M423478 五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種光固化塗料之乾燥技術,特別是 指一種可均勻地固化塗佈於指甲的樹脂塗料的固化裝置。 【先前技術】 愛美是人的天性,人們會為了愛漂亮的原因,而在手 指或者是腳指的指甲上塗佈樹脂塗料或是轉貼上各種樣式 的小飾物。轉貼的方式較為費時與不方便,故塗佈該樹脂 塗料以漸漸成為主流。在市面上塗佈於該指曱上的樹脂塗 料,可區分為光固化型及溶劑型兩種。由於溶劑型含有化 學溶劑,使用時會有揮發而影響使用者的身體健康,故近 來漸漸以光固化型的樹脂塗料為主,如此一來,在進行指 甲彩繪時’則需要搭配使用一固化裝置來達到讓該樹脂塗 料固化的目的。 參閱圖1,為一種習知的固化裝置,包含一外殼本體 11、一設置於該外殼本體U内的燈座12,及一電路控制裝 置13。該外殼本體U包括一置放槽m,該燈座a呈一水 平的裝設於該覃放槽U1的正上方,當使用者將塗有樹脂塗 料的手指10置入該置放槽m,藉由該燈座12產生的光源 照射之後,而達到固化樹脂塗料的目的。 但由於指曱的外形是呈一曲度,容易導致該樹脂塗料 受到光源不均勻地照射,而影響到樹脂塗料固化的效果, 故需將該燈座12的尺寸設計的比手掌寬幅大,或者是延長 3 M423478 光源照射的時間來克服此光源照射不均句的缺點,如此_ 來,造成使用成本的增加。另外,習知的固化裝置其耗電 量較高,無法利用電腦周邊的USB插槽,或是一般市售的 乾式电池來提供電力,故在使用上較不具便利性。 【新型内容】 因此,本新型之目的,即在提供一種可以減少使用成 本’且可均勻地固化塗佈於指曱的樹脂塗料的固化裝置。 於是’本新型的固化裝置’用以固化樹脂塗料,該固 化裝置包含一本體單元及一固化單元。 該本體單元包括一具有一平面的基座,及一設置在該 基座並具有一開口的殼體,該基座與該殼體相配合界定出 一與該開口相連通的容置空間。 該固化單元包括數設置於該殼體内側的發光二極體, 該等發光二極體產生的光源具有一主波長,該主波長為 365nm〜410nm。 本新型的有益效果在於:透過該固化單元具有一主波 長為365nm〜410nm的數發光二極體,使塗佈於手指的樹脂 塗料,能均勻地接受到該固化單元的光源照射而固化,藉 此,可降低使用上的成本及縮短使用上的時間。 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 以下配合參考圖式之一較佳實施例的詳細說明中,將可清 4 楚的呈現。 參閱圖2、圖3、圖4,及圖5,本薪型的固化裝置用 以固化樹脂塗料,.該固化裝置包含一本體單元2及一固化 單元3。 該本體單元2包括一具一平面211的基座21、一設置 在該基座21並具有一開口 221的殼體22、一設置於該基座 的電池室24,及一設置在基座的USB插槽25 ^該殼體22 還具有一頂蓋222,及數設置於該頂蓋222内側的導光柱 223 °該基座21與該殼體22相配合界定出一與該開口 221 相連通的容置空間23。該基座21具有一設置於鄰近該殼體 22的開口 221處的感應器212。 該固化單元3包括二分別設置於該殼體22内側的發光 件31,及二反射座組32。每一發光件31具有一基板311及 數没置於該基板3 11相反兩側的發光二極體3 12 »該等基板 311分別定義出一第一平面P1與一第二平面P2。該第一平 面P1及該第二平面P2彼此延伸相交的一夾角θ介於115。 〜125°之間,在該較佺實施例中該夾角θ為12〇。。 每一反射座組32分別具有數設置於外圍的第一反射座 321 ’及數設置於内圍的第二反射座322。每一第一反射座 321與每一第二反射座32.2分別用於反射相對應的每一發光 二極體312產生的光源。每一第一反射座321分別具有一 環繞每一發光二極體312的第一反射面323。定義兩條通過 該第—反射面323的一第一直線L1與一第二直線L2,該第 直線L1與該第二直線L2延伸相交的一第二夾角^^為 每第一反射座322分別具有—環繞每一發光極體 3二的第二反射面324,定義兩條通過該第二反射面324的 -第三直線L3與-第四直線L4’該第三直線L3與該第四 直線L4延伸相交的一第三夾角《2^40。。該等第一反射 f 321,反射的光源具有較高的光功率密度,適合投射到較 遠的角落。該等第二反射座322,負責主要照射區域,並以 重疊照射區域為主要目#。藉此’能涵蓋所有死角並且讓 任何-個區域,都有至少二個以上的該發光二極體312的 光源照射。 該等發光二極體312產生的光源具有一主波長,該主 波長為365nm〜41〇nm,此一波長所產生的能量,可有效提 升樹脂塗料的固化速率。 在本較佳實施例中,該殼體22的頂蓋222由一透明材 料製造而成。該等導光柱223可以用於反射該等發光二極 體312產生的光源,讓該等發光二極體312產生的光源由 整個頂蓋222均勻透出,使該頂蓋222呈發亮現象。 參閱圖6,為該較佳實施例的使用狀態,將塗佈有樹脂 塗料的一手指1透過該開口 221置入於該容置空間23。當 該感應器212偵測到手指1 ’便會啟動該等發光件31產生 照射光源’進而促使樹脂塗料形成固化反應。當該手指1 抽離該開口 221 ’該感應器212偵側不到該手指1,即關閉 該發光件31而不產生光源。 據上所述可知’本新型固化裝置具有下列優點及功 效: M423478 本新型透過該等發光件31與該基座21的平面211呈— 非平行的設置,及該等反射座組32反射該等發光二極體 312產生的光源’在此二者設計的相配合下,能涵蓋所有死 角並且任何一個區域都接受到光源的照射,可使塗佈於指 甲的樹脂塗料能更均勻地接受到該發光件31的光源照射而 產生固化反應。藉此,可大幅降低使用上的成本及縮短使 用上的時間。另一方面,由於本新型是利用該等發光二極 體312產生的光源來進行樹脂塗料的固化反應,具有低功 耗的節能特性,故在使用上可以利用電腦周邊的USB插槽 透過線路與本新型的USB插槽25相連接,或者是在該電池 室24裝設一般的乾式電池來提供本新型使用時所需的電 力。 ^惟以上所述者,僅為本新型之較佳實施例而已,當不 能以此限定本新型實施之範圍,即大凡依本新型申請專利 範圍及新型說明内容所作之簡單的等效變化與修飾,皆仍 屬本新型專利涵蓋之範圍内。 7 M423478 【圖式簡單說明】 圖1是一立體圖,說明習知固化裝置; 圖2是一立體圖,說明本新型固化裝置的一較佳實施 例; 圖3是一立體圖,說明該較佳實施例的一 USB插槽; 圖4是一立體分解圖,說明該較佳實施例各元件的組 合關係; 圖5是一取自圖2中的線V-V的剖視圖;及 圖6是一立體圖,說明該較佳實施例在一使用狀態。 M423478 【主要元件符號說明】 2 .··. ……本體單元 32 •…反射座組 21..· ……基座 321… …·第一反射座 211 · ……平面 322… …·第二反射座 212 · ......感應裔 323… …·第一反射面 22.·.. ……殼體 324… •…第二反射面 221 · ……開口 P1 ··... —弟 平面 222 ·. ••…頂蓋 P2…… —弟一平面 223 ·· ••…導光柱 L1 ·.·· •…第 直線 23..·· ……容置空間 L2…· •…第二直線 24 — ......電池室 L3…· •…第三直線 25..·. ……USB插槽 L4 .