M323898 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,尤指一種迷你型之光治療器。 【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。其中包含有雷射光療法、脈衝光療 法及LED光動力療法。 雷射光療法係使用特定波長之高能量的集光束照射患處,對纾解疼 痛、消腫、消炎、改善青春痘、牛皮癬等皮膚病具有特定之療效,但過度 使用會對身體有害,且會產生副作用。 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’將患處不穩定狀態的細胞轉化為穩定健康的狀 悲’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,可消除細胞内殘留有毒物、組織痊癒、疼痛消失,且副 作用較雷射少’然而此脈衝光波長在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LED光動力療法係發光二極體(led)利用電子電洞之結合 (Recombination)所產生之單一波長,此單一波長專一,僅可針對某一種特 M323898 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LE:D所組成的LED陣列,來獲得兩 種以上的療效,例如由紅光LED及藍光LED所組成之LED陣列,獲得兩種 之療效,且其產生之副作用均較雷射光療法及脈衝光療法為少。 请參照第1圖與第2圖,第1圖係為習知的光動力光療器,而第2圖 係為第1圖中的LE1D發光體。光動力光療器主要由複數顆LE])發光體讥、 電源電路板13、殼體17以及電池15所組成,其中,led發光體η包含晶 粒112,用以發射光源,而LH)發光體11之外層係使用環氧樹脂(Ep〇xy) 所製成之封裝膠體110封裝成的5Φ lamp,且每一顆LED發光體11的驅 動電流介於20mA〜50mA範圍·,電源電路板13係設有電流控制電路,可驅動 LED發光體11 ;殼體17係形成有弧型之握把,供使用者握持外可容設㈣ 發光體11及電源電路板13;電池15係容設於殼體17底部之容室内,電性 連接於電源電路板13以供給所需之電力。 由於單顆LED發光體11的驅動電流較低(2〇mA〜50roA),使得單位面積 的照射強度低,因此,習知之光動力光療器必須裝設以陣列排列之複數顆 LED發光體11,方能提供足夠之照射強度,也因此造成體積魔大、重量過 重、佔空間等缺點,使用時相當不方便。再者,LE:D發光體u外層係使用 環氧樹脂(Epoxy)封裝而成,會有在短波及受熱造成環氧樹脂黃化之問題, 而降低LED發光體11發光之亮度,使LED發光體11發光之效率變差。 因此,如何克服前述先前技術之各種缺點,實為目前所亟待解、央之課 題。 M323898 【新型内容】 有鑑於此,本創作提供-種光治療器,有效縮小整體之體積並降低重 量,且於長時間之使用下,可維持㈣晶粒發光之亮度。 因此,本創作係提供-種光治療器,係由發光模組、驅動模組、電源 模組以及本體所構成。發光模組包含單顆led晶粒,用以發射診療光,單 顆⑽晶粒關裝親封裝。驅動做電性連接至發光模組,用以驅動發 光模組。電賴組用讀供電源至轉模組。本咖以提供麟並設置驅 動模組及電源模組。 藉由本創狀統賴,可克服習知技射光絲之體積及4量皆無 法降低、長_棚易造成LED發光體產生黃化而降低其亮度之缺點,以 提供降低絲隸碰之體航《、並於長_使狀肢下,可維持 LED晶粒發光之亮度的效果’實具極高之產業利用價值。 【實施方式】 以下之實關健-步詳細制本_錢點,_膽何觀點限2 本=作之鱗。另值得注意的是,以下圖式均為簡化之示意圖式,而僅』 示意方式朗本創狀基本構想,翻式中_林本創作有關之元件【 非按照實·_之元魏目、雜及尺树製,其實際實鱗各元件 型態、數量及_♦觀意之贱,且其元件柄聽可能更為複雜 請參閱第3至第5圖,第3圖係為本創作之立體示意圖,而第4則 為本創作之單顆__裝_裝之剖侧,第$ _本創和 發先核組可替換而組裝於本體之立__,第6 _為本創作之系❿ M323898 塊圖。 光治療器係由發光模組21、驅動模組23、電源模組25、以及本體27 所構成。 發光模組21包含單顆LED晶粒211,用以發射診療光,且單顆LED晶 粒211以封裝膠體210封裝;其中,發光模組21係設置於本體27(如第3 圖所示),或可替換而組裝於本體27(如第5圖所示),單顆LED晶粒211大 小為600um X 600um以上並可承受150〜15〇〇mA電流,且可以發射體 (Emitter)型式(如第4圖所示)或星體(Star)型式封裝之。 而#療光可為波長介於4〇〇nm〜440nm範圍的紫光、波長介於 440nm〜470nm範圍的藍光、波長介於5〇〇nm〜55〇nm範圍的綠光、波長介於 550nm〜600nm範圍的黃光、波長介於6〇〇nm〜7〇〇nm範圍的紅光、或波長介 於700nm〜lOOOnm範圍的紅外光,而封裝膠體21〇係可為矽膠(smc〇ne)、 玻璃或塑膠。 其中’發光模組21更可包含透光罩213,係設置於發光模組21之一侧, 使單顆LED晶粒211躺透光罩213發射診療光,而透光罩213之外型係 可呈圓形體或矩形體,用以使診療光穿透並可防止外界灰塵進人發光模組 21内。再者,發光模組21亦可包含光學鏡片(未圖示),用以使診療光均勻 地由透光罩213射出,且光學鏡片係可為二次光學鏡片或散射***。 驅動模組23電性連接至發光模、组2卜包含驅動電路及控制電路(未圖 示),其中,驅動電路用以驅動發光敝2W皁以進行所需之光療作用,驅 動電路可魏續點亮方式或脈衝點亮方絲轉發域組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。 M323898 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用以提供握持並設置驅動模組23及電源模組25,其中,本體 27更包含控制模組29,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。 當使用者使用本創作之光治療器時,例如··可選擇用以發射出波長介 於550nm〜600nm範圍黃光之診療光的發光模組21,可用來改善皮膚細胞的 父替循%更生皮膚、對抗哀老、改善膚色暗σ亞及鬆弛等。又例如:可選 擇用以發射出波長介於500nm〜550nm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、減低油脂宄奮'油性皮膚、黑頭粉刺及暗瘡等, 因此,替換發出不同色光之發光模組2卜可產生其他不同波段之診療光, 以提供多種不同之療效。 本創作之絲賴係於發光顯21 _設置單顆之高辨之led晶 粒,故可有效縮小發光模組21之體積並降低重量,進而於光治療器於整體 之製作上可降低其體積及重量,且單顆LED晶粒211係以封裝膠體21〇, 例如石夕膠封裝之,故於長時間之使用τ,無在短波及受熱造成封裝膠體21〇 黃化之問題,故可維持LED晶粒發光之亮度。 綜上所述,應用本創作可達成降低光治療器之整體體積及重量、且於 長時間之使訂,可轉LED晶_之亮度,峰_雖之種種缺 失’實已具備高度產業利用價值。 M323898 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 用以限林緩之可實施_,因此在未_本_上揭之精神與技術範 訂,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^ 述之申請專利範圍所涵蓋。 【圖式簡單說明】 • 第1圖係為習知一種光動力光療器之立體示意圖。 φ 第2圖係為第1圖中之LH)發光體的示意圖。 第3圖係為本創作光治療器之立體示意圖。 第4圖係為本創作光治療器之早顆LED晶粒以封裝膠體封裝之立彳視圖 - 第5圖係為本創作光治療器之發光模組可替換而組裝於本體之立體八 ~ 意圖。 苐6圖係為本創作光治療器之系統方塊圖。 _ 【主要元件符號說明】 11 · · · ·.. 110 · · · · · · 112.....· 13 · · · ·.. 15 · ·.... 17· · ·... 21 · ·.... .....LE1D發光體 • · · ·封裝膠體 • · · ·晶粒 .....電源電路板 .....電池 .....殼體 .....發光模組 M323898 210 ..........封裝膠體 211 ..........單顆LE:D晶粒 213..........透光罩 23...........驅動模組 25...........電源核組 27...........本體 29...........