Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses a basement heat preservation system based on a composite heat preservation material layer, and relates to the technical field of basement heat preservation. According to the basement heat preservation system, an embedded copper plate is arranged on the upper side wall surface of a first internal cavity; a plurality of heat absorption copper sheets are arranged on the lower side of the embedded copper plate; a group of third mounting screw rods are mounted on a composite hollow plate in a threaded mode; a heat absorption area is formed between the group of third mounting screw rods; and temperature sensing mechanisms are arranged at the outer side ends of the third mounting screw rods. According to the basement heat preservation system, the embedded copper plate close to a top wall body is arranged in the composite hollow plate, the plurality of heat absorption copper sheets located in the heat absorption area are arranged on the embedded copper plate, heat entering the composite hollow plate is subjected to efficient curing carrier absorption, and the cold impact influence of the top wall body on the composite hollow plate is effectively relieved; and meanwhile, double-position temperature sensing detection is adopted, heat absorption saturation degree analysis is carried out on the heat absorption copper sheets, so that heat supply operation can be carried out in time in an efficient and energy-saving mode, and dynamic cold impact defense is formed.
本发明公开了一种基于复合保温材料层的地下室保温系统,涉及地下室保温技术领域。本发明中:第一内部空腔的上侧壁面上设置有嵌入铜板;嵌入铜板下侧设置有若干热吸收铜片;复合空心板上螺纹安装有一组第三安装螺杆;一组第三安装螺杆之间形成热量吸收区;第三安装螺杆的外侧端设置有温度传感机构。本发明通过在复合空心板内部设置靠近顶部墙体的嵌入铜板,在嵌入铜板上设置处于热量吸收区的若干热吸收铜片,将进入复合空心板内的热量进行高效固化载体吸收,有效减缓顶部墙体对复合空心板的冷量冲击影响;同时采用双位化温度传感检测,对热吸收铜片进行热量吸收饱和程度分析,便于及时高效节能化的进行热量补给操作,形成动态化冷量冲击防御。
The invention discloses a basement heat preservation system based on a composite heat preservation material layer, and relates to the technical field of basement heat preservation. According to the basement heat preservation system, an embedded copper plate is arranged on the upper side wall surface of a first internal cavity; a plurality of heat absorption copper sheets are arranged on the lower side of the embedded copper plate; a group of third mounting screw rods are mounted on a composite hollow plate in a threaded mode; a heat absorption area is formed between the group of third mounting screw rods; and temperature sensing mechanisms are arranged at the outer side ends of the third mounting screw rods. According to the basement heat preservation system, the embedded copper plate close to a top wall body is arranged in the composite hollow plate, the plurality of heat absorption copper sheets located in the heat absorption area are arranged on the embedded copper plate, heat entering the composite hollow plate is subjected to efficient curing carrier absorption, and the cold impact influence of the top wall body on the composite hollow plate is effectively relieved; and meanwhile, double-position temperature sensing detection is adopted, heat absorption saturation degree analysis is carried out on the heat absorption copper sheets, so that heat supply operation can be carried out in time in an efficient and energy-saving mode, and dynamic cold impact defense is formed.
本发明公开了一种基于复合保温材料层的地下室保温系统,涉及地下室保温技术领域。本发明中:第一内部空腔的上侧壁面上设置有嵌入铜板;嵌入铜板下侧设置有若干热吸收铜片;复合空心板上螺纹安装有一组第三安装螺杆;一组第三安装螺杆之间形成热量吸收区;第三安装螺杆的外侧端设置有温度传感机构。本发明通过在复合空心板内部设置靠近顶部墙体的嵌入铜板,在嵌入铜板上设置处于热量吸收区的若干热吸收铜片,将进入复合空心板内的热量进行高效固化载体吸收,有效减缓顶部墙体对复合空心板的冷量冲击影响;同时采用双位化温度传感检测,对热吸收铜片进行热量吸收饱和程度分析,便于及时高效节能化的进行热量补给操作,形成动态化冷量冲击防御。
Basement heat preservation system based on composite heat preservation material layer
一种基于复合保温材料层的地下室保温系统
ZHAO MING (Autor:in)
04.06.2021
Patent
Elektronische Ressource
Chinesisch
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