WO2014089952A1 - 硅胶保健材料及制作方法及保健鞋及保健鞋垫及保健鞋底 - Google Patents
硅胶保健材料及制作方法及保健鞋及保健鞋垫及保健鞋底 Download PDFInfo
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- WO2014089952A1 WO2014089952A1 PCT/CN2013/075234 CN2013075234W WO2014089952A1 WO 2014089952 A1 WO2014089952 A1 WO 2014089952A1 CN 2013075234 W CN2013075234 W CN 2013075234W WO 2014089952 A1 WO2014089952 A1 WO 2014089952A1
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- silica gel
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Classifications
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B13/00—Soles; Sole-and-heel integral units
- A43B13/02—Soles; Sole-and-heel integral units characterised by the material
- A43B13/04—Plastics, rubber or vulcanised fibre
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B17/00—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined
- A43B17/003—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined characterised by the material
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B17/00—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined
- A43B17/14—Insoles for insertion, e.g. footbeds or inlays, for attachment to the shoe after the upper has been joined made of sponge, rubber, or plastic materials
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B7/00—Footwear with health or hygienic arrangements
- A43B7/14—Footwear with health or hygienic arrangements with foot-supporting parts
- A43B7/1405—Footwear with health or hygienic arrangements with foot-supporting parts with pads or holes on one or more locations, or having an anatomical or curved form
- A43B7/1455—Footwear with health or hygienic arrangements with foot-supporting parts with pads or holes on one or more locations, or having an anatomical or curved form with special properties
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K3/00—Use of inorganic substances as compounding ingredients
- C08K3/01—Use of inorganic substances as compounding ingredients characterized by their specific function
- C08K3/013—Fillers, pigments or reinforcing additives
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K3/00—Use of inorganic substances as compounding ingredients
- C08K3/18—Oxygen-containing compounds, e.g. metal carbonyls
- C08K3/20—Oxides; Hydroxides
- C08K3/22—Oxides; Hydroxides of metals
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08K—Use of inorganic or non-macromolecular organic substances as compounding ingredients
- C08K3/00—Use of inorganic substances as compounding ingredients
- C08K3/18—Oxygen-containing compounds, e.g. metal carbonyls
- C08K3/20—Oxides; Hydroxides
- C08K3/22—Oxides; Hydroxides of metals
- C08K2003/2237—Oxides; Hydroxides of metals of titanium
Definitions
- the invention relates to a health care material made of silica gel and an application technique thereof.
- the technical problem to be solved by the present invention is to provide a silicone rubber health care material having wear resistance and health care function and a manufacturing method thereof.
- the present invention is implemented as follows:
- a silicone health care material having the following composition: silica gel main ingredient 60% ⁇ 69%, negative ion powder 21% ⁇ 25%, far infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium gold powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1. 5 %, pigment 0. 1% ⁇ 8 %, the above percentage is percentage by weight, can be molded or injected into a desired shape; Far infrared ceramic powder or tourmaline powder or medical stone powder.
- the material also has a bactericidal function of the nano-silver-loaded titanium dioxide or nano-loaded silver-loaded zeolite or nano-silvered zirconium phosphate 0. 1% ⁇ 0. 2%.
- a method for preparing a silicone health care material comprising the raw material preparation step and molding or injection molding
- the step of preparing the raw material comprises: using a silica gel main material, adding an anion powder, a far-infrared powder, an anti-wear agent, a titanium powder, a vulcanizing agent, and a pigment, uniformly stirring, and removing bubbles under reduced pressure to form a raw material, wherein According to the weight percentage, the content of each component is: silica gel main material 60% ⁇ 69%, negative ion powder 21% ⁇ 25%, far infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8%, nano-silver-loaded titanium dioxide or nano-silver-loaded zeolite or nano-silver-loaded zirconium phosphate having bactericidal function 0.1% ⁇ 0.2%;
- the molding or injection molding step is: placing or injecting the prepared raw material into a preset mold, heating the temperature to 170 ⁇ 205 ° C, and heating the time through the machine pressure between 1550 seconds and 1650, and discharging the mold. That is, the finished product.