控制模組M323898 VIII. New description: [New technical field] This creation is about a light therapy device, especially a mini 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 and can be used to treat acne, acne, remove spots, improve fine lines, maintain beauty and relieve pain. It includes laser light therapy, pulse phototherapy and LED photodynamic therapy. Laser light therapy uses a high-energy beam of specific wavelengths to illuminate the affected area. It has specific effects on relieving pain, swelling, anti-inflammatory, improving acne, psoriasis and other skin diseases, but excessive use can be harmful to the body and will produce side effect. Pulsed light therapy uses a powerful flash lamp with a pulsed light wavelength ranging from 520nm to 1200nm to illuminate the affected part of the human tissue. 'Transforms the unstable state of the affected area into a stable and healthy shape. Because the pulsed light has a wide wavelength, the body tissue is different. The reaction of wavelength pulsed light produces a variety of therapeutic effects, which can eliminate residual toxic substances in the cells, heal the tissue, and the pain disappears, and the side effects are less than the laser. However, the wavelength of the pulsed light in the wavelength range of 950 nm to 100 nm is affected by the human body. The water is absorbed and heated. If the band is not well adjusted, the skin will lose moisture and tissue damage. Therefore, a professional doctor is required to operate. LED photodynamic therapy is a single wavelength generated by the combination of electron holes. This single wavelength is specific and can only be used for the specific effect of a special M323898, such as treating acne. It can be improved by using a wavelength range of 410 to 430 nm, or an LED array of two or more different wavelengths of LE:D can be used to obtain two or more effects, such as a red LED and a blue LED. LED arrays achieve both therapeutic effects and produce fewer side effects than laser light therapy and pulsed light therapy. Referring to Fig. 1 and Fig. 2, Fig. 1 is a conventional photodynamic phototherapy device, and Fig. 2 is a LE1D illuminator in Fig. 1. The photodynamic phototherapy device is mainly composed of a plurality of LE] light emitting bodies, a power circuit board 13, a housing 17, and a battery 15, wherein the LED light body η includes crystal grains 112 for emitting a light source, and the LH) light body The outer layer of the 11 is a 5Φ lamp packaged by an encapsulant 110 made of an epoxy resin (Ep〇xy), and the driving current of each of the LED illuminators 11 is in the range of 20 mA to 50 mA. The current control circuit is provided to drive the LED illuminator 11; the housing 17 is formed with an arc-shaped grip for the user to hold (4) the illuminant 11 and the power circuit board 13; the battery 15 is housed in The chamber at the bottom of the housing 17 is electrically connected to the power circuit board 13 to supply the required power. Since the driving current of the single LED illuminator 11 is low (2 mA to 50 roA), the illumination intensity per unit area is low. Therefore, the conventional photodynamic phototherapy device must be provided with a plurality of LED illuminators 11 arranged in an array. In order to provide sufficient illumination intensity, it also causes shortcomings such as large size, heavy weight, and space. It is quite inconvenient to use. Furthermore, the outer layer of the LE:D illuminator u is encapsulated with an epoxy resin (Epoxy), which causes a problem of yellowing of the epoxy resin caused by short-wave and heat, and reduces the brightness of the LED illuminator 11 to cause the LED to emit light. The efficiency of the body 11 illumination is deteriorated. Therefore, how to overcome the various shortcomings of the prior art described above is actually a problem that is currently to be solved. M323898 [New Content] In view of this, this creation provides a kind of phototherapy