··· •…第四直線 3 ……固化單元 Θ…… …·第 夾角 31.... ••…發光件 a 1 ··· •…第二夾角 311 ·· ••…基板 a 2 '-· —苐二爽角 發光二極體 312M423478 V. New description: [New technical field] The present invention relates to a drying technique for a photocurable coating, and more particularly to a curing device for uniformly curing a resin coating applied to a nail. [Prior Art] Beauty is a human nature. People will apply resin paint on their fingernails or fingernails for their beautiful reasons or repost them in various styles. The method of reposting is time consuming and inconvenient, so the coating of the resin coating is gradually becoming mainstream. The resin coating applied to the finger on the market can be classified into a photocurable type and a solvent type. Since the solvent type contains a chemical solvent, it will volatilize during use and affect the health of the user. Therefore, the photocurable resin coating is mainly used recently, so that when the nail painting is performed, a curing device needs to be used together. To achieve the purpose of curing the resin coating. Referring to Fig. 1, a conventional curing apparatus includes a housing body 11, a socket 12 disposed in the housing body U, and a circuit control device 13. The housing body U includes a receiving slot m. The socket a is mounted horizontally above the slot U1. When the user places the resin coated finger 10 into the slot m, After the light source generated by the lamp holder 12 is irradiated, the purpose of curing the resin coating is achieved. However, since the shape of the finger is a curvature, the resin coating is likely to be unevenly irradiated by the light source, which affects the curing effect of the resin coating. Therefore, the size of the socket 12 is designed to be larger than the width of the palm. Or it is to extend the time of 3 M423478 light source to overcome the shortcomings of this source illumination unevenness sentence, so that the cost of use is increased. In addition, the conventional curing device has a high power consumption, and it is not convenient to use the USB slot around the computer or a commercially available dry battery to supply power. [New content] Therefore, it is an object of the present invention to provide a curing device which can reduce the use cost and uniformly cure the resin coating applied to the finger. Thus, the 'curing device of the present invention' is for curing a resin coating, and the curing device comprises a body unit and a curing unit. The body unit includes a base having a flat surface, and a housing disposed on the base and having an opening, the base cooperates with the housing to define an accommodation space communicating with the opening. The curing unit includes a plurality of light emitting diodes disposed on the inner side of the housing, and the light source generated by the light emitting diodes has a dominant wavelength, and the dominant wavelength is 365 nm to 410 nm. The utility model has the beneficial effects that the curing unit has a plurality of light-emitting diodes having a dominant wavelength of 365 nm to 410 nm, so that the resin coating applied to the finger can be uniformly received by the light source of the curing unit to be solidified. This can reduce the cost of use and shorten the time of use. [Embodiment] The foregoing and other technical