TWM378235U - Elastic body combines negative ions and far-infrared ray, and elastic braid comprising the elastic body - Google Patents
Elastic body combines negative ions and far-infrared ray, and elastic braid comprising the elastic body Download PDFInfo
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M378235 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係有關於一種彈性體及包含該彈性體的彈性織帶 ,尤指一種能夠釋放負離子及遠紅外線的彈性體及包含 該彈性體的彈性織帶。 【先前技術】 [0002] 負離子自19世紀德國物理學家菲利浦•萊昂納德博士在 學術上證明負離子對人體具一定功效以來,許多醫學及 科學家不斷地對負離子進行無數臨床試驗,證明每天吸 入適量負離子可預防或改善心腦血管疾病的產生或症狀 、預防感冒、呼吸道疾病和預防空調病,使人體精力旺 盛、消除疲勞和倦怠、提高工作效益,改善睡眠,消除 神經衰弱,降低疾病發病率。人體吸收空氣負離子後能 降低導致人體老化的中樞神經系統内血清素含量,因此 有抗衰老的作用,所以日本又將負離子喻為「大氣中的 長壽素」。M378235 V. New description: [New technical field] [0001] The present invention relates to an elastic body and an elastic webbing comprising the same, in particular to an elastomer capable of releasing negative ions and far infrared rays and comprising the same. Elastic webbing. [Prior Art] [0002] Negative ions Since the 19th century German physicist Dr. Philip Leonard has academically proved that negative ions have a certain effect on the human body, many medical and scientists have continuously carried out numerous clinical trials on negative ions. Inhaling an appropriate amount of negative ions every day can prevent or improve the occurrence or symptoms of cardiovascular and cerebrovascular diseases, prevent colds, respiratory diseases and prevent air-conditioning diseases, and make the human body energetic, eliminate fatigue and burnout, improve work efficiency, improve sleep, eliminate neurasthenia, and reduce diseases. Incidence rate. The absorption of air anions by the human body can reduce the serotonin content in the central nervous system that causes aging of the human body, and therefore has an anti-aging effect. Therefore, Japan has referred to negative ions as "long-lived substances in the atmosphere."
[0003] 近年來許多負離子產品紛紛上市,包括吹風機、冷氣機 、冰箱、空氣清淨機等。隨著奈米科技的日益進步,市 面上已經推出許多宣稱能夠釋放負離子及遠紅外線的衣 物,藉由穿著這類的衣物,人們便能夠持續吸收此衣物 所釋放出來的負離子及遠紅外線,而達到健康養生之功 效0 [0004] 上述這類「能夠釋放負離子及遠红外線的衣物」,其製 作方式不外乎是將能夠釋放負離子及遠紅外線的電氣石 表單編號A0101 第3頁/共20頁 M378235 原料經奈米技術研磨成奈米化微粒,然後結合架橋劑或 ''黏著劑製成懸浮狀態且均勻分散之負離子水溶液,最後 將布料浸泡於此負離子懸浮溶液中,而使奈米化微粒附 著於布料纖維上;另一種方式係運用特殊加工法使奈米 化微粒直接吸附到布料纖維上,這是因為負離子微粒小 到奈米尺寸時會產生量子效應及表面效應等特性,而與 布料纖維產生出優異的結合效果。 · [0005] 然而,在上述製程所產生之「能夠釋放負離子及遠紅外 線的衣物j中,由於這些奈米化微粒都是在布料纖維完 成之後額外透過浸泡或吸附方式固著於布料纖維上,且 普通布料纖維並無法長期吸附負離子奈米微粒,所以經 長期使用與清洗之後,往往其釋放負離子及遠紅外線的 能力會逐曰遞減。 [0006] 因此,如何解決上述之問題點,即成為本創作人所改良 之目標。 【新型内容】 [0007] 本創作之一目的,在於提供一種結合負離子及遠紅外線 之彈性體及包含該彈性體的彈性織帶,其係藉由將能夠 釋放負離子及遠紅外線的原料與矽膠充分混合攪拌後, 直接射出成型為一彈性體,其釋放負離子及遠紅外線的 效率並不會因清洗或使用而降低。 [0008] 為了達成上述之目的,本創作係提供一種結合負離子及 遠紅外線之彈性體,主要包括一能夠釋放負離子與遠紅 外線的材料、一石夕膠及一色料,並經一射出成型加工而 表單編號A0101 第4頁/共20頁 M378235 形成者。 [0009] 為了達成上述之目的,本創作係提供一種彈性織帶,包 括:多數條結合負離子及遠鉍外線之彈性體,每一該彈 性體包括一能夠釋放負離子與遠紅外線的材料、一矽膠 及一色料,並經一射出成型加工而形成者;以及多數條 紗線,分別與該等彈性體以編織連結而成。 [0010] 相較於先前技術,本創作具有以下功效: [0011] 由於本創作直接將能夠釋放負離子及遠紅外線的材料與 矽膠均勻混合,且經由射出成型後,再經過高溫烘烤定 型、室溫冷卻、及中溫二次烘烤使其分子更加穩定,因 此,所製造出來的彈性體不僅具有矽膠材質本身的彈性 ,而且還能夠持續地釋放負離子及遠紅外線,比起習知 技術以浸泡附著於衣物纖維表面之方式,本創作的彈性 體其釋放負離子及遠紅外線的效率很高,且不會因清洗 或使用而降低。 [0012] 承上,由於本創作所製造出來的彈性體可以與紗線一起[0003] In recent years, many negative ion products have been on the market, including hair dryers, air conditioners, refrigerators, and air cleaners. With the advancement of nanotechnology, many clothes that claim to release negative ions and far infrared rays have been introduced on the market. By wearing such clothes, people can continue to absorb the negative ions and far infrared rays released by the clothes. The effect of healthy health 0 [0004] The above-mentioned "clothes capable of releasing negative ions and far infrared rays" are produced in a manner that will be able to release negative ions and far infrared rays. Form number A0101 Page 3 of 20 M378235 The raw material is ground into nanometerized particles by nanotechnology, and then combined with a bridging agent or ''adhesive agent to make a suspended state and uniformly dispersed anion aqueous solution, and finally the cloth is immersed in the negative ion suspension solution, so that the nanoparticle is attached. On the fabric fiber; another way is to use special processing method to directly adsorb the nano-sized particles to the cloth fiber. This is because the negative ion particles have the characteristics of quantum effect and surface effect when they are as small as nanometer size, and the cloth fiber Produces excellent bonding results. [0005] However, in the above-mentioned process, "the clothing j capable of releasing negative ions and far infrared rays, since these nano-sized particles are additionally fixed to the cloth fibers by soaking or adsorbing after the cloth fibers are completed, Moreover, ordinary cloth fibers cannot absorb negative ion nano particles for a long time, so after long-term use and cleaning, the ability to release negative ions and far infrared rays tends to decrease gradually. [0006] Therefore, how to solve the above problems becomes The goal of the creator's improvement. [New content] [0007] One of the purposes of this creation is to provide an elastic body combining negative ions and far infrared rays and an elastic webbing containing the same, which is capable of releasing negative ions and far After the infrared ray material is thoroughly mixed and stirred with the yttrium gel, it is directly shot and formed into an elastic body, and the efficiency of releasing negative ions and far infrared rays is not lowered by cleaning or use. [0008] In order to achieve the above object, the present invention provides a kind of An elastomer combining negative ions and far infrared rays, mainly including a capable of releasing negative ions The material of far-infrared rays, a stone and a coloring material, and formed by an injection molding process, Form No. A0101, Page 4 of 20 M378235. [0009] In order to achieve the above purpose, the present invention provides an elastic webbing. The invention comprises: a plurality of strips of elastic ions combined with an anion and an outer line, each of the elastic bodies comprising a material capable of releasing negative ions and far infrared rays, a gum and a color material, and formed by an injection molding process; and a plurality of yarns The wires are respectively woven and joined with the elastic bodies. [0010] Compared with the prior art, the present invention has the following effects: [0011] Since the present invention directly mixes the material capable of releasing negative ions and far infrared rays with the silicone, After the injection molding, the high temperature baking and setting, the room temperature cooling, and the medium temperature secondary baking make the molecules more stable. Therefore, the manufactured elastomer not only has the elasticity of the silicone material itself, but also can continue. The release of negative ions and far infrared rays, compared to the conventional technique to soak the surface of the clothing fibers, the creation of the bomb The physique is highly efficient in releasing negative ions and far infrared rays and is not degraded by cleaning or use. [0012] According to the above, the elastomer produced by the creation can be combined with the yarn.
