TWM528884U - Far infrared film structure - Google Patents

Description

遠紅外線膜結構Far infrared ray membrane structure

本創作係有關於一種產生遠紅外線的醫療保健器具，尤指一種遠紅外線膜結構。This creation is about a medical device that produces far infrared rays, especially a far infrared film structure.

遠紅外線（Far Infrared, FIR）是指光譜上位於8,000~14,000nm區域的光波，遠紅外線能與人體的分子產生共振，以達到促進血液循環、加速新陳代謝、增加身體免疫力、平衡體內酸鹼值等優點。因此，市面上的醫療保健器具也開始與遠紅外線結合使用。Far Infrared (FAR) refers to light waves in the region of 8,000~14,000 nm. The far infrared rays can resonate with the molecules of the human body to promote blood circulation, accelerate metabolism, increase body immunity, and balance the body's pH. Etc. Therefore, medical devices on the market have also begun to be used in combination with far infrared rays.

醫療保健器具中以加熱裝置為例，加熱裝置主要包含一基板及結合在基板上的一電熱膜，進而達到熱敷效果，並為使加熱裝置與遠紅外線結合使用，此基材通常為可放射遠紅外線的礦石或陶瓷材質所製成的硬性板，或為添加有可放射遠紅外線的礦石或陶瓷粉末的軟性板。In the health care appliance, for example, the heating device mainly comprises a substrate and an electric heating film bonded to the substrate, thereby achieving a heat application effect, and in order to use the heating device in combination with the far infrared ray, the substrate is generally radiatable. A hard plate made of infrared ore or ceramic material, or a soft plate to which ore or ceramic powder capable of radiating far infrared rays is added.

然而，上述加熱裝置具有以下缺點：其一、基材為可放射遠紅外線的礦石或陶瓷材質所製成的硬性板時，因硬性板無法彎折以貼覆人體曲線，造成使用者感到使用不便利；其二、基材為添加有可放射遠紅外線的礦石或陶瓷粉末的軟性板時，因軟性板為保持足夠的柔軟度與可撓性，導致礦石或陶瓷粉末的含量降低，進而影響遠紅外線之效率。However, the above heating device has the following disadvantages: First, when the substrate is a hard plate made of ore or ceramic material capable of radiating far infrared rays, the rigid plate cannot be bent to cover the human body curve, causing the user to feel that the use is not Convenience; second, when the substrate is a soft board to which ore or ceramic powder capable of radiating far-infrared rays is added, the content of ore or ceramic powder is lowered due to the softness and flexibility of the soft board, thereby affecting the far The efficiency of infrared rays.

有鑑於此，本創作人遂針對上述現有技術，特潛心研究並配合學理的運用，盡力解決上述之問題點，即成為本創作人改良之目標。In view of this, the creator has made great efforts to solve the above problems by focusing on the above-mentioned prior art, and has devoted himself to the application of the theory, that is, the goal of the creator's improvement.

本創作之ㄧ目的，在於提供一種遠紅外線膜結構，其係利用遠紅外線膜結構能彎折以貼覆人體曲線並含有高含量的氧化物粉末，讓遠紅外線膜結構具有良好的使用方便性及遠紅外線放射率。The purpose of this creation is to provide a far-infrared film structure which can be bent by a far-infrared film structure to cover a human body curve and contains a high content of oxide powder, so that the far-infrared film structure has good usability and Far infrared radiation rate.

為了達成上述之目的，本創作係提供一種遠紅外線膜結構，包括：一氧化物薄膜，由一氧化物粉末及一溶膠混合成的一氧化物凝膠所構成。In order to achieve the above object, the present invention provides a far-infrared film structure comprising: an oxide film composed of an oxide powder and a sol-mixed mono-oxide gel.

第一、氧化物薄膜由氧化物粉末及溶膠混合成的氧化物凝膠所構成，使氧化物薄膜具有足夠的柔軟度與可撓性，同時氧化物薄膜又具有高含量的可放射遠紅外線粉末，以達到遠紅外線膜結構具有高效能的使用方便性、遠紅外線放射率及保健效能。First, the oxide film is composed of an oxide gel in which an oxide powder and a sol are mixed, so that the oxide film has sufficient softness and flexibility, and the oxide film has a high content of radiation-receiving far-infrared powder. In order to achieve the far-infrared film structure, it has high-efficiency usability, far-infrared emissivity and health care performance.

