| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Primer/membrane barrier system | US09881400 | 2001-06-14 | US20030003314A1 | 2003-01-02 | Jianye Wen; Frederick M. Drauschke |
| An exemplary primer/membrane package system comprises (a) a membrane comprising a carrier sheet and a pressure-sensitive adhesive thereon; and (b) an aqueous dispersion primer composition operative to promote adhesion between a construction surface and the membrane. The primer composition comprises at least two of an acetate, maleate, and acrylate, and has a viscosity of 200-2000 cp and more preferably 400-800 cp (Brookfield/null5 spindle/50 rpm, 25null C). | ||||||
| 182 | Bond-compatible composite membrane | US09372701 | 1999-08-11 | US06395401B1 | 2002-05-28 | Tina L. Bramlett; William F. Egan |
| The invention is directed to a bond-compatible composite membrane that includes a bituminous material layer and a polyester layer and its use as an intermediate layer between a building structure and exterior finishing materials. Unlike conventional composite membranes, the bond-compatible composite membrane has a rough surface that allows bonding materials to adhere to it. Therefore, mechanical devices are not needed to attach the exterior finishing materials to the building structure. | ||||||
| 183 | Pre-cut fibrous insulation for custom fitting building cavities of different widths | US09877569 | 2001-06-08 | US06383594B2 | 2002-05-07 | Larry J. Weinstein; Robert J. Allwein; Dean E. Eppinger |
| A fibrous insulation blanket is pre-cut for custom fitting the insulation blanket into wall, floor, ceiling and roof cavities of different widths formed by the framework of a building. The insulation blanket has one or more pairs of longitudinally extending cuts in the major surfaces of the blanket. Each pair of cut(s) leaves a separable connector within the blanket between adjacent sections of the insulation blanket whereby the blanket can be handled as a unit for insulating a cavity having a width about equal to the width of the blanket or easily separated or torn apart by hand at a separable connector for insulating a cavity having a lesser width. A major surface of the blanket may have a facing bonded thereto that is separable by hand along the cut(s) in the major surface to facilitate separating the blanket by hand. | ||||||
| 184 | Multi-layered shingle and method of making same | US09303840 | 1999-05-03 | US06355132B1 | 2002-03-12 | Walter F. Becker; Keith A. Rooks; Shelby L. Freeman |
| A method is provided of continuously producing a plurality of laminated shingles, including the steps of advancing a fiber sheet, waterproofing the sheet, applying granules thereto, cutting and separating the sheet into a plurality of strips which are positioned and adhered to each other to be multi-layered, and then cutting the strips while controlling the placement of longitudinal centerlines of the strips, and cutting the multi-layers so as to form a plurality of shingles. | ||||||
| 185 | Pre-cut fibrous insulation for custom fitting building cavities of different widths | US09877569 | 2001-06-08 | US20020015814A1 | 2002-02-07 | Larry J. Weinstein; Robert J. Allwein; Dean E. Eppinger |
| A fibrous insulation blanket is pre-cut for custom fitting the insulation blanket into wall, floor, ceiling and roof cavities of different widths formed by the framework of a building. The insulation blanket has one or more pairs of longitudinally extending cuts in the major surfaces of the blanket. Each pair of cut(s) leaves a separable connector within the blanket between adjacent sections of the insulation blanket whereby the blanket can be handled as a unit for insulating a cavity having a width about equal to the width of the blanket or easily separated or torn apart by hand at a separable connector for insulating a cavity having a lesser width. A major surface of the blanket may have a facing bonded thereto that is separable by hand along the cut(s) in the major surface to facilitate separating the blanket by hand. Preferably, the facing has tabs for securing the insulation blanket to framing members and when one or more perforated lines are used in the facing, the perforations of the perforated line(s) in the facing are closed by the bonding agent bonding the facing to the blanket so that the facing functions as a vapor barrier in spite of the perforations. | ||||||
| 186 | Pre-cut fibrous insulation for custom fitting wall cavities of different widths | US522976 | 2000-03-10 | US6165305A | 2000-12-26 | Larry J. Weinstein; Robert J. Allwein; John A. Fry; Vern C. Plotts; Jo M. Teague; William H. Olbert |
| A fibrous insulation blanket is pre-cut for custom fitting the insulation blanket into structural framework building cavities of different widths. The width of the blanket is substantially equal to the width of a standard cavity to be insulated by the blanket and the blanket has one or more longitudinally extending cuts in a first major surface of the blanket. The cut(s) have a depth greater than one half of the thickness of the blanket and less than the thickness of the blanket whereby the blanket can be handled as a unit for insulating a cavity having a standard cavity width or easily torn apart at a cut by hand for insulating a cavity having less than a standard cavity width. The second major surface of the blanket may have a facing bonded thereto with one or more perforated lines in the facing aligned with the cut(s) to facilitate tearing apart the blanket by hand if required. Preferably, the perforations of the perforated line(s) are closed by the bonding agent bonding the facing to the blanket so that the facing functions as a vapor barrier in spite of the perforations. | ||||||