編織而製成一彈性織帶,進而編織成衣物或布料,其應 用範圍相當廣泛。所製成的彈性織帶或衣物不僅具有彈 性且能夠穩定高效率地釋放負離子及遠紅外線,並不會 有習知技術中因清洗或長期使用而降低釋放負離子及遠 紅外線的效率之問題。 【實施方式】 [0013] 有關本創作之詳細說明及技術内容,將配合圖式說明如 下,然而所附圖式僅作為說明用途,並非用於偈限本創 表單編號A0101 第5頁/共20頁It is woven to form an elastic webbing, which is then woven into clothing or cloth, and its application range is quite wide. The resulting elastic webbing or garment is not only elastic but also capable of stably and efficiently releasing negative ions and far infrared rays, and there is no problem in the prior art that the efficiency of releasing negative ions and far infrared rays is lowered by cleaning or long-term use. [Embodiment] [0013] The detailed description and technical contents of the present invention will be described below with reference to the drawings, however, the drawings are for illustrative purposes only, and are not intended to limit the creation of the form number A0101, page 5 of 20 page
IYD/6ZJD 作。 [0014]凊參考第一圖,係為本創作之立體示意圖,本創作係提 供一種結合負離子及遠紅外線之彈性體及包含該彈性體 的彈性織帶;如第二圖的局部放大圖所示,此彈性體11 可以與紗線12 —起混織成一彈性織帶10。以下,將逐一 詳細說明用以製造此彈性體11的各個步驟。 [〇〇15]步驟a):備具能夠釋放負離子與遠紅外線的一粉狀材料 及一高分子材料。 [0016]經過實驗測試,本創作的彈性體能夠以每立方公分在每 秒鐘釋放出100至2000個 負離子。所以,在步驟a)中’ 可依照所欲釋放負離子的含量,並考慮製造出來的彈性 體之面積與重量,而決定粉狀材料與高分子材料之間的 比例;根據本創作’適當的比例係介於3至30%之間。 [ΟΟΠ]在本創作的實施例中,能夠釋放負離子及遠紅外線的粉 狀材料為二氧化鍅、二氧化參、三氧化二铭、氧化錦及 一氧化鈦之任一種或其混合物經研磨成奈米化微粒後所 製成。由於前述的負離子粉狀材料為環狀結構的石夕酸鹽 物質’其熱電性和壓電性能夠使其極性離子在平衡位置 震動而引起偶極矩變化,藉此產生4]4微米的遠紅外線 放射波段,亦即醫學專家所稱「生命光波」 子粉狀材料屬極性分子,透過本身㈣由離子、不純物 離子和離子物性質、雜質共鳴而產生共振作用,牽動有 機與無機分子交鏈的離子鍵極性振動,形成了較 射寬帶’含負離子的纖維能吸收朋能量後呈現正負兩 表單编號A0101 第6頁/共20頁 M378235 極,電離周圍空氣而產生負離子;另一方面,負離子粉 狀材料對遠紅外線的放射率達82%以上。顆粒越小,表 面活化能越高,越能提高產生負離子的能力,此乃拜奈 米科技所賜,當電氣石原料被研磨成奈米尺寸後,其表 面活化能非常高,製成的電氣石負離子粉狀材料能夠釋 放大量負離子,且具有遠紅外線放射效果。 [0018] 另一方面,本創作中的高分子材料係選用矽膠,這一點 乃是本發明人運用多年來累積專業經驗及無數次的研究 後才發現的。以下,特別在表1中列出矽膠與丁基橡膠之 間的各種特性差異。 [0019] 表 1IYD/6ZJD. [0014] Referring to the first figure, which is a three-dimensional schematic diagram of the present invention, the present invention provides an elastic body combining negative ions and far infrared rays and an elastic webbing comprising the same; as shown in a partial enlarged view of the second figure, This elastomer 11 can be woven into an elastic webbing 10 together with the yarn 12. Hereinafter, the respective steps for manufacturing the elastic body 11 will be described in detail one by one. [〇〇15] Step a): Prepare a powdery material and a polymer material capable of releasing negative ions and far infrared rays. [0016] Through experimental testing, the inventive elastomer is capable of releasing 100 to 2000 negative ions per cubic centimeter per second. Therefore, in step a), the ratio between the powder material and the polymer material can be determined according to the content of the negative ion to be released, and the area and weight of the manufactured elastomer are determined; The system is between 3 and 30%. [ΟΟΠ] In the embodiment of the present invention, the powdery material capable of releasing negative ions and far infrared rays is any one of cerium oxide, oxidized ginseng, bismuth oxydioxide, oxidized bromine and titanium oxide or a mixture thereof is ground into Made by nanoparticles. Since the aforementioned negative ion powder material is a cyclic structure, the pyroelectricity and piezoelectricity thereof can cause the polar ions to vibrate in an equilibrium