion sheet and then spreads by the diffusion plate. Increasing the angle of the illumination beam, achieving an effective illumination area, and evenly distributing the energy within the effective illumination area. [Embodiment] This creation is about high-efficiency and energy-saving LED planting, and its functions and characteristics are described below with the related formula. The δ month refers to the _- to the third figure, which are respectively the original intention of the creation of the three-dimensional separation, the creation. The three-dimensional combination diagram of the present invention and the present invention includes an optical reflector 1, an LED light source 2, and a diffusion sheet 3, wherein: the optical reflection member 1' is respectively opened at both ends thereof. There are at least one entrance hole 11 and at least one light exit hole M428663 12 '· in the embodiment, it is described by two entrance apertures and two apertures 12; LED light source 2, one end of which is disposed at the end of the entrance aperture 11 The LED light source 2 comprises at least one blue LED 21 having a wavelength of 350 to 470 nm, and at least one red LED 22 having a wavelength of 680 to 870 t1m, for controlling the amount of illumination of the plant and the growth speed of the plant, which is beneficial to the growth of the plant. Development, in which blue LED21 can provide plant cell chlorophyll for photosynthesis, and is important for plant differentiation and stomata regulation, and the shorter wavelength blue LED21 has the dwarf of plant flowers, lateral growth and leaf thickening, etc. The effect is that the chlorophyll of the plant cells has the strongest absorption of the red LEDs 22, so the light in this band is most beneficial for photosynthesis of plants and flowers, while the red LEDs 22 have more wavelengths. The photo is beneficial to the germination and upward growth of the leaves, and the LED light source 2 can adjust the mixing ratio of the blue light and the red light LED 22 according to the photosynthesis spectrum of different crops to achieve the best photosynthesis and achieve the effect of optimizing the energy saving effect. In this embodiment, the implementation of the light mixing effect is performed by using a blue LED 21 with the red LED 22, but this does not mean that it is limited to only one embodiment of the blue LED 21 and the red LED 22, which can also be implemented according to the needs of use. Several blue LEDs 21 are combined with several red light [_ED22 implementations to achieve another effect of mixing light; and the optical reflector 1 includes a blue light reflecting surface and a 13 red light reflecting surface 14 when the blue LED 21 emits When the light beam is illuminated, it will be irradiated to the blue light reflecting surface 13 via the entrance aperture, and then the illumination light beam of the blue LED 21 will be collected through the blue light reflecting surface 13, and finally emitted through the light exit hole 12, and when the red light LED 22 emits the illumination light beam, An entrance hole ^ is irradiated to the red light reflecting surface 14' and then illuminates the illumination beam of the red LED 21 through the red light reflecting surface 14 and finally exits through the other light exit hole 12; 3, the end is disposed on the end surface of the light exit hole 12, and the optical reflection member is disposed between the light source 2 and the diffusion sheet 3 of the LED, and the light-emitting surface 31 and the incident surface are respectively disposed at two ends of the diffusion sheet 3 The surface 32 'incident table ® 32 is located in the light exiting direction of the light exit hole 12, and the light exiting surface 31 is located on the other side of the emitting surface 32; the opposite side of the fg, the light emitting surface from 31 "the incident surface 32 can be a parabolic spherical surface, a plane or the above Any combination, in the embodiment, the light-emitting surface is exemplified by a plane, and the incident surface is a continuous paraboloid. For example, the diffusion sheet 3 can change the angle of the S-line through the setting of the aspect ratio, thereby allowing the user to Adjusted according to the required irradiation area. 'The diffuser has a penetration rate of 90%, and the overall design can achieve the loss energy of 2.7% and the optical utilization rate of 84.7%. Effectively enhance the competitiveness of the market; thereby, the illumination light beam is emitted through the LED light source 2, and the large-angle light is collected through the optical reflector, so that the energy can be effectively irradiated on the plant through the modulation of the diffusion sheet 3. And the diffusion sheet 3 is transparent Lai scattered light produced to increase the angle of the illumination beam, to achieve an effective irradiation area of k l, and this effect was uniformly distributed within the effective irradiation area. The South Energy-efficient LED plant lamp can save more than 50% of the energy compared to the fluorescent lamp and the white-light lamp type plant lamp, which can greatly reduce the use cost and reduce the energy consumption. Please refer to the fourth figure, which is a schematic diagram of the implementation state of the creation. In this case, please refer to the first to third figures together. In this embodiment, a high-efficiency and energy-saving LED plant lamp 4 and a soil range of 5' are included. In the soil, the plants are formed in a plurality of planting areas 6 in the soil Weiwei 5, and the blue light beam emitted from the LED light source 2 in the high-efficiency energy-saving LED plant lamp 4 The red light illumination beam, through the optical reflector 2, gathers the blue illumination beam and the red illumination beam and Weizhi woven y 3' and then the scatterer 3 avoids increasing the exit angle of the blue illumination beam and the red illumination beam to achieve the application. A small amount of LED light source 2 can reach a large area of light, ',, area 7' makes the illumination area 7 and the surface area 6 similar to the energy-saving effect, and the scattering mechanism of the diffusion sheet 3 7 M428663 can reach the new red (4) Recording and Blu-ray compensation surface are enough to mix evenly in the planting area 6. The above description is only used to explain the preferred embodiment of the present invention, and is not intended to impose any form of restriction on the creation of the creator of any creation in the same creative spirit. The changer's should still be included in the protection of this creative intent. In summary, the practicality and cost-effectiveness of the "high-efficiency and energy-saving LED plant lamp" is completely in line with the needs of industrial development, and the combination of Lai Lu is also an unprecedented innovative structure. Its "purchase" should be undoubtedly considered, and this creation can be more effective than the conventional structure. This is also "progressive", which fully complies with the requirements of the application requirements for patents in the fine patent law. File a patent application in accordance with the law, and ask the fishing bureau to review it early and give it affirmation. — [Simple description of the diagram] The first diagram is a schematic diagram of the decomposition of the creation. The second figure is a schematic of the creation profile. The second figure is a schematic diagram of the three-dimensional combination of the creation. The fourth picture is a schematic diagram of the actual situation. [Description of main component symbols] Optical reflector 1 Incident hole 11 Light exit hole 12 Blue light reflecting surface 13 Red light reflecting surface 14 LED light source 2 Blue LED 21 Red LED 22 Diffusion sheet 3 Light-emitting surface 31