公开(公告)号：US20110056164A1

公开(公告)日：2011-03-10

申请号：US12927060

申请日：2010-11-04

申请人： Francis H. Campisi ,  James F. Campisi

发明人： Francis H. Campisi ,  James F. Campisi

IPC分类号： E04B1/78

CPC分类号： E04B1/74 ,  E04F13/007 ,  F24S20/66 ,  Y02B10/20

摘要： A method and related system for providing energy conserving active thermal insulation to a building structure by employing alternately spaced insulated air channels and insulated conductive ply channels. A thin conductive ply conveys the energy by conduction from the airflow into the adjacent conductive ply channels that contain an additional layer of foam which improves the conservation of energy. The conductive ply is placed above and below structural openings which would otherwise restrict airflow. The airflow is drawn from beneath the frost line, exhaust ventilation or sunspace. A math model solution determines the energy necessary to maintain a desired room temperature for each hour of the day which characterizes the thermal resistance. As the ambient temperature fluctuates, the resistance varies, however the energy for 24 hours is used to determine the total apparent resistance. Examples of apparent resistance R-value have been improved beyond any published resistance values to date.

摘要翻译： 一种用于通过采用交替间隔开的绝缘空气通道和绝缘导电层通道来向建筑结构提供节能主动绝热的方法和相关系统。 薄的导电层通过从气流传导到相邻的导电层通道中传递能量，该通道包含另外的泡沫层，其改善了能量守恒。 导电层被放置在结构开口的上方和下方，否则将限制气流。 气流从霜冻线下方排出，排气通风或太阳空间。 数学模型解决方案确定了维持一天中每个小时所需的室温所需的能量，这表明了热阻。 随着环境温度波动，电阻变化，然而使用24小时的能量来确定总表观电阻。 迄今为止，任何公开的电阻值都已经改善了表观电阻R值的实例。

公开(公告)号：US07827743B2

公开(公告)日：2010-11-09

申请号：US11274820

申请日：2005-11-14

申请人： Francis H. Campisi ,  James F. Campisi

发明人： Francis H. Campisi ,  James F. Campisi

IPC分类号： E04H12/28 ,  E04B7/00

CPC分类号： E04B1/74 ,  E04F13/007 ,  F24S20/66 ,  Y02B10/20

摘要： An energy conserving active thermal insulation arrangement installed upon the ambient surface of an insulated structure employing alternately spaced insulated air channels and insulated conductive ply channels. A thin conductive ply conveys the energy by conduction from the airflow into the adjacent conductive ply channels, that contain an additional layer of foam which improves the conservation of energy. The conductive ply is placed above and below structural openings which would otherwise restrict airflow. The airflow is drawn from beneath the frost line, exhaust ventilation or sunspace. A math model solution determines the energy necessary to maintain a desired room temperature for each hour of the day which characterizes the thermal resistance. As the ambient temperature fluctuates, the resistance varies, however the energy for 24 hours is used to determine the total apparent resistance. Examples of apparent resistance R-value have been improved beyond any published resistance values to date.

摘要翻译： 一种节能的有源绝热装置，安装在绝缘结构的环境表面上，采用交替间隔开的绝缘空气通道和绝缘导电层通道。 薄的导电层通过从气流传导到相邻的导电层通道中传递能量，其包含另外的泡沫层，其改善了能量守恒。 导电层被放置在结构开口的上方和下方，否则将限制气流。 气流从霜冻线下方排出，排气通风或太阳空间。 数学模型解决方案确定了维持一天中每个小时所需的室温所需的能量，这表明了热阻。 随着环境温度波动，电阻变化，然而使用24小时的能量来确定总表观电阻。 迄今为止，任何公开的电阻值都已经改善了表观电阻R值的实例。