M323899 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種光治療器,尤指一種寬波段的光治療器。 【先前技術】 一般疾病的治療使用抗生素藥物來治療的結果,往往病菌皆會產生抗 藥性,而形成人類與病菌範圍的戰爭將永無止境,因此發展出的光線治療 法,遂成為趨勢,其可抑制病菌之生長,可用於治療青春痘、粉刺、除斑、 改善細紋、美容保養及減輕疼痛等等,其中光線治療法例如有脈衝光療法 及動力光療法。 脈衝光療法係使用脈衝光波長介於520nm〜1200nm範圍的強力閃光燈來 照射人體組織患處部位,因脈衝光波長寬廣,依人體組織對各個不同波長 脈衝光的反應,而產生有多種的療效;然而此脈衝光之缺點為缺少了藍光 及糸光照射的療效範圍,且脈衝光波長在950nm〜lOOOnm的波段會被人體體 内之水分所吸收而被加熱,若波段調整不好將會使肌膚喪失水分及組織受 損,因此,需要專業的醫師來操作。 而動力光療法係發光二極體(led)利用電子電洞之结人 (Recombination)所產生之單一波長,此單一波長半高寬約1〇〜2〇nm,因波 長專一,故僅可針對某一種特定之療效來使用,例如治療青春痘,可使用 波段在410〜430nm範圍的波長來改善,亦可使用兩種以上不同波長的led 所組成的LED陣列’來獲仔兩種以上的療效’例如由紅光led及藍光[ED 所組成之LE:D陣列,可獲得兩種之療效。且因單一種類的LED本身所發出 M323899 波長的半高寬有限,故難以混成完全連續且具有例如脈衝光多重療效之效 果。 因此,如何克服前述先前技術於使用脈衝光時缺少藍光及紫光照射的 療效範圍以及因單一種類的LED本身所發出波長的半高寬有限,無提供多 重療效等之各種缺點’實為目前所亟待解決之課題。 【新型内容】 有鑑於此,本創作提供一種寬波段的光治療器,係利用藍光或紫光波 長的LE1D光照射各種不同之螢光粉,而螢光粉受LE:D光激發而發出診療光, 使衫療光之波長範圍可涵蓋綠光、黃光、橙光、紅光及部份近紅外線之寬 廣波長,以達到更廣泛之療效。 因此,本創作係提供一種寬波段的光治療器,係由發光模組、驅動模 組、電源模組以及本體所構成。發光模組包含LED晶粒、封裝膠體及螢光 粉,LED晶粒用以發射LED光,封裝膠體用以包覆Lm)晶粒,螢光粉係結合 於封裝膠體上,受LED光激發而發出診療光,且診療光之波段寬度大於LED 光之波段寬度。驅動模組係電性連接至發光模組,用以驅動發光模組。電 源模組用以提供電源至驅動模組。本體係用以設置驅動模組及電源模組, 且可提供使用者之握持、或固定於桌上或地上。 藉由本創作之寬波段的光治療器,可解決習知技術缺少了藍光及紫光 之照射的療效範圍、以及LED所發出波長的半高寬有限,難以達到多重療 效之種種缺失,以產生寬廣之波長,來達到更廣泛之療效之效果,實具極 高之產業利用價值。 M323899 【實施方式】 以下之實施_進-步詳細說明本解之難,但相任何觀點限制 本創作之_。另值得注意岐,以下圖式均為簡化之示意圖式,而僅以 示意方式綱本創狀基榻想,遂賦巾鋪示麻齡有關之元件而 非按照實際實施時之元件數目、形狀及尺寸繪製,其實際實施時各元件之 型態、數量及比例可為-種隨意之變更,且其元件佈局型態可能更為複雜。 請參閱第1 ®至第5圖’第丨_為本創作之立體示意圖,而第2圖 係為本創作之發光模組_面棚,第3 _為摘作之系統方塊圖,第4 圖係為本創制賴光或魏之LED紐射黃色魏粉所激翻來的黃光 光譜圖’ f 5 ®係為本__藍光$讀光之LED光照射紅螢光粉與綠榮 光粉之混合所激發出來的光譜圖。 本創作之寬波段的絲絲係自發光敝2卜轉模組23、電源模組 25以及本體27所構成。 發光模組21包含LED晶粒21卜封裝膠體215及螢光粉217;其中, LED晶粒211用以發射LED光,且可由化合物半導體如化⑽或趣⑽ 材料製作成的發光二極體晶片所裁切而成,封歸體215用以包覆咖晶 粒叫,螢光粉217係結合於封裝賴215上,受咖紐發轉出診療 光且發光模組21可没置於本體27内,或可替換而連接於本體^,再者, 本發明亦可視所需要的功率及照射面積,來調整發光模組2ι之數量,其中, 複數個發光歡21鱗_式侧,並可以並聯或_的方式來連接。 此外,發光模組21更可包含光學鏡片,使發射出之診療光均句分佈, M323899 其中’光學鏡片係可為二次光學鏡片或散射毛片。 刖述之LED光可為波長介於4〇〇nm〜44〇聰範圍的紫光,亦可為波長 71於440nm〜470nm |巳圍的藍光。封裝膠體215係可為玻璃、塑膠或石夕膠 (Silicone) ’且封襄膠體21s於成型之過程中係可均句地混入勞光粉加。勞 光私2Π係可為有機螢光物質或無機螢光物質,例如:螢光粉爪可為氧 化物、硫化物、石夕化物、石夕酸化物、氮化物及其組合之其中一者,但不限 於此。 虽以i光或藍光之led光照射螢光粉217,而螢光粉2丨7為黃色螢光 粉時,經由黃色螢光粉所發出之診療光為中讀長大約 570nm,範圍 500nm〜650nm之黃光(如第4圖所示),當螢光粉爪為橘色瑩光粉時,經 由橘色蝥光粉所發出之診療光為巾碰長姻59Gnm,範圍·邮〜65〇咖 之橘η光$螢光粉217為紅色螢光粉時,經由紅色螢光粉所發出之診療 光為紅光,或波長介於600nm〜1〇〇〇nm範圍的近紅外光,又當螢光粉217 為綠色螢光粉時,經由綠色螢光粉所發出之診療光為波長介於 500nm〜550nm範圍的綠光,當螢光粉217係混合紅色螢光粉與綠色螢光粉 時,可用以發出同時產生紅色波長與綠色波長之診療光(如第5圖所示),而 螢光粉217可附著於封裝膠體215表面,可以喷灑、旋鍍、濺渡或浸鍍之 其中一種方式附著於封裝膠體215表面。 診療光之波段寬度係大於LED光之波段寬度,且診療光之波長係介於 500nm〜lOOOnm範圍,其波長範圍可涵蓋綠、黃、橙、紅或部分近紅外線寬 廣波長’且診療光波長之半高寬係大於3〇nm的波段。 驅動模組23電性連接至發光模組21,包含驅動電路及控制電路,其中, M323899 驅動電路用以驅動發光模組21,俾以進行所需之光療作用,驅動電路可以 連續點亮方式、脈娜亮方式或不賴點亮方式細動發光模組2卜控制 電路用以控制光度強弱及產生定光或閃光之脈衝光。 電源模組25用以提供電源至驅動模組23,其中,電源模組25係可為 選自充電式電池、普通電池及微型電池所組成群組之其中一者。 本體27可用以提供使用者握持、固定於桌上或地上,並可設置驅動模 組23及電源模組25,其中,本體27更包含控制模組29及透光罩219 ;控 制模組29用以控制驅動模組23驅動發光模組21,其中控制模組29包含控 制開關及調動開關(未圖示),控制開關用以啟動或關閉電源模組25之電源, 調動開關用以調控光度強弱及選擇所欲使用之定光或閃光之脈衝光,透光 罩219係设置於發光模組21之一側,診療光係朝向透光罩219,且透光罩 219係可呈圓形體或矩形體,具有透光並可防止灰塵進入本體27内。 a使用者使用本創作之寬波段的光治療器時,例如··可選擇用以發射 出中心波長大約570nm,範圍500nm〜650nm範圍黃光之診療光的發光模組 21,可用來改善皮膚細胞的交替循環、更生皮膚、對抗衰老、改善膚色暗 啞及鬆弛等。又例如:可選擇用以發射出波長介於5〇〇nm〜55〇11瓜範圍綠光 之診療光的發光模組21,可用來調節皮膚腺體功能、減低油脂亢奮、油性 皮膚、黑頭粉刺及暗瘡等,因此,替換發出不同色光(例如:另外有橙光、 紅光及部份近紅外線光)之發光模組21,可產生其他不同波段之診療光,以 提供多種不同之療效。 因此,本創作係利用藍光或紫光波長的LED光照射各種不同之螢光粉 217 ’而螢光粉217受LED光激發而發出診療光,使診療光之波長範圍可涵 M323899 蓋黃光、綠光、橙光、紅光及部份近紅外線之寬廣波長,以達到更廣泛之 療效。 另外,請參閱第6圖,係為本創作之另一實施例圖,於本體27内更可 包含紅外光LED模組31 ;紅外光LED模組31係電性連接至驅動模組23, 用以發射波長介於800nm〜1200nm範圍的紅光,可與發光模組21 —同搭配 設置使用,以互補療效及功能。 綜上所述,應用本創作所產生之寬廣波長,可達到更廣泛之療效,並 解決習知技術缺少使用藍光及紫光照射的療效範圍、及led本身所發出波 長的半高寬有限,無法提供多重療效之種種缺失,實已具備高度產業利用 價值。 惟以上所述之具體實施例,僅係用以例釋本創作之特點及功效,而非 用以限定本創作之可實施範疇,因此在未脫離本創作上揭之精神與技術範 疇下,任何運用本創作所揭示内容而完成之等效改變及修飾,均仍應為下 述之申請專利範圍所涵蓋。 