- a health care shoe having a health care function a health care shoe having a sole and an upper, the sole, or the upper, or the sole and the upper being molded or injected using the following materials Into: silica gel main material 60% ⁇ 69%, negative ion powder 21% ⁇ 25%, far infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8%, nano-silver-loaded titanium dioxide or nano-silver-loaded zeolite or nano-silver-loaded zirconium phosphate having bactericidal function 0.1% ⁇ 0.2%, the above percentages are percentage by weight;
- the preparation method comprises a raw material preparation step and a molding or injection molding step, wherein the raw material preparation step comprises: using a silica gel main material, adding an anion powder, a far-infrared powder, an anti-wear agent, a titanium powder, a vulcanizing agent and a pigment, and uniformly stirring the mixture.
- the air bubbles are removed under reduced pressure to form a raw material;
- the molding or injection molding step is: placing or injecting the prepared raw materials into a preset mold, heating at a temperature of 170 to 205 ° C, and heating the time through the machine at 1550 seconds. Between 1650, the finished shoes are obtained.
- the far infrared powder is far infrared ceramic powder or tourmaline powder or medical stone powder.
- a health insole having a health care function a health insole comprising a main body of the insole which is molded or injected by the following materials: According to the weight percentage, the content of each component is: silica gel Ingredients 60% ⁇ 69%, negative ion powder 21% ⁇ 25%, far Infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8%, nano-silver titanium dioxide with bactericidal function or Nano-loaded silver zeolite or nano-loaded silver zirconium phosphate 0.1% ⁇ 0.2%;
- the preparation method comprises a raw material preparation step and a molding or injection molding step, wherein the raw material preparation step comprises: using a silica gel main material, adding an anion powder, a titanium gold powder, a vulcanizing agent and a pigment, fully stirring uniformly, and removing the pressure under reduced pressure. Bubbles, forming raw materials; molding or injection molding steps: placing or injecting the prepared raw materials into a preset mold, heating to 170 ⁇ 205 ° C, and heating the pressure through the machine between 1550 seconds and 1650 The blank is produced, and then a layer of leather or cloth is overlaid on the blank to form a finished insole.
- the far infrared powder is far infrared ceramic powder or tourmaline powder or medical stone powder.
- a health care sole having a health care function a health care sole, which is molded or injected by the following materials: According to the weight percentage, the content of each component is: 60% of the main material of the silica gel ⁇ 69%, negative ion powder 21% ⁇ 25%, far infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8%, nano-loaded silver dioxide or nano-loaded silver zeolite with bactericidal function or nano-silver-loaded zirconium phosphate 0.1% ⁇ 0.2%;
- the preparation method comprises a raw material preparation step and a molding or injection molding step, wherein the raw material preparation step comprises: using a silica gel main material, adding an anion powder, a titanium gold powder, a vulcanizing agent and a pigment, fully stirring uniformly, and removing the pressure under reduced pressure. Bubbles, forming raw materials; molding or injection molding steps: placing or injecting the prepared raw materials into a preset mold, heating to 170 ⁇ 205 ° C, and heating the pressure through the machine between 1550 seconds and 1650 Finished out the finished sole.
- a cotton velvet layer for facilitating the bonding of the sole to the upper may be provided on the surface of the sole, and the velvet layer may be adhered to the joint of the sole and the upper by an injection molding machine or an integral injection machine.
- the far infrared ray powder is far infrared ceramic powder or tourmaline powder or maifan powder.
- the silicone health care material disclosed by the invention and the silicone health care shoe, the insole and the sole made of the health care material can adopt the one-time forming technology in the molding or injection of the mold, and the manufacturing process is simple, and the multiple inlays in the traditional shoe-making process are eliminated.
- the process method ensures the integrity of the shoe type, and the wearing is flexible and comfortable.
- the sole is firmly connected without delamination, waterproof, weak acid and alkali corrosion, and easy to clean.
- the materials used in the shoes are environmentally friendly materials, which can release negative ions and far infrared rays, balance the electrolyte in the human body, promote blood circulation, enhance the metabolism of the human body, and have the functions of purifying air, health care, abrasion resistance, environmental protection and electrical insulation. Innovated the function and performance of the shoes.
- the silicone insole disclosed by the invention is flexible and comfortable, and the materials used are all environmentally friendly materials, can release negative ions, can balance the electrolyte in the human body, promote blood circulation, enhance the metabolism function of the human body, have the functions of purifying air, health care, environmental protection, etc.
- this health care material can also be used to make other health care products, such as various wristbands worn by the human body.
