Glazing System

Robotic Glazing Solution

Robotic Glazing Solution Size and quantity of windows increase the demand for fast & secure robotic glazing solutions.

How to dispense adhesive on glass ?

The robot is aiming to extrude a continuous bead at a precise position all around the glass component. A compensation system secures the contact with the glass in a large range of 50mm in Z direction.  

Sames offers all the equipment needed to produce a closed triangular-section cords of adhesive.

To secure the application process, a vision system is embedded on the extrusion head. It detects a gap in the bead, and any kind of change in the bead geometry.

Glass bonding solution

Glass bonding solution

Material comes from the tandem ram station, with automatic change over which secure the availibity for production.

A dosing unit, sized to the quantity of adhesive to apply on each glass component, is pushing the desired amount of material to the extrusion head.

The lightweight extrusion head is easy to handle for the robot, but it can be fixed on a bracket as well.

 

Glazing extrusion head The robotic dispense head use a compensation system allowing 50mm vertical movement, which secure the custom nozzle on the glass to make the shape of adhesive you want.
The patented swivel system is using the robot wrist rotation to orientate the nozzle in the dispense direction. Fully compatible with any brand & model of robot.
On bracket application Fixed on a bracket, the 7th axis motor is turning the head accordingly to the orientation of the part handled by the robot.
A support allows to embed a vision system controlling the correct position, shape and continuuity of the adhesive bead.
2K glazing extrusion head To reduce cycle time, a 2 components PU adhesive may be required. The booster injection ratio can be adjusted from 3% to 10% to adapt to your material.
The 50mm compensation and the custom nozzles are still available.
The full system is only bracket mounted integrating its own 7th axis motor.

Windshield galzing system