A windshield for a motor vehicle is described, comprising: a frame with a first rim defining a first opening, and a first window engaging the first opening, supported by the first rim; the frame comprises, in turn, a first and a second cross member opposite one another; and one pair of first pillars opposite one another and extending crosswise to the first and second cross member; the first and second cross member and said pillars delimit said first rim; the frame comprises a second rim and a third rim distinct from one another and arranged on respective opposite sides of the first rim; the frame comprises a pair of third cross members smoothly joined to the first cross member by respective opposite side bands of the first cross member; and a pair of fourth cross members smoothly joined to the second cross member; the second rim is delimited by the first pillar, by a respective third cross member and by a respective fourth cross member; the third rim is delimited by the second pillar, by a respective third cross member and by a fourth cross member.

A windshield for a motor vehicle is described, comprising: a frame with a first rim defining a first opening, and a first window engaging the first opening, supported by the first rim; the frame comprises, in turn, a first and a second cross member opposite one another; and one pair of first pillars opposite one another and extending crosswise to the first and second cross member; the first and second cross member and said pillars delimit said first rim; the frame comprises a second rim and a third rim distinct from one another and arranged on respective opposite sides of the first rim; the frame comprises a pair of third cross members smoothly joined to the first cross member by respective opposite side bands of the first cross member; and a pair of fourth cross members smoothly joined to the second cross member; the second rim is delimited by the first pillar, by a respective third cross member and by a respective fourth cross member; the third rim is delimited by the second pillar, by a respective third cross member and by a fourth cross member.

A door assembly includes a door frame, a first window glass, and a holding member. The door frame includes a first window seal and a second window frame. The first window seal at least partially defines a first window opening. The second window frame at least partially defines a second window opening. The second window frame having a division bar that separates the first window opening and the second window opening. The first window seal having a bottom seal member and a side seal member that extends between the bottom seal member and the division bar. The bottom seal member includes a slit extending along a longitudinal direction of the bottom seal member. The first window glass is inserted into the first window opening through the slit. The holding member is coupled to the bottom seal member to inhibit movement of the first window glass with respect to the first window opening.

A door assembly includes a door frame, a first window glass, and a holding member. The door frame includes a first window seal and a second window frame. The first window seal at least partially defines a first window opening. The second window frame at least partially defines a second window opening. The second window frame having a division bar that separates the first window opening and the second window opening. The first window seal having a bottom seal member and a side seal member that extends between the bottom seal member and the division bar. The bottom seal member includes a slit extending along a longitudinal direction of the bottom seal member. The first window glass is inserted into the first window opening through the slit. The holding member is coupled to the bottom seal member to inhibit movement of the first window glass with respect to the first window opening.

Disclosed are compositions comprising: a) one or more isocyanate functional components; b) one or more alkoxyalkyl benzoates; and c) one or more catalysts for the reaction of isocyanate moieties with hydroxyl groups. Disclosed is a method of bonding two or more substrates together comprising contacting two or more substrates together with a composition disclosed herein disposed along at least a portion of the area wherein the substrates are in contact. At least one of the substrates may be window glass. One of the other substrates may be a building or a vehicle.

Disclosed are compositions comprising: a) one or more isocyanate functional components; b) one or more alkoxyalkyl benzoates; and c) one or more catalysts for the reaction of isocyanate moieties with hydroxyl groups. Disclosed is a method of bonding two or more substrates together comprising contacting two or more substrates together with a composition disclosed herein disposed along at least a portion of the area wherein the substrates are in contact. At least one of the substrates may be window glass. One of the other substrates may be a building or a vehicle.

A device for applying a rubber profile to a surface comprises a robot arm moving and guiding a guide head into a position to apply the rubber profile along a defined contour on the surface. A feed device connected to the guide head feeds the rubber profile onto the surface at a defined speed. A guide element on the guide head guides the rubber profile. The feed device includes a motorized drive roller, with a profiled circumferential surface, and a counter-element with a passage for the rubber profile formed between the drive roller and the counter-element, such that the profiled circumferential surface engages the rubber profile A control unit detects the speed of the guide head where the rubber profile is applied to the surface and controls a drive roller such that the rubber profile is advanced on the basis of this speed.

A device for applying a rubber profile to a surface comprises a robot arm moving and guiding a guide head into a position to apply the rubber profile along a defined contour on the surface. A feed device connected to the guide head feeds the rubber profile onto the surface at a defined speed. A guide element on the guide head guides the rubber profile. The feed device includes a motorized drive roller, with a profiled circumferential surface, and a counter-element with a passage for the rubber profile formed between the drive roller and the counter-element, such that the profiled circumferential surface engages the rubber profile A control unit detects the speed of the guide head where the rubber profile is applied to the surface and controls a drive roller such that the rubber profile is advanced on the basis of this speed.

A device for applying a rubber profile to a surface comprises a robot arm moving and guiding a guide head into a position to apply the rubber profile along a defined contour on the surface. A feed device connected to the guide head feeds the rubber profile onto the surface at a defined speed. A guide element on the guide head guides the rubber profile. The feed device includes a motorized drive roller, with a profiled circumferential surface, and a counter-element with a passage for the rubber profile formed between the drive roller and the counter-element, such that the profiled circumferential surface engages the rubber profile A control unit detects the speed of the guide head where the rubber profile is applied to the surface and controls a drive roller such that the rubber profile is advanced on the basis of this speed.

A device for applying a rubber profile to a surface comprises a robot arm moving and guiding a guide head into a position to apply the rubber profile along a defined contour on the surface. A feed device connected to the guide head feeds the rubber profile onto the surface at a defined speed. A guide element on the guide head guides the rubber profile. The feed device includes a motorized drive roller, with a profiled circumferential surface, and a counter-element with a passage for the rubber profile formed between the drive roller and the counter-element, such that the profiled circumferential surface engages the rubber profile A control unit detects the speed of the guide head where the rubber profile is applied to the surface and controls a drive roller such that the rubber profile is advanced on the basis of this speed.