position to cause a dipole moment change, thereby generating a distance of 4] 4 μm. The infrared radiation band, which is what medical experts call "life light wave", is a polar molecule that resonates by itself (4) by ions, impurity ions and ionic properties, impurities, and affects the interlinkage of organic and inorganic molecules. The ionic bond polarity vibrates to form a relatively wide-band broadband fiber. The negative ion-containing fiber can absorb positive and negative energy. Form No. A0101 Page 6 of 20 M378235 pole, ionizes the surrounding air to generate negative ions; on the other hand, negative ion powder The material has an emissivity of far infrared rays of more than 82%. The smaller the particle, the higher the surface activation energy, and the higher the ability to generate negative ions. This is the benefit of Bayan Technology. When the tourmaline material is ground to nanometer size, its surface activation energy is very high. The stone anion powder material can release a large amount of negative ions and has a far-infrared radiation effect. [0018] On the other hand, the polymer material in this creation is made of tannin extract, which was discovered by the inventors after years of accumulated professional experience and numerous studies. Hereinafter, various characteristic differences between silicone and butyl rubber are listed in particular in Table 1. [0019] Table 1
項目 矽膠 丁基橡膠 1 比重 0.95〜0·98 0. 91 〜0. 93 2 姆尼粘度 液狀或膠狀 45 〜75 ML1 + (100°C) 3 可能的JIS硬 30 〜90 20 〜90 度範圍 4 抗張強度 40 〜250 50 〜150 (Kg/cm2) 5 伸長(%) 800 〜50 800〜100 6 反彈性 優 尚可 7 生裂 尚可 佳 8 耐摩耗性 尚可 佳 9 耐彎曲龜裂性 佳 優 10 耐熱性rc) 280 150 表單编號A0101 第7頁/共20頁 M378235 11 耐寒性(脆化 溫度°C) -70 -30 12 财老化性 優 佳 13 耐光性 優 優 14 耐臭氧性 優 優 15 耐焰性 佳 劣 16 電絕緣(Ω · cm)(體積固 有電阻) 11 15 16 18 17 对放射線性 優 劣 18 汽油.輕油 劣〜尚可 劣 19 苯.曱苯 劣〜尚可 尚可〜佳 20 味道 無色無味 劣 21 環保 優 尚可 22 抗老化 優 尚可 23 吐白 優. 尚可 由表1可以看出,矽膠具有很良好的彈性(延伸倍率為5至 8倍)、耐熱、耐寒、耐光、耐臭氧、及耐焰性,無色無 味,可被分解且符合環保,又具有抗老化及放射線的能 力,並且長期貼附於人體皮膚上時較不容易引起過敏反 應,所以矽膠是非常適合作為本創作彈性體的基礎材料 ,以便與能夠釋放負離子及遠紅外線的粉狀材料充分混 合。然而,本創作的高分子材料並未偈限於矽膠而已, 也可以選用天然橡膠。 [0021] 步驟b):備具一矽膠油,將矽膠油與上述粉狀材料及高 表單編號A0101 第8頁/共20頁 M378235 分子材料混合攪拌而形成一膠狀物。 [0022] 在此步驟中,所選用的矽膠油其主要成分也是矽膠,且 矽膠油呈液態,用以加快粉狀材料與矽膠的混合速度, 藉此形成一膠狀物。攪拌混合的時間約為30〜40分鐘,並 且透過一拉力測試機,對所形成的膠狀物施行拉力測試( 例如,從10公分拉伸到5 0公分),以確定到達一般彈性繩 的拉力。 [0023] 步驟c):添入一色料以與該膠狀物繼續混合攪拌。Item 矽 butyl rubber 1 Specific gravity 0.95~0·98 0. 91 ~0. 93 2 Muni viscosity liquid or gel 45 ~ 75 ML1 + (100 ° C) 3 Possible JIS hard 30 ~ 90 20 ~ 90 degrees Range 4 Tensile strength 40 ~250 50 〜150 (Kg/cm2) 5 Elongation (%) 800 〜50 800~100 6 Anti-elasticity 优尚可 7 裂裂可可佳 8 耐耐性可可佳 9 resistance to curved turtle Cracking Jiayou 10 Heat resistance rc) 280 150 Form No. A0101 Page 7 of 20 M378235 11 Cold resistance (brittle temperature °C) -70 -30 12 Good aging properties 13 Excellent light resistance 14 Ozone resistance Youyou 15 Good flame resistance 16 Electrical insulation (Ω · cm) (intrinsic resistance) 11 15 16 18 17 Good or bad for radiation 18 Gasoline. Light oil is bad ~ still inferior 19 Benzene. Benzene is poor ~ still acceptable ~佳20 Taste colorless and tasteless 21 Environmentally friendly 尚可可 22 Anti-aging excellent can still be 23 吐白优. It can be seen from Table 1 that silicone rubber has very good elasticity (extension ratio is 5 to 8 times), heat resistance, cold resistance