| 187 | Apparatus for making a shingle | US18480 | 1998-02-04 | US5961780A | 1999-10-05 | Husnu M. Kalkanoglu; Joseph Quaranta; Kermit E. Stahl |
| Apparatus is provided for making a multi-layer shingle by cutting an anterior layer of shingle material to have a headlap area and a tab area, and with a plurality of tabs being present in the tab area, separated by slotted openings. The tab area of the anterior shingle layer has a predetermined design that has a repeatability in the longitudinal direction, or from one edge of a shingle to another in the right-to-left direction, which repeatability is a function of the length of the shingle between said left and right edges, as well as being a function of the number of tabs in the anterior shingle layer, with the repeatability being smaller or greater than the length of the shingle in the longitudinal direction. Thereby, the apparatus produces an ornamental appearance that has a random, natural-looking effect when the shingles are laid up on a roof. | ||||||
| 188 | Method for applying granules to strip asphaltic roofing material to form variegated shingles | US473643 | 1995-06-07 | US5624522A | 1997-04-29 | James S. Belt; Roger W. Smith |
| A method and apparatus for applying granules to a coated asphalt sheet to form at high production speeds with shingles a variegated pattern having uniform pattern edges. Granules of a first color are applied to spaced first areas on a continuously moving tacky asphaltic strip, such as a hot asphalt coated organic or glass fiber mat. Hot asphalt or another adhesive is applied to at least a portion of one or both of the leading and trailing edges of the first areas to provide predetermined uniform edges to tacky second areas between the spaced first areas. Granules of a second color are then deposited on the second areas. The granule coated strip is then cut into shingles. The method may be used to create multiple pattern areas with two or more different colored granules or granule blends. | ||||||
| 189 | System for producing a bitumen laminate | US353950 | 1982-03-02 | US4417939A | 1983-11-29 | Ronald R. McAdams |
| A system for producing a relatively thin bitumen laminate comprised of an bitumen mastic core to which is adhered a fabric web on each side thereof, adherence being established simply by contacting the fabric web with the bitumen mastic while it is hot. The method includes continuous deposit at a fixed location of hot bitumen mastic to form the core on a moving lower fabric web, the laminated lower fabric web being in direct contact with a fluid cooled endless belt to prevent degradation of the fabric. The bitumen mastic is deposited on the lower web as it traverses the endless belt's upstream end roll, thereby insuring a firm, non-flexible surface upon which the mastic core can be sized by a doctor roll on the lower web. A moving top fabric web is laminated to the sized bitumen mastic core on the lower web at a location that is variable relative to the fixed location at which the mastic is deposited on the lower web. This variability of the upper fabric web's lamination point with the bitumen mastic core and lower web allows the system to be easily and simply modified for use with various synthetic fabrics, as well as with various thickness bitumen mastic cores, simply by adjusting the upper web's lamination point to that location which does not cause degradation of the upper fabric web due to the temperature of the mastic core. | ||||||
| 190 | Roofing | US18243337 | 1937-12-30 | US2212122A | 1940-08-20 | MILLER STUART P |
| 191 | ROOF COVERING MATERIAL AND METHOD OF MANUFACTURING | PCT/US2009035384 | 2009-02-27 | WO2009111281A3 | 2009-12-03 | HONG KEITH C; SHIAO MING-LIANG; KALKANOGLU HUSNU M; JACOBS GREGORY F |
| A roof covering material is provided, as well as its method of manufacture, wherein a substrate, preferably of a fibrous material is provided, with a bituminous material, preferably asphalt coating, on opposite surfaces thereof with granules being applied to an upper surface thereof and at least partially embedded in the bituminous material and with a discontinuous top layer applied to the granule/bituminous material. The discontinuous top layer is preferably a polymeric material, and openings are provided therein, for passage of fluids therethrough, to avoid moisture, volatiles, and other fluid materials from being trapped beneath the top layer. Various techniques for application of the various materials, and for chemical treatment, are likewise provided. | ||||||
| 192 | INSULATION PRODUCT HAVING BICOMPONENT FIBER FACING LAYER AND METHOD OF MANUFACTURING THE SAME | PCT/EP2005050702 | 2005-02-17 | WO2005080701A3 | 2006-08-10 | YANG ALAIN; CUTHBERSTON THOMAS; TRABBOLD MARK |
| An insulation product (50) has an insulation sheet (10) containing randomly oriented fibers bonded together. The sheet (10) has first and second major surfaces (11, 12) and a pair of side portions (14, 15). A nonwoven facing layer (13) is bonded to at least one of the major surfaces (11, 12). The nonwoven facing layer (13) comprises randomly oriented bicomponent fibers, each of the bicomponent fibers including first component and second component portions. The nonwoven facing layer (13) is bonded to the at least one major surface (11, 12) at least in part by a meltbond between the first component portion of the bicomponent fibers and the randomly oriented fibers in the insulation sheet (10). | ||||||
