The present invention resides in the field of systems for installing finishing wall panels in a basement and more particularly relates to structures for retention of such wall panels adjacent to one another to provide for improved comfort and to give an attractive appearance to a basement area.
The use of insulating panels to cover basement foundation walls is well known in the prior art. An example of such a system can be found in U.S. Pat. No. 4,525,960 to Kelman where a plurality of glass fiber boards are disposed adjacent to the basement walls and are held in place by systems that provide upper and lower retention means as well as retention means extending vertically between adjacent strips to hold such strips in place to form an overlying and improved wall surface that provides insulation and an aesthetically pleasing surface. Examples of such vertical retention structures can be found in U.S. Pat. No. 1,772,417 to Ellinwood and U.S. Pat. No. 2,998,112 to Burgin. These panel insulation systems utilize upper and lower retention frame structures and vertical snap-in retention members between adjacent panels. Another example of such prior art systems is found in Patent Application Publication 2007/0199270 to Weir et. al. owned by Owens Corning which teaches a system having retention frame structures being upper and lower trim pieces which are attached to the basement walls and retain the upper and lower portions of a panel while vertical trim pieces cover the seams between adjacent panels and securely hold the adjacent panels' side edges.
It is an object of the present invention to provide an improved wall panel system for finishing basements incorporating a novel upper and lower panel retention system to retain a plurality of wall panels in side-by-side relationship adjacent to a basement wall. The upper and lower panel retention members and their insertable crown and baseboard moldings provide an improved aesthetic appearance to a basement while allowing for good air circulation above, under and behind the wall panels while at the same time allowing for easy installation of wiring and other utilities to desired locations within the basement through channels formed in the upper and lower panel retention members. Further, the system of this invention allows for a selection of crown and baseboard moldings that can be varied in ornamental shape to satisfy the various design tastes of the user. In applicant's system the upper panel retention member retains the upper portion of each panel, and the lower panel retention member is installed against the basement wall to receive the bottom portion of the panel. Both the upper panel retention member and lower panel retention member have horizontally protruding catch members. The upper panel retention member's catch member receives the crown molding thereon, and the lower retention member receives the baseboard molding thereon in a fashion, as described below. Both the upper panel retention member and the lower panel retention member have ledges formed therein, creating areas for air circulation and for extending wires, cables and other utilities therethrough such as to provide electricity, cable television and the like to desired areas of the basement.
Between adjacent panels is a vertically disposed retention member having a base that is attached to the basement wall and a receipt slot with engagement means defined therein. When the adjacent panels are in place on both sides of the vertically disposed retention member, the insert portion can be pushed into the engagement portion extending from the retention member to urge against, and securely retain, the adjacent panels' edges positioned behind the insert portion.
The generally 4×8 foot or 2×8 foot panels utilized in the wall panel system of this invention can be made having a core of fire-rated insulation that is approximately 2 inches thick with a ⅛ inch plastic, fire-rated panel disposed in the front thereof. The core can be made of a water-resistant, thermally and acoustically insulating material that is germicide-treated on the front and back of the panel. The ceiling goes over the top of the wall so that panels can be easily removed. In the prior art the ceiling frequently engages into the new wall, making it difficult to remove such wall unlike the wall of the present invention which is built below the ceiling.
The wall panel system of this invention is utilized to place paneling adjacent to one another against a building wall 120 such as found in a basement. Although the wall panel system of this invention is described herein as being installed in a basement, such system can be installed in other locations as well. The wall panels described below can be of a foam composition covered by a thin, plastic, fire-rated facing sheet. The panels can be retained to the wall by a system holding them at their tops and bottoms and along their adjoining side edges 122 and 124, as seen in
Only the top portion and bottom portion of wall panel 12 are shown in
A similar retention system is utilized to retain the bottom of wall panel 12 wherein a baseboard retention member 52 is attached to floor 83 or to building wall 120 therebehind by screws or nails. Baseboard retention member 52 has attached at the front of its bottom 60 a base catch member support 64 and at the rear of its bottom is attached rear retention member portion 62 which extends at right angles vertically from bottom 60. Attachment means, such as screws, can be driven through bottom 60 into floor 83 or through rear retention member portion 62 into building wall 120 to retain baseboard retention member 52 in place against building wall 120 on floor 83. Extending from rear retention member portion 62 of baseboard retention member 52 at a right angle thereto and parallel to bottom 60 of baseboard retention member 52 is first lower spacer 50. Also extending from base catch member support 64 is second lower spacer 54 which extends toward, and is parallel to, first lower spacer 50 and defines therebetween base member slot 56 which is above base member utility receipt area 58 that is defined by first and second lower spacers 50 and 54. Wall panel 12 can fit within baseboard retention member 52 and rests upon first and second lower spacers 50 and 54 leaving the space below, being base member utility receipt area 58 available for the passage of electric lines and other utilities therethrough. Also base member utility receipt area 58 allows for air to move easily pass under and behind wall panel 12. Base catch member support 64 extends upwards to base catch member 66 which is disposed perpendicularly on the top thereof and has a width 80 with the inner portion of base catch member 66 defining an inner baseboard catch 68 and its outer portion defining an outer baseboard catch 70. Baseboard member 82 is an inverted U-shaped structure made of a flexible plastic having an inner leg forming an inner baseboard engagement member 72; and an outer leg forming outer baseboard engagement member 74 which are spaced apart a distance 84 defined between inner baseboard engagement member teeth 76 and outer baseboard engagement member teeth 78 such that distance 84 therebetween is sufficient to engage the sides of base catch member 66 when baseboard member 82 is maneuvered downward thereover such that inner baseboard engagement member teeth 76 catch onto and retain inner baseboard catch 68, and outer baseboard engagement member teeth 78 at the same time engages and retains onto outer base catch member 70, allowing baseboard member 82 to be pushed downward over base catch member 66 until the bottom of outer baseboard engagement member 74 contacts floor 83. At the same time that baseboard member 82 is positioned in place, the rear of inner baseboard engagement member 72 contacts and holds wall panel 12 securely in place against rear retention member portion 62 of retention member 52 and building wall 120. Baseboard member 82 is made of flexible and resilient plastic material and can be lifted upwards and disengaged from base catch member 66 at any time one wishes to remove wall panel 12. A plurality of screw retention apertures 86 can be provided for receipt of corresponding screws 88 which can attach baseboard retention member 52 to floor 83 or to building wall 120. Also there can be provided a plurality of slots in baseboard retention member 52, such as first and second passage slots 90 and 92 which can extend into the area from the front of baseboard retention member 52 to the rear thereof for better air circulation and to ease the installation of utility wires therein.
While the crown molding and baseboard retention structures hold, respectively, the top portions and bottom portions of wall panels 12 against building wall 120, side edges 122 and 124 of adjoining wall panels must be retained in position as well, as illustrated in
Although the present invention has been described with reference to particular embodiments, it will be apparent to those skilled in the art that variations and modifications can be substituted therefor without departing from the principles and spirit of the invention.
This application claims priority and benefit of a provisional patent application entitled Wall Panel System, Application No. 61/210,672 filed Mar. 23, 2009, now pending.
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Number | Date | Country | |
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20100236169 A1 | Sep 2010 | US |
Number | Date | Country | |
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61210672 | Mar 2009 | US |