Light, ozone, and flame resistance, colorless and odorless, can be decomposed and It is environmentally friendly, has anti-aging and radiation ability, and is less likely to cause allergic reactions when it is attached to human skin for a long time. Therefore, silicone is very suitable as the basic material of the present elastomer, so as to release negative ions and far infrared rays. The powdered material is thoroughly mixed. However, the polymer material of this creation is not limited to silicone rubber, and natural rubber can also be used. [0021] Step b): preparing a gelatin oil, mixing the silicone oil with the above-mentioned powdery material and the M378235 molecular material of Form No. A0101 to form a gel. [0022] In this step, the selected silicone rubber is mainly composed of silicone, and the silicone oil is in a liquid state to accelerate the mixing speed of the powder material and the silicone, thereby forming a gel. The mixing and mixing time is about 30 to 40 minutes, and a tensile test (for example, stretching from 10 cm to 50 cm) is performed on the formed gel through a tensile tester to determine the tensile force reaching the general elastic rope. . [0023] Step c): adding a coloring material to continue mixing and stirring with the gel.
[0024] 在此步驟中,透過具有三原色的色料組合,可以配出很 多種的顏色《將選定好的色料添入上述步驟b)所產生的 膠狀物内,充分混合後直到看不見色料為止,可以利用 色卡進行顏色比對,以確認是否達到均勻想要的顏色。 另外,值得一提的是,由於此製作方法的後續步驟中需 經過高溫烘烤,為避免矽膠因高溫變黃,所以在本步驟 c)中,當色料充分均勻混合之後,須對整個膠狀物施行 一抗Ή"處理’亦即在此膠狀物中添加一抗黃藥劑。 [0025] 步驟d):對經步驟c)的該膠狀物施行溫度3〇~70。(:的一 混煉加工。 [0026] 在此步驟中,運用兩個相互接觸的滾輪,使經步驟(^)的 該膠狀物通過此兩個滾輪之間,利用滾輪之間的摩擦生 熱,使膠狀物的各成分之間充分均勻混煉,混煉加工的 時間為30分鐘到1小時之間,藉此使整個膠狀物到達大約 30至70°C的溫度,此溫度範圍能夠使膠狀物達到可供生 產的狀態。而且,此混煉加工的加熱溫度較佳為4〇至[0024] In this step, through the color material combination having the three primary colors, a variety of colors "adding the selected color material to the gel produced in the above step b) can be dispensed, and the mixture is fully mixed until it is invisible. Up to the color, you can use the color card for color comparison to confirm whether you want the uniform desired color. In addition, it is worth mentioning that, due to the high temperature baking in the subsequent steps of the manufacturing method, in order to avoid the yellowing of the tannin due to high temperature, in the step c), after the color material is sufficiently uniformly mixed, the entire glue must be applied. The substance is subjected to a "anti-treatment", that is, an anti-yellow agent is added to the gel. [0025] Step d): applying a temperature of 3 〇 to 70 to the gel obtained in step c). (#: a mixing process. [0026] In this step, two rollers that are in contact with each other are used, so that the gel passing through the step (^) passes between the two rollers, and the friction between the rollers is utilized. Heat, so that the components of the jelly are sufficiently uniformly kneaded, and the mixing processing time is between 30 minutes and 1 hour, thereby bringing the entire gel to a temperature of about 30 to 70 ° C. The glue can be brought into a state of being ready for production. Moreover, the heating temperature of the kneading process is preferably 4 Torr to
