1. DOUBLE GLAZING PRODUCTION LINE
- Maximum dimension: 5000 mm x 2800 mm
- Minimum dimension: 320 mm x 180 mm
- Maximum thickness of anastomosis: 100 mm
- Maximum assembly weight: 2000 kg/pc; 400 kg/linear meter
- Scanner for quality control of insulating glass units
- Possibility of making three-chambered windows
- Facade glass ( 4 steps; bottom and side 0-100mm, the rest without limit )
- Silicone DC3363
- Silicone DC993 ( structural bonding to frames
2. GLASTON FC SERIES HARDENING PIECE + iLook SCANNER
- Maximum dimension: 6000 mm x 2800 mm
- Minimum dimension: 100 mm x 250 mm
- Tempered glass from 2.8 mm to 19 mm
- Heat strengthened glass from 2.8 mm to 12 mm Float – LowE / EN 1863
- Thermally strengthened glass from 2.8 mm to 10 mm / ASTM C1048
- Ability to minimize anisotropy to a level of 90% – 98% ( high quality glass in which shimmering marks and streaks formed during the tempering process are invisible to the naked eye )
Type processing | Thickness glazing [mm] | Dimension minimum [mm] | Dimension maximal Float | Dimension maximal Low-E | Standard |
ESG | 2, 8 | 200 x 450 | 1600 x 2100 | 1300 x 2100 | EN 12150-1 |
ESG | 3, 15 | 100 x 250 | 1600 x 2800 | 1500 x 2300 | EN 12150-1 |
ESG | 4 | 100 x 250 | 1800 x 2800 | 1800 x 2800 | EN 12150-1 |
ESG | 5 | 100 x 250 | 2800 x 6000 | 2300 x 3800 | EN 12150-1 |
ESG | 6 -19 | 100 x 250 | 2800 x 6000 | 2800 x 6000 | EN 12150-1 |
iLook SCANNER for tempered glass quality testing
- The device works online and checks all glazing produced for corrugation from rollers, edge bending and anisotropy levels
- Ability to issue reports to the manufactured glass to confirm quality
- Anisotropy control
3. the HST ( HEAT SOAK TEST ) – in accordance with standard EN 14179-2005.
- Glass test for spontaneous breakage: glass from 3 mm to 19 mm thick
- Maximum sheet dimensions: 4800 mm x 2800 m
4. LAMINATION
- Maximum dimension: 4800 mm x 2800 mm
- Maximum thickness: 6 mm – 100 mm
- Type of laminated material: EVA, PVB ( Clear, Mat, Color, Acustic ), SentryGlass, Sologlass (Poly-printed film (UV, ECO-SOLVENT, SOLVENT, LATEX)
- Standard Edge finish – edge mechanically cleaned after lamination
- Finishing EDGE Plus makes laminated glass look like one piece of glass ( no need to clean the edges of excess film ). It gives the edge a smooth, glassy look. This finish is extremely aesthetically pleasing and can be used in all applications where the edge is exposed to outdoor conditions. This is the highest quality finish in laminated glass.
5. VERTICAL CNC CENTER
Vertical machining center for glass from 2.8 mm to 30 mm thick
- Maximum dimension: 6000 mm x 2800 mm
- Minimum dimension: 270 mm x 420 mm
- Possibility to process glass (Float / Low-E) monolithic , laminated
- Possible machining: blunting, matt grinding, polished grinding, drilling, hole chamfering, notching, milling, engraving
6. ENAMEL APPLICATION LINE
- Glass from 4mm to 20mm thick
- Maximum dimension: 2500 mm x 4500 mm
- Perimeter painting: from 10 mm to 500 mm
- Minimum dimension: 200 mm x 200 mm
7. SANDBLASTING OF GLASS
- Glass from 3 mm to 50 mm thick
- Maximum dimension: 4000 mm x 1800 mm ( the height can be doubled when the machine is open at the top )
8. CUTTING LAMINATED GLASS
- Maximum dimension: 6000 mm x 3210 mm
- Maximum thickness: 1010.4
9. HEAT BENDING SWISSPACER FRAME
- Width range from 8 mm to 20 mm
- Possibility to equalize pressure in insulating glass units with SWISSPACER AIR
10. FIREPROOF GLASS
The technology is based on hard gel
– Maximum dimension: 4800 mm x 2800 mm
– Glazing has passed fire tests in the PONZIO PE78EI system
– The stability of the gel was confirmed by independent tests at TÜV Rheinland. The samples passed the UV and aging test.
What sets us apart is :
– certainty of optical stability of the gel – the gel does not cloudy ( TÜV tests )
– The gel has a very high translucency due to the use of the best and purest ingredients. According to the TUV institute, the glass has a light transmittance of 89.60%.
– Refined fire glass manufacturing process to minimize the phenomenon of opalescence in tempered glass ( anisotropy ), confirmed by independent tests. This makes it possible to use glass where opalescence is not tolerated ( facades ) or places with a high incidence of light polarization ( areas close to the sea ).
– The use of a warm spacer in the fire glass, which affects its performance ( low thermal conductivity of the edge of the glass ) and improved protection properties in the coastal zone of the fire glass. )
– possibility to make bent glass
The glass used for fire glass has minimized anisotropy, which is confirmed by the iLook scanner installed on the tempering line. In addition to anisotropy, the optical deformation of glass is also studied, among other things. Waviness from the rollers and bending of the edges in the glass.
The device works online, making it possible to examine all the glass produced during the tempering process. We are able to issue a quality certificate for each pane of glass confirming the assumed quality.