device, which can effectively reduce the overall volume and reduce the weight, and maintain the brightness of (4) grain illumination under long-term use. Therefore, this creation provides a kind of phototherapy device, which is composed of a light-emitting module, a driving module, a power module and a body. The illuminating module comprises a single led die for emitting diagnostic light and a single (10) die-closed package. The driver is electrically connected to the light emitting module to drive the light emitting module. The power supply group uses the read power supply to the transfer module. This coffee provides the driver module and power module. By virtue of this creation, it can overcome the shortcomings of the conventional technology, the volume and the amount of the light can not be reduced, and the long shed is easy to cause the yellowing of the LED illuminator to reduce its brightness, so as to provide a reduction in the body of the silk. "And the effect of maintaining the brightness of LED luminescence under the long _ creating limbs" is extremely high industrial utilization value. [Embodiment] The following is the actual key-step detailed system _ money point, _ biliary opinion limit 2 this = made scale. It is also worth noting that the following diagrams are simplified schematic diagrams, but only the schematic diagram of the basic concept of the creation of the rumor, the lining of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ And the ruler tree system, the actual scale of each component type, quantity and _ ♦ 观 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 贱 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件 元件Schematic, and the fourth is the single __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ❿ M323898 block diagram. The phototherapy device is composed of a light-emitting module 21, a driving module 23, a power module 25, and a body 27. The illumination module 21 includes a single LED die 211 for emitting diagnostic light, and the single LED die 211 is encapsulated by the encapsulant 210. The illumination module 21 is disposed on the body 27 (as shown in FIG. 3). Or alternatively assembled to the body 27 (as shown in Figure 5), the single LED die 211 is 600um X 600um or more and can withstand 150~15〇〇mA current, and can be of Emitter type ( As shown in Figure 4) or Star (Star) type package. The therapeutic light can be violet light having a wavelength ranging from 4 〇〇 nm to 440 nm, blue light having a wavelength ranging from 440 nm to 470 nm, green light having a wavelength ranging from 5 〇〇 nm to 55 〇 nm, and a wavelength of 550 nm. Yellow light in the range of 600 nm, red light having a wavelength ranging from 6 〇〇 nm to 7 〇〇 nm, or infrared light having a wavelength ranging from 700 nm to 100 Å, and the encapsulating colloid 21 can be smc〇ne. Glass or plastic. The light-emitting module 21 may further include a light-transmitting cover 213 disposed on one side of the light-emitting module 21, so that the single LED die 211 is placed on the transparent cover 213 to emit medical light, and the light-transmissive cover 213 is externally shaped. It can be a circular body or a rectangular body for penetrating the treatment light and preventing external dust from entering the light-emitting module 21. Furthermore, the light-emitting module 21 may also include an optical lens (not shown) for uniformly emitting the diagnostic light from the light-transmitting cover 213, and the optical lens may be a secondary optical lens or a scattering lens. The driving module 23 is electrically connected to the illuminating mode, and the group 2 includes a driving circuit and a control circuit (not shown). The driving circuit is used to drive the illuminating 敝 2W soap to perform the required phototherapy, and the driving circuit can be continued. The lighting mode or the pulse lighting