第二、本創作遠紅外線膜結構更包括電熱膜及阻絕層，氧化物薄膜結合在電熱膜上，阻絕層披覆在電熱膜，此阻絕層由絕熱材質及絕緣材質所構成，使遠紅外線膜結構具有使用安全性、熱集中、節約能源及隔熱功效。Secondly, the far infrared ray film structure of the present invention further comprises an electric heating film and a barrier layer. The oxide film is combined on the electric heating film, and the barrier layer is coated on the electric heating film. The barrier layer is composed of a heat insulating material and an insulating material, so that the far infrared ray film is formed. The structure is safe to use, heat concentrated, energy saving and heat insulation.

有關本創作之詳細說明及技術內容，將配合圖式說明如下，然而所附圖式僅作為說明用途，並非用於侷限本創作。The detailed description and technical content of the present invention will be described below in conjunction with the drawings, but the drawings are for illustrative purposes only and are not intended to limit the present invention.

請參考圖1至7所示，本創作係提供一種遠紅外線膜結構，此遠紅外線膜結構10主要包括一電熱膜1。Referring to FIGS. 1 to 7, the present invention provides a far-infrared film structure, which mainly includes an electrothermal film 1.

如圖1至2所示，遠紅外線膜結構10更包括一電熱膜1，電熱膜1具有遠離氧化物薄膜2的一表面11，電熱膜1包含一可撓性電熱片12及至少二電極13，二電極13間隔設置於可撓性電熱片12上並與可撓性電熱片12電性連接。其中，可撓性電熱片12塗佈有導電奈米碳粉末塗層以達到電熱效果，但不以此為限制。As shown in FIG. 1 to FIG. 2, the far-infrared film structure 10 further includes an electrothermal film 1 having a surface 11 away from the oxide film 2. The electrothermal film 1 comprises a flexible heating sheet 12 and at least two electrodes 13 The two electrodes 13 are disposed on the flexible heating fin 12 and electrically connected to the flexible heating sheet 12 . Wherein, the flexible heating sheet 12 is coated with a conductive nano carbon powder coating to achieve an electrothermal effect, but is not limited thereto.

如圖1至2所示，氧化物薄膜2結合在電熱膜1上，但不以此為限制，氧化物薄膜2也可結合在其他物品上。As shown in FIGS. 1 to 2, the oxide film 2 is bonded to the electrothermal film 1, but is not limited thereto, and the oxide film 2 can be bonded to other articles.

氧化物薄膜2由一氧化物粉末及一溶膠混合成的一氧化物凝膠所構成，電熱膜1及氧化物薄膜2共同組成一可撓性薄板3。The oxide film 2 is composed of an oxide gel and an oxide gel mixed with a sol, and the electrothermal film 1 and the oxide film 2 together constitute a flexible sheet 3.

其中，氧化物粉末為可放射遠紅外線的礦石粉末，即氧化物粉末為鐵、錳、鉻、鈷、鎂、鈦等金屬的氧化物中一種或多種混合而成，例如：SiO2、Al2O3、Na2O、K2O、MgO、CaO、TiO2、Fe2O3、CoO、Cr2O3、MnO2中的一種或多種混合而成；溶膠為矽膠或矽酸鈉。Wherein, the oxide powder is an ore powder capable of radiating far infrared rays, that is, the oxide powder is one or more kinds of oxides of metals such as iron, manganese, chromium, cobalt, magnesium, titanium, etc., for example: SiO2, Al2O3, Na2O , one or more of K2O, MgO, CaO, TiO2, Fe2O3, CoO, Cr2O3, MnO2; the sol is tannin or sodium citrate.

如圖2所示，本創作遠紅外線膜結構10更包括一阻絕層4，阻絕層4披覆在電熱膜1的表面11，此阻絕層4由絕熱材質及絕緣材質所構成，以防止電極13的電流外漏並具有熱集中和隔熱效果。As shown in FIG. 2, the present far infrared ray film structure 10 further includes a barrier layer 4, and the barrier layer 4 is coated on the surface 11 of the electric heating film 1. The barrier layer 4 is composed of a heat insulating material and an insulating material to prevent the electrode 13 from being formed. The current leaks out and has heat concentration and insulation effects.

如圖2所示，本創作遠紅外線膜結構10之組合，其利用氧化物薄膜2由氧化物粉末及溶膠混合成的氧化物凝膠所構成。藉此，使遠紅外線膜結構10能彎折以貼覆人體曲線並含有高含量的氧化物粉末，讓遠紅外線膜結構10具有良好的使用方便性及遠紅外線放射率。As shown in Fig. 2, the combination of the far-infrared film structure 10 of the present invention is composed of an oxide film in which an oxide film 2 is mixed with an oxide powder and a sol. Thereby, the far-infrared film structure 10 can be bent to cover the human body curve and contain a high content of oxide powder, so that the far-infrared film structure 10 has good usability and far-infrared emissivity.

