A rear liftgate window assembly for a vehicle includes a glass window panel configured to be pivotally mounted at a rear portion of a vehicle so as to be pivotable between a closed position and an opened position. A lighting device is disposed at an inner surface of the glass window panel and includes (i) at least one light source adhesively attached at the inner surface of the glass window panel, (ii) electrical connectors disposed at the inner surface of the glass window panel, and (iii) electrically conductive traces established at the inner surface of the glass window panel between the light sources and the electrical connectors. The electrical connectors are configured to electrically connect to a power source of the vehicle when the rear liftgate window assembly is mounted at the vehicle.

A vehicle may include a door pivotally mounted to a vehicle body at a lower end portion of the door, to open or close an opening formed at a portion of one surface of the vehicle, while being configured to form a bottom surface connected to a floor of the vehicle in a state of completely pivoting toward an outside of the vehicle in accordance with an opening operation of the door, forming a terrace space connected to an internal compartment of the vehicle, and a seat slidably mounted in the internal compartment of the vehicle, to provide a seating compartment for passengers, while being configured to be slidable outwards toward the opening of the vehicle, providing a seating compartment in the terrace space when the terrace space is used in accordance with the opening operation of the door.

A vehicle may include a door pivotally mounted to a vehicle body at a lower end portion of the door, to open or close an opening formed at a portion of one surface of the vehicle, while being configured to form a bottom surface connected to a floor of the vehicle in a state of completely pivoting toward an outside of the vehicle in accordance with an opening operation of the door, forming a terrace space connected to an internal compartment of the vehicle, and a seat slidably mounted in the internal compartment of the vehicle, to provide a seating compartment for passengers, while being configured to be slidable outwards toward the opening of the vehicle, providing a seating compartment in the terrace space when the terrace space is used in accordance with the opening operation of the door.

A heating appliance includes an appliance cabinet having a plurality of sidewalls that defining a heating cavity. A door is operably connected to at least one of the sidewalls and operable between open and closed positions. A vertical translating assembly extends from the appliance cabinet to the door. The vertical translating assembly includes drive and offset arms and a power assist mechanism in operable communication with the drive arm. The power assist mechanism at least partially operates the door between the open and closed positions.

A door (10) comprising a door member having a rectangular frame (22) on which components forming the door member are assembled. The frame includes top, side and a bottom frame member (24, 26a, 26b, 28). The frame is sized and shaped to fit within an opening (P) in a sidewall (S) of a portable building (B). A foam panel (16) fits in the frame. Door panels (12, 14) are affixed to the outsides of the foam panel using an adhesive material. The result is a laminated door that can be lowered and raised for moving people and objects into and out of the building.

An overhead door and frame has a horizontal header connected to tripod legs with splice assemblies. Each tripod leg has two upright columns connected to an upright I-bar. The splice assemblies connect the upright columns to the header. Hinges pivotally mount an overhead door to the header to allow hydraulic cylinders to selectively move the overhead door to an open position and a closed position.

An overhead door and frame has a horizontal header connected to tripod legs with splice assemblies. Each tripod leg has two upright columns connected to an upright I-bar. The splice assemblies connect the upright columns to the header. Hinges pivotally mount an overhead door to the header to allow hydraulic cylinders to selectively move the overhead door to an open position and a closed position.

A connection system for a house and a vehicle, may include a vehicle door provided in the vehicle to open or close a vehicle entrance through which a passenger enters or exits the vehicle and allowing an internal space of the vehicle to be exposed into the house when authenticated by the house; and a hatch provided in a house entrance on a side wall of the house to selectively couple the house entrance and the vehicle entrance with each other so that an internal space of the vehicle and an internal space of the house are connected to each other in a state that the vehicle door is open when the authenticated vehicle is parked on a side of the house entrance.

A connection system for a house and a vehicle, may include a vehicle door provided in the vehicle to open or close a vehicle entrance through which a passenger enters or exits the vehicle and allowing an internal space of the vehicle to be exposed into the house when authenticated by the house; and a hatch provided in a house entrance on a side wall of the house to selectively couple the house entrance and the vehicle entrance with each other so that an internal space of the vehicle and an internal space of the house are connected to each other in a state that the vehicle door is open when the authenticated vehicle is parked on a side of the house entrance.

Embodiments of the present invention relates to a window system that a solar panel provided in the project window is easily detachable, and more particularly, a project type window system according to present invention includes a window frame; a project frame with an upper end hinged to an upper end of the window frame configured to be opened and closed in a project type while moving away or close with respect to the window frame; a louver frame provided inside the project frame; and a solar panel including a solar cell and a photovoltaic frame to support the solar cell; wherein the louver frame includes a supporting plate with a tilt hole elongated in a height direction of the project frame, a panel holder for fixing and holding the solar panel inside of the supporting plate by including a tilt shaft on an opposite side to which the solar panel is held and inserting the tilt shaft into the tilt hole, and a socket for tiltably supporting the solar panel with respect to the louver frame from an outside of the supporting plate by being coupled to the tilt shaft, wherein the photovoltaic frame is slide-inserted through an opened one end of the panel holder, and is supported by the other end of the panel holder, and wherein the photovoltaic frame is coupled to the panel holder in the other end of the panel holder.