1226317 五、發明說明( 形成ί發Γ為Γ種以脂肪酸誘導體與奈米級遠紅外線基材 作出來Γ°Γ料’特別是一種可添加於化纖樹脂中,讓製 母料。’人造纖維具有較佳強初性與遠紅外線性質之複合 生熱Γ紅1卜線是種不可見光,其利用光波長的變化可以產 遠:二:用於人體的遠紅外線’其中波長與人體放射的 通、、、工外線相同之部份(4 — 1、 相 1 4 //m),互相作用且頻率 守17 g產生共振及溫熱現象,對人體有下列作用一 子流^。·使人體中附著細胞表面的水分子振動,加速約離 2 ·促使細胞活化。 3 ·會滲透皮下組織深層產生熱反應使溫度升高,微 。官擴張及血液循環順暢’改善血液循環及促進新陳代謝 ,因此’遠紅外線多半應用於健康醫療效果的相關產品 ’而以紡織品用的最多,可讓人體可以長時間接受遠紅外 線促進血液循環良好、細胞活化、促進新陳代謝的好處。 _ I前最受纺織業界矚目的遠紅外線纖維,其經測試顯 :確實能提供保暖功能,其係將具有可放射4 — ^ 4以田 遠紅外線的礦石,如麥飯石、蛇紋石、花岗石與石夕礦石"等m :此類礦石含有氧化ls、氧化鎮、二氧化鈦及二氧化石夕等 氧化物加上氧化錯,經過適當比例燒結後,再研磨成顆粒 狀,其粒度約為〇 . 〇 3 — i 〇 Am。 ’、 將上述粉末與纖維原料複合後抽成絲即為遠紅外線纖 本紙張尺度適用中國國家標準(CNS)A4規才各(21〇 χ 297公董) -裝 .—訂Γ — :------線 (請先閱讀背面之注意事項再填寫本頁) 1226317 4 A71226317 V. Description of the invention (Formation of Γ is made of Γ species with fatty acid inducer and nano-level far-infrared substrate. Γ ° Γ material 'especially a kind that can be added to chemical fiber resins to make masterbatches.' The composite heat generation with better strong primary and far-infrared properties is a kind of invisible light, which can produce far using the change in the wavelength of light: two: far-infrared for the human body The same parts (4-1, phase 1 4 // m) interact with each other and the frequency keeps 17 g to produce resonance and warming phenomenon, which has the following effects on the human body ^. The water molecules attached to the surface of the cell vibrate and accelerate about 2 · Promote cell activation 3 · Will penetrate into the deep layer of the subcutaneous tissue to generate a thermal response to increase the temperature, slightly. Official expansion and smooth blood circulation 'Improve blood circulation and promote metabolism, so' Far-infrared rays are mostly used in health-related medical products. Most textiles are used, which allows people to accept far-infrared rays for a long time to promote good blood circulation, cell activation, and new The benefits of metabolism. _ The far-infrared fiber that has attracted the most attention from the textile industry before testing has shown that it can indeed provide thermal insulation. It will have ore that can emit 4-^ 4 far-infrared rays, such as Maifan stone, Serpentine, granite, and stone ore " etc. m: This type of ore contains oxides such as oxidized ls, oxidized ball, titanium dioxide, and dioxide, plus oxidized oxide. After sintering at an appropriate ratio, it is ground into particles. , Its particle size is about 0.03-i 〇Am. ', The above powder and fiber raw materials are composited and drawn into silk is far-infrared fiber paper size applicable to Chinese National Standard (CNS) A4 regulations (21〇χ) 297 public director)-equipment. — Order Γ —: ------ line (Please read the precautions on the back before filling this page) 1226317 4 A7
五、發明說明(VO f二=業對遠紅外線粉末的需求量很大,但因粉末 ==,部份粒徑過大而無法通過纺嘴之抽絲孔, 又其物貝的特性與傳統加工之人造纖維原料不同’因此在 抽絲、織造、染整、及保養上易發生下列問題. …卜因纖維原料中含有不定型及晶型礦石,同時其粒 徑杈大,造成抽絲及後續加工時極易斷紗。 2 ·紗支的均勾度差’織造時必需降低速度,追使製 作成本提高。 & 紗支磨擦力較大,易使針織紗因高溫變黑。 因顆粒堵塞餵紗口影響速度及品質。 可均染的染料有限,色澤變化不多。 内含礦石粉末使得布料手感較為粗糙及僵硬。 遠紅外線紡織品會因水洗次數的增加而使基材粉 導致蓄能效能遞減之問題。 因此,本發明者構思出一種以脂肪酸誘導體與奈米級 遠紅外線基材形成之複合母料,其目的在於克服上述遠紅 外線纖維製作上以及產品品質方面的問題,可為紡織市場 帶來極大的商機。 ,本务明之主要目的,在於提供一種以脂肪酸誘導體與 奈米級遠紅外線基材形成之複合母料,其主要係以脂肪酸 誘導體與遠紅外線基材顆粒複合,經過加熱攪拌溫度控制 後’讓遠紅外線基材顆粒沉澱分級為奈米級與微米級,以 形成一種具有奈米級遠紅外線基材粉粉末之複合母料,之 後再複合於化纖樹脂中,可讓化纖樹脂在製成遠紅外線纖 本纸張尺度適用中國國家標準(CNS)A4規格(210 x 297公釐)V. Description of the invention (VO f2 = The industry has a great demand for far-infrared powder, but because the powder ==, part of the particle size is too large to pass through the spinning holes of the spinning nozzle, and its properties and traditional processing The raw materials of artificial fibers are different, so the following problems are easy to occur in spinning, weaving, dyeing and finishing, and maintenance. ... Bu Yin fiber raw materials contain amorphous and crystalline ores, and their particle size branches are large, resulting in spinning and subsequent Yarn breaks easily during processing. 2 · Poor uniformity of yarn count. 'Speed must be reduced during weaving to increase production costs. &Amp; The frictional force of yarn count is large and it is easy to blacken knitting yarn due to high temperature. Blocked by particles Yarn feeding affects speed and quality. The dyes that can be dyed are limited, and the color is not much changed. The ore powder contained makes the cloth feel rough and stiff. Far-infrared textiles will cause the base powder to cause energy storage performance due to the increase in the number of washing times. The problem of diminishing. Therefore, the present inventor conceived a composite masterbatch composed of a fatty acid inducer and a nano-level far-infrared substrate, and the purpose of which is to overcome the above-mentioned far-infrared fiber manufacturing and production. The quality problems can bring great business opportunities to the textile market. The main purpose of this matter is to provide a composite masterbatch formed by a fatty acid inducer and a nano-level far-infrared substrate, which is mainly induced by fatty acids. The body is compounded with far-infrared substrate particles, and after heating and stirring temperature control, the far-infrared substrate particles are precipitated and classified into nanometer and micron grades to form a composite masterbatch with nanometer-level far-infrared substrate powder. It is then compounded in chemical fiber resin, which can make the chemical fiber resin into far-infrared fiber. The paper size is applicable to China National Standard (CNS) A4 (210 x 297 mm).
1226317 A7 ---------B7____ 五、發明說明(汐) ' 維過程中優質化與快速化,以製作出之高品質之人造纖維 為達到前述的發明目的,本發明之以脂肪酸 ==紅外線基材形成之複合母料包括有:脂肪酸誘導 心入不米級遠紅外線基材粉末均勻複合而成。 為使貴審查委員能進一步瞭解本發明之特徵 目的’配合參照第-圖,詳細說明如后: 及/、匕 一特別注意的是,圖中所示之步驟分為兩大部份,由,,將 瓷姑土 μ 一氧化錯混合粗碎”到,,細碎燒結產物至3〜1 〇 =’’為-般製作遠紅外線基材之方法。其餘部份為將脂 馱4導體與奈来級遠紅外線基材形成複合母料。 遠紅外線基材主要原料為礦石,如麥飯石、蛇紋 :花崗石與矽礦石等,此類礦石含有氧化鋁、氧化鎂、 化鈦及二氧化矽等氧化物加上氧化锆,經過適當比例 燒結後,再研磨成顆粒狀形成遠紅外線基材顆粒。田 另一方面,特別列舉其它各種礦石與氧化锆燒結成遠 紅外線基材之具體混合比例實施例-- 例一:陶瓷材料:8 0 % ;氧化錯:2 0 % 例二:麥飯石:8 0 % ;氧化鍅:2 0 % 例三:火山熔岩:8 5% ;氧化锆:1 5% 例四:煉鋼廢爐石:8 2 % ;氧化锆:1 8 % ; 、由於一般可以製成遠紅外線基材之礦石眾多,以上僅 為舉例說明,實際操作之添加比例則不限定於此四例,因 不门之运紅外線條件及不同成份以不同比例適度調整。 5 家標準(CNS)A4 規格(210 X 297 公釐 1 ------ -------Γ ^^------ (請先閱讀背面之注意事項再填寫本頁) A7 B7 200 °C,最佳為 1〇〇〇 t 1226317 五、發明說明(#) 燒結條件: 燒結溫度:9 0 0 燒結時間:4 0〜6 0分鐘,最佳為5 〇分鐘。 本發明主要係提供一種以脂肪酸誘導體與奈米級遠紅 外㈣材形成之複合母料,其中成份包括有脂肪酸誘導體 :广外、▲基材顆粒之成份複合,複合方式係、將脂肪酸誘 V月“角牛成液悲、狀後與奈米級遠紅外線基材顆粒混合,並 在反應鋼中經加熱,在1 Q 〇 - 2 0 (TC的溫度時,攪拌 3 0 5 0分鐘,然後讓讓溫度逐漸下降,其中當溫度為 2 0 0 C日守攪拌速度為3 Q 〇 rpm ;當溫度為1 5 〇它時攪 拌速度S200RPM;當溫度為1 時攪拌速度為丄〇 0RPM ;在加熱攪拌的過程中遠紅外線基材顆粒會受熱液與 攪拌力的作用,再經過溫度控制攪拌複合均勻後,由於較 細微之奈米級遠紅外線基材粉末會因重力作用的關係懸浮 於上層,經此沉澱分級為3 〇 nm — 8 〇 〇 nm&8 〇 n m— 1 〇 之奈米級顆粒分層,因此取上層之複合溶液 經喷霧冷卻成常溫下固態,4進一步再添加適量的脂肪酸 誘導體,即為具有奈米級遠紅外線基材粉末之複合母料, 並將其製成為粒狀之複合母料。 而脂肪酸誘導體為EBS ( N,N,-ethylene bisstearoamide,乙烯二硬脂醯胺),其作為可讓遠紅外 線基材粉末懸浮之載體,並使其進一步易於均勻分佈在化 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公复) •裝-------f訂-ΓΙ:------線 (請先閱讀背面之注意事項再填寫本頁) 1226317 A7 五、發明說明(f 纖樹脂中,其中脂肪酸誘導體常用適當溶解溫度為丄5 〇 c另外,複合,谷液之中、下層由於其遠紅外線基材顆粒 較粗,因此不適用於紡紗之化纖纖維之製程中,將此微米 級粒子用於薄膜或塑膠射出或製作其它不須精細化顆粒之 具遠紅外線功能製品時使用。 