如圖3所示，係本創作遠紅外線膜結構10的製造方法之步驟，首先，如圖3之步驟a及圖4所示，提供氧化物粉末及溶膠，將氧化物粉末加入溶膠並與溶膠混合成一氧化物凝膠5。As shown in FIG. 3, the steps of the method for fabricating the far-infrared film structure 10 are as follows. First, as shown in step a and FIG. 4 of FIG. 3, an oxide powder and a sol are provided, and an oxide powder is added to the sol and the sol. Mix into an oxide gel 5 .

再者，如圖3之步驟b所示，對氧化物凝膠5進行加工作業而形成氧化物薄膜2，此加工作業為提供一載體（圖未標示），將氧化物凝膠5塗佈於載體（圖未標示）再進行熱處理或風乾處理，使氧化物凝膠5固化成氧化物薄膜2，最後將氧化物薄膜2自載體（圖未標示）上取下。Further, as shown in step b of FIG. 3, the oxide gel 5 is processed to form the oxide film 2, and the processing operation is to provide a carrier (not shown), and the oxide gel 5 is applied to The carrier (not shown) is subjected to heat treatment or air drying treatment to cure the oxide gel 5 into the oxide film 2, and finally the oxide film 2 is removed from the carrier (not shown).

最後，如圖3之步驟c及圖5所示，提供電熱膜1，將氧化物薄膜2結合在電熱膜1上並共同組成可撓性薄板3。Finally, as shown in step c of FIG. 3 and FIG. 5, an electrothermal film 1 is provided, and the oxide film 2 is bonded to the electrothermal film 1 to collectively constitute the flexible sheet 3.

此外，如圖3之步驟d及圖6所示，提供阻絕層4，電熱膜1具有遠離氧化物薄膜2的表面11，將阻絕層4披覆在表面11。Further, as shown in step d of FIG. 3 and FIG. 6, a barrier layer 4 is provided. The electrothermal film 1 has a surface 11 away from the oxide film 2, and the barrier layer 4 is coated on the surface 11.

如圖7所示，係本創作遠紅外線膜結構10之使用狀態，其中氧化物薄膜2由氧化物粉末及溶膠混合成的氧化物凝膠所構成，使氧化物薄膜2具有足夠的柔軟度與可撓性，同時氧化物薄膜2又具有高含量的可放射遠紅外線粉末，再搭配電熱膜1共同組成可撓性薄板3，或氧化物薄膜2也可結合在皮膚、布件等可撓性材質上，以讓遠紅外線膜結構10能任意彎折，並帶動氧化物薄膜2對應人體曲線貼覆，且電熱膜1持續發熱而產生熱敷功能，進而達到遠紅外線膜結構10具有高效能的使用方便性、遠紅外線放射率及保健效能。As shown in FIG. 7, the present invention is a state in which the far-infrared film structure 10 is used, in which the oxide film 2 is composed of an oxide gel in which an oxide powder and a sol are mixed, so that the oxide film 2 has sufficient softness and Flexibility, while the oxide film 2 has a high content of radiation-receiving far-infrared powder, and together with the electric heating film 1 constitutes a flexible sheet 3, or the oxide film 2 can also be combined with flexibility in skin, cloth, etc. In the material, the far-infrared film structure 10 can be bent at will, and the oxide film 2 is attached to the human body curve, and the electric heating film 1 continues to generate heat to generate a heat application function, thereby achieving the high-efficiency use of the far-infrared film structure 10. Convenience, far-infrared emissivity and health care performance.

另外，氧化物薄膜2也可結合在軟質或硬質等各種物品上，讓物品外表藉由物品產生的熱及氧化物薄膜2而產生遠紅外線，使紅外線膜結構10具有高效能的使用廣泛性及保健效能。In addition, the oxide film 2 can also be bonded to various articles such as soft or hard, so that the outer surface of the article can generate far infrared rays by the heat generated by the article and the oxide film 2, so that the infrared film structure 10 has high-performance and wide use. Health care performance.

再者，本創作遠紅外線膜結構10更包括阻絕層4，阻絕層4披覆在電熱膜1，此阻絕層4由絕熱材質及絕緣材質所構成，以防止電極13的電流外漏並具有熱集中和隔熱效果，使遠紅外線膜結構10具有使用安全性、熱集中、節約能源及隔熱功效。Furthermore, the present far infrared ray film structure 10 further includes a barrier layer 4, and the barrier layer 4 is coated on the electric heating film 1. The barrier layer 4 is composed of a heat insulating material and an insulating material to prevent the current leakage of the electrode 13 and has heat. The concentration and thermal insulation effect make the far-infrared film structure 10 have safety of use, heat concentration, energy conservation and heat insulation.

