A spacer for multipane insulating glazing units includes a polymeric main body having two pane contact surfaces running parallel to one another, a glazing interior surface and, an adhesive bonding surface. The pane contact surfaces, and the adhesive bonding surface are connected directly or via connection surfaces. The spacer also includes an insulation film, which is applied on the adhesive bonding surface.

This disclosure describes insulated glass units (IGUs) that incorporate electrochromic devices. More specifically, this disclosure focuses on different configurations available for providing an electrical connection to the interior region of an IGU. In many cases, an IGU includes two panes separated by a spacer. The spacer defines an interior region of the IGU and an exterior region of the IGU. Often, the electrochromic device positioned on the pane does not extend past the spacer, and some electrical connection must be provided to supply power from the exterior of the IGU to the electrochromic device on the interior of the IGU. In some embodiments, the spacer includes one or more holes (e.g, channels, mouse holes, other holes, etc.) through which an electrical connection (e.g., wires, busbar leads, etc.) may pass to provide power to the electrochromic device.

An adapter element for connecting a pane to a spacer having a fastening groove, wherein the adapter element includes at least one receiving profile for securing to the pane and at least one lower part for fixing to the spacer, and the lower part is designed to positively fit the fastening groove of the spacer.

This invention provides a sealing spacer for spacing apart two window panes to form a window assembly. The spacer has an elongated, flexible strip having opposed edge surfaces and opposed side surfaces. The spacer also has a fiber reinforced polymer layer over the elongated, flexible strip. The opposed edge surfaces undulate with crests and troughs. The spacer has an activatable sealant for directly sealingly securing the flexible strip to each of the two window panes. The activatable sealant is on each of the opposed side surfaces of the fiber reinforced polymer. The invention also provides methods for making the spacer and window assembly.

A spacer for insulating glazings, includes a U-shaped polymeric base body extending in the longitudinal direction including a first leg having a first pane contact surface, a second leg having a second pane contact surface and an outer surface, via which the first pane contact surface and the second pane contact surface are connected to one another, a polymeric cover plate extending in the transverse direction parallel to the outer surface between the first pane contact surface and the second pane contact surface, wherein the cover plate encloses a hollow chamber with the U-shaped polymeric base body, the polymeric cover plate is connected to the first leg and the second leg of the U-shaped polymeric base body in each case via a positive pin connection.

This disclosure provides spacers for smart windows. In one aspect, a window assembly includes a first substantially transparent substrate having an optically switchable device on a surface of the first substrate. The optically switchable device includes electrodes. A first electrode of the electrodes has a length about the length of a side of the optically switchable device. The window assembly further includes a second substantially transparent substrate a metal spacer between the first and the second substrates. The metal spacer has a substantially rectangular cross section, with one side of the metal spacer including a recess configured to accommodate the length of the first electrode such that there is no contact between the first electrode and the metal spacer. A primary seal material bonds the first substrate to the metal spacer and bonds the second substrate to the metal spacer.

This disclosure describes insulated glass units (IGUs) that incorporate electrochromic devices. More specifically, this disclosure focuses on different configurations available for providing an electrical connection to the interior region of an IGU. In many cases, an IGU includes two panes separated by a spacer. The spacer defines an interior region of the IGU and an exterior region of the IGU. Often, the electrochromic device positioned on the pane does not extend past the spacer, and some electrical connection must be provided to supply power from the exterior of the IGU to the electrochromic device on the interior of the IGU. In some embodiments, the spacer includes one or more holes (e.g., channels, mouse holes, other holes, etc.) through which an electrical connection (e.g., wires, busbar leads, etc.) may pass to provide power to the electrochromic device.

A system for producing an insulating glass unit having at least two lites separated by a spacer material is disclosed. The system includes a heating mechanism to heat one or both of the lites to achieve rapid wet-out of the spacer material on the lites. A method of producing an insulating glass unit including heating one or both lites is further disclosed.

A multiple pane insulated glazing unit for a fenestration unit includes a first outer pane including a first thickness defined between a first outer surface and a first inner surface. A first spacer is coupled to the first inner surface. A second outer pane has a second thickness defined between a second outer surface and a second inner surface. A spacer is coupled to the second inner surface, and an intermediate pane is coupled to at least one of the first spacer and the spacer. The intermediate pane has a third thickness defined between a third inner surface and a fourth inner surface that is less than the first thickness and the second thickness. The third thickness is between about 0.2 millimeters (mm) to about 1.2 millimeters (mm), and the first outer pane, the second outer pane and the intermediate pane are composed of boron-free soda lime silicate glass.

A conveyor belt for use in applying sealant to an elongated spacer frame and a method of use. The conveyor belt comprising a reversible belt rotatably attached to first and second pulleys. The reversible belt having a first perimeter length. The reversible belt is removably attached to the first and second pulleys. A first side and a second side of the replacement belt include first and second adhesive resistant materials. The first and second adhesive resistant materials are separated by an elastic support layer, wherein the first perimeter length is shorter than a second perimeter length measured about the rotation path of the first and second pulleys. The elastic support layer applies a force to first and second pulleys such that the reversible belt does not slip relative to the first and second pulleys.