A computer controlled method for bending profiles for making insulating frames for double and triple glass pane glazings comprises at least the steps of: automatically feeding the profile to a profile machining section; immediately bringing the profile to a bending position, in which the profile is heated directly by hot air jets to a malleable condition at the bending position without moving the profile in its malleable condition.

Method and Apparatus for fabricating a spacer frame for use in an insulating glass unit. One of a multiple number of possible spacer frame materials is chosen for the spacer frame. An elongated strip of the material is moved to a notching station where notches are formed at corner locations. The character of the notches is adjusted based on the selection of the metal strip material and more particularly to achieve bending of the material in a repeatable, straightforward manner. Better control over the notching process is also achieved by exhaust flow control of a double acting cylinder. A positioning spacer achieve very accurate side to side positioning of a die and anvil to precisely notch and deform the metal strip. Downstream from the notching station the metal strip is bent into a channel shaped elongated frame member having side walls. Further downstream a leading strip of channel shaped material is severed or separated from succeeding material still passing through the notching and bending station.

A method for producing a triple insulating glazing unit is presented. According to the method, one pane is inserted into a groove of a spacer that is peripherally shaped to form a spacer frame to enframe the pane. A first pane and a second pane are connected to corresponding contact surfaces of the spacer frame by way of an upper edge and lateral edges of the first and second panes. Lower edges of the first and second panes are bent outward. Formed interpane spaces are filled from below with a protective gas, and the arrangement of the panes and the spacer frame is sealed and pressed together.

An apparatus and method is provided for forming a spacer frame assembly used in the construction of insulating glass unit windows. The apparatus comprises a head arrangement having a body with first and second ends, the first end for coupling to a cylinder that advances and retracts the head arrangement in a reciprocating motion during operation. The second end includes an annular wedge-shaped ridge for coupling to a second annular wedge-shaped ridge of a die support, collectively the wedge-shaped ridge and second wedge-shaped ridge form a contact region to form a torus surface. The die support has at least one die for engaging a spacer frame assembly during operation. The apparatus further comprises a collar having a torus-shaped recess corresponding with the torus surface to nest and couple the body to the die support.

A spacer frame assembly and method of assembly includes a substantially linear channel comprising two lateral walls and a base wall. The channel has first and second ends that when assembled, includes at least three sides and corresponding corners between each of said sides. The first end includes a connecting structure and the second end includes an opposite frame end. The opposite frame end has an opposite channel for receiving a nose portion of said connecting structure The opposite channel includes stiffening flanges extending inwardly from the lateral walls relative to the channel. The connecting structure further includes a first aperture in the base wall comprising a first projection into the channel and the opposite channel comprises a second aperture in the base wall comprising a second projection into the channel. Wherein the first projection. tactilely interweaves with the second projection when the spacer frame is assembled.

An insulating gas unit, and a method and apparatus for filling and sealing the insulating gas unit with an insulating gas, such as argon or krypton. The insulating glass unit includes a spacer frame having at least one elongated or oblong opening dimensioned to receive a gas filling nozzle. A mating elongated or oblong plug is dimensioned to be received within the opening in order to seal the insulating space of the insulating gas unit. A dimpling tool engages with the plug to form dimples that secure the plug in the opening.

A spacer frame assembly and method of assembly includes a substantially linear channel having first and second ends. The substantially linear channel that when assembled includes at least four sides and corresponding corners between each of the sides. The spacer frame assembly also has a connecting structure located at one of the first and second ends and an opposite frame end located at the other of the one of first and second ends. The opposite frame end has an inner channel for receiving a nose portion of the connecting structure. The spacer frame assembly also includes a stop extending from the connecting structure for locating the opposite frame end when in the assembled position.

A spacer frame assembly and method of assembly includes a substantially linear channel comprising two lateral walls and a base wall. The channel has first and second ends that when assembled, includes at least three sides and corresponding corners between each of said sides. The first end includes a connecting structure and the second end includes an opposite frame end. The opposite frame end has an opposite channel for receiving a nose portion of said connecting structure. The opposite channel includes stiffening flanges extending inwardly from the lateral walls relative to the channel. The connecting structure further includes a first aperture in the base wall comprising a first projection into the channel and the opposite channel comprises a second aperture in the base wall comprising a second projection into the channel. Wherein the first projection tactilely interweaves with the second projection when the spacer frame is assembled.

A spacer applicator assembly has tooling with a plurality of retention devices. An actuator is coupled to the tooling, where the actuator is adapted to continuously rotate the tooling about an axis in a first direction and the tooling is adapted to move in a direction that is generally parallel to the axis.

A spacer frame for use in fabricating a window and a method of fabrication thereof is disclosed. The spacer frame for separating first and second glass lites from each other in window. The spacer frame includes a frame forming a multi-sided form comprising a first outwardly facing surface for supporting a first glass lite that is contiguous with a first intermediate wall portion and a second outwardly facing surface for supporting a second glass lite that is contiguous with a second intermediate wall portion. The first and second intermediate wall portions comprise a first material and are linked to each other and spaced from each other by a thermal interruption strip. The first and second intermediate wall portions and the thermal interruption strip comprise an intermediate wall that bridges the first and second outwardly facing surfaces. The spacer frame further includes a film overlaying the intermediate wall portion.