| 193 | REINFORCED FIBROUS INSULATION PRODUCT AND METHOD OF REINFORCING SAME | PCT/US2005009144 | 2005-03-18 | WO2005094443A3 | 2006-01-05 | SUDA DAVID I; LEMBO MICHAEL J |
| An insulation product (100), and method of making the same, is provided comprising a mat (10) containing randomly oriented fibers bonded by a binder, the mat (10) having first and second major surfaces (11,12) and a pair of side portions (14, 15), and at least one flexible reinforcing layer (24) bonded to the mat (10) between the first and second major surfaces (11, 12) and extending along a length of said mat (10). | ||||||
| 194 | PROCESS FOR COATING MODIFIED BITUMEN MEMBRANES USING REFLECTIVE LAMINATE COATINGS | PCT/US2005017118 | 2005-05-16 | WO2005115736A3 | 2006-11-09 | KHAN AMIR; DE SOUTO MICHAEL |
| A method of applying a laminate composition containing a whitening pigment during manufacture of modified bitumen roll roofing membranes, is provided. The laminate composition is heat activated providing greater adherence to surfaces that it applied to, and greater reflective properties. The laminate has an initial energy efficiency rating greater than or equal to 0.65 for a low-sloped roof, or an initial energy efficiency greater than or equal to 0.25 for a steep-sloped roof. | ||||||
| 195 | WATERPROOFING MENBRANE | PCT/BE0300021 | 2003-02-06 | WO2004070107A3 | 2006-07-20 | GETLICHERMANN MICHEL; COGNEAU PATRICK |
| A waterproofing membrane comprising a structure incorporating a fibre layer and wherein to one side of said structure a bituminous mass is applied and another side of said structure is covered on its surface with a substance comprising a mineral or organic filler and an acrylic polymer, whereby said substance comprises between 15 % and 25 % by dry weight of said acrylic polymer and mixed therewith between 4 % and 22 by dry weight of titanium dioxide. | ||||||
| 196 | IMPACT RESISTANT ROOFING SHINGLES AND PROCESS OF MAKING SAME | PCT/US2004036581 | 2004-11-03 | WO2005060443A3 | 2005-09-09 | RODRIGUES TOMMY; SIELING FREDERICK W; KERKAR AWDHOOT VASANT |
| An impact resistant roofing shingle which includes an asphalt coated substrate whose unexposed surface is laminated to an organic film. A process of forming that shingle includes the step of applying an organic film, by spraying a latex, by applying a rubber polymer modified asphalt, by compressing a plastic film having a higher melting or decomposition temperature than the melting point of the asphalt coating or by applying an adhesive to which a plastic film is applied to the unexposed surface of the asphalt coated substrate. | ||||||
| 197 | SELF-ADHESIVE WATERPROOF SHEET WITH MODIFIED SYNTHETIC RUBBER | US15440742 | 2017-02-23 | US20180201813A1 | 2018-07-19 | Jong Yoon JEONG; Byeong Deok CHOI |
| Provided is a self-adhesive waterproof sheet with a modified synthetic rubber and more particularly, the self-adhesive waterproof sheet with a modified synthetic rubber includes an asphalt compound layer; a protective film layer that is formed on the asphalt compound layer and is oriented in two directions with respect to elongation by mixing high density polyethylene (HDPE) and methallaocene low density polyethylene (M.PE) at a ratio of 30 wt % to 70 wt % :30 wt % to 70 wt %; and a release sheet formed to be detachably attached to a lower portion of the asphalt compound layer. | ||||||
| 198 | HIP AND RIDGE ROOFING MATERIAL | US15893874 | 2018-02-12 | US20180163405A1 | 2018-06-14 | Lawrence J. Grubka |
| Shingle blanks including a first fold region, a second fold region, a third region, a lower edge and an upper edge are provided. The shingle blank has a length. The first and second fold regions extend substantially across the length of the shingle blank. The second fold region is positioned between the first and third fold regions. A first perforation line is positioned between the second and third fold regions. A second perforation line is positioned between the first and second fold regions. A reinforcement material is positioned over the first perforation line and configured to reinforce the first perforation line. The reinforcement material includes apertures configured to allow an asphalt coating to bleed through the reinforcement material. The first and second perforation lines facilitate folding of the first and second fold regions on top of the third region to form a three layered stack. | ||||||
| 199 | INTEGRATED WATERPROOFING AND DRAINAGE SYSTEM WITH INTRINSIC LEAK DETECTION FOR BUILDING STRUCTURES AND METHODS OF USE | US15709980 | 2017-09-20 | US20180010329A1 | 2018-01-11 | Aaron W. GOLDING, JR.; George S. BAGGS |
| The inventive disclosures are directed to a factory-controlled process for making improved, risk-optimized commercial-building waterproofing systems. The improved waterproofing-panel systems also include improved intrinsic leak-detection capabilities. | ||||||
| 200 | Fire retardant roofing system, shingle and layer | US14209510 | 2014-03-13 | US09725907B2 | 2017-08-08 | Edward Richard Harrington; Jonathan M. Verhoff |
| Roofing shingle layers, roofing shingles, and roofing systems having fire retardant properties are provided. In certain exemplary embodiments, the roofing shingle layers, roofing shingles, or roofing systems include an expandable fire retardant material. The expandable fire retardant material may comprise expandable graphite, ammonium polyphosphate, or a combination thereof. | ||||||
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