A glass run includes an installation member and a body. The installation member couples to a frame of a door of an automobile. The body forms a channel to receive a door glass. An outer-cabin side of the installation member is extended in a direction away from the door to form an extended part. A base composed of hard resin higher in rigidity than the extended part attaches a decorative film to the extended part. The decorative film alongside of the base is bent toward an interior of the automobile, to cover an end surface of the extended part. Parts of upper and lower ends of the decorative film are removed by predetermined distance FL1, FL2 from the end surface of the extended part, to reduce a width in an upper and lower direction of a remainder part of the decorative film.

The present disclosure relates to a sealing element for a front vehicle door having at least one fastening section by means of which the sealing element can be fastened to a frame element of the vehicle door. The sealing element includes at least one channel section forming a drainage channel between a frame element of the vehicle door and a side wall support of the vehicle frame. The sealing element includes a cover section that partially covers a clearance disposed along an exterior side of the channel section. The sealing element covers at least half the width of the clearance of the channel section.

The present disclosure relates to a sealing element for a front vehicle door having at least one fastening section by means of which the sealing element can be fastened to a frame element of the vehicle door. The sealing element includes at least one channel section forming a drainage channel between a frame element of the vehicle door and a side wall support of the vehicle frame. The sealing element includes a cover section that partially covers a clearance disposed along an exterior side of the channel section. The sealing element covers at least half the width of the clearance of the channel section.

Guide (114) fora sliding glazing, in particular for an automobile, said guide (114) being intended to be fastened onto a glazing (12) and to cooperate with a glass run seal (10), said guide (114) comprising a body made of a single piece and having an elongated shape along an axis (A), said body comprising: a fastening portion (114a) extending along said axis (A) and having a face (114a1) configured to be fastened onto the glazing (12), and a guide portion (114b) extending along said axis (A) and being cross sectional L-shaped, said guide portion (114b) comprising a wall (114b1) substantially parallel to said face (114a1) and a free rib (114b2) substantially perpendicular to said face (114a1), said free rib (114b2) including at least one non-planar lateral face (128, 130).

Guide (114) fora sliding glazing, in particular for an automobile, said guide (114) being intended to be fastened onto a glazing (12) and to cooperate with a glass run seal (10), said guide (114) comprising a body made of a single piece and having an elongated shape along an axis (A), said body comprising: a fastening portion (114a) extending along said axis (A) and having a face (114a1) configured to be fastened onto the glazing (12), and a guide portion (114b) extending along said axis (A) and being cross sectional L-shaped, said guide portion (114b) comprising a wall (114b1) substantially parallel to said face (114a1) and a free rib (114b2) substantially perpendicular to said face (114a1), said free rib (114b2) including at least one non-planar lateral face (128, 130).

Methods of making a weather strip and bright strip assembly for a vehicle door include extruding a weather strip that has a longitudinal shape along an X axis, a sealing body made of at least a first material, and a carrier body made of at least a second material that is harder than the first material. The methods further include cutting at least in part a longitudinal end of the carrier body along the X axis, and removing the longitudinal end; molding a curved or angled end onto the weather strip, in replacement of the longitudinal end, wherein the curved or angled end extends between the X axis and a Y axis; and mounting a bright strip onto the carrier body, the bright strip including a first curved or angled portion covering at least in part the curved or angled end and a second longitudinal portion covering at least in part the carrier body.

Methods of making a weather strip and bright strip assembly for a vehicle door include extruding a weather strip that has a longitudinal shape along an X axis, a sealing body made of at least a first material, and a carrier body made of at least a second material that is harder than the first material. The methods further include cutting at least in part a longitudinal end of the carrier body along the X axis, and removing the longitudinal end; molding a curved or angled end onto the weather strip, in replacement of the longitudinal end, wherein the curved or angled end extends between the X axis and a Y axis; and mounting a bright strip onto the carrier body, the bright strip including a first curved or angled portion covering at least in part the curved or angled end and a second longitudinal portion covering at least in part the carrier body.

In an illustrative embodiment, a panel assembly for partitioning a trailer cargo space is provided including a first insulated panel and a second insulated panel, each insulated panel including a first side vertical edge having a connecting edge, and a second side vertical edge having a connecting edge. One of the insulated panels includes one or more spaced apart vertical cut lines proximate the first side vertical edge, where, when a given cut line is cleaved, the cleaved cut line is configured to form a new second side vertical edge having a connecting edge. A first mating extrusion may secure with a second side vertical edge of the first insulated panel, and a second mating extrusion may secure with a first side vertical edge of the second insulated panel where, upon mating the first and second mating extrusions, an insulated wall is formed.

In an illustrative embodiment, a panel assembly for partitioning a trailer cargo space is provided including a first insulated panel and a second insulated panel, each insulated panel including a first side vertical edge having a connecting edge, and a second side vertical edge having a connecting edge. One of the insulated panels includes one or more spaced apart vertical cut lines proximate the first side vertical edge, where, when a given cut line is cleaved, the cleaved cut line is configured to form a new second side vertical edge having a connecting edge. A first mating extrusion may secure with a second side vertical edge of the first insulated panel, and a second mating extrusion may secure with a first side vertical edge of the second insulated panel where, upon mating the first and second mating extrusions, an insulated wall is formed.

A guiding device for a sliding glass of a side door of a motor-vehicle comprises a sealing and guiding gasket guiding the sliding glass, secured to the structure of the door, and having a part extending along a door upright and into the lower structure of the door. This gasket part comprises two separate portions, namely an upper gasket portion, which extends along the door upright and is secured within a space defined between the door upright and an aesthetic panel of plastic material; and a lower gasket portion, which is arranged within the lower door structure and is assembled within a channel element of plastic material mounted within the lower door structure. The channel element of plastic material has an upper end portion protruding above the upper end of the lower gasket portion, and having inclined inner surfaces configured to guide the insertion of the glass into the lower gasket portion during assembly of the door.