The field of this invention relates to trim molding for housing construction and a system for supporting a tight joint between trim members.
One important aspect for making new housing construction or a remodeling project appear well built and add value to a home, condo or other building is the trim molding. Trim molding may be placed about various places within a building including door and window frames as well as around upper edges between walls and ceilings. Other decorative trim moldings such as chair moldings also dress a building to be attractive.
Often trim molding is made from a plurality of separate trim members that are connected together at a tight joint to form a continuous looking unitary member. The trim can often be shellacked, or painted to further hide and conceal the joint. A poorly installed trim molding that forms a gap within the joint is detractive and undesirable.
A problem with many installed trim moldings is that while they are often assembled correctly with tight joints that is either invisible or barely noticeable, after the elapse of time, settling of the new underlying construction will often pull apart the joint and form a crack in the paint coating or otherwise make the make the joint noticeably visible with a large unsightly gap. Older settled buildings often have quite large and noticeably unsightly gaps between trim members. While extra nails and screws can secure a joint, the nails and screws are either undesirably exposed or require wood putty to conceal them. The extra wood putty is also undesirable because it does not take stain well or it dries up and pops out.
The settling and gapping of the trim joint is exacerbated by the common interposition of drywall between the trim member and a supporting stud member or the like. Drywall is not a structural support member. Thus, the spacing of the trim member from the supporting stud member due to the interposition of drywall reduces the lateral rigidity provided by the nail. In other words, the long extension of the nail from the trim member through the drywall and to the stud member reduces the lateral rigidity provided by the nail.
What is needed is a concealed trim molding system that retains tight trim joints together and resists separation of the trim members. What is also needed is a system that secures the trim members together on the exterior side of any drywall.
In accordance with one aspect of the invention, a joint reinforcement system mounts two trim members together to a supporting substrate. The joint reinforcement system includes a substrate and a reinforcement member being mounted to the substrate. Two trim members are mounted to abut each other to form a joint with each trim member positioned over a portion of the reinforcement member. The trim members are preferably adheredly mounted to the reinforcement member. A respective fastener pierces the respective trim members and extends through the reinforcement member and engages the substrate.
Often a layer of drywall may be interposed between the substrate and the reinforcement member. The reinforcement member is at the exterior side of any drywall and is in close proximity of the trim member. Preferably, the reinforcement member is mesh like with a plurality of perforations therethrough.
The reinforcement member may be made from metal. Preferably, the reinforcement member can be made from an aluminum sheet. The reinforcement member may have a substantially planar section.
Alternatively, the reinforcement member is bent with two substantially transverse planar sections to have trim members positioned substantially at right angles with respect to each other and secured to the respective transverse planar sections. The trim members may be a side trim member and upper trim member for a door or window opening.
Reference now is made to the accompanying drawings in which:
Referring now to
The reinforcement member 16 is a thin member that has rigidity against stretching along its main plane. In one preferred embodiment, it is foreseen that the member 16 can be made from a sheet of perforated aluminum that may have a thickness ranging from 1/64 to 1/32 to provide the sufficient rigidity but still allow a nail to be hammered therethrough by manual force. The sheet can be perforated with a plurality of apertures 30. The apertures 30 may have a size for example to receive a finishing nail 32. As shown more clearly in
Installation of the trim joint 22 begins with tacking the corner tabs 24 of the reinforcement member 16 into the exterior side of dry wall 18 at positions 26 indicated in
After the glue sets with the set glue in the apertures 30 and bonding the reinforcement member 16 to each trim member 12 and 14, the set joint 22 becomes resistant against relative movement in any direction that may cause separation of the trim members 12 and 14. Caulk may then be conventionally applied to the inner and outer edges 29 between the trim members 12 and 14 and the dry wall 18 to conceal any gap 31 as shown in
Another embodiment is shown in
The substrate member may have other shapes for custom trim installations. It can also be used for base trim members to prevent pull down of the base relative to side trim members or between two base trim members for wide door entrances where two base trim members are used.
The reinforcement member 16 and 116 by being in close proximity to the trim members and being positioned on the exterior side of the drywall in proximity to the trim members adds lateral rigidity to the trim member. Furthermore, the large area of adhesion provided by the mark planar reinforcement member provides strong support against any direction perpendicular to lateral motion. Thus, an improved joint resistant against relative movement in any direction is provided. The retention of this tight joint is particularly advantageous if the joint is painted or shellacked. The paint or shellac after it is applied and dried has a greater chance of not cracking which is common at conventionally constructed joints.
Other variations and modifications are possible without departing from the scope and spirit of the present invention as defined by the appended claims.
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20090241446 A1 | Oct 2009 | US |