M260413 四、創作說明(1) 【新型所屬之技術領域】 本創作係有關於一種具遠紅外線陶瓷粉末混合膠之積 層結構布,特別是一種關於遠紅外線陶瓷粉末混合膠之積 層結構之應用。 【先前技術】 一般生產具遠紅外線陶瓷粉末之纖維布,乃是將遠紅 外線陶瓷粉末與PP、PE、PP等混合後抽絲製成纖維再織造 φ 成布,另一方式為將遠紅外線陶瓷粉末與膠混合,利用不 織布方式浸染方式或塗佈方式,再與另一面做貼合加工, 如圖1所示其主要係於基層c之上方設浸潰層b,而表層a, 顯然其加工性複雜、成本提高及無經濟效率。 【新型内容】 本創作係針對上述缺失而提出一種「具遠紅外線陶竟 粉末混合勝之積層結構布」專利申請’其中上層:係為平 織層、不織布或TPU膜、TPE 膜、PP膜等,中間層:係為 籲 遠紅外線陶瓷粉末與濕式反應性膠混合層,而底層:為針 織布、不織布及平織布,因而本創作係為三層結構層一次 加工完成成品,因此本創作其主要係要獲得加工性簡單並 能獲得達到促進血液循環、蓄熱保溫、防霉抗菌等功效。M260413 4. Creation Description (1) [Technical Field to which the New Type belongs] This creation relates to a laminated structure cloth with far-infrared ceramic powder mixed glue, especially to the application of the laminated structure of far-infrared ceramic powder mixed glue. [Previous technology] Generally, the production of fiber cloth with far-infrared ceramic powder is to mix the far-infrared ceramic powder with PP, PE, PP, etc. and draw it into fibers, and then weave it into a cloth. Another way is to use far-infrared ceramic The powder and glue are mixed, and the non-woven fabric is used for dipping or coating, and then bonded to the other side. As shown in Figure 1, it is mainly based on the impregnation layer b above the base layer c, and the surface layer a is obviously processed. Complexity, increased cost and no economic efficiency. [New content] In response to the above-mentioned shortcomings, this creation proposes a patent application for a "laminated structure cloth with far-infrared ceramic powder and mixed powder" where the upper layer is a plain woven layer, a non-woven fabric or a TPU film, a TPE film, a PP film, etc. Layer: It is a mixed layer of far-infrared ceramic powder and wet-type reactive glue, and the bottom layer: knitted, non-woven and plain woven fabrics. Therefore, this creation is a three-layer structure layer that is finished in one process. The system should have simple processability and can achieve the effects of promoting blood circulation, heat storage and heat preservation, anti-mildew and antibacterial.
第7頁 M260413 創作說明(2) 本創作内谷之特彳攻及功效可由下述較佳實施例配合 圖式及圖號說明本創1圖式及圖號如后: 【實施方式】 本創作係為一種JL、告v . "、m紅外線陶瓷粉末混合膠積層結構 :=2:Λ係,本創作具遠紅外繼粉二合膠積 層、,、口構布的生產机程圖,首先係將不同重量百分比之遠紅 外線陶竟粉末與濕式反應性膠攪扮混合Α,β,其中係以濕 式反應胃性膠1(^99%重量百分比與遠紅外線陶瓷粉末〇.3〜 1 0%重量百分比混合並經過膠製攪拌混合,又其中遠紅外 線陶瓷粉末,其波長為4〜丨4um而主要成份係為氧化锆及麥 飯石並研磨成奈米級至〇.lm/m的粉末,相互與濕式反應性 膠混合並喷 '塗形成膜層(中間層)c,並以塗佈量為2〇〜 10 0g/m2塗佈於底層(織物)E,再與上層D之織布或膠膜以生 產速度5〜30yd/min、貼合溫度(40〜120°C )進行貼合加工 F ’並經過烘乾G而形成成品η,又陶瓷粉末顆粒研磨至一 定粒棱細微度,當均勻喷塗於織物上時具有抗U V的功效。 如圖3所示在於織布層Ε上所形成之中間層c,另作織 布層或膠膜層D之貼合加工而形成成品。 由上述得知,本創作係以遠紅外線粉末與濕式反應性Page 7 M260413 Creation Instructions (2) The special features and effects of the inner valley of this creation can be explained with the following preferred embodiments in conjunction with the drawings and drawing numbers. The illustration and drawing number of the creation 1 are as follows: [Embodiment] This creation It is a kind of JL, V. ", m infrared ceramic powder mixed glue layer structure: = 2: Λ series, this creation has a far-infrared relay powder glue layer, and the production structure diagram of the