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    Implementation method of ultrathin graphene floor heating

    New search for: REN LIANGLIANG
    New search for: HUANG MIN

    The invention discloses an implementation method of ultrathin graphene floor heating, which comprises a UV layer and an implementation method, a wear-resistant layer is arranged below the UV layer, the bottom of the wear-resistant layer is connected with a decorative layer, one side of the decorative layer is provided with a pre-coating film layer A, the lower part of the pre-coating film layer A is connected with a conductive shielding layer, one side of the conductive shielding layer is connected with a pre-coating film layer B, and the pre-coating film layer B is connected with a graphene layer. A heating layer is arranged below the pre-coating film layer upper B, a copper strip is arranged between the pre-coating film layer upper B and the heating layer, a PET base layer is connected below the heating layer, a conductive shielding layer lower is arranged on one side of the PET base layer, a reflecting film layer is installed at the bottom of the conductive shielding layer lower, and a honeycomb base material layer is connected below the reflecting film layer. The distance between the heating layer and the ground is minimized, only a wear-resistant layer is arranged, the thickness is only about 0.2 mm, the temperature of the heating film is highly consistent with that of the ground, the temperature of the heating film is reduced to the maximum extent, a stone plastic plate (4 mm) is used as a ground material, and therefore the problems and defects of an existing device are effectively solved.

    本发明公开了超薄石墨烯地暖的实现方法,包括UV层和实现方法,UV层的下方设置有耐磨层,耐磨层的底部连接有装饰层,装饰层的一侧设置有预涂膜层上A,预涂膜层上A的下方连接有导电屏蔽层上,导电屏蔽层上的一侧连接有预涂膜层上B,预涂膜层上B的下方设置有发热层,预涂膜层上B与发热层之间设置有铜带,发热层的下方连接有PET基层,PET基层的一侧设置有导电屏蔽层下,导电屏蔽层下的底部安装有反射膜层,反射膜层的下方连接有蜂窝基材层,发热层与地面之间的距离最小化,只有耐磨层、厚度仅0.2mm左右,让发热膜与地面温度高度一致化、最大限度降低发热膜温度用石塑板(4mm)作为地面材料,从而有效的解决了现有装置出现的问题和不足。

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    Implementation method of ultrathin graphene floor heating

    New search for: REN LIANGLIANG
    New search for: HUANG MIN

    The invention discloses an implementation method of ultrathin graphene floor heating, which comprises a UV layer and an implementation method, a wear-resistant layer is arranged below the UV layer, the bottom of the wear-resistant layer is connected with a decorative layer, one side of the decorative layer is provided with a pre-coating film layer A, the lower part of the pre-coating film layer A is connected with a conductive shielding layer, one side of the conductive shielding layer is connected with a pre-coating film layer B, and the pre-coating film layer B is connected with a graphene layer. A heating layer is arranged below the pre-coating film layer upper B, a copper strip is arranged between the pre-coating film layer upper B and the heating layer, a PET base layer is connected below the heating layer, a conductive shielding layer lower is arranged on one side of the PET base layer, a reflecting film layer is installed at the bottom of the conductive shielding layer lower, and a honeycomb base material layer is connected below the reflecting film layer. The distance between the heating layer and the ground is minimized, only a wear-resistant layer is arranged, the thickness is only about 0.2 mm, the temperature of the heating film is highly consistent with that of the ground, the temperature of the heating film is reduced to the maximum extent, a stone plastic plate (4 mm) is used as a ground material, and therefore the problems and defects of an existing device are effectively solved.

    本发明公开了超薄石墨烯地暖的实现方法,包括UV层和实现方法,UV层的下方设置有耐磨层,耐磨层的底部连接有装饰层,装饰层的一侧设置有预涂膜层上A,预涂膜层上A的下方连接有导电屏蔽层上,导电屏蔽层上的一侧连接有预涂膜层上B,预涂膜层上B的下方设置有发热层,预涂膜层上B与发热层之间设置有铜带,发热层的下方连接有PET基层,PET基层的一侧设置有导电屏蔽层下,导电屏蔽层下的底部安装有反射膜层,反射膜层的下方连接有蜂窝基材层,发热层与地面之间的距离最小化,只有耐磨层、厚度仅0.2mm左右,让发热膜与地面温度高度一致化、最大限度降低发热膜温度用石塑板(4mm)作为地面材料,从而有效的解决了现有装置出现的问题和不足。

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    Download

    Implementation method of ultrathin graphene floor heating

    New search for: REN LIANGLIANG
    New search for: HUANG MIN

    The invention discloses an implementation method of ultrathin graphene floor heating, which comprises a UV layer and an implementation method, a wear-resistant layer is arranged below the UV layer, the bottom of the wear-resistant layer is connected with a decorative layer, one side of the decorative layer is provided with a pre-coating film layer A, the lower part of the pre-coating film layer A is connected with a conductive shielding layer, one side of the conductive shielding layer is connected with a pre-coating film layer B, and the pre-coating film layer B is connected with a graphene layer. A heating layer is arranged below the pre-coating film layer upper B, a copper strip is arranged between the pre-coating film layer upper B and the heating layer, a PET base layer is connected below the heating layer, a conductive shielding layer lower is arranged on one side of the PET base layer, a reflecting film layer is installed at the bottom of the conductive shielding layer lower, and a honeycomb base material layer is connected below the reflecting film layer. The distance between the heating layer and the ground is minimized, only a wear-resistant layer is arranged, the thickness is only about 0.2 mm, the temperature of the heating film is highly consistent with that of the ground, the temperature of the heating film is reduced to the maximum extent, a stone plastic plate (4 mm) is used as a ground material, and therefore the problems and defects of an existing device are effectively solved.

    本发明公开了超薄石墨烯地暖的实现方法,包括UV层和实现方法,UV层的下方设置有耐磨层,耐磨层的底部连接有装饰层,装饰层的一侧设置有预涂膜层上A,预涂膜层上A的下方连接有导电屏蔽层上,导电屏蔽层上的一侧连接有预涂膜层上B,预涂膜层上B的下方设置有发热层,预涂膜层上B与发热层之间设置有铜带,发热层的下方连接有PET基层,PET基层的一侧设置有导电屏蔽层下,导电屏蔽层下的底部安装有反射膜层,反射膜层的下方连接有蜂窝基材层,发热层与地面之间的距离最小化,只有耐磨层、厚度仅0.2mm左右,让发热膜与地面温度高度一致化、最大限度降低发热膜温度用石塑板(4mm)作为地面材料,从而有效的解决了现有装置出现的问题和不足。

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    Title:

    Implementation method of ultrathin graphene floor heating

    Additional title:

    超薄石墨烯地暖的实现方法

    Contributors:

    REN LIANGLIANG (author) / HUANG MIN (author)

    Publication date:

    2023-11-24

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Chinese

    Classification:

    IPC:  F24D DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS , Haus- oder Raumheizungssysteme, z.B. Zentralheizungssysteme / E04B Allgemeine Baukonstruktionen , GENERAL BUILDING CONSTRUCTIONS / E04F FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS , Ausbau von Bauwerken, z.B. Treppen, Fußböden

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