當完成本發明之複合母料時,可將複合母料進一步與 各種化纖樹脂進行複合,以進行人造纖維之製作,首先在 各種化纖樹脂,添加入前述之複合母料,讓化纖樹脂與複 料依比例複合,使遠紅外線基材粉末在化纖樹脂中之 各里為3 8 %,並加以鬲溫、高壓、高扭力攪拌設備混 練’使兩種成份均勻分散,即可讓化纖樹脂中擁有分散均 勻的奈米級遠紅外線基材粉末,之後抽絲形成具有遠紅外 線粉末性質之人造纖維。 在此過程中,脂肪酸誘導體除了作為讓奈米級遠紅外 線基材粉末均勻分散的載體外,同時作為一種潤滑劑,讓 遠紅外線基材粉末在與化纖樹脂複合後的紡紗過程中,不 易阻塞於紡絲紡嘴,使得化纖纖維容易抽絲成功。 為了桌番查委員能進一步瞭解本發明之具體操作 實施狀態分述如下: 步驟-:遠紅外線基材粉體調整濕度(可穩定粉體 · 體多次研磨) s 將遠紅外線基材粉體調濕並添加工%之乙稀二硬脂酿 胺(N’N-ethylene bis_stear〇amide ’簡稱 ε β $ )或類 似這類型態之硬脂類界面活性劑,即可在粉碎尹防止红外 本紙张尺度適用中國國家標準(CNS)A4規格(210x297公爱 (請先閱讀背面之注意事項再填寫本頁) ▼裝--------訂ΓΙ:------線 A71226317 A7 --------- B7____ V. Description of the invention (Xi) In the process of maintaining quality and speed, the high-quality artificial fiber produced is used to achieve the aforementioned purpose of the invention. == The composite masterbatch formed by the infrared base material includes: the fatty acid induces the heart into the meter-level far-infrared base powder uniformly compounded. In order to allow your reviewers to further understand the characteristics of the present invention, the details are described below with reference to the following figure: and / or, a special note is that the steps shown in the figure are divided into two parts. , Mix the porcelain monoxide oxidized together and coarsely crushed "to, and finely crush the sintered product to 3 ~ 1 0 =" is a method for making far-infrared substrates in general. The rest is the method of combining the lipid 4 conductors with Nerai. Grade far-infrared base material forms composite masterbatch. The main raw material of far-infrared base material is ore, such as maifanite, serpentine: granite and silicon ore, etc. This type of ore contains alumina, magnesium oxide, titanium oxide and silicon dioxide. The oxide plus zirconia is sintered at an appropriate ratio, and then ground into particles to form far-infrared substrate particles. On the other hand, specific examples of specific mixing ratios of various other ores and zirconia sintered to form far-infrared substrates are specifically listed. -Example 1: Ceramic material: 80%; Oxidation error: 20% Example 2: Maifan stone: 80%; Hafnium oxide: 20% Example 3: Volcanic lava: 8 5%; Zirconia: 1 5% Example 4: Steelmaking waste furnace stone: 82%; Zirconia: 18 %; , Because there are many ores that can be made into far-infrared base materials, the above is just an example. The actual operation addition ratio is not limited to these four cases. Due to the inexhaustible infrared conditions and different components, it is appropriately adjusted with different ratios. . 5 standard (CNS) A4 specifications (210 X 297 mm 1 ------ ------- Γ ^^ ------ (Please read the notes on the back before filling this page ) A7 B7 200 ° C, the best is 1000t 1226317 V. Description of the invention (#) Sintering conditions: Sintering temperature: 9 0 0 Sintering time: 40 to 60 minutes, the best is 50 minutes. The invention mainly provides a composite masterbatch formed by a fatty acid inducer and a nano-grade far-infrared wood, which includes a fatty acid inducer: Guangwai, ▲ the composition of the substrate particles, and the compound method is to attract fatty acids to V After the horned cow became liquid, it was mixed with nano-sized far-infrared substrate particles, and heated in the reaction steel, and stirred at a