Abstract: The invention relates to a surface covering system, and, more specifically, to an improved linear surface covering system. The improvement includes each plank of the system having multi-directionally cut grooves. The improvement further includes clip projections which conform substantially to a notch formed by the multi-directional grooves. The system also includes an improved splice plate for stabilizing two adjacent planks positioned in end-to-end relation.
Type:
Grant
Filed:
March 1, 2010
Date of Patent:
October 14, 2014
Assignee:
AWI Licensing Company
Inventors:
Nathan J. Baxter, Eric Krantz-Lilienthal
Abstract: According to the disclosure, a wet form cellulosic product forming process and a wet formed cellulosic product are disclosed. The process includes providing a slurry, forming the slurry into a cellulosic product, dewatering the cellulosic product, and drying the cellulosic product. Further dewatering of the cellulosic product occurs through a non-mechanical mechanism.
Type:
Application
Filed:
April 23, 2014
Publication date:
August 21, 2014
Applicant:
AWI LICENSING COMPANY
Inventors:
James J. BEAUPRE, David J. NEIVANDT, Kenneth P. KEHRER
Abstract: A resilient floor tile includes a base layer, a film layer, a decorative film layer, and a topcoat. The resilient floor tile has a shaped edge formed on an upper surface thereof that extends about at least a portion of a perimeter of the resilient floor tile. In order to make the resilient floor tile, a continuous sheet of a base layer is conveyed into a press die. The press die is actuated from an open position to a closed position. The continuous sheet is cut with a blade of a cutting tool of the press die to form side surfaces of the resilient floor the when the press die is in the closed position. A shaped edge is formed on at least a portion of a perimeter of an upper surface of the resilient floor tile with a forming tool of the press die when the press die is in the closed position.
Type:
Application
Filed:
April 23, 2014
Publication date:
August 14, 2014
Applicant:
AWI LICENSING COMPANY
Inventors:
Kean M. Anspach, Thomas C. Bair, John R. Eshbach, JR.
Abstract: An abrading device for abrading a floor structure comprises a first abrading assembly and a second abrading assembly. The first and second abrading assemblies each have a rotationally driven contact roll provided with a sleeve having a plurality of cutouts formed in a pattern thereon. An abrading belt is trained over the sleeve. A first oscillation assembly is connected to the first abrading assembly and oscillates the contact roll of the first abrading assembly in a first direction via a linear reciprocating motion. A second oscillation assembly is connected to the second abrading assembly and oscillates the contact roll of the second abrading assembly in a second direction via a linear reciprocating motion. The first and second abrading assemblies consecutively abrade a top surface of the floor structure with the pattern formed by the cutouts on the respective sleeves to form a distressed visible pattern thereon.
Abstract: The invention is an alternative to a conventional atomizing coating apparatus. The apparatus and associated coating methodology of the invention provides a uniform atomized fluid stream, and, in turn, a uniform coating to an object on an industrial scale. The apparatus and methodology addresses many of the critical parameters associated with the conventional curtain and atomizing coating techniques, including but no limited to, uniform distribution, acoustical transparency, reduction or elimination of clogged nozzles, and elimination of the need for reciprocating nozzles.
Abstract: A mounting clip and a system for mounting a vertical panel from a support member suspended from a ceiling. The mounting clip has a panel mounting section, a support member receiving portion, and a movable mounting section. The support member receiving portion extends from the panel mounting section. The movable mounting section can be rotated relative to the support member receiving portion to secure the mounting clip to the support member.
Abstract: A transition strip is used to install, replace, and repair a floor panel in a floating floor system. The transition strip is a film or tape that comprises plastic, vinyl, polyvinyl chloride, polyester, polyolefin, or nylon. The transition strip can be used to repair a floor panel by removing at least one of the floor panels in the floating floor system to form an opening therein. The transition strip is positioned in the opening such that a portion of a top side of the transition strip adheres to a bottom surface of a bottom layer of at least one floor panel adjacent the opening and a portion of a top side of the transition strip extends into the opening. A bottom surface of a bottom layer of a replacement floor panel is then adhered to the portion of the transition strip extending into the opening.
Abstract: A process for producing higher molecular weight polyester includes heating a polyester to form a melt, and applying and maintaining a vacuum of between about 5 mm and about 85 mm of mercury to the melt while passing bubbles of gas through the melt until molecular weight has increased. The process may involve esterification of a diacid component and a diol component at elevated temperature. After the acid functional groups have essentially reacted, a vacuum of about 5 mm of mercury or less was applied and excess diol stripped off during transesterification, thereby increasing molecular weight.