contents, features, and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments. Referring to Figures 2, 3, 4, and 5, the curing device of the present salary type is used to cure a resin coating. The curing device comprises a body unit 2 and a curing unit 3. The main body unit 2 includes a base 21 having a flat surface 211, a housing 22 disposed on the base 21 and having an opening 221, a battery compartment 24 disposed on the base, and a base disposed on the base. The USB slot 25 has a top cover 222 and a light guide column 223 disposed on the inner side of the top cover 222. The base 21 cooperates with the housing 22 to define a connection with the opening 221 The accommodation space 23 is. The base 21 has an inductor 212 disposed adjacent the opening 221 of the housing 22. The curing unit 3 includes two illuminating members 31 respectively disposed inside the casing 22, and two reflecting blocks 32. Each of the light-emitting elements 31 has a substrate 311 and a plurality of light-emitting diodes 3 12 not disposed on opposite sides of the substrate 3 11 . The substrates 311 define a first plane P1 and a second plane P2, respectively. An angle θ at which the first plane P1 and the second plane P2 intersect each other is 115. Between ~125°, the angle θ is 12〇 in this comparative embodiment. . Each of the reflection block groups 32 has a plurality of first reflection seats 321 ' disposed at the periphery and a second reflection seat 322 disposed at the inner circumference. Each of the first reflectors 321 and each of the second reflectors 32.2 are respectively configured to reflect the light source generated by each of the corresponding LEDs 312. Each of the first reflecting seats 321 has a first reflecting surface 323 surrounding each of the light emitting diodes 312. Defining a first straight line L1 and a second straight line L2 passing through the first reflecting surface 323, a second angle intersecting the first straight line L1 and the second straight line L2 is defined for each of the first reflecting seats 322 a second reflecting surface 324 surrounding each of the light emitting bodies 3, defining two third straight lines L3 and a fourth straight line L4' passing through the second reflecting surface 324, the third straight line L3 and the fourth straight line L4 Extend the intersection of a third angle "2^40. . The light source reflected by the first reflection f 321, has a high optical power density and is suitable for projecting to a far corner. The second reflecting seats 322 are responsible for the main irradiation area, and the overlapping irradiation areas are mainly #. Thereby, all the dead angles can be covered and any one of the areas can be illuminated by at least two light sources of the light-emitting diode 312. The light source produced by the light-emitting diodes 312 has a dominant wavelength of 365 nm to 41 〇 nm, and the energy generated by the wavelength can effectively increase the curing rate of the resin coating. In the preferred embodiment, the top cover 222 of the housing 22 is fabricated from a transparent material. The light guides 223 can be used to reflect the light sources generated by the light-emitting diodes 312, so that the