A trim structure intended on one hand to receive a door, in particular an internal door, and on the other hand to be joined to a partition. The structure includes two lateral wails facing one another and spaced apart by a thickness. The thickness being adjusted with respect to the thickness of the partition such the lateral walls form an external surface that is flush with the external surface of the partition. when the structure is joined to the partition. A transverse end wall connects the two lateral walls. The transverse end wall includes a planar surface that is configured to butt up against the thickness of a vertical edge face of the door and a projecting element (15) forming a bearing surface for the door. The walls being formed from at least one composite panel, the panel comprising a central layer sandwiched between two facing layers.

A door assembly and a frame member for a door assembly. The door assembly may include at least one door panel and a door frame having a plurality of frame members including a header and a pair of side jambs. The invention may also be considered a frame member including a storage compartment. The frame member may include a core; and a top piece adjoining the core to form a structural member. The core and the top piece may be a composite of cellulosic material and at least one other material. The top piece may be a two-piece top piece and may include hollow cavities. Also disclosed are door jamb frame members and mullion frame members.

Door frame cover overlay systems, devices, and methods are shown and described. A frame cover overlay for an existing door frame may include a base and a removable top. The cover overlay may be secured to the existing door frame to provide protection against further damage.

A fenestration assembly includes a glazing unit includes a pane spacer between exterior and interior panes proximate glazing unit edges. A fenestration frame is coupled around the glazing unit and includes a frame core extending around the glazing unit. The frame core includes a unitary core wall including a composite material that is hollow and extends continuously from a core interior face to a core exterior face. A metal glazing cap is coupled with the frame core. The metal glazing cap having a cap end indirectly engaged with the glazing unit along the interior pane, and the cap end is remote from the pane spacer. Each of the core exterior face, the pane spacer and the metal glazing cap are thermally isolated from each other with the frame core including the unitary core wall.

A composite trim molding assembly includes a composite outer shell having at least one pressed or molded surface feature and a core disposed within the composite outer shell for at least one of strengthening or stiffening the outer shell. The composite trim molding assembly can be configured as a door jamb. For example, the composite outer shell can include a flat jamb, and the at least one pressed or molded surface feature can include a stop. The core can include a protrusion into a cavity formed by the stop. The cavity formed by the stop may also be hollow. The composite outer shell can be molded from a slurry and/or pressed from a flat composite panel. The at least one pressed or molded surface feature can include a surface texture (e.g., a wood grain pattern). The core can include segments fastened together, particle board, and/or fiberboard.

A composite trim molding assembly includes a composite outer shell having at least one pressed or molded surface feature and a core disposed within the composite outer shell for at least one of strengthening or stiffening the outer shell. The composite trim molding assembly can be configured as a door jamb. For example, the composite outer shell can include a flat jamb, and the at least one pressed or molded surface feature can include a stop. The core can include a protrusion into a cavity formed by the stop. The cavity formed by the stop may also be hollow. The composite outer shell can be molded from a slurry and/or pressed from a flat composite panel. The at least one pressed or molded surface feature can include a surface texture (e.g., a wood grain pattern). The core can include segments fastened together, particle board, and/or fiberboard.

A window device with a cementitious board as a frame material the device being a single or double window apparatus with an exterior configured with a cementitious board or structure and configured with such frames that are easily formed and readily adaptable to substantially any size or shape opening. The cementitious board window allows for a low maintenance, paintable or pre-painted panels that are moisture and rot resistant, are not susceptible to pest, and provide a surface which is durable over time, is non-combustible, and has materials with little environmental impact. The device is used with new or replacement windows for a commercial or residential structure.

A fenestration assembly includes a glazing unit includes a pane spacer between exterior and interior panes proximate glazing unit edges. A fenestration frame is coupled around the glazing unit and includes a frame core extending around the glazing unit. The frame core includes a unitary core wall including a composite material that is hollow and extends continuously from a core interior face to a core exterior face. A metal glazing cap is coupled with the frame core. The metal glazing cap having a cap end indirectly engaged with the glazing unit along the interior pane, and the cap end is remote from the pane spacer. Each of the core exterior face, the pane spacer and the metal glazing cap are thermally isolated from each other with the frame core including the unitary core wall.

The invention features a refrigerator cabinet door frame. The frame includes a thermally conductive outer frame, a thermally insulating inner frame member, and a sealing plate. The outer frame member includes a forward end having an outer surface that is disposed outside of a refrigerated cabinet with the frame mounted, and a rearward end defining a joint. The inner frame member includes a first end retained in the joint, and a second end. The sealing plate includes a first edge coupled to the outer frame member at the rearward end, forward of the joint, a second edge supported by the second end of the inner frame member, and a thermally conductive sealing surface. The first edge of the sealing plate is coupled to the outer frame member such that the sealing surface and the outer surface of the outer frame member together form a continuous heat transfer path.

A door assembly and a frame member for a door assembly. The door assembly may include at least one door panel and a door frame having a plurality of frame members including a header and a pair of side jambs. The invention may also be considered a frame member. The frame member may include a core; and a top piece adjoining the core to form a structural member. The core and the top piece may be a composite of cellulosic material and at least one other material. The top piece may be a two-piece top piece and may include hollow cavities. Also disclosed are door jamb frame members and mullion frame members.