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    • 5. 发明授权
    • Flanged insulation assembly and method of making
    • 法兰绝缘组件及其制造方法
    • US6083603A
    • 2000-07-04
    • US16364
    • 1998-01-30
    • Bharat D. PatelSteven G. SchmittMichael T. HeffelfingerRebecca L. Thomas-DutielWeigang Qi
    • Bharat D. PatelSteven G. SchmittMichael T. HeffelfingerRebecca L. Thomas-DutielWeigang Qi
    • D04H13/00E04B1/76B32B3/04
    • E04B1/767Y10T156/1015Y10T428/237Y10T428/24248Y10T428/24777
    • An insulation assembly includes an elongated batt of fibrous insulation material having two opposed major surfaces, where the batt has a first facing secured on its first major surface. The first facing extends beyond the side edges of the batt to form opposed flanges suitable for attaching the insulation assembly to a building structure. The batt has a second facing secured on its second major surface, with the second facing extending beyond the side edges of the batt to form opposed flanges suitable for attaching the insulation assembly to a building structure. The method of making an insulation assembly includes moving a pack of fibrous insulation material along a path, where the fibrous insulation material has two opposed major surfaces. A continuous encapsulation material is applied to the pack, and a portion of the encapsulation material is continuously gathered to form a two part fold. The two parts of the fold are bonded together to form a flange suitable for attaching the insulation assembly to a building structure.
    • 绝缘组件包括具有两个相对的主表面的细长的纤维绝缘材料,其中所述絮垫具有固定在其第一主表面上的第一面。 第一面朝上延伸超过絮垫的侧边缘,以形成适于将绝缘组件连接到建筑结构的相对的凸缘。 絮垫具有固定在其第二主表面上的第二面,第二面朝向延伸超过絮垫的侧边缘,以形成适于将绝缘组件附接到建筑结构的相对的凸缘。 制造绝缘组件的方法包括沿着路径移动一包纤维绝缘材料,其中纤维绝缘材料具有两个相对的主表面。 将连续的包封材料施加到包装上,并且一部分包封材料被连续聚集以形成两部分折叠。 折叠部分的两部分结合在一起以形成适于将绝缘组件附接到建筑结构的凸缘。
    • 8. 发明授权
    • Flanged insulation assembly and method of making
    • 法兰绝缘组件及其制造方法
    • US06221464B1
    • 2001-04-24
    • US09392087
    • 1999-09-08
    • Bharat D. PatelSteven G. SchmittMichael T. HeffelfingerRebecca L. Thomas-DutielWeigang Qi
    • Bharat D. PatelSteven G. SchmittMichael T. HeffelfingerRebecca L. Thomas-DutielWeigang Qi
    • B32B302
    • E04B1/767Y10T156/1015Y10T428/237Y10T428/24248Y10T428/24777
    • An insulation assembly includes an elongated batt of fibrous insulation material having two opposed major surfaces, where the batt has a first facing secured on its first major surface. The first facing extends beyond the side edges of the batt to form opposed flanges suitable for attaching the insulation assembly to a building structure. The batt has a second facing secured on its second major surface, with the second facing extending beyond the side edges of the batt to form opposed flanges suitable for attaching the insulation assembly to a building structure. The method of making an insulation assembly includes moving a pack of fibrous insulation material along a path, where the fibrous insulation material has two opposed major surfaces. A continuous encapsulation material is applied to the pack, and a portion of the encapsulation material is continuously gathered to form a two part fold. The two parts of the fold are bonded together to form a flange suitable for attaching the insulation assembly to a building structure.
    • 绝缘组件包括具有两个相对的主表面的细长的纤维绝缘材料,其中所述絮垫具有固定在其第一主表面上的第一面。 第一面朝上延伸超过絮垫的侧边缘,以形成适于将绝缘组件连接到建筑结构的相对的凸缘。 絮垫具有固定在其第二主表面上的第二面,第二面朝向延伸超过絮垫的侧边缘,以形成适于将绝缘组件附接到建筑结构的相对的凸缘。 制造绝缘组件的方法包括沿着路径移动一包纤维绝缘材料,其中纤维绝缘材料具有两个相对的主表面。 将连续的包封材料施加到包装上,并且一部分包封材料被连续聚集以形成两部分折叠。 折叠部分的两部分结合在一起以形成适于将绝缘组件附接到建筑结构的凸缘。
    • 10. 发明授权
    • Vacuum packaged batt
    • 真空包装絮垫
    • US5987833A
    • 1999-11-23
    • US880822
    • 1997-06-24
    • Michael T. HeffelfingerRoy E. Shaffer
    • Michael T. HeffelfingerRoy E. Shaffer
    • E04B1/76E04B1/78E06B3/16E04B1/62E04B1/74E04G9/10
    • E06B3/163E04B1/767E04B1/78Y10T428/231Y10T428/237Y10T428/239
    • A vacuum packaged conformable insulation assembly may be installed in a cavity before the vacuum in the insulation assembly is released. The insulation assembly includes a compressible batt of mineral fibers such as fibrous glass wool. During manufacture, the batt is encased in a gas-impervious envelope. The envelope is vacuum-sealed to retain the batt in a compressed state. The envelope may be provided with opening structures for selectively releasing the vacuum in the envelope. The envelope is sufficiently large to permit the batt contained therein to fully recover when the vacuum is released. According to a method of the present invention, the envelope is placed in a cavity to be insulated, and then the envelope is ruptured to allow the batt to expand to cause the insulation assembly to conform to the cavity.
    • 绝缘组件中的真空被释放之前,真空包装的适形绝缘组件可以安装在空腔中。 绝缘组件包括可压缩的矿物纤维絮垫,例如纤维状玻璃棉。 在制造过程中,絮垫被封装在不透气的信封中。 将信封真空密封以将絮垫保持在压缩状态。 外壳可以设置有用于选择性地释放外壳中的真空的开口结构。 当真空释放时,外壳足够大以允许其中包含的毛细管完全恢复。 根据本发明的方法,将外壳放置在要被绝缘的空腔中,然后将外壳破裂,以允许絮垫膨胀以使绝缘组件符合空腔。