412608 C7 D7 五、創作説明卜-) 本發明係有關於一種具遠紅外線放射之纖維之製造 方法,尤指一種確能蓄熱保溫、促進血液循環、抗菌及防 臭之具遠紅外線放射之纖維者。 按’人們身體上的熱量藉由輻射、對流、傳導或其 他的方式不斷流失,因此人們不斷的運用各種方式以防止 人體的熱量流失。 從習知的保暖方式可知,人們係在保溫防寒性服裝 的表層和裏層中間加入厚厚的綿網,使熱傳導率較低的空 氣能保存在衣服内部,例如:棉襖、雪衣等,但此種服裝 穿起來非常的笨重,不但不利於活動,而且相當的不美觀。 又或將一些反射性較強的物質塗在内層的布上,用 以防止體熱散失,可是此種方法會導致布料變硬而變得不 透氣,何況該塗層經過一段時間後便會脫落,因此不十分 恰當。 而紅外線是太陽光的一部份,但因其波長為 〇_75〜1000微米,以人類肉眼無法看見,其中波長 微米的遠紅外線能滲透人體内部15cm,從内部開始發熱, 能促進微血管的擴張,使血液循環順暢,達到新陳代謝的 目的,進而增加身體的免疫力(抵抗力)及治愈率,因此波 長在4〜14微米的遠紅外線即稱為『生育光線』,尤其以 波常在9.36微米左右的遠紅外線為最佳。 又由於遠紅外線除了能增加人體的抵抗力外還具 有防臭、乾燥、除濕、抗菌的效果,因此,用來作為衣物 或其他保暖的用品,十分的適合。 (請先閲讀背面之注意事項再雄寫本頁) I11 .I I —^1 » - -n n . 本紙張尺度遑用中國國家橾率(CNS ) A4it格(2ι〇χ297公釐) 三 經濟部中央標準局貝工消費合作社印裂 412608 C7 一 D7 五、創作説明(二) 於是’在申請案號第79100729號中,日本小室俊夫 先生發明以礬土、鈦(或矽石)及氮化矽並以鉑為添加劑構 成一種遠紅外線放射用之組成物’並混入衣料中用以製作 各種衣物及防寒用品,但因其含量少(0.1〜5%),且添加方 式係直接加入樹酯材料中予以混和煉製,故其分散性及保 暖性並不十分理想。 ' 再者,中國紡織工業研究會亦以氧化鍅、氧化鎳及 二氧化二鋁等成分,混入聚酯中均勻攪拌並添加抗氧化劑 及分散均勻劑’利用雙軸壓出機均勻混合熔融壓出,製成 一含遠紅外線之具蓄熱保溫能力之高分子聚合物(申請案 號第83108561號),雖然此種製法之分散性已較日本小室 俊夫先生之製法為佳,但是其蓄熱保溫效果卻仍不盡理 想。 有鑑於斯,本發明人基於多年從事相關行業之經驗 與技術,進而發明出一種具遠紅外線放射之纖維之製作方 法,期能有效改進習用之缺失,並確能達到預期之功效者。 本發明之主要目的係在於提供一種具遠紅外線放射 之纖維之製造方法。 本發明之次要目的係在於提供一種具有蓄熱保.溫之 具遠紅外線放射之纖維之製造方法。 本發明之又一目的係在於提供一種能促進血液循 環、抗菌、防臭、乾燥及除濕之具遠紅外線放射之纖維之 製造方法。 俾使貝審查委員能更加了解本發明之製法及其功 本紙張尺度適用中國國家標率(CNSTT^I 2丨}------- 四 {請先閲讀背面之注意事項再%寫本頁) 訂 412608 經濟部t央梯隼局真工消費合作杜印製 C7 D7 五、創作説明(三) 效性,茲以下列圖式、附表詳述如後: 第一圖 本發明之具遠紅外線放射之母粒之製作流 程圖。 第二圖 本發明之具遠紅外線放射之纖維之製作流 程圖。 第三圖 本發明之紅外線熱像測試示意圖。 附表一 本發明製成之遠紅外線綿與曰本遠紅外線 綿及七孔中空綿作紅外線熱像測試比較之 實驗數據。 附表二 本發明製成之遠紅外線針織布與市面上遠 紅外線針織布及一般針織布作紅外線熱像 測試比較之實驗數據。 附表三 本發明製成之遠紅外線綿經染色後作紅外 線熱像測試之實驗數據。 附表四 本發明製成之遠紅外線綿内含具遠紅外線 放射之母粒多寡所作之紅外線熱像測試比 較之實驗數據。 附表五 本發明之遠紅外線粉與所製成之遠紅外線 三層保溫棉及遠紅外線單層保溫棉之平均 放射率測定數據。 圖號說明: A 紅外線熱像測溫儀 B 500W鹵素燈 C 測試物品 本紙張尺度遑用中國國家梯半(CNS ) A4規格(210X297公釐) 五 I- -- ^^^1 - - .m ^^^1 l—J^i— I Jl^^i n^i m- - (請先閲讀背面之注意事項再1本頁) 412608 鐘濟部中夬櫺隼局貝工消费合作杜印製 C7 D7 五、創作説明(四) 首先敬請參閱第一圖,將25%氧化鎂、40%氧化鈣、 6·5%氧化結、15%氧化矽、2%镨及11.5%鈽研磨成一微米的 粉末並混合,製成遠紅外線陶瓷粉末,然後利用7〇%〜85% 的遠紅外線陶瓷粉末、10%〜25%的樹脂、2%〜3%的分散劑及 2%〜3%的濕潤劑,經由混合及研磨分散成超高濃度之預備 料’然後將預備料及高濃度塑膠粒混合,按1:1.3〜7·5之 比例做調整’經壓出機製成10%〜30%具遠紅外線放射之母 粒。 再請參閱第二圖,將烘乾之90%〜95%的聚酯粒與 5%〜10%的具遠紅外線放射之母粒混合,利用擠壓機加溫 擠壓’使其成為熔漿’該熔漿經由過濾器過濾將雜質分離, 並經由妨絲機妨絲後’即成為本發明之具紅外線放射之纖 維。 敬請參閱第三圖,本發明經由中國、纺織工業研究中 心之試驗’該試驗係將500W鹵素燈Β置於距測試物品c 斜上方100cm處加熱,用以加熱該測試物品c,並將紅 外線熱像測溫儀A置於測試物品C上方50cm處,且利 用紅外線熱像測溫儀A測試該測試物品C之溫度變化。 經由中國紡織工業研究中心之實驗報告中指出: 1 _如附表一所示’本發明所製作之具遠紅外線放射 之纖維,其經由實驗後得知,利用本發明所製成 之遠紅外線棉在經由500w鹵素燈照射後,其溫度 與照射前相差3.73°C,與日本小室俊夫先生之遠 紅外線棉的溫差2.25C及市面上的七孔中空棉的 本紙張^度逋用中國«家橾隼(〇«)丸4*1格(210父297公釐) 六 (請先聞讀背面之注意事項再填寫本頁) i Γ. 412608 經濟部中央標準局負工消费合作社印裝 C7 D7 五、創作説明(五) 溫差1.95 C做比較後,本發明所製作出之具遠紅 外線放射之纖維其蓄熱保溫效果較佳。 2.如附表二所示,將60%本發明之具遠紅外線放射 之纖維與40%的非遠紅外線Rayon紡成二十一支 紗所作成之針織布,經由500w鹵素燈照射後,其 溫度與照射前相差2.56°C,與一般的針織布的溫 差1.41°C及市面上販售之遠紅外線針織布的溫差 2.1°C相比,結果亦是本發明所製作出之具遠紅外 線放射之纖維製成之針織布的蓄熱保溫效果較 佳,由此可知’本發明所製成之具遠紅外線放射 之纖維其蓄熱保溫效果較之一般市面上保暖衣物 的布料為佳。 3·如附表三所示,將本發明之具遠紅外線放射之_ 維染成淺藍色與深藍色後’與未染色之純白具遠 紅外線放射之纖維及一般的PET均放在5〇〇w鹵 素燈下作比較,結果純白色之具遠紅外線放射之 纖維其溫差為2.3°C,而淺藍色的具遠紅外線放射 之纖維其溫差為2. 69°C,深藍色的具遠紅外線教 射之纖維之溫差為3.05°C,而一般的PET其溫差 則只有1_12°C,由此可知,本發明之具遠紅外巧 放射之纖維經過染色後,其蓄熱保溫效果非但不 會變差反而更好,尤其所染的顏色若為深色系溟 蓄熱保溫效果越佳。 4.