temperature of 1 Q 〇-2 0 (TC for 3 5 0 minutes, and then Let the temperature gradually decrease, where when the temperature is 2000 C, the stirring speed is 3 Q rpm; when When the temperature is 150, the stirring speed is S200RPM; when the temperature is 1, the stirring speed is 200RPM; in the process of heating and stirring, the far-infrared substrate particles will be affected by the heating liquid and the stirring force, and after the temperature is controlled, the compounding and mixing will be uniform. Because the finer nanometer-level far-infrared substrate powder will be suspended in the upper layer due to the relationship of gravity, the precipitation will be classified into 30nm-800nm & 800nm-10nm nano-level particles. Therefore, the upper layer of the composite solution is spray-cooled to a solid state at normal temperature, and 4 is further added with an appropriate amount of fatty acid inducer, that is, a composite masterbatch with nano-level far-infrared substrate powder, and made into a granular Compound masterbatch. The fatty acid inducer is EBS (N, N, -ethylene bisstearoamide), which acts as a carrier for suspending the far-infrared substrate powder and makes it easier to evenly distribute it on the paper scale. Applicable to China National Standard (CNS) A4 specification (210 X 297 public) • Packing ------- f-order-ΓΙ: ------ line (Please read the precautions on the back before filling this page) 1226317 A7 V. Description of the invention (f fiber resin, in which the fatty acid inducer usually has an appropriate dissolution temperature of 丄 50 ° C. In addition, the compound, the middle and lower layers of the valley liquid are thick because of their far-infrared substrate particles, so they are not suitable for spinning. In the manufacturing process of chemical fiber, this micron-sized particle is used for film or plastic injection or for making other products with far-infrared functions that do not require fine particles. When the composite masterbatch of the present invention is completed, the composite masterbatch can be further processed. Compound with various chemical fiber resins for the production of rayon. First, add the aforementioned composite masterbatch to various chemical fiber resins, compound the chemical fiber resin and the compound in proportion, and make the far-infrared substrate powder. The chemical fiber resin is 38% each, and mixed with high temperature, high pressure and high torque mixing equipment to make the two components uniformly dispersed, so that the chemical fiber resin has a uniformly dispersed nano-level far-infrared base powder. After that, it is drawn to form artificial fibers with the properties of far-infrared powder. In this process, the fatty acid inducer not only serves as a carrier for uniformly dispersing the nano-level far-infrared substrate powder, but also acts as a lubricant to allow the far-infrared substrate powder to be dispersed. In the spinning process after being compounded with the chemical fiber resin, it is not easy to block the spinning nozzle, which makes it easy to spin the chemical fiber. In order for the committee members to further understand the specific operation and implementation status of the present invention, it is described as follows: Step-: Adjust the humidity of the far-infrared base powder (stable powder and multiple grindings) s Moisten the far-infrared base powder and add 5% ethylene distearate (N'N-ethylene bis_stear〇amide) 'Referred to as ε β $) or a stearin surfactant of this type, it can be crushed in Yin to prevent infrared. This paper standard applies Chinese national standards (CN S) A4 size (210x297 public love (please read the precautions on the back before filling in this page) ▼ install -------- order ΓΙ: ------ line A7