- a silicone health care material having the following composition: 60% to 69% of silica gel main ingredient, 21% to 25% of negative ion powder, 5% to 20% of far infrared ray powder, 2% to 7% of anti-wear agent, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8%, nano-loaded silver zirconium phosphate with bactericidal function 0.1% ⁇ 0.2%, the above percentage is percentage by weight, can be molded or injected into required shape.
- the far infrared powder is far infrared ceramic powder or tourmaline powder or medical stone powder.
- the silicone health care material is prepared by the following method:
- the method comprises a raw material preparation step and a molding or injection molding step, wherein the raw material preparation step comprises: using a silica gel main material, adding an anion powder, a far infrared powder, an anti-wear agent, a titanium powder , vulcanizing agent, pigment and nano-loaded silver zirconium phosphate, fully stirred evenly, degassing to eliminate bubbles, forming raw materials, wherein, according to the weight percentage, the content of each component is: silica gel main material 60% ⁇ 69%, negative ion powder 21% ⁇ 25 %, far infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8%, nano-silver Zirconium phosphate 0.1% ⁇ 0.2%;
- the molding or injection molding step is as follows: the prepared raw material is put into or injected into a preset mold, the temperature is heated to
- the present invention designs a health care shoe having a sole and an upper, the sole, or the upper, or the sole and the upper are molded or injected by the following materials: Silicone main material 60% ⁇ 69 %, negative ion powder 21% ⁇ 25%, far infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8 %, nano-loaded silver zirconium phosphate having bactericidal function 0.1% ⁇ 0.2%, the above percentage is percentage by weight;
- the preparation method comprises a raw material preparation step and a molding or injection molding step, wherein the raw material preparation step comprises: using a silica gel main material, adding Anion powder, far-infrared powder, anti-abrasion agent, titanium powder, vulcanizing agent, pigment and nano-silver-loaded zirconium phosphate, fully stirred evenly, decompressing bubbles to form raw materials; molding or injection
- the sole part can be made of silicone health care material
- the upper part can be made of common leather, artificial leather, cloth and the like; or only the upper part can be made of silicone health care material.
- the sole part can adopt the existing common rubber, TPR, PU and other materials; at the same time, the sole and the upper can also be made of silicone health care material, which is not limited herein.
- the present invention further designs a health insole, including an insole main body, which is molded or injected by the following materials: According to the weight percentage, the content of each component is: 60% to 69% of the main material of the silica gel, Negative ion powder 21% ⁇ 25%, far infrared powder 5% ⁇ 20%, anti-wear agent 2% ⁇ 7%, titanium powder 2% ⁇ 15%, vulcanizing agent 0.1% ⁇ 1.5%, pigment 0.1% ⁇ 8%, The nano-loaded silver zirconium phosphate having a bactericidal function is 0.1% to 0.2%; the preparation method comprises a raw material preparation step and a molding or injection molding step, wherein the raw material preparation step comprises: using a silica gel main material, adding an anion Powder, titanium powder, vulcanizing agent and pigment, fully stirred evenly, remove air bubbles under reduced pressure to form raw materials; molding or injection molding steps are: put the prepared raw materials into or into a preset mold, and heat
- the thickness of the finished insole is 0. 5mn!
- the aging of the insole is 0. 5mn! Between 10mm, venting holes can be provided on the insole.
- the far infrared powder is far infrared ceramic powder or tourmaline powder or medical stone powder.
- the present invention designs a silicone health care sole, which is molded or injected by the following materials: According to the weight percentage, the content of each component is: silica gel main material 60% ⁇ 69%, negative ion powder 21 % %2%, 5% 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5%, 5% 1% ⁇ 0. 2% ⁇ 8%.
- the method for preparing a silicone health sole comprises a raw material preparation step and a molding or injection molding step, wherein the raw material preparation step comprises: using a silica gel main material, adding an anion powder, a titanium powder, a vulcanizing agent and a pigment, and uniformly stirring, reducing The bubble is removed to form a raw material; the molding or injection molding step is: placing or injecting the prepared raw material into a preset mold, heating at a temperature of 170 to 205 ° C, and heating the time through the machine at a pressure of 1550 seconds to 1650 In the meantime, the finished sole is produced.
- the far infrared ray powder is far infrared ceramic powder or tourmaline powder or maifan powder.
- a cotton velvet layer is provided on the surface of the sole for facilitating the bonding of the sole to the upper, and the velvet layer is adhered to the upper of the sole and the upper by an injection molding machine or an integral injection machine. Meeting point.