表單編號A010I 第9頁/共20頁 M378235 c之間。 [0027] 步驟e):提供一成型機,以該成型機對經步驟d)的該膠 狀物成形為一半固態物。 [0028] 在此步驟中,上述步驟d)的膠狀物先送入一高壓射出成 型機而擠壓成長條狀的半固態物,此長條狀的半固態物 就是彈性體的初步半成品,其直徑可根據高壓射出成型 機的機型種類而定,最細可到達0.01毫米,最粗可到達 20公分。 [0029] 步驟f):提供一烘烤裝置,以該烘烤裝置對經步驟e)的 該半固態物施行溫度300~550°C的烘烤加工而成型為一固 態物。 [0030] 在此步驟中,利用一烤箱對經步驟e)的該半固態物施行 高溫烘烤,使其外形固定而成為長條狀的固態物,此長 條狀的固態物就是彈性體的半成品。值得一提的是,實 際操作時,步驟e)所產生的長條形半固態物係以大約 1 000米的長度鬆散地放置於烤箱的密閉空間内,藉此可 達到充份均勻烘烤定型的效果。而且,此步驟的烘烤溫 度範圍較佳為400〜500°C之間,烘烤時間大約為1至2小 時。 [0031] 步驟g):對步驟f)的該固態物進行室溫冷卻。 [0032] 在此步驟中,使經過上述步驟〇高溫烘烤後的長條形固 態物在該烤箱中自然冷卻至室溫。 [0033] 步驟h):以該烘烤裝置對經步驟g)的該固態物施行溫度 表單編號A0101Form number A010I Page 9 of 20 M378235 c between. [0027] Step e): providing a molding machine with which the gel obtained in step d) is formed into a semi-solid. [0028] In this step, the gel of the above step d) is first sent to a high-pressure injection molding machine to extrude a strip of semi-solid material, which is a preliminary semi-finished product of the elastomer. The diameter can be determined according to the type of high-pressure injection molding machine, the finest can reach 0.01 mm, and the thickest can reach 20 cm. [0029] Step f): providing a baking device for forming a solid state by baking the semi-solid material of step e) at a temperature of 300 to 550 ° C. [0030] In this step, the semi-solid material of the step e) is subjected to high-temperature baking by an oven to fix the shape to become a long solid body, and the elongated solid material is an elastomer. Semi finished product. It is worth mentioning that, in actual operation, the elongated semi-solid material produced in step e) is loosely placed in the sealed space of the oven at a length of about 1 000 meters, thereby achieving a uniform uniform baking setting. Effect. Moreover, the baking temperature in this step is preferably in the range of 400 to 500 ° C, and the baking time is approximately 1 to 2 hours. [0031] Step g): The solid matter of step f) is subjected to room temperature cooling. [0032] In this step, the elongated solid after the high temperature baking after the above steps is naturally cooled to room temperature in the oven. [0033] Step h): applying the temperature to the solid matter of step g) by the baking device Form No. A0101
第10頁/共20頁 M378235 150至250°C的烘烤加工而成型為一彈性體。 [0034] 在此步驟中,將上述步驟g)中位於烤箱内冷卻至室溫的 固態物在該烤箱内再次烘烤成型,且烘烤的溫度為150至 250°C,較佳地為大約200°C,烘烤時間大約為四小時; 經本創作人實驗研究之後,發現此二次烘烤成型的步驟 有助於使上述步驟所產生的固態物的分子更為穩定,藉 此能夠持續穩定地釋放負離子及遠紅外線,而不會因清 洗或長期使用後逐日降低。 [0035] 在經過步驟h)之後所形成的最終產物,就是本創作的彈 性體,這些彈性體可以是長條狀線體或長條狀帶體(僅寬 度不同),將這些彈性體依照所需要的長度捲成一整捆然 後裝運出貨。Page 10 of 20 M378235 is formed into an elastomer by baking at 150 to 250 °C. [0034] In this step, the solid matter in the above step g) cooled in the oven to room temperature is again baked in the oven, and the baking temperature is 150 to 250 ° C, preferably about At 200 ° C, the baking time is about four hours; after the author's experimental research, it is found that the step of the second baking molding helps to stabilize the molecules of the solid matter produced in the above steps, thereby being stable and stable. The negative ions and far infrared rays are released without being reduced day by day due to cleaning or long-term use. [0035] The final product formed after the step h) is the elastomer of the present invention, and the elastomers may be long strips or strips (only different widths), and the elastomers are The required length is rolled into a bundle and shipped for shipment.