fabric, first It mixes far-infrared ceramic powder with wet reactive glue with different weight percentages A and β, among which is wet-reactive gastric glue 1 (^ 99% by weight and far-infrared ceramic powder 0.3 ~ 1 0% by weight and mixed with rubber, and the far-infrared ceramic powder has a wavelength of 4 ~ 4um and the main component is zirconia and maifanite and is ground to a nanometer to lm / m powder. , Mix with each other and wet-reactive glue and spray coating to form a film layer (intermediate layer) c, and apply it to the bottom layer (fabric) E at a coating amount of 20 to 100 g / m2, and then weave with the upper layer D Fabric or film is laminated at a production speed of 5 ~ 30yd / min and a lamination temperature (40 ~ 120 ° C) F ′ and drying G to form a finished product η, and the ceramic powder particles are ground to a certain grain size, which has an anti-UV effect when uniformly sprayed on the fabric. As shown in FIG. The formed intermediate layer c is additionally processed as a woven fabric layer or an adhesive film layer D to form a finished product. From the above, it is known that this creation is based on far-infrared powder and wet reactivity.
M260413 四、創作說明(3) 膠經過混合作為本創作積層結構之中間層喷塗於底層,另 再與上層之織布或膠膜作為三層一次加工結構布,其顯然 其加工性簡單,並能達到促進血液循環、蓄熱保溫、防霉 抗菌等功效,且有保溫效果,且本創作具有生產成本降低 、易加工及生產速度快的優點,並可以耐水洗3 0次以上( 以AATCC 135測試),而不喪失其功能亦可耐高溫洗滌及烘 乾。 本創作已符專利要件,今爰依法提出申請。M260413 IV. Creation instructions (3) The glue is mixed as the middle layer of the laminated structure of this creation and sprayed on the bottom layer, and the three layers of woven fabric or glue film are used as one-time processing structural cloth, which is obviously simple in processability, and It can achieve the effects of promoting blood circulation, heat storage, anti-mildew and antibacterial, and has the effect of heat preservation. This creation has the advantages of reduced production costs, easy processing and fast production speed, and can withstand washing more than 30 times (tested with AATCC 135) ), Without losing its function, it can withstand high temperature washing and drying. This creation complies with the patent requirements, and is now applying in accordance with the law.
第9頁 M260413 圖式簡單說明 圖式 圖1係為習知積層結構布 圖2係為本創作之具遠紅外線陶瓷粉末混合膠之積 層結構布之製作流程圖 圖3係為本創作之具遠紅外線陶瓷粉末混合膠之積 層結構布之剖面圖 圖號Page 9 M260413 Brief description of the diagram Figure 1 is the layout of the conventional laminated structure Figure 2 is the flowchart of the production of the laminated structure cloth with far-infrared ceramic powder mixed glue for this creation Sectional drawing of laminated fabric of infrared ceramic powder mixed glue
a 表層 b 浸潰層 c 基層 A 遠紅外線陶瓷粉末+濕式反應性膠 B 攪拌混合 C 喷、塗形成膜層(中間層) D 織布或膠膜(上層) E 織布(底層) F 貼合加工a Surface layer b Impregnation layer c Base layer A Far-infrared ceramic powder + wet-reactive glue B Stir and mix C Spray and apply to form a film layer (middle layer) D Weave or adhesive film (upper layer) E Weave (bottom layer) F Sticker Processing
G 烘乾 Η 成品G drying Η finished product
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