Examples of the present disclosure provide an overhead door panel. The overhead door panel includes a pair of parallel glass panes, a metal frame with parallel lateral stiles oriented perpendicular to the pair of parallel glass panes, a first seal system located at a first lateral stile, and a second seal system located at a second lateral stile, wherein the first seal system and the second seal system engage with at least one glass pane of the pair of parallel glass panes and a lateral stile of the parallel lateral stiles of the metal frame such that the first seal system and the second seal system are between the at least one glass pane and the lateral stile.

Examples of the present disclosure provide an overhead door panel. The overhead door panel includes a pair of parallel glass panes, a metal frame with parallel lateral stiles oriented perpendicular to the pair of parallel glass panes, a first seal system located at a first lateral stile, and a second seal system located at a second lateral stile, wherein the first seal system and the second seal system engage with at least one glass pane of the pair of parallel glass panes and a lateral stile of the parallel lateral stiles of the metal frame such that the first seal system and the second seal system are between the at least one glass pane and the lateral stile.

A security unit protects a glazing unit supported by a window frame The window frame defines a void that is in communication with an air space through external air vents. The window frame has a side panel that defines side panel holes. The security unit includes a security panel that is spaced apart from the glazing unit to define an air cavity and is secured to a vertical tubular bar that is secured to a side panel of the window frame. The vertical tubular bar defines a passage therethrough in communication with the air cavity through air cavity vents and defines passage holes aligned the side panel holes. Air circulates from the air cavity to the air space through the air cavity vents, the passage holes, the side panel holes and external air vents.

A window device with a cementitious board as a frame material the device being a single or double window apparatus with an exterior configured with a cementitious board or structure and configured with such frames that are easily formed and readily adaptable to substantially any size or shape opening. The cementitious board window allows for a low maintenance, paintable or pre-painted panels that are moisture and rot resistant, are not susceptible to pest, and provide a surface which is durable over time, is non-combustible, and has materials with little environmental impact. The device is used with new or replacement windows for a commercial or residential structure.

A window device with a cementitious board as a frame material the device being a single or double window apparatus with an exterior configured with a cementitious board or structure and configured with such frames that are easily formed and readily adaptable to substantially any size or shape opening. The cementitious board window allows for a low maintenance, paintable or pre-painted panels that are moisture and rot resistant, are not susceptible to pest, and provide a surface which is durable over time, is non-combustible, and has materials with little environmental impact. The device is used with new or replacement windows for a commercial or residential structure.

A glass sealing system includes a glass portion and a first adhesive layer disposed along an exterior surface of the glass portion. The glass sealing system also includes a cover with a first surface secured to the first adhesive layer and a second surface opposing the first surface. The glass sealing system includes a second adhesive layer disposed on the second surface and configured to secure the cover to a support structure. The cover obscures the second adhesive layer from view of a user looking through the glass portion toward the support structure.

One broad aspect of the invention features a display case door. The display case door includes a transparent panel assembly, hinges, a camera, and a sensor. The hinges are coupled at a first peripheral edge of the transparent panel assembly. The camera is coupled to the transparent panel proximate to a second peripheral edge of the transparent panel assembly opposite the first peripheral edge. The camera is arranged to capture images of the interior of a display case with the display case door mounted to the display case. The sensor is coupled to the transparent panel assembly, and is in electronic communication with the camera. The sensor is configured to generate a signal that indicates that the display case door is in an open position. The camera is configured to capture an image of the interior of the display case based on the signal generated by the sensor.

This present invention generally relates to the manufacture and application of a vented glazing system to existing glazed units or new glazing units. More particularly this invention relates to a method of glazing and a glazing system that will increase thermal performance and reduce condensation for existing glazed units.

This present invention generally relates to the manufacture and application of a vented glazing system to existing glazed units or new glazing units. More particularly this invention relates to a method of glazing and a glazing system that will increase thermal performance and reduce condensation for existing glazed units.

A method of assembling a building component includes connecting a first glass pane to a second glass pane to form an insulated glass unit. The first glass pane and the second glass pane define a pocket therebetween. The method also includes positioning the insulated glass unit in a frame including a first material. The method further includes connecting cladding including a second material to the frame. The frame defines a cavity that extends between a first side and a second side and is configured to inhibit moisture from the first side contacting the second material. The method also includes aligning a thermal break defined by the frame and the pocket such that the central plane extends through a middle portion of the thermal break. The thermal break and the pocket define a continuous thermal break extending through the building component.