【圖式簡單說明】 第1圖係為本創作之立體示意圖。 第2圖係為本創作之發光模組的剖面視圖。 第3圖係為本創作之系統方塊圖。 第4圖係為本創作利用藍光或紫光之led光照射黃色螢光粉所激發出 來的黃光光譜圖。 ★ 本&作利用藍光或紫光之光照射紅榮光粉與綠勞光粉 M323899 之混合所激發出來的光譜圖。 第6圖係為本創作之另一實施例圖。 【主要元件符號說明】 21...........發光模組 211 · · · .......LE1D 晶粒 - 215..........封裝膠體 • 217..........螢光粉 219..........透光罩 23...........驅動模組 25...........電源模組 27...........本體 29...........控制模組 31...........紅外光LE1D模組 πM323899 VIII. New Description: [New Technology Field] This creation is about a light therapy device, especially a wide-band light therapy device. [Prior Art] The treatment of general diseases is treated with antibiotics. Often, the bacteria will develop resistance, and the war that forms the range of humans and germs will never end. Therefore, the development of light therapy has become a trend. It can inhibit the growth of pathogens, can be used to treat acne, acne, remove spots, improve fine lines, beauty care and relieve pain, etc. Among them, light therapy methods include pulsed light therapy and dynamic light therapy. Pulsed light therapy uses a powerful flash lamp with a pulsed wavelength ranging from 520 nm to 1200 nm to illuminate the affected part of the human tissue. Due to the wide wavelength of the pulsed light, depending on the response of the human tissue to the pulsed light of different wavelengths, there are various effects; however, The shortcoming of pulsed light is the lack of therapeutic range of blue light and neon light, and the wavelength of pulsed light is absorbed by the body's water in the wavelength range of 950nm~100onm. If the band is not well adjusted, the skin will lose moisture. And the organization is damaged, therefore, a professional physician is required to operate. The dynamic light therapy type LED (led) utilizes a single wavelength generated by the electron tunnel's Recombination. The single wavelength has a half-height width of about 1 〇 2 〇 nm, and the wavelength is specific, so it can only be used for A specific therapeutic effect, such as the treatment of acne, can be improved by using a wavelength range of 410 to 430 nm, or an LED array composed of two or more different wavelengths of LEDs can be used to obtain more than two effects. 'Efficacy of both types can be obtained, for example, by LE:D array consisting of red light and blue light [ED]. Moreover, since the half-height width of the M323899 wavelength emitted by a single type of LED itself is limited, it is difficult to mix completely continuously and have the effect of multiple effects such as pulsed light. Therefore, how to overcome the above-mentioned prior art in the use of pulsed light in the absence of blue light and violet light irradiation range and the limited width and width of the wavelength emitted by a single kind of LED itself, without providing various disadvantages such as multiple therapeutic effects, is indeed urgently needed Solve the problem. [New content] In view of this, the present invention provides a wide-band phototherapy device that uses LE1D light of blue or violet wavelength to illuminate various fluorescent powders, and the fluorescent powder is excited by LE:D light to emit medical light. The wavelength range of the treatment can cover a wide range of wavelengths of green light, yellow light, orange light, red light and some near infrared rays to achieve a wider range of effects. Therefore, the present invention provides a wide-band phototherapy device comprising a light-emitting module, a driving module, a power module, and a body. The light-emitting module comprises an LED die, an encapsulant and a