1308136 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種蓄能發光陶瓷製品之製造方法,尤 指一種發光時間長、不含鉛以及經釉燒之蓄能發光陶瓷製 品之製造方法’該製造方法產生之蓄能發光陶瓷製品在完 全不靠電力之情況下,吸收來自各方之光源,而儲蓄能量 於蓄能發光陶瓷製品中,當周圍環境無光源或亮度不足 時,其吸收之能量將轉換成自發性光源,既省電又安全, 可應用於各種場所。 【先前技術】 當黑暗來臨或光線昏暗時,人們總會藉由光亮將黑暗 驅逐,而看得到道路或物體,最常使用的就是電燈,然^ 不管是傳統的燈飾或先進的LED都還是需要用到電力,在 無電力情況下,都將毫無用武之地,更何況,能源的短缺 使得人們積極投入大量的人力、物力及財力,尋求更乾 淨、更穩定的能源,也倡導全體人類減少電力的使用,故 太陽能、水力等利用自然力產生能源的方式被人們逐漸開 發,但現階段仍存在造價昂貴、使用無法普及的問題,也 限制於不同的天候狀況和地理環境。 因此,產業界隨之開發具有自發光源之產品,例 如有人以硫化鋅製造發光產品,但是其發光時間短,製程 中含鉛量過高,造成二次污染的問題,再者,雖有人發表 發光石材,該發光石材之製作方式乃是將發光原料融二於 塑膠材料或調合成樹脂,再將其發光塑膠材料製成顆粒', 並以嵌入方式附著於石材表面,或將發光塑膠材料調製成 1308136 夜光漆,以塗佈的方式附著於物體表面,使物體吸收光源 後能自體發光,然而,傳統發光塑膠材料蓄能效果差,故 發光時間短,且一旦刮傷或損壞後,立即失去發光效果, 唯有丟棄之,無法再加利用,將造成環境污染。 緣此’本案之發明人累積多年設計製造之經驗, 經不斷思考、製造及修正,遂有本發明之誕生以解決上述 問題。 【發明内容】 本發明之主要目的係提供一種蓄能發光陶瓷製 品之製造方法,以高温窯燒將混合配料、添加劑或溶劑之 發光陶曼崎’—體成型於胚體上,使該蓄能發光陶曼製 品具有吸光及自體發光之效果,即使成為碎片亦有發光功 能,可做二次利用。 為了達到上述目的’本發明之蓄能發光陶瓷製品 之製造方法,其步驟包含: (1)將發光㈣釉料粉與溶劑均勻混合後塗佈於胚 體;以及 ⑵將胚體置於窯體内»燒,㈣錄溫度及時 間’再置於常溫下冷卻即可完成。 其中’該發光陶:聽料粉可進-步與配料及添加 劑充分混合而紐絲絲“㈣祕體,該胚體 -次窯燒而成的白色釉面磚或究製品,塗佈時可透過且 網目之絲網塗佈、以手淋方式進行,所完叙 畜能發光喊製品於吸收光源後,即可將能量儲存,於里 暗中時再放出光芒,且發光時間長,具有無污染、安全^ 能、光源可靠之優點。 p 1308136 燥,乾燥後進入專業燒製瓷器的快速窯中以850〜1丨80°C燒 製40〜90分鐘,常溫下冷卻即可完成蓄能發光陶瓷製品。 第二實施例 將發光陶瓷釉料粉與水晶透明熔塊以1:1的比例混 合均勻,於胚體上依所需的圖案或文字通過100〜120網 目數的絲網均勻塗佈,其均勻厚度約為1. 0m m,然後進 入專業燒製瓷器的快速窯中以850~1180ΐ燒製40〜90分 鐘’常溫下冷卻即可完成。 • 第三實施例 將發光陶瓷釉料粉與絲網印刷用油以1 : 0.4的比例 均勻授拌成濃稠狀,再以通過40〜60網目數的絲網均勻塗 佈在胚體上,其厚度為0.4〜0. 5mm,常溫乾燥後再套印一 般陶瓷釉料,然後在其表面再均勻塗佈一層陶瓷乾粉透明 釉’再送進專業燒製瓷器的快速窯中以850〜1180。(:燒製 40~90分鐘,常溫下冷卻即可完成。 J四實施例 • 將發光陶瓷釉料粉與水以1:〇. 5〜1:〇. 6的比例均勻混 合,以喷淋(亦即淋轴方式)均勻的塗佈於胚體上,然後 再於表面均勻塗佈一層陶瓷乾粉透明釉,置於常溫下乾 燥,乾燥後進入專業燒製瓷器的快速窯中以85(M18(TC燒 製40〜90分鐘,常溫下冷卻即可完成。 _第五實施| 冑發光陶:聽料粉與喊印則油或水以丨·· 〇. 5的比 例均勻2口,以手工彩繪的方式將所需圖案文字手繪在胚 體常溫了乾燥,乾燥後進入專業燒製变器的快速窯中 以]180 c燒製4〇〜9〇分鐘,常溫下冷卻即完成。 1308136 1六實g 將發光陶究釉料粉製作成發光陶究貼紙,以貼合轉移 的方式貼於胚體上,再進人專#燒製竟 _=m:且燒製40,分鐘,常溫下冷卻即可。黑中 前述之實施例或圖示並非限定本發明之結構樣離或 尺寸,任何所屬技術領域巾具㈣常知識者之適當變化或 修飾,皆應視為不脫離本發明之專利範疇。 運用本發明製作而成的蓄能發光陶瓷製品可在完全 不靠電力的情況下吸收來自各方的外在光源,例如太陽 光、紫外燈、日光燈、鶴絲燈、LED燈、濁光、室内正常 光源……料,外在光源被吸收後魏量保存於本發明之 蓄,發光陶£製品中’當外在光源移除或是夜晚來臨時, 本蓄能發光陶瓷製品將其吸收之能量轉換成自發性光 源’故不使用任何電力即可自發性地發光,無須電力系統 之預留即可安裝’使用靈活簡便,經測試可知,光源照射 本發明之蓄能發光陶瓷製品10至20分鐘就能持續發光12 小時以上,較現有技術或結構之發光表現來的優良。 本發明之製作主要原物料也通過EN_71八大重金屬的 測試,具有不污染環境之環保概念,本發明之蓄能發光陶 竟製ασ可應用於建築、裝飾、逃生安全、公共建設、高樓 建築、軍事設備、隧道、瓷製器皿、瓷製藝品…等等了尤 其運用於緊急救生指示或逃生路線標示上,可在斷電情況 下發揮功效,同時避免電力系統短路造成之火災意外。 再者,傳統發光製品一旦破損則只有丟棄一途,本發 明因具自由吸光及放光的功能,故此本發明之蓄能發光陶 曼製品破損後的碎片同樣具有發光功能,所以這些碎片同 1308136 樣可以運用在其他地方,例如庭園花圃、圍牆頂端的防盜 警示、藝術工作者的自由創作…等,可達到二次利用的功 能,因此,本發明實為全體人類的一大福音,可達到無污 染、安全節能、光源可靠、發光時間長及二次環保的目的 及優點。 綜上所述,本發明實施例確能達到所預期之使用功 效,又其所揭露之具體構造,不僅未曾見諸於同類產品 中,亦未曾公開於申請前,誠已完全符合專利法之規定與 要求,爰依法提出發明專利之申請,懇請惠予審查,並賜 准專利,則實感德便。1308136 IX. Description of the Invention: [Technical Field] The present invention relates to a method for producing an energy-storing luminescent ceramic article, and more particularly to a method for manufacturing an luminescent luminescence ceramic article having a long luminescence time, containing no lead and glazing 'The energy-storing luminescent ceramic product produced by the manufacturing method absorbs the light source from all parties without relying on electric power, and saves energy in the energy-storing luminescent ceramic product, and absorbs when the surrounding environment has no light source or insufficient brightness. The energy is converted into a spontaneous light source that is both power efficient and safe and can be used in a variety of locations. [Prior Art] When darkness comes or the light is dim, people always drive out the darkness by light, and see the road or object. The most commonly used is the electric light. However, whether it is traditional lighting or advanced LED, it is still needed. The use of electricity, in the absence of electricity, will be useless, not to mention, the shortage of energy makes people actively invest a lot of manpower, material and financial resources, seek cleaner, more stable energy, and advocates all humans to reduce electricity The use of solar energy, water power, etc., using natural forces to generate energy has been gradually developed, but at this stage there are still problems of high cost, unusable use, and limited to different weather conditions and geographical environment. Therefore, the