- a silica gel main material, an anion powder, a far-infrared powder, a titanium powder, and a pigment are commercially available, and the hardness of the silica main ingredient is 30 to 70 degrees.
- the vulcanizing agent is a C-14 vulcanizing agent produced by Shenzhen Zijun Chemical Co., Ltd., which can also be purchased directly from the market.
- the anti-wear agent is commercially available, and the anti-wear agent produced by Haisongya Chemical Co., Ltd. can be used.
- the silicone health shoes disclosed in the above embodiments can adopt one-time forming technology in mold molding or injection, and the manufacturing process is simple, eliminating the multiple inlaying process in the traditional shoe-making process, and ensuring the integrity of the shoe type.
- sexual, comfortable and comfortable to wear, the sole is firmly connected without delamination, waterproof, resistant to weak acid and alkali corrosion, easy to clean.
- the materials used in the shoes are environmentally friendly materials, which can release negative ions and far infrared rays, balance electrolytes in the human body, promote blood circulation, enhance human metabolism, and have sterilization, air purification, health care, wear resistance, environmental protection and electrical insulation. Performance, revolutionizing the function and performance of the shoe.
- the silicone health insole disclosed by the invention is flexible and comfortable, and the materials used are all environmentally friendly materials, capable of releasing negative ions and far infrared rays, balancing electrolytes in the human body, promoting blood circulation, enhancing metabolic functions of the human body, purifying air, health care, and resistance. Grinding, environmental protection and other properties have revolutionized the function and performance of the insole.
- the materials used in the silicone health care sole disclosed by the invention are all environmentally friendly materials, can release negative ions and far infrared rays, can balance the electrolyte in the human body, promote blood circulation, enhance the metabolism function of the human body, have air purification, health care, wear resistance and environmental protection. The performance has revolutionized the function and performance of the sole.