phosphor powder, the LED die is used to emit LED light, the encapsulant is used to cover the Lm) crystal grain, and the fluorescent powder is bonded to the encapsulant and excited by the LED light. The diagnosis and treatment light is emitted, and the band width of the diagnosis light is larger than the band width of the LED light. The driving module is electrically connected to the light emitting module for driving the light emitting module. The power module is used to provide power to the drive module. The system is used to set the driving module and the power module, and can provide the user's grip or be fixed on the table or the ground. With the wide-band phototherapy device of the present invention, it is possible to solve the problem that the conventional technology lacks the therapeutic range of blue light and violet light, and the half-height width of the wavelength emitted by the LED is limited, and it is difficult to achieve various defects of multiple therapeutic effects, so as to produce a wide range. The wavelength, in order to achieve a wider range of therapeutic effects, has a very high industrial use value. M323899 [Embodiment] The following implementation _ advance-step details the difficulty of this solution, but any viewpoint limits the creation of this _. It is also worth noting that the following figures are simplified schematic diagrams, and only the schematic form of the creation of the base, the endowment towel shows the age-related components rather than the number and shape of the components in actual implementation. Dimensional drawing, the actual type of implementation of each component type, number and proportion can be a random change, and its component layout type may be more complicated. Please refer to the first to fifth figures 'Dimensional _ for the creation of a three-dimensional diagram, and the second picture for the creation of the lighting module _ shed, the third _ is the system block diagram of the abstract, Figure 4 This is the yellow light spectrum that was created by the creation of Laiguang or Weizhi LED New Zealand Yellow Powder. ' f 5 ® is based on __Blu-ray $Reading LED light illuminating red fluorescent powder and green glory powder Mix the spectra that are excited. The wide-band silk of the present invention is composed of a self-luminous 敝2 转 模组 module 23, a power module 25, and a body 27. The LED module 21 includes an LED chip 21 and an encapsulant 215 and a phosphor powder 217. The LED chip 211 is used to emit LED light, and the LED chip can be made of a compound semiconductor such as a (10) or a fun (10) material. The cut is made, the sealed body 215 is used to wrap the coffee grains, and the fluorescent powder 217 is combined with the package 215, which is turned out by the coffee and the light-emitting module 21 can be placed on the body 27 Internally, or alternatively, connected to the body ^, in addition, the present invention can also adjust the number of the light-emitting modules 2 ι according to the required power and illumination area, wherein a plurality of illuminating springs 21 scales can be connected in parallel Or _ way to connect. In addition, the light-emitting module 21 may further comprise an optical lens to distribute the emitted medical light, M323899, wherein the optical lens may be a secondary optical lens or a scattering lens. The LED light described above can be a violet light having a wavelength ranging from 4 〇〇 nm to 44 〇, or a blue light having a wavelength of from 440 nm to 470 nm. The encapsulant colloid 215 can be glass, plastic or Silicone' and the sealant colloid 