A sliding golf cart windshield assembly includes a first elongated rail having a top end and a bottom end, and a second elongated rail spaced apart from the first elongated rail and having a top end and a bottom end. An upper windshield pane has a first longitudinal edge and an opposing second longitudinal edge, where the upper windshield pane is positioned between the first and second elongated rails. In addition, the assembly includes a first upper plate secured to the first longitudinal edge of the upper windshield pane and being slidable within the first elongated rail, a first lower hub coupled to the bottom end of the first elongated rail, and a first belt having a first end first end fixed to the top end of the first elongated rail and passes around the first lower hub to the second end that is fixed to the first upper plate.

There is described a ventilation system for a boat. The windshield body comprises an air scoop in a bottom portion of the windshield body, facing a forward direction of the boat for air entry, the air scoop having an entry which is substantially horizontal and the air scoop extending upwardly within the windshield body to form a conduit having an upward component. The conduit end opens toward an inside of the boat, at a location higher than the entry of the air scoop. A hingeable vent can be installed on the opening inside the boat to be open or closed. The vent may also be sued with a direct opening with the outside. In this case, flaps can be installed in the opening. The flaps can be hingeable about their own respective hinge axis, and move together using a solid link. The flaps may be used without the vent.

There is described a ventilation system for a boat. The windshield body comprises an air scoop in a bottom portion of the windshield body, facing a forward direction of the boat for air entry, the air scoop having an entry which is substantially horizontal and the air scoop extending upwardly within the windshield body to form a conduit having an upward component. The conduit end opens toward an inside of the boat, at a location higher than the entry of the air scoop. A hingeable vent can be installed on the opening inside the boat to be open or closed. The vent may also be sued with a direct opening with the outside. In this case, flaps can be installed in the opening. The flaps can be hingeable about their own respective hinge axis, and move together using a solid link. The flaps may be used without the vent.

A sliding golf cart windshield assembly includes a first elongated rail, a second elongated rail spaced apart from the first elongated rail, and an upper windshield pane having a first longitudinal edge and an opposing second longitudinal edge. The upper windshield pane is slidably positioned between the first and second elongated rails. The assembly also includes a lower drive pulley, an upper drive pulley, and a drive belt stretched between the lower drive pulley and the upper drive pulley. In addition, the assembly includes a drive panel slidingly engaged with the second rail and secured to the upper window pane and the drive belt, and a motor coupled to the lower drive pulley and configured to rotate the lower drive pulley to raise and lower the upper windshield pane.

A sliding golf cart windshield assembly includes a first elongated rail, a second elongated rail spaced apart from the first elongated rail, and an upper windshield pane having a first longitudinal edge and an opposing second longitudinal edge. The upper windshield pane is slidably positioned between the first and second elongated rails. The assembly also includes a lower drive pulley, an upper drive pulley, and a drive belt stretched between the lower drive pulley and the upper drive pulley. In addition, the assembly includes a drive panel slidingly engaged with the second rail and secured to the upper window pane and the drive belt, and a motor coupled to the lower drive pulley and configured to rotate the lower drive pulley to raise and lower the upper windshield pane.

A windshield assembly for an off-road vehicle includes an upper piece, a lower piece, and a middle piece. The upper piece abuts the roof to prevent a noticeable gap between the windshield and the roof regardless of whether the windshield is open or closed. The lower piece spans the lowermost portion of the windshield area. The middle piece is the main viewing portion, and is hingedly attached to the upper piece to allow the main viewing portion to be moved from a closed position to one or more open positions. When the middle piece is in its closed position, it substantially spans the space between the upper piece and the lower piece. When the middle piece is in a fully open position, the space between the upper windshield piece and the lower windshield piece is substantially free of windshield protection. When the middle piece is in a partially open position, it is flipped partially upward so that air may flow relatively freely unto the cabin area under the middle piece, but the vehicle occupants are still substantially protected from harsh wind and rain.

An elastic integrally formed windshield retaining clip includes walls defining a frame channel to receive and retain a portion of an upright windshield frame, and walls defining a pane channel to receive and retain a portion of an edge of a windshield while the portion of the upright windshield frame is retained in the frame channel. The frame channel not only surrounds three sides of a windshield frame, but also surrounds the majority of the fourth side of the frame. Angled walls exert pressure against the retained edge of the windshield and the frame.

An elastic integrally formed windshield retaining clip includes walls defining a frame channel to receive and retain a portion of an upright windshield frame, and walls defining a pane channel to receive and retain a portion of an edge of a windshield while the portion of the upright windshield frame is retained in the frame channel. The frame channel not only surrounds three sides of a windshield frame, but also surrounds the majority of the fourth side of the frame. Angled walls exert pressure against the retained edge of the windshield and the frame.

Methods and apparatus are provided for heating a vehicle window to remove ice and condensation using a carbon nanotube heating pad. The apparatus includes a user interface operative to receive a user request, a vehicle windshield, a heating pad wherein the heating pad includes a carbon nanotube heating element and a reflective surface and is oriented such that the carbon nanotube heating element is directed towards the windshield, a power supply operative to supply power to the carbon nanotube heating element in response to a control signal, and a processor operative to generate the control signal in response to the user request.

Methods and apparatus are provided for heating a vehicle window to remove ice and condensation using a carbon nanotube heating pad. The apparatus includes a user interface operative to receive a user request, a vehicle windshield, a heating pad wherein the heating pad includes a carbon nanotube heating element and a reflective surface and is oriented such that the carbon nanotube heating element is directed towards the windshield, a power supply operative to supply power to the carbon nanotube heating element in response to a control signal, and a processor operative to generate the control signal in response to the user request.