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 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.

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 door for a refrigerated merchandiser including a case that defines a product display area. The door includes a frame and a first glass pane coupled to the frame. The first glass pane has heat-absorbing glass and is configured to be positioned adjacent an ambient environment surrounding the refrigerated merchandiser to absorb radiation from the ambient environment. The door also includes a second glass pane coupled to the frame and configured to be positioned adjacent the product display area. The second glass pane includes a conductive coating. The door further includes a third glass pane positioned between and spaced from the first glass pane and the second glass pane, and has a low emissivity coating.

A door for a refrigerated merchandiser including a case that defines a product display area. The door includes a frame and a first glass pane coupled to the frame. The first glass pane has heat-absorbing glass and is configured to be positioned adjacent an ambient environment surrounding the refrigerated merchandiser to absorb radiation from the ambient environment. The door also includes a second glass pane coupled to the frame and configured to be positioned adjacent the product display area. The second glass pane includes a conductive coating. The door further includes a third glass pane positioned between and spaced from the first glass pane and the second glass pane, and has a low emissivity coating.

Systems and methods for environmentally sealing electrical connections of window assemblies are disclosed. A mechanically protective enclosure assembly is adhered to a transparent pane including glass. The enclosure assembly includes a first member, a second member, and an opening. The first member includes a transparent-pane engaging surface, a first interface surface, and a plurality of first walls extending therebetween. The second member is attached to the first member. The second member includes a top member, a second interface surface, and a plurality of second walls extending therebetween. The first interface surface engages the second interface surface to provide a first fluid-tight seal. The opening is defined by at least one of the plurality of first walls and at least one of the plurality of second walls. The opening engages the wiring harness to provide a second fluid-tight seal therebetween.

Systems and methods for environmentally sealing electrical connections of window assemblies are disclosed. A mechanically protective enclosure assembly is adhered to a transparent pane including glass. The enclosure assembly includes a first member, a second member, and an opening. The first member includes a transparent-pane engaging surface, a first interface surface, and a plurality of first walls extending therebetween. The second member is attached to the first member. The second member includes a top member, a second interface surface, and a plurality of second walls extending therebetween. The first interface surface engages the second interface surface to provide a first fluid-tight seal. The opening is defined by at least one of the plurality of first walls and at least one of the plurality of second walls. The opening engages the wiring harness to provide a second fluid-tight seal therebetween.

Certain example embodiments relate to techniques for sealing insulating glass (IG) units via an adhesive. The adhesives of certain example embodiments may be applied to the inner surface(s) of the substrates that form the IG unit and/or an outer surface of the spacer, without first priming and/or cleaning the surface(s). These adhesives may be silanol-inclusive moisture-cured adhesives. In certain example instances, the adhesive may be moisture-cured at ambient or other conditions such that the component and the substrate are adapted to survive large temperature fluctuations and vibrational shocks.

Certain example embodiments relate to techniques for sealing insulating glass (IG) units via an adhesive. The adhesives of certain example embodiments may be applied to the inner surface(s) of the substrates that form the IG unit and/or an outer surface of the spacer, without first priming and/or cleaning the surface(s). These adhesives may be silanol-inclusive moisture-cured adhesives. In certain example instances, the adhesive may be moisture-cured at ambient or other conditions such that the component and the substrate are adapted to survive large temperature fluctuations and vibrational shocks.