線基材粉體之微粒子 研磨至平均粒徑1〇 1226317 五、發明說明(f ) 二次結合,讓紅外線基材粉體能繼續 〇 n m以下,因其為適用於化纖原料 因此目標細度之平均粒徑為丄〇 n m以下。 步驟二··遠紅外線化纖母料固型 !奈米級遠紅外線基材與EBS依所需之比例混合後 ,於通紅外線能量鋼中將E B S溶解,其中,e B S同時 作為母料之固型载體,藉此形成遠紅外絲縣材與e b S冷液□ E B S同時具有固型劑、防黏劑、分散劑,因 此奈米級遠紅外線基材粉體不會二次凝結,之後再造粒成 2 m m的粗粒,即元成奈米級遠紅外線化織母料。根據上 述製法之料過程中可知,本發明之則旨肪酸誘導體與遠 紅外線基材形成之複合母料具有下列優點: 1 般而s,傳統含遠紅外線基材粉末之化纖樹脂 ’在混合時並無法將奈#級遠紅料基材獅分級,造成 抽絲時過大的顆粒易阻塞纺織濾網,較大的遠紅外線基材 顆粒易很容易斷紗,使得多數的遠紅外線基#顆粒無^被 利用,然而透過本發明將脂肪酸誘導體與遠紅外線基材顆 粒複合後’經過加熱搜拌溫度控制之方式,會讓遠二外線 基材顆粒進一步沉澱分級,以形成遠紅外線基材之奈米級 粒子4 0 nm〜8 0 〇 nm母料用於化纖,而微米級粒子 8〇〇nm〜於薄膜、塑膠射出及需要遠紅外 線功能製品’讓更多的遠紅外線基材能被更廣泛的應用。 2.使用奈米級的遠紅外線基材粉末與化纖樹脂結合 1226317 A7 厂· B7 五、發明說明(/ ) ,由於遠紅外線基材粉末粒徑較小達奈米級,即使抽絲後 仍可兀整包覆在化纖樹脂中,不致於阻斷化纖樹脂的完整 性’讓製成的人造絲強韌不易斷裂,紗支的均勻度佳,織 造時可提高速度,使製作成本下降。 ▲ 3 ·經過脂肪酸誘導體作為分散劑及滑齊卜將奈米級 遠紅外線基材粉末透過脂肪酸誘導體的初步分散,可讓原 本不易分散均勻的奈米級遠紅外線基材粉末,能均句地分 散在化纖樹脂中,維持人造纖維品質之一定。 4 · 一般市面上之研磨粒子當粒子細度達3〜1 〇 # m時要再細磨更細時即易成為粉塵,因㈣成粉塵狀時易 飛揚浮動,因此無法利用研磨機繼續研磨至奈米微粒子, 在本發明中將習用材質之3〜!遠紅外線基材利用 穩定的濕度狀態,能使遠紅外線基材粉體繼續研磨達到平 均粒徑為1 0 0 n m。 綜上所述,本發明之以脂肪酸誘導體與奈米級遠紅外 線基材形成之複合母料,其利用加熱攪拌沉澱的方式讓奈 米級基材粉末分級,並與脂肪酸誘導體充份複合以形成一 複合母料,之後再與樹脂複合,以適當的複合比例進行紡 紗,此方法可改進習用遠紅外線纖維的缺點,大幅提升人 造纖維之品質並降低生產成本,因此極具產業上之利用性 與產品之進步性,更因未見於同業間之操作流程同時具有 | 新穎性,因此,本發明之奈米級遠紅外線化纖高分子複合 母料之製法符合發明申請要件,乃依法具文提出申請。σ 本纸張尺度適用中國國家標準(CNS)A4規格(210χ 297公釐)The fine particles of the wire substrate powder are ground to an average particle size of 101226317. 5. Description of the invention (f) The secondary combination allows the infrared substrate powder to continue below 0 nm, because it is suitable for chemical fiber raw materials, so the target fineness is The average particle diameter is 100 nm or less. Step 2 · Far-infrared chemical fiber masterbatch solids! After mixing the nano-level far-infrared base material and EBS in the required ratio, dissolve the EBS in the infrared energy steel. Among them, e BS is also used as the solids of the masterbatch. The carrier forms a far-infrared silk material and eb S cold liquid □ EBS has both a solidifying agent, an anti-adhesive agent, and a dispersant, so the nano-level far-infrared base powder will not be coagulated again, and then reconstituted The grains are 2 mm coarse grains, that is, Yuancheng nanometer far-infrared woven masterbatches. According to the above-mentioned preparation process, it can be known that the composite masterbatch formed by the fatty acid inducer and the far-infrared base material of the present invention has the following advantages: 1. Generally, conventional chemical fiber resins containing far-infrared base material powder are being mixed. It is not possible to classify the nano-class far-red material base material at the time, which causes the excessively large particles to easily block the textile filter when spinning, and the large far-infrared base material particles easily break the yarn, making most of the far-infrared-based # particles No ^ is used, but through the method of combining the fatty acid inducer and the far-infrared substrate particles according to the present invention, the method of heating and mixing and temperature control will further precipitate and classify the far-outside substrate particles to form the far-infrared substrate. Nano-sized particles from 40 nm to 800 nm are used for chemical fiber, while micron-sized particles from 800 nm to films, plastics, and products that require far-infrared functions, so that more far-infrared substrates can be used. Wide application. 