A frame assembly for a modular window assembly for an opening in a structure comprises a main structural frame defining an electrical enclosure and being mountable to the structure, a removable exterior frame mountable to the main structural frame and defining an angled lip for water runoff, the removable exterior frame being configured to secure an outer glass pane of a set of glass panes of the modular window assembly, an insulating feature between the main structural frame and the removable exterior frame and configured to prevent thermal conduction therebetween, and at least one vapor neutralizer between the main structural frame and the removable exterior frame and configured to prevent moisture from accumulating within the modular window assembly. One primary benefit of this modular window assembly is the ability to swap out some or all of the set of glass panes and replace them with new glass technology as developed.

A vacuum insulated door for an appliance includes an outer wrapper that defines an evacuation port. An inner liner is coupled to the outer wrapper defining an insulating cavity therebetween. A base is coupled to the outer wrapper adjacent to the evacuation port. A servicing tube has a connecting end and a servicing end. The servicing tube is in fluid communication with the insulating cavity via the evacuation port. The connecting end is coupled to the base. A handle has first and second ends coupled to the outer wrapper and a center portion therebetween spaced-apart from the outer wrapper. The first end is coupled to the outer wrapper proximate the evacuation port. The servicing tube extends along an inner surface of the handle.

A window system includes a window frame; a transparent window pane; an energy harvesting device coupled to the window frame or the transparent window frame; an output device that uses or transmits electricity; and a battery housed in the window frame, the battery being in electrical communication with the energy harvesting device and the output device.

An insulation system including a first retention member having a first channel, a second retention member having a second channel, and a thermal bridge. The thermal bridge includes a first finger and a second finger. The first finger is received into the first channel and the second finger is received into the second channel. The system further includes a first locking tab associated with the first channel for securing the first finger and a second locking tab associated with the second channel for securing the second finger. The thermal bridge substantially reduces conductive heat transfer between the first retention member and the second retention member.

A structural component for use in a building structure, comprising an internal cavity, defined by a component-based cavity-defining internal wall configuration and comprising a low emissivity material disposed within the cavity. The low emissivity material defines at least a portion of a surface of the component-based cavity-defining inner wall configuration. The low emissivity material may be provided as a layer adhering to a wall configuration substrate of the component-based cavity defining the inner wall configuration. The low emissivity material may further be adhered to the component-based cavity wall configuration substrate defining the inner wall configuration using spray coating. The low emissivity material may further be provided as a surface of a composite insert disposed within the cavity, wherein the composite insert comprises the low emissivity material coupled to a substrate material.

An insulation system including a first retention member having a first channel, a second retention member having a second channel, and a thermal bridge. The thermal bridge includes a first finger and a second finger. The first finger is received into the first channel and the second finger is received into the second channel. The system further includes a first locking tab associated with the first channel for securing the first finger and a second locking tab associated with the second channel for securing the second finger. The thermal bridge substantially reduces conductive heat transfer between the first retention member and the second retention member.

An insulation system including a first retention member having a first channel, a second retention member having a second channel, and a thermal bridge. The thermal bridge includes a first finger and a second finger. The first finger is received into the first channel and the second finger is received into the second channel. The system further includes a first locking tab associated with the first channel for securing the first finger and a second locking tab associated with the second channel for securing the second finger. The thermal bridge substantially reduces conductive heat transfer between the first retention member and the second retention member.

An insulation system including a first retention member having a first channel, a second retention member having a second channel, and a thermal bridge. The thermal bridge includes a first finger and a second finger. The first finger is received into the first channel and the second finger is received into the second channel. The system further includes a first locking tab associated with the first channel for securing the first finger and a second locking tab associated with the second channel for securing the second finger. The thermal bridge substantially reduces conductive heat transfer between the first retention member and the second retention member.

A frame assembly for a window, door or wall comprise trusses that serve as a structural support and a thermal break. The frame assembly includes an inner frame portion and an outer frame portion, with the trusses mounted there-between. The trusses comprise thermally insulating strut members that have a lower thermal conductivity than the inner and outer frame portions, and in some embodiments between can be composed of carbon fiber. The thermally insulating strut members enables the trusses to serve as thermal breaks and provide heat insulation between the inner frame portion and the outer frame portion, while providing structural support to the frame assembly.

A faade system includes a mullion having exterior and interior portions and defining a glazing pocket between the exterior and interior portions, a thermal break arranged within the glazing pocket and extending between the exterior and interior portions, the thermal break dividing the glazing pocket into a shallow pocket and a deep pocket larger than the shallow pocket, and a collapsible element arranged within the deep pocket and extending between the thermal break and a lateral side of a panel introduced into the deep pocket. The collapsible element is movable between a collapsed state and an expanded state. The collapsible element divides the deep pocket into two or more thermal chambers when in the expanded state to reduce heat transfer by convection through the glazing pocket.