如附表四所示,將不同具遠紅外線放射之母粒啥 (請先閱讀背面之注意事項再填寫本貰)412608 C7 D7 V. Creation Instructions-) The present invention relates to a method for manufacturing a fiber with far-infrared radiation, especially a fiber with far-infrared radiation that can indeed store heat and promote heat circulation, antibacterial and deodorization. According to ‘the heat on people ’s body is continuously lost by radiation, convection, conduction, or other methods, so people continue to use various methods to prevent the body ’s heat loss. It can be known from the conventional method of keeping warm that people add thick cotton nets between the surface and inner layers of thermal insulation and cold-proof clothing, so that the air with low thermal conductivity can be stored inside the clothes, such as cotton jackets, snow clothes, etc., but This kind of clothing is very cumbersome to wear, which is not only not conducive to movement, but also quite unattractive. Or apply some highly reflective material to the inner layer of cloth to prevent the loss of body heat, but this method will cause the cloth to harden and become impermeable, not to mention that the coating will fall off after a period of time And is therefore not very appropriate. Infrared rays are part of sunlight, but because of their wavelengths of 0.75 to 1000 microns, they cannot be seen by human eyes. Far infrared rays with a wavelength of micrometers can penetrate 15 cm inside the human body and start heating from the inside, which can promote the expansion of microvessels. , Make blood circulation smooth, achieve the purpose of metabolism, and then increase the body's immunity (resistance) and cure rate, so far-infrared rays with a wavelength of 4 to 14 microns are called "fertility light", especially with waves often at 9.36 microns The left and right far infrared rays are optimal. In addition, in addition to increasing the human body's resistance, far-infrared rays also have deodorizing, drying, dehumidifying, and antibacterial effects. Therefore, it is very suitable for use as clothing or other warm supplies. (Please read the notes on the back before writing this page) I11 .II — ^ 1 »--nn. This paper uses China National Standard (CNS) A4it (2ι297 × 297 mm) for this paper. Standard Bureau of Shellfish Consumer Cooperative Co., Ltd. prints 412608 C7-D7 V. Creation Instructions (2) So 'In Application No. 79100729, Mr. Toshio Komuro invented the combination of alumina, titanium (or silica) and silicon nitride. Pt is used as an additive to form a composition for far-infrared radiation. It is mixed into clothing to make a variety of clothing and cold protection products, but because of its small content (0.1 ~ 5%), and the addition method is directly added to the resin material. Blended and refined, so its dispersibility and warmth are not very satisfactory. 'Furthermore, the China Textile Industry Research Association also mixed ingredients such as ytterbium oxide, nickel oxide and alumina into the polyester and uniformly stirred and added antioxidants and dispersing leveling agents. , Made of a polymer with far-infrared heat storage and heat preservation ability (Application No. 83108561). Although the dispersion of this method is better than that of Mr. Toshio Komuro, the heat storage and heat preservation effect is Still not ideal. In view of this, based on years of experience and technology in the related industries, the inventor has invented a method for making fibers with far-infrared radiation, which can effectively improve the lack of conventional use and indeed achieve the expected efficacy. The main object of the present invention is to provide a method for manufacturing a fiber having far-infrared radiation. A secondary object of the present invention is to provide a method for manufacturing a fiber with far-infrared radiation that has thermal storage and temperature. Another object of the present invention is to provide a method for manufacturing a fiber with far-infrared radiation capable of promoting blood circulation, antibacterial, deodorizing, drying and dehumidifying.