2. The use of nanometer-level far-infrared substrate powder combined with chemical fiber resin 1226317 A7 plant · B7 5. Description of the invention (/), because the particle size of the far-infrared substrate powder is smaller than nanometer, it can be used even after drawing. The whole fiber is wrapped in chemical fiber resin, which will not block the integrity of the chemical fiber resin. 'It makes the rayon made tough and difficult to break, the uniformity of the yarn count is good, the speed can be increased during weaving, and the production cost is reduced. ▲ 3 · After the fatty acid inducer is used as a dispersant and the nano-sized far-infrared substrate powder is dispersed through the fatty acid inducer, it can make the nano-sized far-infrared substrate powder that is not easily dispersed uniformly. It is dispersed in chemical fiber resin to maintain the quality of rayon. 4 · Generally, the abrasive particles on the market will become dust when the particle size reaches 3 ~ 1 〇 # m. If it is finer and finer, it will easily become dust. Because it is easy to fly and float when it is dusty, it is impossible to continue grinding with a grinder until Nano particles, 3 ~, the conventional material in the present invention! The far-infrared substrate uses a stable humidity state, which enables the far-infrared substrate powder to continue to be ground to an average particle size of 100 nm. In summary, the composite masterbatch formed by the fatty acid inducer and the nanometer-level far-infrared substrate in the present invention uses the method of heating, stirring and precipitating to classify the nanometer-level substrate powder and fully compound the fatty acid inducer. In order to form a composite masterbatch, and then compound with resin, spinning at an appropriate compounding ratio, this method can improve the shortcomings of conventional far-infrared fibers, greatly improve the quality of artificial fibers, and reduce production costs. The utilization and the progress of the product, because the operating processes not seen in the same industry have both | novelty. Therefore, the method for preparing the nano-level far-infrared chemical fiber polymer composite masterbatch of the present invention complies with the application requirements of the invention, which is in accordance with the law. submit application. σ This paper size applies to China National Standard (CNS) A4 (210 × 297 mm)
(請先閲讀背面之注意事項再填寫本頁) #· -------- —l·-----線 1226317 A7 _B7_ 五、發明說明(Υ ) 【圖式簡單說明】 (一) 圖式部分 第一圖為本發明之簡單製作流程圖。 (二) 元件代表符號 (無) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項再填寫本頁) 0--------W!-----線-(Please read the notes on the back before filling this page) # · -------- —l · ----- line 1226317 A7 _B7_ V. Description of the invention (Υ) [Simplified description of the diagram] (一) The first part of the diagram is a simple production flowchart of the present invention. (II) Symbols for components (none) This paper size is applicable to China National Standard (CNS) A4 (210 X 297 mm) (Please read the precautions on the back before filling this page) 0 -------- W! ----- line-