- the silica gel main materials other values such as 60% or 65% or 69% may be used, the negative ion powder may adopt other values such as 21% or 23% or 25%, and the far infrared ray powder may adopt other values such as 5%. Or 10% or 15% or 5%, other values such as 2% or 5% or 7% of the anti-wear agent, other values such as 2% or 5% or 10% or 15% of the titanium powder, the vulcanizing agent can be 1% ⁇ 0% or 0. 15% or 0. 1% or 0. 15% or 0. 1% or 0. 15% or 0. . 2%.
- the nano-silver-loaded zirconium phosphate can also be a nano-silver-loaded titanium dioxide or a nano-silver-loaded zeolite which also has a bactericidal function.
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Abstract
一种硅胶保健材料及其制作方法和应用。该硅胶保健材料具有如下成分:硅胶主料、负离子粉、远红外线粉、耐磨剂、钛金粉末、硫化剂、颜料,可通过模压或注射成型为所需形状。该硅胶保健材料可用于制作保健鞋、保健鞋垫及保健鞋底。
Description
硅胶保健材料及制作方法及保健鞋及保健鞋垫及保健鞋底
技术领域
本发明涉及硅胶材质的保健材料及其应用技术。
背景技术
随着人们生活水平的提高, 人们对鞋子的要求越来越高, 除了需要有美观 的外表之外, 对于其功能要求也越来越多, 比如耐磨功能、 保健功能、 防水功 能、 耐酸碱功能等, 市面上各种保健功能的鞋也越来越多。 但是现有的保健鞋 很多采用药物或者其他机械结构实现其保健功能, 制作过程复杂、 成本高, 保 健效果有限, 使用场合受限制, 难以广泛推广应用。 而对于传统的鞋垫一般采 用皮革、 布质为原料裁剪、 缝制而成。 但是这种鞋垫功能能单一, 并且由于材 质较硬, 弹性差, 舒适性较差, 长时间行走足部容易产生不适。 由此, 出现了 采用硅胶作为主材料制成的鞋垫, 该类鞋垫虽然穿着比较舒适, 但是不具有保 健功能, 难免美中不足。
发明内容
有鉴于此, 本发明要解决的技术问题是提供一种具有耐磨、 保健功能的硅 胶保健材料及其制作方法。
为了解决上述技术问题, 本发明采用如下方式实现:
一种硅胶保健材料, 该材料具有如下成分: 硅胶主料 60%〜69 %, 负离子 粉 21 %〜25 %, 远红外线粉 5%〜20%, 耐磨剂 2 %〜7 %、 钛金粉末 2 %〜15 %, 硫化剂 0. 1 %〜1. 5 %, 颜料 0. 1 %〜8 %, 以上百分比为重量百分比, 可采用模 压或注射成所需形状; 所述的远红外线粉为远红外陶瓷粉或者电气石粉或麦饭 石粉。
该材料还包括具有杀菌功能的纳米载银二氧化钛或纳米载银沸石或纳米载 银磷酸锆 0. 1%〜0. 2%。
一种硅胶保健材料制作方法, 该方法包括原料配制步骤和模压或注射成型
步骤, 所述的原料配制步骤包括: 采用硅胶主料, 加入负离子粉、 远红外线粉、 耐磨剂、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原 料, 其中, 按照重量百分比, 各成份含量为: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫 化剂 0.1%〜1.5%, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银二氧化钛或纳 米载银沸石或纳米载银磷酸锆 0.1%〜0.2%;
所述的模压或注射成型步骤为: 将配制好的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台压力加热时间在 1550秒〜 1650之间, 出模 即得成品。
本发明要解决的另一技术问题是提供一种具有保健功能的保健鞋: 一种保健鞋, 具有鞋底以及鞋面, 该鞋底、 或鞋面、 或鞋底和鞋面采用如 下原料模压或注射而成: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远红外 线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫化剂 0.1 %〜1.5%, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银二氧化钛或纳米载银沸石或纳米载 银磷酸锆 0.1%〜0.2%, 以上百分比为重量百分比;
其制作方法包括原料配制步骤和模压或注射成型步骤, 其中, 原料配制步 骤包括: 采用硅胶主料, 加入负离子粉、 远红外线粉、 耐磨剂、 钛金粉末、 硫 化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步 骤为: 将配制好的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通 过机台压力加热时间在 1550秒〜 1650之间, 出模即得鞋成品。