俾 Enable the panel reviewer to better understand the method and function of the present invention. Paper standards are applicable to China's national standard (CNSTT ^ I 2 丨) --------- Four {Please read the precautions on the back before writing% Page) Order 412608 The Ministry of Economic Affairs and the Central Government Bureau of Real Estate Consumer Cooperation Du printed C7 D7 V. Creative Instructions (3) Validity, details are as follows with the following diagrams and tables: The first picture of the present invention Flow chart for the production of masterbatches for far-infrared radiation. The second figure is a flow chart of manufacturing a fiber with far-infrared radiation according to the present invention. Figure 3 is a schematic diagram of the infrared thermal imaging test of the present invention. Attached Table 1 Experimental data comparing the far-infrared cotton made by the present invention with the far-infrared cotton of the present invention and the seven-hole hollow cotton for infrared thermal imaging test. Attached Table 2 Experimental data of infrared thermal imaging test comparison between far-infrared knitted fabric made by the present invention and far-infrared knitted fabrics on the market and ordinary knitted fabrics. Attached Table 3 Experimental data of far-infrared cotton made by the present invention after dyeing for infrared thermal imaging test. Attached Table 4 The far-infrared cotton made by the present invention contains far-infrared radiation, and the number of mother particles with far-infrared radiation is compared with the experimental data of the infrared thermal imaging test. Attached Table 5 The average emissivity measurement data of the far-infrared powder of the present invention and the produced far-infrared three-layer insulation cotton and far-infrared single-layer insulation cotton. Description of drawing number: A Infrared thermal imaging thermometer B 500W halogen lamp C Test item The paper size is based on China National Ladder Half (CNS) A4 specification (210X297 mm) Five I--^^^ 1--.m ^^^ 1 l—J ^ i— I Jl ^^ in ^ i m--(Please read the precautions on the back first and then this page) 412608 Zhongji Bureau Zhongli Bureau Shellfish Consumer Cooperative Production Du C7 D7 V. Creative Instructions (IV) First of all, please refer to the first picture, grinding 25% magnesium oxide, 40% calcium oxide, 6.5% oxide junction, 15% silicon oxide, 2% 镨 and 11.5% 钸 into a micron The powder is mixed together to make a far-infrared ceramic powder, and then 70% to 85% of the far-infrared ceramic powder, 10% to 25% of resin, 2% to 3% of a dispersant, and 2% to 3% of a wetting agent are used. Disperse into ultra-high concentration preparative material through mixing and grinding 'then mix the preparative material with high-concentration plastic granules and adjust according to the ratio of 1: 1.3 ~ 7 · 5' 10% ~ 30% by pressing machine Masterbatches of infrared radiation. Please refer to the second picture again. Mix 90% ~ 95% polyester granules which have been dried with 5% ~ 10% mother granules with far-infrared radiation. Use an extruder to heat and squeeze to make it into a slurry. 