1314595 <、發明說明: 【發明所屬之技術領域】 、 本發明係有關―種活性碳如旨纖維’特難指—種含高碳量 、 之椰殼活性碳聚酯纖維。 . 【先前技術】 按H纖維因具有其它屬性纖維所不及之諸多優點,因而 • 軌生或讀各躺辭时結合_之懈,聚_維實可謂 纖維中流砥柱。 然而,聚目旨纖維在製造過程中可添加許多材料製成具有特殊 功能的纖維以献不同之需求,因而添加活性碳之潍碳聚醋纖 維’則具備了活性碳高吸附過濾特性。 就吾人所知之活性碳聚酯纖維先前技藝,主要以〇 · 1%〜4 %之活性碳與9 6%—9 9 . 1%之聚自旨纖維混合製造而成,此 鲁 種混合比例製成之活性碳聚酯纖維,固然有其實用、好用之處; 但平心而論該如旨纖維之活性碳所佔百分比相#些微,對於空氣 中之粉塵吸附、過滤成效不彰,歸究原因在於一般之活性碳研磨 技術魏_ 3 0 Q目〜6 Q 〇目之間,以錄㈣大之活性破 與聚酯纖賴佔百分比最大範圍僅能擴張至4%,且3⑽目〜 6 0 0目之活性碳與聚__存在結合_度,以致製造之活 性碳聚賴維產品如衣、褲等,容易_關料或清洗過程產 生活性碳掉落缺失,針^^見在之活性碳聚醋纖維存在之技術課 5 1314595 題,本發明人遂憑藉從事相關行業製造、研發經驗,並經由多次 試做下終於研發出—種『椰殼活性碳聚轉維及其製造方法』, 確貝月b有效達到克服習知技術課題,同時提昇相關產業之技術。 【發明内容】 本發明主要係提供一種含高碳量之椰殼活性碳聚酯纖維及其 製造方法。 本發明椰殼活性碳聚酯纖維製造方法包括: 混合:將混合5 %〜15 %粒徑2 0 Q Q目以上椰殼活性碳 與8 5%〜9 5%聚酯纖維原料通過高溫熔融後,以獲得纺絲炫 體;再經射流步驟:將擠出成型之紡絲熔體經過喷絲板,以形成 溶體射流’復將纺絲溶體射流離開喷絲板,再施以低溫高速A風 氣流驟冷,以形成一初胚纖維;最后,將初胚纖維經拉伸、上油、 乾燥定型、打包等加u序’即可形成-含高碳量之椰殼活性碳 聚酯纖維。 【實施方式】 請配合參照第一圖所示,係本發明椰殼活性碳聚酯纖維製造流 程示意圖,本發明之椰殼活性碳聚酯纖維製造方法,主要包括混 合、射流、初胚纖維及成型等步驟,至於各製程步驟之詳細技術 手段如下所述: 混合(10):混合5%〜15%粒徑2〇〇〇目以上挪殼 活性碳與8 5%〜9 5%聚酯纖維原料通過高溫熔融後,以庐得 6 -1314595 紡絲熔體; 射机(2 〇).將擠出成型之紡絲溶體經過噴絲板,以形成 熔體射流; /刀胚纖維(3 Q ):將_、频射流_噴絲板,再施以低 溫南速冷風氣麵冷,㈣成-她纖維; *成型(4 〇):將初胚纖維經拉伸、上油、乾燥定型、打包 等力、工序,即可形成—含高碳量之椰殼活性碳聚醋纖維。 透過上述製程步驟所製成之椰殼活性碳聚醋纖維,由於挪殼 活性碳之粒麵為2 Q⑽目以,胁減雜碳之粒徑細微 0 0 0目以上’故可藉由細微化之椰殼活性碳與聚醋纖維 輕絲合,俾利以椰殼活性聚酯纖維製成之成品如衣、裤等,無 ,穿著或π洗過程^可藉助於活性碳粒徑細微化*得穩固與聚醋 纖維黏合、不轉落優點;甚至,因椰殼活性碳粒徑突破2⑽ 〇目以上,自_減活性碳重量百分比Α幅提昇至5 %〜丄5 % ’這對結合椰殼活性㈣旨纖維產品而言,可藉活性碳之比重增 加之故喊致更佳之贼附加功效,此乃胃知聚喊維所不及。 由上所述者僅為肋轉本㈣之難實酬,並非企圖據 以對本發觀任何形式上之關,如,凡有在_之發明精神 下所做有關本發明之任何修飾或變更者,皆健包括在本發明意 圖保護之範疇内。 一 综上所述,本發明椰殼活性碳聚g旨纖維製造方法之整體實用 1314595 性及成本效益上,確普曰& ’夏疋元全符合產辈 結構發明亦是具麵所未_二,所需,歸揭露之 應無疑慮,X本翻得大㈣ &以其財新穎性」 于大幅獒歼習知產品之效能,因此亦具有「進 步性」’其疋全付合我國專利法有關發明專利之申請要件的規定, 乃依法提起私mt’魏請細早日絲,並給予肯定。 、1314595 【圖式簡單說明】 第一圖係本發明椰殼活性碳聚酯纖維製造流程方框示意圖。 【主要元件符號說明】 10--- —一一混合 2 0--- 射沁丨匕 3 0--- 初胚纖維 40--- ---成型1314595 <Explanation of the Invention: [Technical Field to Be Invented by the Invention] The present invention relates to a type of activated carbon, such as a fiber, which is particularly difficult to refer to as a high-carbon, coconut-shell activated carbon polyester fiber. [Prior Art] According to the many advantages that H fiber has less than the other properties of the fiber, it is combined with the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ However, in the manufacturing process, a large amount of material can be added to make a fiber having a special function for different needs, and thus the activated carbon carbon-polyvinyl cellulose fiber has a high adsorption adsorption property of activated carbon. As far as the prior art of activated carbon polyester fiber is known, it is mainly made up of %·1%~4% of activated carbon and 96%-99.1% of the self-propelled fiber. The activated carbon polyester fiber produced has its practical and useful features; but it is fair to say that the percentage of activated carbon in the fiber is slightly different, and the effect of dust adsorption and filtration in the air is not good. In the general active carbon grinding technology Wei _ 3 0 Q mesh ~ 6 Q between the eyes, to record (four) large active break and polyester fiber ray percentage of the maximum range can only be expanded to 4%, and 3 (10) mesh ~ 6 0 The activated carbon of 0 mesh has a combination with the poly-__, so that the activated carbon poly-retino products such as clothes, pants, etc. are easily produced, and the active carbon drop is lost during the cleaning or cleaning process, and the needle is found to be active. The technical problem of carbon polyacetate fiber 5 1314595, the inventor of the inventor has been engaged in the manufacturing and R&D experience of related industries, and has finally developed a kind of "coconut activated carbon polymerization and its manufacturing method" through many trials. , it is true that Beiyue b effectively overcomes the technical problems of the prior art, Promote the technology of related industries. SUMMARY OF THE INVENTION The present invention mainly provides a coconut shell activated carbon polyester fiber containing a high carbon content and a method for producing