其中, 所述的远红外线粉为远红外陶瓷粉或电气石粉或麦饭石粉。
本发明要解决的另一技术问题是提供一种具有保健功能的保健鞋垫: 一种保健鞋垫, 包括鞋垫主体, 该鞋垫采用如下原料模压或注射而成: 按照 重量百分比, 各成份含量为: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远
红外线粉 5%〜20%, 耐磨剂 2%〜7%、钛金粉末 2%〜15%,硫化剂 0.1%〜1.5 %, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银二氧化钛或纳米载银沸石或纳 米载银磷酸锆 0.1%〜0.2%;
其制作方法法包括原料配制步骤和模压或注塑成型步骤, 其中, 所述的原料 配制步骤包括: 采用硅胶主料, 加入负离子粉、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步骤为: 将配制好 的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台压力加热 时间在 1550秒〜 1650之间, 出模得胚料, 然后在胚料外包一层皮或布料, 形成 鞋垫成品。
其中, 所述的远红外线粉为远红外陶瓷粉或电气石粉或麦饭石粉。
本发明要解决的另一技术问题为提供一种具有保健功能的保健鞋底: 一种保健鞋底, 该鞋底采用如下原料模压或注射而成: 按照重量百分比, 各成份含量为: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜 20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫化剂 0.1%〜1.5%, 颜料 0.1 %〜8%, 具有杀菌功能的纳米载银二氧化钛或纳米载银沸石或纳米载银磷酸锆 0.1%〜0.2%;
其制作方法法包括原料配制步骤和模压或注塑成型步骤, 其中, 所述的原料 配制步骤包括: 采用硅胶主料, 加入负离子粉、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步骤为: 将配制好 的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台压力加热 时间在 1550秒〜 1650之间, 出模得鞋底成品。
并且, 可在鞋底表面设置有利于鞋底与鞋面粘接的棉质绒布层, 采用压注 机或一体注射机使绒布层紧贴于鞋底上面与鞋面的结合处。
且, 所述的远红外线粉为远红外陶瓷粉或电气石粉或麦饭石粉。
本发明揭示的硅胶保健材料及由该保健材料制成的硅胶保健鞋、 鞋垫和鞋 底, 可在模具模压或注射时可采用一次成型技术, 制作工艺简单, 消除传统制 鞋工艺中的多块镶嵌工艺做法, 保证了鞋型的完整性, 穿着柔韧舒适, 鞋底鞋 面连接牢固不分层, 防水、 耐弱酸碱腐蚀, 易于清洗。 鞋子采用的各材料均为 环保材料, 能释放负离子, 远红外线, 能平衡人体内的电解质, 促进血液循环, 增强人体代谢功能, 具有净化空气、 保健、 耐磨、 环保以及电气绝缘性等性能, 革新了鞋子的功能和性能。 本发明揭示的硅胶鞋垫柔韧舒适, 所采用的各材料 均为环保材料, 能释放负离子, 能平衡人体内的电解质, 促进血液循环, 增强 人体代谢功能, 具有净化空气、 保健、 环保等性能, 革新了鞋垫的功能和性能。 这种保健材料除了可用于制成鞋子、 鞋垫之外, 还可以用于制作其他保健产品, 如人体佩戴的各种手环等。
具体实施方式
针对现有技术存在的缺陷, 为了便于本领域技术人员理解, 下面将结合实 施例对本发明的作进一步详细描述:
一种硅胶保健材料, 该材料具有如下成分: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫 化剂 0.1%〜1.5%, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银磷酸锆 0.1%〜 0.2%, 以上百分比为重量百分比, 可采用模压或注射成所需形状。 其中, 所述 的远红外线粉为远红外陶瓷粉或电气石粉或麦饭石粉。
该硅胶保健材料采用如下方法制作: 该方法包括原料配制步骤和模压或注 射成型步骤, 所述的原料配制步骤包括: 采用硅胶主料, 加入负离子粉、 远红 外线粉、 耐磨剂、 钛金粉末、 硫化剂、 颜料以及纳米载银磷酸锆, 充分搅拌均 匀, 减压排除气泡, 形成原料, 其中, 按照重量百分比, 各成份含量为: 硅胶 主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7 %、 钛金粉末 2%〜15%, 硫化剂 0.1%〜1.5%, 颜料 0.1%〜8%, 纳米载银
磷酸锆 0.1%〜0.2%; 所述的模压或注射成型步骤为: 将配制好的原料放入或注 入预置的模具中,温度加热至 170〜205°C, 通过机台压力加热时间在 1550秒〜 1650之间, 出模即得成品。