綜上所述，本創作之遠紅外線膜結構，確可達到預期之使用目的，而解決習知之缺失，並具有產業利用性、新穎性與進步性，完全符合創作專利申請要件，爰依專利法提出申請，敬請詳查並賜准本案專利，以保障創作人之權利。In summary, the far-infrared film structure of this creation can achieve the intended purpose of use, and solve the lack of conventional knowledge, and has industrial utilization, novelty and progress, fully conform to the requirements for creating patent applications, and convert to patent law. To file an application, please check and grant the patent in this case to protect the rights of the creator.

10‧‧‧遠紅外線膜結構10‧‧‧ far infrared film structure

1‧‧‧電熱膜1‧‧‧Electric heating film

11‧‧‧表面11‧‧‧ surface

12‧‧‧可撓性電熱片12‧‧‧Flexible Heater

13‧‧‧電極13‧‧‧Electrode

2‧‧‧氧化物薄膜2‧‧‧Oxide film

3‧‧‧可撓性薄板3‧‧‧Flexible sheet

4‧‧‧阻絕層4‧‧‧The barrier layer

5‧‧‧氧化物凝膠5‧‧‧Oxide gel

步驟a~步驟dStep a~step d

圖1 係本創作遠紅外線膜結構之立體分解圖。Figure 1 is a perspective exploded view of the far infrared ray film structure.

圖2 係本創作遠紅外線膜結構之組合示意圖。Figure 2 is a schematic diagram of the combination of the far-infrared film structure.

圖3 係本創作遠紅外線膜結構製造方法之步驟流程圖。Fig. 3 is a flow chart showing the steps of the method for fabricating the far infrared ray film structure.

圖4 係本創作氧化物粉末與溶膠混合成氧化物凝膠之示意圖。Fig. 4 is a schematic view showing the mixing of the oxide powder and the sol into an oxide gel.

圖5 係本創作氧化物薄膜欲結合在電熱膜上之示意圖。Figure 5 is a schematic view of the present oxide film to be bonded to an electrothermal film.

圖6 係本創作阻絕層欲披覆在電熱膜上之立體分解圖。Fig. 6 is a perspective exploded view of the resisting layer to be coated on the electric heating film.

圖7 係本創作遠紅外線膜結構之使用狀態示意圖。Fig. 7 is a schematic view showing the state of use of the far-infrared film structure of the present invention.

10‧‧‧遠紅外線膜結構 10‧‧‧ far infrared film structure

1‧‧‧電熱膜 1‧‧‧Electric heating film

11‧‧‧表面 11‧‧‧ surface

12‧‧‧可撓性電熱片 12‧‧‧Flexible Heater

13‧‧‧電極 13‧‧‧Electrode

2‧‧‧氧化物薄膜 2‧‧‧Oxide film

3‧‧‧可撓性薄板 3‧‧‧Flexible sheet

4‧‧‧阻絕層 4‧‧‧The barrier layer

Claims (4)

一種遠紅外線膜結構，包括：一氧化物薄膜，由一氧化物粉末及一溶膠混合成的一氧化物凝膠所構成。A far-infrared film structure comprising: an oxide film consisting of an oxide powder and a sol-mixed mono-oxide gel. 如請求項1所述之遠紅外線膜結構，其更包括一電熱膜，該氧化物薄膜結合在該電熱膜上，該電熱膜及該氧化物薄膜共同組成一可撓性薄板。The far-infrared film structure of claim 1, further comprising an electrothermal film bonded to the electrothermal film, the electrothermal film and the oxide film together forming a flexible sheet. 如請求項2所述之遠紅外線膜結構，其更包括一阻絕層，該阻絕層披覆在該電熱膜遠離該氧化物薄膜的一表面，該阻絕層由絕熱材質或絕緣材質所構成，該電熱膜包含一可撓性電熱片及至少二電極，該二電極間隔設置於該可撓性電熱片上並與該可撓性電熱片電性連接。The far-infrared film structure of claim 2, further comprising a barrier layer overlying a surface of the electrothermal film away from the oxide film, the barrier layer being composed of a heat insulating material or an insulating material, The electrothermal film comprises a flexible electric heating sheet and at least two electrodes, and the two electrodes are disposed on the flexible electric heating sheet and electrically connected to the flexible electric heating sheet. 如請求項1所述之遠紅外線膜結構，其中該氧化物粉末為鐵、錳、鉻、鈷、鎂或鈦金屬的氧化物中一種或多種混合而成，該溶膠為矽膠或矽酸鈉。The far-infrared film structure according to claim 1, wherein the oxide powder is a mixture of one or more of iron, manganese, chromium, cobalt, magnesium or an oxide of a titanium metal, and the sol is tannin or sodium citrate.