industry has developed products with self-luminous sources. For example, some people use zinc sulfide to manufacture luminescent products, but their luminescent time is short, and the lead content in the process is too high, causing secondary pollution problems. Stone, the radiant stone is made by melting the luminescent material into a plastic material or synthesizing the resin, and then making the luminescent plastic material into granules, and attaching to the surface of the stone in an embedded manner, or modulating the luminescent plastic material into 1308136 Luminous lacquer, attached to the surface of the object by coating, so that the object can self-illuminate after absorbing the light source. However, the conventional luminescent plastic material has poor energy storage effect, so the illuminating time is short, and once it is scratched or damaged, it is immediately lost. The illuminating effect, only discarded, can no longer be used, which will cause environmental pollution. Therefore, the inventor of this case has accumulated many years of experience in designing and manufacturing, and has been thinking, manufacturing, and revising, and the invention has been born to solve the above problems. SUMMARY OF THE INVENTION The main object of the present invention is to provide a method for producing an energy-storing luminescent ceramic article, which is formed by embedding a mixture of ingredients, additives or solvents into a body by high temperature kiln firing to make the energy storage. The luminescent Taman products have the effect of absorbing light and self-illuminating, and even if they become fragments, they have a luminescent function and can be used for secondary use. In order to achieve the above object, the method for producing an energy-storing luminescent ceramic article of the present invention comprises the steps of: (1) uniformly mixing the luminescent (four) glaze powder with a solvent and applying the same to the embryo body; and (2) placing the embryo body in the kiln body. Inside»burning, (4) recording temperature and time' can be completed by cooling at room temperature. Among them, 'the illuminating pottery: the listening powder can be further mixed with the ingredients and additives and the new silk "(4) the secret body, the embryo body - the kiln fired white glazed brick or the research product, can be penetrated through the coating And the mesh coating of the mesh is carried out by means of hand dripping. After the narration of the animal can illuminate the product, after absorbing the light source, the energy can be stored, and the light is emitted when it is dark, and the illuminating time is long, and it has no pollution. The advantages of safety and energy source are reliable. p 1308136 After drying, drying into a fast kiln of professionally fired porcelain, firing at 850~1丨80°C for 40~90 minutes, cooling at room temperature can complete the energy storage luminescent ceramic products. In the second embodiment, the luminescent ceramic glaze powder and the crystal transparent frit are uniformly mixed in a ratio of 1:1, and uniformly coated on the embryo body by a screen of 100 to 120 mesh according to a desired pattern or text. The uniform thickness is about 1.0 m, and then enters the fast kiln of professionally fired porcelain and fires at 850~1180 40 for 40~90 minutes. 'It can be completed by cooling at room temperature. · The third embodiment will illuminate ceramic glaze powder and silk Screen printing oil is evenly mixed at a ratio of 1:0.4 The thickness is 0.4 to 0. 5mm, after drying at room temperature, the general ceramic glaze is overprinted, and then uniformly coated on the surface. A layer of ceramic dry powder transparent glaze is then sent to a fast kiln of professionally fired porcelain at 850~1180. (: 40 to 90 minutes of firing, cooling can be done at room temperature. J. Example • Brilliant ceramic glaze powder The water is evenly mixed in a ratio of 1:5.1 to 〇.6, uniformly sprayed onto the embryo body by spraying (that is, the showering shaft method), and then uniformly coated with a layer of ceramic dry powder transparent glaze on the surface. It is dried at room temperature, dried and then placed in a fast kiln of professionally fired porcelain to 85 (M18 (TC is fired for 40~90 minutes, it can be cooled at room temperature. _Fifth implementation | 胄 陶 陶: listening powder and Shouting ink or water with a 丨·· 〇. 5 ratio evenly 2, hand-painted way to hand-paint the desired pattern text in the embryo body at room temperature, dry, dry and enter the rapid kiln of professional firing converter ] 180 c firing 4 〇 ~ 9 〇 minutes, cooling at normal temperature is completed. 