light sources generated by the light-emitting diodes 312 are uniformly transmitted through the entire top cover 222, so that the top cover 222 is bright. Referring to Fig. 6, in the state of use of the preferred embodiment, a finger 1 coated with a resin coating material is placed in the accommodating space 23 through the opening 221 . When the sensor 212 detects the finger 1 ', the illuminating members 31 are activated to generate an illuminating light source' to cause the resin coating to form a curing reaction. When the finger 1 is pulled away from the opening 221', the sensor 212 does not detect the finger 1, that is, the light-emitting member 31 is turned off without generating a light source. According to the above description, the new curing device has the following advantages and effects: M423478 The non-parallel arrangement of the illuminating member 31 and the plane 211 of the susceptor 21, and the reflecting block group 32 reflect the same The light source generated by the LED 312 can be designed to cover all dead angles and any area can be irradiated with the light source, so that the resin coating applied to the nail can be more uniformly received. The light source of the light-emitting member 31 is irradiated to generate a curing reaction. This greatly reduces the cost of use and shortens the time spent on use. On the other hand, since the present invention utilizes the light source generated by the light-emitting diodes 312 to perform a curing reaction of the resin coating material, and has energy-saving characteristics of low power consumption, the USB slot through the computer can be used through the line. The USB slot 25 of the present invention is connected, or a general dry battery is installed in the battery compartment 24 to provide the power required for the novel use. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention cannot be limited thereto, that is, the simple equivalent change and modification of the novel patent application scope and the new description content. , are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a conventional curing device; FIG. 2 is a perspective view showing a preferred embodiment of the present curing device; FIG. 3 is a perspective view showing the preferred embodiment Figure 4 is an exploded perspective view showing the combination of components of the preferred embodiment; Figure 5 is a cross-sectional view taken from line VV of Figure 2; and Figure 6 is a perspective view of the same The preferred embodiment is in a state of use. M423478 [Description of main component symbols] 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Block 212 · ...... Inductive 323... The first reflecting surface 22...·.....The housing 324...•...the second reflecting surface 221 · The opening P1 ··... 222 ·. ••...Top cover P2......——Different plane 223 ·· ••...Light guide column L1 ···· •...Line straight line 23..··... accommodation space L2...·......second line 24 — ...... Battery compartment L3...· •...third straight line 25..·.......USB slot L4 .··· •...fourth straight line 3...curing unitΘ...··the angle 31.... ••...Lighting part a 1 ··· •...Second angle 311 ··••...substrate a 2 '-· —苐 two refreshing light emitting diode 312