根据上述硅胶保健材料, 本发明设计一种保健鞋, 该鞋子具有鞋底以及鞋 面, 该鞋底、 或鞋面、 或鞋底和鞋面采用如下原料模压或注射而成: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛 金粉末 2%〜15%, 硫化剂 0.1%〜1.5%, 颜料 0.1%〜8%, 具有杀菌功能的 纳米载银磷酸锆 0.1%〜0.2%, 以上百分比为重量百分比; 其制作方法包括原料 配制步骤和模压或注射成型步骤, 其中, 原料配制步骤包括: 采用硅胶主料, 加入负离子粉、 远红外线粉、 耐磨剂、 钛金粉末、 硫化剂、 颜料以及纳米载银 磷酸锆, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步骤为: 将配制好的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台 压力加热时间在 1550秒〜 1650之间, 出模即得鞋成品。 其中, 所述的远红外线 粉为远红外陶瓷粉或电气石粉或麦饭石粉。
上述采用了硅胶保健材料制成的鞋中, 既可以是只有鞋底部分采用硅胶保 健材料, 鞋面部分可采用现有常见的真皮、 人造革、 布等材料; 也可以只有鞋 面部分采用硅胶保健材料, 鞋底部分可采用现有常见的橡胶、 TPR、 PU等材料; 同时, 也可以鞋底和鞋面均采用硅胶保健材料, 在此不作限制。
并且, 根据上述保健材料, 本发明另外设计了一种保健鞋垫,包括鞋垫主体, 该鞋垫采用如下原料模压或注射而成: 按照重量百分比, 各成份含量为: 硅胶 主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7 %、 钛金粉末 2%〜15%, 硫化剂 0.1%〜1.5%, 颜料 0.1%〜8%, 具有杀菌 功能的纳米载银磷酸锆 0.1%〜0.2%; 其制作方法法包括原料配制步骤和模压或 注塑成型步骤, 其中, 所述的原料配制步骤包括: 采用硅胶主料, 加入负离子
粉、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步骤为: 将配制好的原料放入或注入预置的模具中, 温度加热 至 170〜205°C, 通过机台压力加热时间在 1550秒〜 1650之间, 出模得胚料, 然后在胚料外包一层皮或布料, 形成鞋垫成品, 鞋垫成品厚度在 0. 5mn!〜 10mm 之间, 在鞋垫上可设置透气孔。 其中, 所述的远红外线粉为远红外陶瓷粉或电 气石粉或麦饭石粉。
并且, 根据上述的保健材料, 本发明设计了一种硅胶保健鞋底, 该鞋底采 用如下原料模压或注射而成: 按照重量百分比, 各成份含量为: 硅胶主料 60%〜 69 % , 负离子粉 21 %〜25 %, 远红外线粉 5%〜20%, 耐磨剂 2 %〜7 %、 钛金粉 末 2 %〜15 %,硫化剂 0. 1 %〜1. 5 %,颜料 0. 1 %〜8 %,纳米载银磷酸锆 0. 1%〜 0. 2%。 硅胶保健鞋底制作方法法包括原料配制步骤和模压或注塑成型步骤, 其 中, 所述的原料配制步骤包括: 采用硅胶主料, 加入负离子粉、 钛金粉末、 硫 化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步 骤为: 将配制好的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通 过机台压力加热时间在 1550秒〜 1650之间, 出模得鞋底成品。所述的远红外线 粉为远红外陶瓷粉或电气石粉或麦饭石粉。 并且, 为了便于该鞋底与鞋面牢固 结合, 在鞋底表面设置有利于鞋底与鞋面粘接的棉质绒布层, 采用压注机或一 体注射机使绒布层紧贴于鞋底上面与鞋面的结合处。
在上述材料中, 硅胶主料、 负离子粉、 远红外线粉、 钛金粉末、 颜料均可 市售获得, 且硅胶主料硬度为 30— 70度。 硫化剂为深圳子均化工有限公司生产 的 C-14型硫化剂, 也可直接从市场上购买获得。 耐磨剂可市售获得, 如上海松 亚化工有限公司生产的耐磨剂即可。
上述实施例揭示的硅胶保健鞋在模具模压或注射时可采用一次成型技术, 制作工艺简单, 消除传统制鞋工艺中的多块镶嵌工艺做法, 保证了鞋型的完整
性, 穿着柔韧舒适, 鞋底鞋面连接牢固不分层, 防水、 耐弱酸碱腐蚀, 易于清 洗。 鞋子采用的各材料均为环保材料, 能释放负离子和远红外线, 能平衡人体 内的电解质, 促进血液循环, 增强人体代谢功能, 具有杀菌、 净化空气、 保健、 耐磨、 环保以及电气绝缘性等性能, 革新了鞋子的功能和性能。 本发明揭示的 硅胶保健鞋垫柔韧舒适, 所采用的各材料均为环保材料, 能释放负离子和远红 外线, 能平衡人体内的电解质, 促进血液循环, 增强人体代谢功能, 具有净化 空气、 保健、 耐磨、 环保等性能, 革新了鞋垫的功能和性能。 本发明揭示的硅 胶保健鞋底所采用的各材料均为环保材料, 能释放负离子和远红外线, 能平衡 人体内的电解质, 促进血液循环, 增强人体代谢功能, 具有净化空气、 保健、 耐磨、 环保等性能, 革新了鞋底的功能和性能。
上述各成分中, 其中, 硅胶主料可采用其他值如 60%或 65%或 69%, 负离子 粉可采用其他值如 21 %或 23%或 25 % , 远红外线粉可采用其他值如 5%或 10%或 15%或 5%, 耐磨剂可采用其他值如 2 %或 5%或 7 %、 钛金粉末可采用其他值如 2 %或 5%或 10%或 15%, 硫化剂可采用其他值如 0. 1 %或 1%或 1. 5 % , 颜料可采用 其他值如 0. 1 %或 4%或 8 %, 纳米载银磷酸锆 0. 1%或 0. 15%或 0. 2%。 其中的纳 米载银磷酸锆还可以为同样具有杀菌功能的纳米载银二氧化钛或纳米载银沸 石。
以上所述实施例仅表达了本发明的实施方式, 描述较为具体和详细, 但并 不能因此而理解为对本发明专利范围的限制。 应当指出的是, 对于本领域的普 通技术人员来说, 在不脱离本发明构思的前提下, 还可以做出若干变形和改进, 这些都属于本发明的保护范围。