1308136 1 Liu Shi g will The light glaze glaze powder is made into a luminescent ceramic sticker, which is attached to the embryo body in a manner of conforming to the transfer, and then enters the special art # 烧烧 _=m: and fired for 40 minutes, cooling at room temperature. The foregoing embodiments or illustrations of the present invention are not intended to limit the structure or size of the present invention, and any suitable variations or modifications of the subject matter of the present invention should be considered as not departing from the scope of the invention. The energy-storing luminescent ceramic product produced by the invention can absorb external light sources from all parties without relying on electric power, such as sunlight, ultraviolet lamp, fluorescent lamp, crane lamp, LED lamp, turbid light, indoor normal light source ..., the external light source is absorbed and stored in the storage of the present invention. When the external light source is removed or the night comes, the energy storage ceramic product converts the absorbed energy into The spontaneous light source 'supplied spontaneously without using any electric power, and can be installed without the reservation of the power system'. It is flexible and simple to use. It can be known that the light source illuminates the energy-storing luminescent ceramic product of the present invention for 10 to 20 minutes. It can continue to illuminate for more than 12 hours, which is superior to the illuminating performance of the prior art or structure. The main raw materials of the invention are also tested by EN_71 eight heavy metals, and have the environmental protection concept of not polluting the environment. The energy storage illuminating ceramics of the invention can be used for construction, decoration, escape safety, public construction, high-rise buildings, Military equipment, tunnels, porcelain utensils, porcelain artware, etc., especially for emergency life-saving instructions or escape route signs, can be used in the event of power failure, while avoiding fire accidents caused by short circuit of power system. Moreover, once the conventional illuminating product is damaged, it is only discarded. The present invention has the function of freely absorbing and illuminating, so that the broken pieces of the luminescent luminaire product of the present invention also have a luminescent function, so these fragments are the same as 1308136. It can be used in other places, such as garden flower beds, anti-theft warnings at the top of the wall, free creation of artists, etc., to achieve the function of secondary utilization. Therefore, the present invention is a great gospel for all human beings, and can achieve pollution-free , safety and energy saving, reliable light source, long lighting time and the purpose and advantages of secondary environmental protection. In summary, the embodiments of the present invention can achieve the expected use efficiency, and the specific structure disclosed therein has not been seen in similar products, nor has it been disclosed before the application, and has completely complied with the provisions of the Patent Law. And the request, the application for the invention of a patent in accordance with the law, please forgive the review, and grant the patent, it is really sensible.
10 1308136 【圖式簡單說明】 第一圖:本發明之步驟流程示意圖 【主要元件符號說明】 <本發明> 步驟二 (1) 步驟一 ⑵10 1308136 [Simplified description of the drawings] First diagram: Schematic diagram of the steps of the present invention [Explanation of main component symbols] <The present invention> Step 2 (1) Step 1 (2)