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    Support installation method and support structure of solar module

    Neue Suche nach: LUO LINGKAI
    Neue Suche nach: ZHAI MENG
    Neue Suche nach: LI BEI
    Neue Suche nach: WU QI
    Neue Suche nach: XU YANG
    Neue Suche nach: LEI KAI

    The invention relates to the technical field of support installation, in particular to a support installation method and a support structure of a solar module, and the support installation method comprises the following steps: determining the average porosity and permeability coefficient of soil of a soil matrix; determining the type of a glue solution according to the permeability coefficient of the soil matrix soil; the support with a plurality of through holes is driven into the ground, when the depth of the support reaches the preset elevation, the glue solution is injected into the support, and the glue solution penetrates through the through holes to permeate into the soil layer gap in a natural permeation or pressurization mode till the glue solution is solidified in the soil layer gap; the support structure comprises a screw pile, the screw pile comprises a drill bit and a pile body, and the pile body is provided with threads, a plurality of through holes, a glue injection channel communicated with the through holes and a glue injection port communicated with the glue injection channel. By means of the installation method and the support structure thereof, the problem that the anti-drawing capacity is poor can be effectively solved, and sand can be fixed to the maximum extent.

    本发明涉及支架安装技术领域,特别是涉及一种太阳能组件的支架安装方法及支架结构,所述支架安装方法包括以下步骤:确定土基土壤的平均孔隙率和渗透系数;依据该土基土壤的渗透系数确定胶水溶液的类型;确定胶水溶液的注入量X:将带有若干通孔的支架打入地下,当支架深度达到预定标高,向支架内注入胶水溶液,利用自然渗透或加压的方式,使得胶水溶液穿过通孔向土层缝隙渗透,直至胶水溶液在土层缝隙中固化;所述支架结构包括螺旋桩,所述螺旋桩包括钻头和桩体,所述桩体上设有螺纹、若干通孔、与通孔连通的注胶通道以及与注胶通道连通的注胶口。通过本安装方法及其支架结构,能有效解决抗拉拔能力差的问题,并且能最大程度的固沙。

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    Support installation method and support structure of solar module

    Neue Suche nach: LUO LINGKAI
    Neue Suche nach: ZHAI MENG
    Neue Suche nach: LI BEI
    Neue Suche nach: WU QI
    Neue Suche nach: XU YANG
    Neue Suche nach: LEI KAI

    The invention relates to the technical field of support installation, in particular to a support installation method and a support structure of a solar module, and the support installation method comprises the following steps: determining the average porosity and permeability coefficient of soil of a soil matrix; determining the type of a glue solution according to the permeability coefficient of the soil matrix soil; the support with a plurality of through holes is driven into the ground, when the depth of the support reaches the preset elevation, the glue solution is injected into the support, and the glue solution penetrates through the through holes to permeate into the soil layer gap in a natural permeation or pressurization mode till the glue solution is solidified in the soil layer gap; the support structure comprises a screw pile, the screw pile comprises a drill bit and a pile body, and the pile body is provided with threads, a plurality of through holes, a glue injection channel communicated with the through holes and a glue injection port communicated with the glue injection channel. By means of the installation method and the support structure thereof, the problem that the anti-drawing capacity is poor can be effectively solved, and sand can be fixed to the maximum extent.

    本发明涉及支架安装技术领域,特别是涉及一种太阳能组件的支架安装方法及支架结构,所述支架安装方法包括以下步骤:确定土基土壤的平均孔隙率和渗透系数;依据该土基土壤的渗透系数确定胶水溶液的类型;确定胶水溶液的注入量X:将带有若干通孔的支架打入地下,当支架深度达到预定标高,向支架内注入胶水溶液,利用自然渗透或加压的方式,使得胶水溶液穿过通孔向土层缝隙渗透,直至胶水溶液在土层缝隙中固化;所述支架结构包括螺旋桩,所述螺旋桩包括钻头和桩体,所述桩体上设有螺纹、若干通孔、与通孔连通的注胶通道以及与注胶通道连通的注胶口。通过本安装方法及其支架结构,能有效解决抗拉拔能力差的问题,并且能最大程度的固沙。

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    Support installation method and support structure of solar module

    Neue Suche nach: LUO LINGKAI
    Neue Suche nach: ZHAI MENG
    Neue Suche nach: LI BEI
    Neue Suche nach: WU QI
    Neue Suche nach: XU YANG
    Neue Suche nach: LEI KAI

    The invention relates to the technical field of support installation, in particular to a support installation method and a support structure of a solar module, and the support installation method comprises the following steps: determining the average porosity and permeability coefficient of soil of a soil matrix; determining the type of a glue solution according to the permeability coefficient of the soil matrix soil; the support with a plurality of through holes is driven into the ground, when the depth of the support reaches the preset elevation, the glue solution is injected into the support, and the glue solution penetrates through the through holes to permeate into the soil layer gap in a natural permeation or pressurization mode till the glue solution is solidified in the soil layer gap; the support structure comprises a screw pile, the screw pile comprises a drill bit and a pile body, and the pile body is provided with threads, a plurality of through holes, a glue injection channel communicated with the through holes and a glue injection port communicated with the glue injection channel. By means of the installation method and the support structure thereof, the problem that the anti-drawing capacity is poor can be effectively solved, and sand can be fixed to the maximum extent.

    本发明涉及支架安装技术领域,特别是涉及一种太阳能组件的支架安装方法及支架结构,所述支架安装方法包括以下步骤:确定土基土壤的平均孔隙率和渗透系数;依据该土基土壤的渗透系数确定胶水溶液的类型;确定胶水溶液的注入量X:将带有若干通孔的支架打入地下,当支架深度达到预定标高,向支架内注入胶水溶液,利用自然渗透或加压的方式,使得胶水溶液穿过通孔向土层缝隙渗透,直至胶水溶液在土层缝隙中固化;所述支架结构包括螺旋桩,所述螺旋桩包括钻头和桩体,所述桩体上设有螺纹、若干通孔、与通孔连通的注胶通道以及与注胶通道连通的注胶口。通过本安装方法及其支架结构,能有效解决抗拉拔能力差的问题,并且能最大程度的固沙。

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    Titel:

    Support installation method and support structure of solar module

    Weitere Titelangaben:

    一种太阳能组件的支架安装方法及支架结构

    Beteiligte:

    LUO LINGKAI (Autor:in) / ZHAI MENG (Autor:in) / LI BEI (Autor:in) / WU QI (Autor:in) / XU YANG (Autor:in) / LEI KAI (Autor:in)

    Erscheinungsdatum:

    21.04.2023

    Medientyp:

    Patent

    Format:

    Elektronische Ressource

    Sprache:

    Chinesisch

    Klassifikation:

    IPC:  E02D FOUNDATIONS , Gründungen / H02S GENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, E.G. USING PHOTOVOLTAIC [PV] MODULES , Erzeugung elektrischer Energie durch Umwandlung von Infrarot-Strahlung, sichtbarem Licht oder ultraviolettem Licht, z.B. unter Verwendung von Photovoltaik [PV]-Modulen

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