[0036] 如第一圖及第二圖所示,本創作的結合負離子及遠紅外 線之彈性體,可以與紗線一起混紡編織而形成一彈性織 帶。此彈性織帶10主要是由多條彈性體11及多條炒線12 所交錯編織而成,如第二圖的局部放大圖所示,具有粗 邊的線體就是本創作的彈性體11,其係以前述製作方法 所製成,且主要包括一能夠釋放負離子與遠紅外線的粉 狀材料、一矽膠、一矽膠油 '及一色料混合攪拌,並經 一射出成型加工而形成的一彈性體。該彈性體11能夠以 每立方公分在每秒鐘釋放出100至2000個負離子。 [0037] 如同在前述製作方法的說明中所提及,能夠釋放負離子 及遠紅外線的材料為二氧化錯、二氧化石夕、三氧化二鋁 、氧化鈽及二氧化鈦之任一種或其混合物。矽膠油的主 表單編號A0101 第11頁/共20頁 要成分是矽膠,用以加快粉狀材料與矽膠的混合速度; 色料係用以添入粉狀材料、矽膠油、與矽膠的膠狀混合 物中而決定出想要的顏色。 [0038] 以下,將敘述本創作的彈性體11與紗線12的編織方式及 其製成的彈性織帶10之應用範圍。 [0039] 可選用常見具彈性的紗線12,例如:PP紗、特多紗、尼 龍紗、伸縮尼龍紗、地毯紗、膠絲、光筋、包紗橡筋、 純棉、亞克力、人造棉、反光紗、SP線作為與本創作彈 性體11 一起編織的主要材質。 [0040] 為了將本創作的彈性體11及前述紗線12混織在一起而形 成彈性織帶10,常見的編織工法有鬆緊帶織法、普通彈 性織帶、提花織法、及圓繩織法。由於此編織過程及其 所運用的機器設備早為已知,故此僅簡述其編織過程如 下: [0041] 首先,將客戶所需要的款式、材質、尺寸、及織法輸入 電腦或將機器設定成與設計圖面相同;然後,計算出要 多少條經紗數量及長度、緯線的筒頭數量、經線的盤筒 數量,在此階段將本創作的彈性體11加入,且依據產品 長寬厚度來加入能釋放負離子及遠紅外線的彈性體11, 其加入的比例與間隔(就是本創作的彈性體11之間所插入 紗線12的條數)係根據客戶需求及欲釋放負離子及遠紅線 的濃度而定。 [0042] 經過一連串的編織之後,將編織好的彈性織帶10進行整 理、打包、並依照客戶所要求的長度捲成梱以便裝運。 表單编號A0101 第12頁/共20頁 [0043] 參考第三圖及第四圖,本創作的彈性體11與紗線12所編 織成的彈性織帶10其應用範圍相當廣泛,除了圖形所顯 示的腕帶(第三圖)及襪子鬆緊帶(第四圖)之外,還可以 作為背包彈性織帶、鬆緊帶、衣領止汗帶、手機帶、汽 車安全帶、識別證帶、服裝配件、裝飾品、及其他需要 彈性織帶的相關產品 [0044] 甚至,前述彈性織帶10也可與其他紗線一起針織後製成 布匹,可使用於服裝、家具 '及其他需要布料的產品; 也可以將紗線包覆在本創作彈性體11上形成包紗線材。 [0045] 綜上所述,當知本創作之「結合負離子及遠紅外線之彈 性體及包含該彈性體的彈性織帶」已具有產業利用性、 新穎性與進步性,又本創作之構造亦未曾見於同類產品 及公開使用,完全符合新型專利申請要件,爰依專利法 提出申請。 【圖式簡單說明】 [0046] 第一圖係本創作的彈性體與紗線所混織而成的彈性織帶 [0047] 第二圖係第一圖的部位A之放大圖。 [0048] 第三圖係本創作彈性織帶的一應用方式。 [0049] 第四圖係本創作彈性織帶的另一應用方式。 【主要元件符號說明】 [0050] 10彈性織帶 [0051] 11彈性體 表單編號A0101 第13頁/共20頁 M378235 [0052] 12 紗線 表單編號A0101 第14頁/共20頁[0036] As shown in the first and second figures, the elastomer combined with the negative ions and the far infrared rays of the present invention can be blended and woven with the yarn to form an elastic webbing. The elastic webbing 10 is mainly interwoven by a plurality of elastic bodies 11 and a plurality of frying wires 12, as shown in a partially enlarged view of the second figure, and the wire body having the thick edges is the elastic body 11 of the present invention. It is made by the above-mentioned manufacturing method, and mainly comprises a powdery material capable of releasing negative ions and far infrared rays, a gum, a gum oil and a coloring material mixed and stirred, and formed into an elastic body by an injection molding process. The elastomer 11 is capable of releasing 100 to 2000 negative ions per cubic centimeter per second. As mentioned in the description of the foregoing manufacturing method, the material capable of releasing negative ions and far infrared rays is any one of dioxins, sulphur dioxide, aluminum oxide, cerium oxide, and titanium oxide, or a mixture thereof. The main form number of silicone rubber A0101 Page 11 / 20 pages The ingredients are silicone, which is used to speed up the mixing of powdered materials and silicone. The coloring system is used to add powdery materials, silicone oil, and gelatin. Determine the desired color in the mixture. [0038] Hereinafter, the knitting method of the elastic body 11 and the yarn 12 of the present invention and the application range of the elastic webbing 10 produced therefrom will be described. [0039] The commonly available elastic yarn 12 can be selected, for example: PP yarn, special yarn, nylon yarn, stretch nylon yarn, carpet yarn, rubber yarn, optical reinforcement, wrap rubber, cotton, acrylic, rayon The reflective yarn and the SP