When being sealed, insulating glass blanks (5) are held in a sealing station (2) gripped at the base by grippers (17) of a gripper arrangement (16) and/or by suction heads (15) and rest at the top against a roller beam (7) fitted with rollers (8). As the insulating glass blank (5) is sealed, only the nozzle (11) of a sealing assembly (10) moves along the outer edge of the insulating glass blank (5), which is stationary during the sealing process. When the lower edge of an insulating glass blank (5) is sealed, grippers (17) engaging the lower edge are released and move away downwards. Sealed insulating glass is removed from the sealing station (2) by a removal robot (24) onto the side opposite the sealing assembly (10), moved to a temporary store and placed therein on A-bearing supports (29) and fan frames (30) sorted according to production lots.

When being sealed, insulating glass blanks (5) are held in a sealing station (2) gripped at the base by grippers (17) of a gripper arrangement (16) and/or by suction heads (15) and rest at the top against a roller beam (7) fitted with rollers (8). As the insulating glass blank (5) is sealed, only the nozzle (11) of a sealing assembly (10) moves along the outer edge of the insulating glass blank (5), which is stationary during the sealing process. When the lower edge of an insulating glass blank (5) is sealed, grippers (17) engaging the lower edge are released and move away downwards. Sealed insulating glass is removed from the sealing station (2) by a removal robot (24) onto the side opposite the sealing assembly (10), moved to a temporary store and placed therein on A-bearing supports (29) and fan frames (30) sorted according to production lots.

A device for delivering a sealant material includes a first nozzle having a first nozzle head and a second nozzle having a second nozzle head. The first and second nozzle heads each independently have an outlet, an inlet opposite the outlet, and an open channel that extends through a body of the nozzle heads from the inlet to the outlet. The first nozzle is spaced apart from the second nozzle to form a space between the nozzle heads to allow a component to enter a first side of the device and exit a second side of the device while passing by the first and second nozzle heads. A notch is formed through the body of each of the first and second nozzle heads at a side where the component exits the device to distribute a sealant material onto each side of the component.

The invention provides a sealant applicator machine for dispensing sealant onto an insulating glazing unit. The insulating glazing unit may include two panes separated by a spacer having a spacer width. The sealant may be dispensed around a periphery of the insulating glazing unit. In certain embodiments, the sealant applicator machine includes both a fixed width sealant-dispensing head comprising a fixed width dispensing nozzle, and an adjustable sealant-dispensing head having a plurality of adjustable dispensing nozzles. The fixed width sealant-dispensing head and the adjustable sealant-dispensing head may be operably coupled to one or more sealant supplies.

A machine for the automatic sealing of the peripheral cavity of the insulating glass, which geometry is irregular for the planarity with regard to the theoretical one, comprising at least two glass panes having rectangular or other than rectangular shape and at least one spacer frame located in proximity of the perimeter at a finite distance from the boundary of the same glass panes or of the smaller glass pane, the glass panes being aligned or stepped along one or more or all peripheral sides and the thickness both of each glass pane, and of each spacer frame and consequently the total thickness of the insulating glass being mutable from insulating glass to insulating glass.

A power tool including a conduit extending between an air inlet and an air outlet; a first axial fan disposed within the conduit to generate airflow through the conduit from the air inlet to the air outlet; a second fan disposed within the conduit; and a stator disposed in the conduit with at least a portion of the stator disposed at a location between the first axial fan and the second fan, wherein the stator comprises a plurality of vanes having noise reduction features.