21s can be mixed into the mortar powder during the molding process. The Luguang Private 2 can be an organic fluorescent substance or an inorganic fluorescent substance, for example, the fluorescent powder claw can be one of an oxide, a sulfide, a lithium compound, a rock acid compound, a nitride, and a combination thereof. But it is not limited to this. Although the fluorescent powder 217 is irradiated with led light of i-light or blue light, and the fluorescent powder 2丨7 is yellow fluorescent powder, the diagnosis light emitted by the yellow fluorescent powder is about 570 nm in the middle reading length, and the range is 500 nm to 650 nm. The yellow light (as shown in Figure 4), when the fluorescent powder claw is orange fluorescent powder, the diagnosis and treatment light emitted by the orange fluorescent powder is the towel touch long marriage 59Gnm, range · mail ~ 65 〇 〇 When the orange η light $fluorescent powder 217 is a red fluorescent powder, the diagnosis light emitted by the red fluorescent powder is red light, or near-infrared light having a wavelength ranging from 600 nm to 1 〇〇〇 nm, and When the light powder 217 is a green fluorescent powder, the medical light emitted by the green fluorescent powder is green light having a wavelength ranging from 500 nm to 550 nm, and when the fluorescent powder 217 is mixed with red fluorescent powder and green fluorescent powder, It can be used to emit diagnostic light that produces both red and green wavelengths (as shown in Figure 5), and the phosphor 217 can be attached to the surface of the encapsulant 215, which can be sprayed, spin-plated, splashed or immersed. The method is attached to the surface of the encapsulant 215. The width of the band of the diagnosis and treatment light is larger than the width of the band of the LED light, and the wavelength of the diagnosis light is in the range of 500 nm to 100 Å, and the wavelength range can cover the broad wavelength of green, yellow, orange, red or part of the near infrared ray and the wavelength of the diagnosis light is The half-height width is greater than the band of 3〇nm. The driving module 23 is electrically connected to the light emitting module 21, and includes a driving circuit and a control circuit. The driving circuit of the M323899 is used to drive the light emitting module 21 to perform a desired phototherapy function, and the driving circuit can be continuously lit. The pulse light mode or the light mode is used to control the light intensity of the light-emitting module 2 to control the intensity of the light and to generate the pulse light of the fixed light or the flash. The power module 25 is configured to provide power to the driving module 23. The power module 25 can be one selected from the group consisting of a rechargeable battery, a general battery, and a micro battery. The body 27 can be used to provide a user to hold, fix on the table or the ground, and can be provided with the driving module 23 and the power module 25, wherein the body 27 further comprises a control module 29 and a transparent cover 219; the control module 29 The control module 23 is configured to drive the light-emitting module 21, wherein the control module 29 includes a control switch and a transfer switch (not shown). The control switch is used to activate or deactivate the power of the power module 25, and the switch is used to adjust the brightness. The light-transmitting cover 219 is disposed on one side of the light-emitting module 21, the light-receiving light is directed toward the light-transmitting cover 219, and the light-transmitting