thread are the main materials woven together with the present elastic body 11. [0040] In order to knit the elastic body 11 and the yarn 12 of the present invention to form the elastic webbing 10, a common weaving method includes an elastic band weave, a general elastic webbing, a jacquard weave, and a round rope weave. Since the weaving process and the equipment used therein have been known for a long time, the knitting process is only briefly described as follows: [0041] First, the style, material, size, and weave required by the customer are input into the computer or the machine is set. The formation is the same as the design drawing; then, calculate the number and length of the warp yarns, the number of the heads of the weft yarns, and the number of the warp cylinders. At this stage, the elastomer 11 of the creation is added, and according to the length and width of the product. To add an elastomer 11 capable of releasing negative ions and far infrared rays, the ratio and spacing of the additions (that is, the number of yarns 12 inserted between the elastomers 11 of the present invention) are based on customer requirements and the desire to release negative ions and far red lines. Depending on the concentration. [0042] After a series of weaving, the woven elastic webbing 10 is finished, packaged, and rolled into a file for shipping at the length required by the customer. Form No. A0101 Page 12 of 20 [0043] Referring to the third and fourth figures, the elastic webbing 10 woven by the elastic body 11 and the yarn 12 of the present invention has a wide range of applications, except for the graphic display. In addition to the wristband (figure 3) and the sock elastic band (figure 4), it can also be used as a backpack elastic webbing, elastic band, collar sweatband, mobile phone strap, car seat belt, identification card, clothing accessories, accessories. And other related products requiring elastic webbing [0044] Even the elastic webbing 10 can be knitted together with other yarns to form a fabric, which can be used for clothing, furniture, and other products requiring fabrics; The coated elastomer 11 is coated to form a wrapper. [0045] In summary, when the creation of the "anionic and far-infrared elastomer combined with an elastic webbing containing the elastic body" has industrial applicability, novelty and progressiveness, the structure of the creation has never been Seen in similar products and public use, fully comply with the requirements of new patent applications, and apply in accordance with the Patent Law. BRIEF DESCRIPTION OF THE DRAWINGS [0046] The first figure is an elastic webbing in which the elastomer and the yarn of the present invention are woven together. [0047] The second drawing is an enlarged view of the portion A of the first drawing. [0048] The third figure is an application mode of the present elastic webbing. [0049] The fourth figure is another application of the present elastic webbing. [Explanation of main component symbols] [0050] 10 elastic webbing [0051] Elastomers Form No. A0101 Page 13 of 20 M378235 [0052] 12 Yarn Form No. A0101 Page 14 of 20
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TWI571281B (en) * | 2014-12-31 | 2017-02-21 | High content far infrared elastomer and its manufacturing method |
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