Claims
1. 一种硅胶保健材料, 其特征在于, 该材料具有如下成分: 硅胶主料 60%〜69 %, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉 末 2%〜15%, 硫化剂 0.1%〜1.5%, 颜料 0.1%〜8%, 以上百分比为重量 百分比, 可采用模压或注射成所需形状; 所述的远红外线粉为电气石粉或麦 饭石粉或远红外陶瓷粉。
2. 根据权利要求 1所述的硅胶保健材料,其特征在于,该材料中包含 0.1%〜0.2% 具有杀菌功能的纳米载银二氧化钛或纳米载银沸石或纳米载银磷酸锆。
3. 一种硅胶保健材料制作方法, 该方法包括原料配制步骤和模压或注射成型步 骤, 其特征在于,
所述的原料配制步骤包括: 采用硅胶主料, 加入负离子粉、 远红外线粉、 耐磨剂、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原 料, 其中, 按照重量百分比, 各成份含量为: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫 化剂 0.1%〜1.5%, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银二氧化钛或纳 米载银沸石或纳米载银磷酸锆 0.1%〜0.2%;
所述的模压或注射成型步骤为: 将配制好的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台压力加热时间在 1550秒〜 1650之间, 出模 即得成品。
4. 一种保健鞋, 具有鞋底以及鞋面, 其特征在于, 该鞋底、 或鞋面、 或鞋底和 鞋面采用如下原料模压或注射而成: 硅胶主料 60%〜69%, 负离子粉 21%〜 25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫化 剂 0.1%〜1.5%, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银二氧化钛或纳 米载银沸石或纳米载银磷酸锆 0.1%〜0.2%, 以上百分比为重量百分比;
其制作方法包括原料配制步骤和模压或注射成型步骤, 其中, 原料配制
步骤包括: 采用硅胶主料, 加入负离子粉、 远红外线粉、 耐磨剂、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型 步骤为: 将配制好的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台压力加热时间在 1550秒〜 1650之间, 出模即得鞋成品。
5.根据权利要求 4所述的硅胶保健鞋, 其特征在于, 所述的远红外线粉为电气 石粉或麦饭石粉或远红外陶瓷粉。
6.—种保健鞋垫, 包括鞋垫主体, 其特征在于, 该鞋垫采用如下原料模压或注 射而成: 按照重量百分比, 各成份含量为: 硅胶主料 60%〜69%, 负离子粉 21 %〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫化 剂 0.1%〜1.5%, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银二氧化钛或纳米 载银沸石或纳米载银磷酸锆 0.1%〜0.2%;
其制作方法法包括原料配制步骤和模压或注塑成型步骤, 其中, 所述的原料 配制步骤包括: 采用硅胶主料, 加入负离子粉、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步骤为: 将配制好 的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台压力加热 时间在 1550秒〜 1650之间, 出模得胚料, 然后在胚料外包一层皮或布料, 形成 鞋垫成品。
7.根据权利要求 6所述的保健鞋垫, 其特征在于, 所述的远红外线粉为远红外 陶瓷粉或电气石粉或麦饭石粉。
8.—种硅胶保健鞋底, 其特征在于, 该鞋底采用如下原料模压或注射而成: 按 照重量百分比, 各成份含量为: 硅胶主料 60%〜69%, 负离子粉 21%〜25%, 远红外线粉 5%〜20%, 耐磨剂 2%〜7%、 钛金粉末 2%〜15%, 硫化剂 0.1%〜 1.5%, 颜料 0.1%〜8%, 具有杀菌功能的纳米载银二氧化钛或纳米载银沸石或 纳米载银磷酸锆 0.1%〜0.2%;
其制作方法法包括原料配制步骤和模压或注塑成型步骤, 其中, 所述的原料 配制步骤包括: 采用硅胶主料, 加入负离子粉、 钛金粉末、 硫化剂以及颜料, 充分搅拌均匀, 减压排除气泡, 形成原料; 模压或注射成型步骤为: 将配制好 的原料放入或注入预置的模具中, 温度加热至 170〜205°C, 通过机台压力加热 时间在 1550秒〜 1650之间, 出模得鞋底。
9.根据权利要求 8所述的保健鞋底, 其特征在于, 在鞋底表面设置有利于鞋底 与鞋面粘接的棉质绒布层, 采用压注机或一体注射机使绒布层紧贴于鞋底上面 与鞋面的结合处。
10.根据权利要求 9所述的保健鞋底, 其特征在于, 所述的远红外线粉为红外线 复合粉或远红外线陶瓷粉或电气石或竹竹炭粉。
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