square wire forwarding domain group 2 control circuit is used to control the intensity of the luminosity and to generate the pulse light of the fixed light or the flash. The M323898 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 main body 27 is configured to provide a driving module 23 and a power module 25, wherein the main body 27 further includes a control module 29 for controlling the driving module 23 to drive the lighting module 21, wherein the control module 29 includes control The switch and the transfer switch (not shown) are used to activate or deactivate the power of the power module 25, and the transfer switch is used to adjust the intensity of the light and select the pulse light of the fixed or flash light to be used. When the user uses the light therapy device of the present invention, for example, the light-emitting module 21 for emitting the light of the yellow light having a wavelength ranging from 550 nm to 600 nm can be selected, which can be used to improve the skin replacement of the skin cells. Fight against sorrow, improve skin tone, darkness and relaxation. For another example, a light-emitting module 21 for emitting light of a green light having a wavelength ranging from 500 nm to 550 nm may be selected, which can be used for regulating skin gland function, reducing oily hyper-oily skin, blackheads and acne, etc. In addition, the illumination module 2 that emits different color lights can generate other different wavelengths of diagnosis light to provide a variety of different therapeutic effects. The silk of this creation is based on the illuminating display 21 _ setting a single high-resolution LED die, so it can effectively reduce the volume of the light-emitting module 21 and reduce the weight, and thus reduce the volume of the light therapy device in the overall production. And the weight, and the single LED die 211 is encapsulated by the encapsulant 21〇, for example, Shishijiao, so the use of τ for a long time does not cause the problem of the yellowing of the encapsulant 21 caused by short-wave and heat, so it can be maintained. The brightness of the LED die. In summary, the application of this creation can achieve the reduction of the overall volume and weight of the light therapy device, and can be customized for a long time, can turn the brightness of the LED crystal _, the peak _ although the lack of various 'have already has a high industrial value . M323898 However, the specific embodiments described above are only used to illustrate the characteristics and functions of this creation, and not to limit the implementation of the forest, so the spirit and technical specifications are not disclosed. Any equivalent changes and modifications made using the content disclosed in this work should be covered by the scope of the patent application. [Simple description of the drawings] • Fig. 1 is a schematic perspective view of a conventional photodynamic phototherapy device. φ Fig. 2 is a schematic view of the LH) illuminant in Fig. 1. Figure 3 is a perspective view of the phototherapy device. Figure 4 is a perspective view of the early LED die of the phototherapy device in a packaged gel package - Figure 5 is a three-dimensional view of the light module of the phototherapy device that can be replaced and assembled on the body. . The 苐6 image is a system block diagram of the creative light therapy device. _ [Description of main component symbols] 11 · · · ···· 110 · · · · · · 112.....· 13 · · · ··················· · ·.... ..... LE1D illuminator • · · · Encapsulation colloid • · · · Grain ..... power supply board ..... battery ..... housing ... ..Lighting module M323898 210 .......... encapsulation colloid 211 .......... single LE: D crystal 213 .......... light transmission Cover 23.........Drive Module 25.........Power Core Group 27......... Body 29..... ...control module
1111