'The molten slurry is filtered through a filter to separate impurities, and then passed through a silk-screening machine' to become a fiber with infrared radiation according to the present invention. Please refer to the third figure. The present invention has been tested by China ’s Textile Industry Research Center. The test is to place a 500W halogen lamp B at a distance of 100 cm above the test item c to heat the test item c. The thermal imaging thermometer A is placed 50 cm above the test article C, and the infrared thermal imaging thermometer A is used to test the temperature change of the test article C. According to the experiment report of China Textile Industry Research Center: 1 _As shown in Table 1, 'the fiber with far-infrared radiation produced by the present invention, it is known through experiments that the far-infrared cotton produced by the present invention is used After being irradiated by a 500w halogen lamp, the temperature is 3.73 ° C different from that before the irradiation, and the temperature difference between the far-infrared cotton of Mr. Toshio Komuro, Japan is 2.25C, and the paper of seven-hole hollow cotton on the market is ^ degrees.隼 (〇 «) Maru 4 * 1 (210 father 297 mm) 6 (Please read the precautions on the back before filling out this page) i 412608 Printed by the Central Standards Bureau, Ministry of Economic Affairs, Consumer Cooperatives, C7 D7 5 5. Creation Note (5) After comparing the temperature difference of 1.95 C, the fiber with far-infrared radiation produced by the present invention has better thermal storage and heat preservation effect. 2. As shown in Table 2, 60% of the fibers with far-infrared radiation of the present invention and 40% of non-far-infrared Rayon are spun into 21 knitting fabrics. After being irradiated with a 500w halogen lamp, The temperature is 2.56 ° C different from that before irradiation. Compared with the temperature difference of 1.41 ° C of ordinary knitted fabrics and the temperature difference of 2.1 ° C of far-infrared knitted fabrics on the market, the result is also far-infrared radiation produced by the present invention. Knitted fabric made of fiber has better thermal storage and thermal insulation effect, so it can be known that the thermal storage and thermal insulation effect of the fiber with far-infrared radiation produced by the present invention is better than that of general warm clothing on the market. 3. As shown in Schedule III, the fiber with far-infrared radiation of the present invention _ dyed into light blue and dark blue and the undyed pure white fiber with far-infrared radiation and general PET are placed in 50%. 〇w halogen lamp for comparison, the result is pure white fiber with far infrared radiation temperature difference is 2.3 ° C, and light blue fiber with far infrared radiation temperature difference is 2. 69 ° C, dark blue with far The temperature difference of infrared-radiated fibers is 3.05 ° C, while the temperature difference of ordinary PET is only 1-12 ° C. It can be seen that after dyeing the fibers with far-infrared radiation according to the present invention, the thermal storage effect will not change. The difference is better, especially if the dyed color is dark, the better the thermal storage and thermal insulation effect. 4. As shown in the attached table 4, what are the different masterbatches with far-infrared radiation (please read the precautions on the back before filling in this card)