the same. The method for manufacturing the coconut shell activated carbon polyester fiber of the present invention comprises: mixing: mixing 5% to 15% of the particle size of 2 0 QQ mesh above the coconut shell activated carbon and 85% to 95% of the polyester fiber raw material through high temperature melting, To obtain a spinning bristles; and then through a jetting step: the extruded melt melt is passed through a spinneret to form a solution jet, and the spinning solution jet is separated from the spinneret, and then subjected to a low temperature and high speed A. The airflow is quenched to form a virgin fiber; finally, the blaston fiber is stretched, oiled, dried, shaped, packaged, etc., and then formed into a high-carbon coconut shell activated carbon polyester fiber. . [Embodiment] Please refer to the first figure, which is a schematic diagram of a manufacturing process of the coconut shell activated carbon polyester fiber of the present invention, and the method for manufacturing the coconut shell activated carbon polyester fiber of the present invention mainly comprises mixing, jet, primordial fiber and The steps of molding, etc., the detailed technical means of each process step are as follows: Mixing (10): Mixing 5%~15% of the particle size of 2 〇〇〇目 above the shell activated carbon and 8 5%~9 5% of the polyester fiber After the raw material is melted at a high temperature, a spinning melt is obtained by using a 6-1314595 spinning machine; a jetting machine (2 〇). The extruded spinning solution is passed through a spinneret to form a melt jet; / blasting fiber (3) Q): _, frequency jet _ spinneret, and then apply low temperature south speed cold air surface cold, (four) into - her fiber; * forming (4 〇): the blasting fiber is stretched, oiled, dried and shaped , packaging and other forces, processes, can form - high carbon content of coconut shell activated carbon polyacetate. The coconut shell activated carbon polyacetate produced by the above process steps has a particle size of 2 Q(10) for the activated carbon, and the particle size of the reduced carbon is more than 0 mesh, so it can be fined. The coconut shell activated carbon is lightly combined with the polyester fiber, and the finished product made of coconut shell active polyester fiber such as clothes and pants, no, wearing or π washing process can be finely refined by means of activated carbon particle size* It has the advantages of solid adhesion to polyester fiber and no turning; even, because the activated carbon particle size of coconut shell exceeds 2 (10), the weight percentage of activated carbon is increased to 5%~丄5 %. For shell activity (4), for fiber products, the increase in the proportion of activated carbon can lead to better thieves' additional effects, which is beyond the reach of the stomach. The above is only a refusal to pay for this (4), and it is not intended to be based on any form of this invention. For example, any modifications or changes to the invention made in the spirit of the invention. All are included in the scope of the intention of the present invention. In summary, the present invention has the overall practicality of 1318595 and the cost-effectiveness of the method for producing the coconut shell activated carbon, and it is true that the invention is also in line with the generational structure invention. Second, the need, the disclosure should be undoubtedly considered, X has turned over (4) & with its financial novelty to greatly understand the effectiveness of the product, so it is also "progressive" The provisions of the patent law concerning the application requirements of invention patents are to be filed in accordance with the law. 1314595 [Simple description of the drawings] The first figure is a schematic block diagram of the manufacturing process of the coconut shell activated carbon polyester fiber of the present invention. [Main component symbol description] 10----one-one mixing 2 0---shooting 3 0--- primordial fiber 40--- ---forming