Abstract: A resilient floor tile includes a base layer, a film layer, a decorative film layer, and a topcoat. The resilient floor tile has a shaped edge formed on an upper surface thereof that extends about at least a portion of a perimeter of the resilient floor tile. In order to make the resilient floor tile, a continuous sheet of a base layer is conveyed into a press die. The press die is actuated from an open position to a closed position. The continuous sheet is cut with a blade of a cutting tool of the press die to form side surfaces of the resilient floor tile when the press die is in the closed position. A shaped edge is formed on at least a portion of a perimeter of an upper surface of the resilient floor tile with a forming tool of the press die when the press die is in the closed position.
Type:
Grant
Filed:
August 12, 2010
Date of Patent:
June 3, 2014
Assignee:
AWI Licensing Company
Inventors:
Kean M. Anspach, Thomas C. Bair, John R. Eshbach, Jr.
Abstract: According to the disclosure, a wet form cellulosic product forming process and a wet formed cellulosic product are disclosed. The process includes providing a slurry, forming the slurry into a cellulosic product, dewatering the cellulosic product, and drying the cellulosic product. Further dewatering of the cellulosic product occurs through a non-mechanical mechanism.
Type:
Grant
Filed:
September 1, 2010
Date of Patent:
June 3, 2014
Assignee:
AWI Licensing Company
Inventors:
James J. Beaupre, David J. Neivandt, Kenneth P. Kehrer
Abstract: A packaging system and a method of packaging a plurality of floor panels in a box includes floor panels having a top layer and a bottom layer. The top layer has a top surface with a visible decorative pattern and a bottom surface adhered to a top surface of the bottom layer such that the bottom layer is offset from the top layer in a direction of length and width and a marginal end portion of the top surface of the bottom layer and a marginal end portion of the bottom surface of the top layer is exposed. At least one of the marginal end portions has an adhesive. The floor panels are stacked in the box in pairs. Each of the pairs is stacked such that the top surfaces of the top layers of each of the pairs of the floor panels are facing each other.
Type:
Grant
Filed:
August 19, 2010
Date of Patent:
May 13, 2014
Assignee:
AWI Licensing Company
Inventors:
Richard H. Balmer, Shih Chung Lee, Dung V. Dao, Christopher R. Knafelc, Heath E. Harrington, Kean M. Anspach, Michael E. Buckwalter, John R. Eshbach, Jr.
Abstract: A mounting hardware and a mounting system for mounting a vertical panel from a support member suspended from a ceiling. The mounting hardware has a panel mounting section, a support member receiving portion, and a movable mounting section. The support member receiving portion extends from the panel mounting section. The movable mounting section can be rotate relative to the support member receiving portion to secure the mounting hardware to the support member.
Abstract: Disclosed is a suspended ceiling system, a securing member, and process of installing a patterned suspended ceiling system. The suspended ceding system includes a grid system having first members and second members, and at least one substrate which extends below the grid system. The at least one substrate has an exposed surface and a concealed surface, and the at least one substrate has first sides and second sides which extend between the exposed surface and the concealed surface. Securing members attach to the concealed surface proximate the first sides, and the securing members have grid engagement members which secure the at least one substrate to the grid system. The securing members cooperate with the first members and the second members of the grid system to properly position the substrate and the spacing between adjacent at least one substrates is controlled.
Abstract: A canopy system for use in the interior building environment. The canopy system of the invention meets seismic code requirements and includes a group suspension system for mechanically aligning and registering canopy modules relative one another.
Type:
Application
Filed:
December 3, 2013
Publication date:
April 3, 2014
Applicant:
AWI Licensing Company
Inventors:
James R. WATERS, James P. RINEER, Brian L. SPRINGER, William H. FRANTZ
Abstract: A method for improving the appearance of a hard-surfaced floor. The method includes selecting a tinted coating comprising a base component and at least one colorant wherein the colorant is selected from the group consisting of a tint, a dye, and a pigment; applying the tinted coating to a topcoat on a top surface of the hard-surfaced floor; and urging the tinted coating into any scratches in the hard-surfaced floor.
Type:
Grant
Filed:
January 15, 2013
Date of Patent:
December 31, 2013
Assignee:
AWI Licensing Company
Inventors:
Tony T. Pastrana, Keith Thomas Quisenberry
Abstract: A biobased plasticizer and a surface covering are disclosed. The biobased plasticizer includes an ester formed as a reaction product of a furan derivative selected from the group consisting of furoic acid, furfural and furfuryl alcohol reacted with a carboxylic acid or an alcohol, or includes an ester formed as a reaction product of a biobased aromatic compound and a biobased aliphatic compound. The surface covering is plasticized with a composition comprising an ester formed as a reaction product of a functionalized aromatic heterocyclic compound reacted with a carboxylic acid or an alcohol.