cover 219 is a circular body or The rectangular body has light transmission and prevents dust from entering the body 27. a user can use the wide-band phototherapy device of the present invention, for example, to select a light-emitting module 21 for emitting a diagnosis light having a central wavelength of about 570 nm and a range of 500 nm to 650 nm, which can be used to improve skin cell alternation. Recycles, regenerates skin, fights aging, improves dullness and sagging skin tone. For another example, a light-emitting module 21 for emitting light of a green light having a wavelength between 5 〇〇 nm and 55 〇 11 can be selected for regulating skin gland function, reducing oil hyperactivity, oily skin, blackhead acne And acne, etc., therefore, replacing the illumination module 21 that emits different colored lights (for example, orange light, red light, and some near-infrared light) can generate other different wavelengths of diagnostic light to provide a variety of different therapeutic effects. Therefore, this creation uses LED light of blue or violet wavelength to illuminate various phosphor powders 217 ' and the phosphor powder 217 is excited by LED light to emit medical light, so that the wavelength range of the diagnosis light can cover M323899 cover yellow light, green Light, orange, red and some near-infrared wide wavelengths for a wider range of effects. In addition, please refer to FIG. 6 , which is a diagram of another embodiment of the present invention. The infrared light LED module 31 can be further included in the body 27 . The infrared light LED module 31 is electrically connected to the driving module 23 . The red light having an emission wavelength ranging from 800 nm to 1200 nm can be used in combination with the light-emitting module 21 to complement the efficacy and function. In summary, the application of the wide wavelength generated by the creation can achieve a wider range of therapeutic effects, and solve the problem that the conventional technology lacks the therapeutic range of using blue light and violet light, and the half-height width of the wavelength emitted by the LED itself is limited. The lack of multiple therapeutic effects has already achieved a high degree of industrial use. However, the specific embodiments described above are only used to illustrate the features and functions of the present invention, and are not intended to limit the scope of implementation of the present invention, and therefore, without departing from the spirit and technology of the present invention, Equivalent changes and modifications made by the disclosure of the present invention are still covered by the scope of the following patent application. [Simple description of the figure] The first picture is a three-dimensional diagram of the creation. Figure 2 is a cross-sectional view of the lighting module of the present invention. Figure 3 is a block diagram of the system of this creation. Figure 4 is a yellow light spectrum inspired by the yellow fluorescent powder illuminated by LED light of blue or violet light. ★ This & uses a blue or violet light to illuminate the spectrum of the combination of red glory powder and green slick powder M323899. Figure 6 is a diagram of another embodiment of the present creation. [Main component symbol description] 21..............Lighting module 211 · · · .......LE1D die - 215..........Package colloid • 217..........Fluorescent powder 219..........transparent cover 23...........drive module 25... .....Power Module 27........... Body 29.........Control Module 31..........Infrared Light LE1D module π