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Cl D7 五、創作説明(六) " ---- 請· λ 聞 1 | I 面 I 之I ϊ I 事I 項 # ! 壤 本f 頁 量之具遠紅外線放射之纖維放在5〇〇w鹵素燈下作 比較,可得知具遠紅外線放射之母粒含量越多之 具遠紅外線放射之纖維的蓄熱保溫效果越佳。 訂 5.遠紅外線之平均放射率越若接近丨,則其吸收人 體所產生的熱能則越高,且吸收後會再將熱能放 ,出來,且由於遠紅外線蓄熱保溫的功能,使熱 量不會流失,而不斷的重複此一動作,能使熱量 快速的提昇’以達到防寒的效果,如附表五所示, 利用本發明波長在8〜12微米之間的遠紅外線粉末 及遠紅外線保溫棉做實驗,經實驗後本發明波長 在8〜12微米之間的遠紅外線粉末及遠紅外線保溫 棉其平均放射率均在0.9以上。 故利用本發明之製作方法所製成之纖維製品,其 功效如下所述: 1·具有極佳之蓄熱保溫效果 2. 利用本發明所製成之保暖用品,因其具有遠紅外 線之特性,故能促進微血管的擴張,使血液循環 經濟部中央標準局貝工消費合作社印$1 順暢,達到新陳代謝的目的,進而增加身體的免 疫力(抵抗力)及治愈率。 3. ,紅外線本身具有防臭、乾燥、除濕、抗菌的功 旎因此本發明之具遠紅外線放射之纖維所製成 之產品’亦具有防臭、乾燥、除濕、抗菌等功效。 綜上所述,本發明確為一能達到消除習用缺失之目 的’且具有實用性及產業上利用之發明,又未於中請前公 各紙張尺度"it用中國國家標率(_ 八 412608Cl D7 V. Creative Instructions (Six) " ---- Please · λ1 1 | I I I 事 I Item #! The amount of fiber with far-infrared radiation placed on the page is placed at 500. Compared with a halogen lamp, it can be known that the more the content of mother particles with far-infrared radiation, the better the thermal storage and thermal insulation effect of fibers with far-infrared radiation. Order 5. The closer the average emissivity of far-infrared rays is, the higher the heat energy it absorbs from the human body, and the heat energy will be released after absorption, and the heat will not be affected due to the far-infrared heat storage and heat preservation function. Lose, and continuously repeat this action, can quickly increase the heat 'to achieve the effect of cold protection, as shown in Table 5, using the far-infrared powder and far-infrared insulation cotton with a wavelength between 8 and 12 microns of the present invention As an experiment, the far-infrared powder and far-infrared insulation cotton with a wavelength between 8 and 12 microns of the present invention have an average emissivity of 0.9 or more after the experiment. Therefore, the fiber products made by the manufacturing method of the present invention have the following effects: 1. It has excellent thermal storage and thermal insulation effects. 2. The warming products made by the present invention have the characteristics of far infrared rays, so It can promote the expansion of microvessels, make the shellfish consumer cooperative of the Central Standards Bureau of the Ministry of Blood Circulation Economy smooth $ 1, achieve the purpose of metabolism, and then increase the body's immunity (resistance) and cure rate. 3. Infrared rays have deodorizing, drying, dehumidifying, and antibacterial functions. Therefore, the product made of the fiber with far-infrared radiation of the present invention 'also has deodorizing, drying, dehumidifying, and antibacterial effects. To sum up, the present invention is indeed an invention that can achieve the purpose of eliminating the lack of custom, and has practicality and industrial utilization. 412608
Cl D7 五、創作説明(七) 開陳列或見於刊物,合於專利法之規定,爰依法向鈞局 申請發明專利,冀貴審查委員詳審後,準予本案發明專 利,不勝感激。 (請先閱讀背面之注意事項再场寫本頁) 訂 經濟部中央揉率局具工消費合作社印製 本紙張尺度適用中國國家橾準(CNS ) A4規格(210X297公釐) 九Cl D7 V. Creative Instructions (7) Opening display or appearing in publications, in accordance with the provisions of the Patent Law, apply for the invention patent to the Jun Bureau in accordance with the law. After a detailed examination by the Jigui Examiner, the invention patent in this case will be granted. It is greatly appreciated. (Please read the notes on the back before writing this page.) Order Printed by the Central Government Bureau of the Ministry of Economic Affairs and printed by the Industrial Cooperative Cooperative. This paper size applies to China National Standard (CNS) A4 (210X297 mm). 9