M368112 五、新型說明 【新型所屬之技術領域】 本_係為i鐘之時刻長效夜光結構,特別 射曰-種付以使鐘之時刻於夜間均勻顯示亮度外,更 能增長夜光時效之時刻顯示結構。 【先前技術】 # 傳統鐘欲在夜間顯示時刻,通常係在鐘面時間數 字上或鐘殼座面板上直接塗场光轉或夜光漆,利 用螢光塗料或夜光漆做光能,而在賴釋放光能, 令使用者在夜間看的到鬧鐘時間;然而傳統鬧鐘之時 刻夜光結構,通常是以夜絲為原料與化學液劑相混 合構成螢光塗料或仪光漆,直接塗佈在時間數字或面 鲁板上(如第一圖),由於夜光粉之组織態樣是呈現細微 粉粒A,與化學液劑混合並無法完全溶解,因此完成 的夜光塗料組織則包含有可受光之球狀夜光粉粒A和 • 不會受光之縫隙組織B (如第二圖);當傳統夜光層受 * 光時,因夜光粉粒A受光面積僅限為球面,無法全面 受光’使得在夜間釋放光能時’各粉粒A間因有不釋 光之縫隙B,夜光效果往往是點狀釋光(如第二、三 3 M368112 5並無法全面均勻釋光,導致傳統鐘在夜_示總 疋7使用者感到不夠亮;再者傳統細夜光層釋光面 積為整個球關师光,縣面積較大’其間又具有 不釋光之騎_,同步釋騎令夜間舰光能之時 間相對變短,故傳統鐘之咖夜光亮度是薄弱夠的且 無法持久。 【新型内容】 本創作之主要目的,係提供—種鐘之時刻長效夜 光結構,该夜光層受光面之組織改良以内非粉粒 結構之錄雜’絲朗之_呈全面紮實之 平面結構,經平面高能量儲存光能,再以均勻的 平面釋光方式提昇亮度。 二、本創作之另一目的係提供一種鐘之時刻長效夜光 結構’以夜光層呈全平面均勻受光,聚光深度較 厚,釋光面積較小,釋光時效拉長,可延長夜光 時效。 二、本創作之再一目的係提供一種鐘之時刻長效夜光 結構,夜光層上印刷有非夜光之時刻數字,利用 非夜光數字蓋住夜光層之光差效果,使時刻數字 4 M368112 、 刻度顯示更為明亮。 • 【實施方式】 • 請參閱第四圖所示,本創作之時刻夜光結構包含一 基板,該基板1係貼附於鐘之殼身鐘面ι〇上;一夜光 •層2 ’細非絲錄與轉_齡絲之夜光漿 •(螢光漿)直接塗佈於該基板1上,使塗佈在基板! • 上形成之夜光層組織呈全面紮實的平面結構(如第五 圖);一數料_ 3,鱗刷於夜光層2上,為不具 仪光效果之印刷層(如第五圖)。 當夜光層2簡钟面之受絲,全面吸收集光在 -平面後,於夜_m全平岐辆放絲(如第六 圖)’由於平面釋光的密度較高,故可提高夜光亮度, 鲁 _放光源再受數字刻度層3之遮蔽,產生強弱之光 差,得以使鐘之數字刻度在夜間更為凸顯,達到夜間 明亮顯示_之效果(如第蝴)。再者,_平面組 織的欠光面聚光深度較厚,釋光密度較集中,釋光面 .積較小,娜光時絲長’可延纽光時效(如第八 圖)。 如第九圖所示之本創作另一較佳實施例,包含一基 5 M368112 板4 ’該基板4係貼附於鐘之殼身鐘面4〇上;一夜光 層41,係以非夜光粉粒與化學液劑混合完成之夜光漿 (螢光漿)直接塗佈於該基板4上,使塗佈在基板4 上形成之夜光層組織呈全面紮實的平面結構;一數字 刻度層42係直接由基板4凸起一高度,該數字刻度 層42為不具夜光效果之立體結構(如第十圖)。 根據第十一圖所示之本創作又一較佳實施例,包含 一基板,該基板5係貼附於鐘之殼身鐘面52上;一夜 光層50,係以非夜光粉粒與化學液劑混合完成之夜光 漿(螢光衆)直接塗佈於該基板5上’使塗佈在基板 5上形成之夜光層組織呈全面紮實的平面結構;一數 子刻度層51,將數字刻度直接貼附於透明片53,以該 透明片53貼附於夜光層50 (如第十二圖)。 如第十三圖所示之本創作再一較佳實施例,包含一 基板’該基板6係貼附於鐘之殼身鐘面6〇上;一夜光 層61,係係以非仪光粉粒與化學液劑混合完成之夜光 »(螢光漿)直接塗佈於該基板6上,使塗佈在基板 6上形成之夜光層組織呈全面紮實的平面結構;一數 予刻度層62,自夜光層將數字刻度直接成型鏤空型態M368112 V. New description [New technical field] This is the long-lasting luminous structure of the time of the i-clock. It is specially shot-typed to make the clock evenly display the brightness at night, and it can increase the time of luminous aging. Display structure. [Prior Art] # Traditional clocks want to display the time at night, usually by directly applying the field light or luminous paint on the clock face number or the clock shell panel, using fluorescent paint or luminous paint to do light energy. The release of light energy allows the user to watch the alarm time at night; however, the traditional alarm clock momentary structure is usually made up of night silk as a raw material and chemical liquid mixture to form a fluorescent paint or varnish, which is directly coated in time. On the digital or surface panel (as shown in the first figure), since the tissue of the luminous powder is a fine powder A, it is not completely dissolved by mixing with the chemical liquid, so the finished luminous coating tissue contains light-receiving Spherical luminous powder A and • will not be exposed to the light gap B (as shown in the second figure); when the traditional luminous layer is subject to * light, because the luminous area of the luminous particles A is limited to the spherical surface, it cannot be fully received 'making at night When releasing light energy, there is a gap B between the individual particles A, which is often a point-like light release (such as the second and third 3 M368112 5 and can not fully and evenly emit light, resulting in the traditional clock at night _ Total 疋7 user sense Not bright enough; in addition, the traditional fine-night light-emitting area is the entire ball-off light, and the county area is larger. In the meantime, there is a ride that does not emit light. The synchronous release of the night makes the time of the night ship light energy relatively shorter, so the traditional Zhongzhi The brightness of the coffee night light is weak enough and can not last. [New content] The main purpose of this creation is to provide a long-lasting luminous structure of the bell, which is modified by the organization of the smooth surface to improve the recording of non-powder structure. Silky _ is a solid flat structure, which stores light energy through plane high energy, and then enhances brightness with uniform plane light release. Second, another purpose of this creation is to provide a long-lasting luminous structure of the clock. The luminous layer is uniformly received by the whole plane, the collecting depth is thicker, the light-emitting area is smaller, and the aging time is longer, which can prolong the luminous aging. Second, the purpose of this creation is to provide a long-lasting luminous structure of the clock. The non-night light moment number is printed on the luminous layer, and the non-night light number is used to cover the luminous difference effect of the luminous layer, so that the time number 4 M368112 and the scale display are brighter. Mode] • Please refer to the fourth figure. The luminous structure of this creation includes a substrate attached to the clock face of the bell body; one night light layer 2 'fine non-wire recording and turning _ Age Silk Night Glue • (Fluorescent Paste) is directly applied to the substrate 1 to be coated on the substrate! • The luminous layer formed on the substrate is in a fully solid planar structure (as shown in the fifth figure); _ 3, the scale brush on the luminous layer 2, for the printing layer without the illuminating effect (such as the fifth picture). When the luminous layer 2 simple clock face is received by the silk, the overall absorption of the light in the - plane, at night _m The flat-panel wire is released (as shown in the sixth figure). Because the density of the plane light is higher, the brightness of the night light can be improved. The light source is shielded by the digital scale layer 3, resulting in a strong and weak light difference. The digital scale is more prominent at night, reaching the effect of bright display at night (such as the first butterfly). Furthermore, the opaque surface of the _planar tissue has a thicker concentrating depth, a more concentrated luminescence density, a smaller luminescence surface, and a longer ray aging time (as shown in the eighth figure). Another preferred embodiment of the present invention, as shown in the ninth embodiment, comprises a base 5 M368112 plate 4' which is attached to the bell face 4 of the bell body; a luminous layer 41 which is non-luminescent The luminous paste (fluorescent slurry) prepared by mixing the powder particles and the chemical liquid agent is directly coated on the substrate 4, so that the luminous layer formed on the substrate 4 has a completely solid planar structure; a digital scale layer 42 Directly raised from the substrate 4 by a height, the digital scale layer 42 is a three-dimensional structure without a luminous effect (such as the tenth figure). According to still another preferred embodiment of the present invention shown in FIG. 11 , a substrate is attached, which is attached to the clock face 52 of the bell; a luminous layer 50 is made of non-luminescent particles and chemistry. The liquid crystal slurry (fluorescent) is directly coated on the substrate 5 to make the luminous layer formed on the substrate 5 have a completely solid planar structure; a plurality of scale layers 51, the digital scale It is directly attached to the transparent sheet 53, and the transparent sheet 53 is attached to the luminous layer 50 (as shown in Fig. 12). According to a further preferred embodiment of the present invention, as shown in the thirteenth embodiment, the substrate 6 is attached to the clock face 6 of the body of the bell; a luminous layer 61 is used for the non-meter powder. The luminous light (the fluorescent paste) mixed with the chemical liquid agent is directly coated on the substrate 6, so that the luminous layer layer formed on the substrate 6 is in a completely solid planar structure; The digital scale is directly formed into a hollow type from the luminous layer