A vehicular rear slider window assembly includes a movable window panel that is movable along upper and lower rails of a fixed window panel. A first heater grid is disposed at a first fixed panel, a second heater grid is disposed at a second fixed panel, and a third heater grid disposed at the movable window panel. A jumper electrical connector electrically connects between the first and second fixed panels, and a flexible electrical connector electrically connects between the first or second fixed panel and the movable window panel. The first fixed panel has positive and negative terminals configured to electrically connect to at least one electrical connector of a vehicle wire harness when the vehicular rear slider window assembly is installed at a vehicle. When the positive and negative terminals are electrically powered, electrical current may flow in a single direction across the first and second heater grids.

A panel fastening device that is configured to move together a first frame of a first panel unit having a first glass panel mounted within the first frame and a second frame of a second panel unit having a second glass panel mounted within the second frame. The device includes a suction cup is configured to be coupled to and released from the first glass panel of the first panel unit, and a structure is configured to be pressed against and released from the second frame of the second panel unit.

A sliding door assembly includes a frame that supports and interfaces directly to a fixed door panel and a moving door panel. The frame includes opposed side jamb portions, a sill portion, and head jamb portion opposite the sill portion. The door assembly includes an electric motor, a wireless motor controller, and a drive belt that is operably coupled to the moving door panel. The drive belt is driven by the electric motor under control of the wireless motor controller. The head jamb portion includes at least one internal channel that accommodates the drive belt. One of the side jamb portions has a first internal compartment that houses the electric motor and the wireless motor controller.

The present invention relates to an installation structure of a glass fixing gasket and a window glass panel fixing bracket, which fixes a window glass panel of a fixed window included in a sliding window system which comprises a segmented window frame and, more specifically, to an installation structure of a glass fixing gasket and a window glass panel fixing bracket, wherein the glass fixing gasket and the window glass panel fixing bracket are installed between a window frame portion which supports three sides (an upper surface, a lower surface, and one external side surface that is not a middle bar side surface) of a fixed window included in a sliding window and a window glass panel provided as a double-pane, in order to provide a sealing function for preventing ventilation and a function of stably fixing the window glass panel against high wind pressure (wind pressure resistance), and moreover, to ensure maximum heat insulation performance.

This invention is directed toward an adjustable window for a garage door panel, where the window has an interior frame and an exterior frame. Both the interior and exterior frame have straight members that are secured to each other through the parts of the garage door that surround the opening with screws and screw receptacles. Connecting the frame members are adjustable corner braces that come in a variety of designs, with some being invisible after installation and others forming a decorative corner to the window.

A rear slider window assembly for a vehicle includes a movable window panel that is movable along upper and lower rails of a fixed window panel. The lower rail includes a water drainage element having (i) a hole established through the lower rail and (ii) a drainage receiving conduit attached at the fixed window panel beneath the hole of the lower rail and spaced from the lower rail. The drainage receiving conduit includes a receiving portion disposed below the opening to receive water from the opening and a guiding portion to guide received water toward an exit of the drainage receiving conduit. The drainage receiving conduit provides a passageway for water to flow from the lower rail, through the hole of the lower rail, and into the drainage receiving conduit, which drains the water exterior the rear slider window assembly.

An automotive vehicle has a fixed glass panel with an aperture and a sliding glass panel mounted to the fixed glass panel adapted to selectably cover the aperture. The glass panels carry a heater grid having a plurality of vertical bus bars interconnected by a plurality of horizontal defrost traces. The bus bars are configured to be selectably connected to a power supply for providing resistive heating. The sliding glass panel is limited to a plurality of restricted positions. Each restricted position has at least one bus bar on the sliding glass panel overlapping one of the bus bars on the fixed glass panel to provide capacitive coupling between the overlapping bus bars of RF signals impinging on the horizontal traces. An antenna coupler connected to a bus bar on the fixed glass panel transmits the RF signals to an RF receiver.

A patio door or at least a door panel or a door panel frame for a patio door is provided. The patio door has two panels, wherein one is an active panel (i.e. a sliding panel) and another one is a stationary panel (i.e. a fixed panel). The door panels include at least four elongated door frame members configurable to define rectangular door panels frame with a longitudinal axis and a transversal axis. There is also provided a tightening connector assembly, a connector body with a weatherstrip receiving channel and a door panel connection assembly. The tightening connector assembly includes a connector body having a first and second frame segments extending along a tightening axis and an insert receiving cavity defined therein, the first and second frame segments being engageable with two of the at least four elongated door frame members. The tightening connector assembly also includes a tightening insert engageable in the insert receiving cavity of the connector body.

A fastener system for securing a panel to a frame comprises one or more rotating fasteners installed in the perimeter edge of the panel. In operation, one or more cam surfaces of the fastener engage receiving surfaces of a receiver on the frame such that, upon rotation of each fastener, the panel is drawn toward the frame. In some embodiments, the panel is moved in a first direction parallel to the panel and a second direction perpendicular to the panel or in a composite diagonal direction inclined relative to the panel. The fastener system may facilitate compression of seals disposed along the perimeter edge of the panel and between a side of the panel and rabbet ledge of the frame and may further facilitate removal and maintenance of the panel.

A sliding door assembly includes a frame that supports and interfaces directly to a fixed door panel and a moving door panel. The frame includes opposed side jamb portions, a sill portion, and head jamb portion opposite the sill portion. The door assembly includes an electric motor, a wireless motor controller, and a drive belt that is operably coupled to the moving door panel. The drive belt is driven by the electric motor under control of the wireless motor controller. The head jamb portion includes at least one internal channel that accommodates the drive belt. One of the side jamb portions has a first internal compartment that houses the electric motor and the wireless motor controller.