Gople Mini Suspension
1406050A Blue
1406060A Bronze
1406040A Copper
1406010A Silver
1406020A White
SOURCES NOT INCLUDED
Category: LED RETROFIT
Number: 1
Watt: 6W
Socket: E14
LUMINAIRE
Watt: 6W
CCT: 3000K
CRI: 80
Gople
1405050A Blue
1405060A Bronze
1405040A Copper
1405010A Silver
1405020A White
SOURCES NOT INCLUDED
Category: LED RETROFIT
Number: 1
Watt: 20W
Socket: E27
LUMINAIRE
Watt: 20W
Delivered lumens output (lm): 1118lm
CCT: 3000K
Efficiency: 46%
Efficacy: 55.91lm/W
CRI: 80
Gople - RWB
1407010A White
SOURCES INCLUDED
Category: LED RGB
Number: 1
Watt: 21W
Category: LED
Number: 1
Watt: 39W
LUMINAIRE
Watt: 21W + 39W
Delivered lumens output (lm): 1100lm + 2250lm
CRI: 90
Dimmable Typology: Dali
IP20
The basic form of the Gople Lamp enhances the beauty of glass, hand-processed according to an ancient Venetian technique that gradually turns white glass into crystal glass by combining both upon blowing, thus making each piece unique. More innovative finishes are added, including silver or copper vacuum metallization.
Silver, bronze, copper and blue finishes are made with an innovative and sustainable metal vacuum deposition process.
From the point of view of environmental-friendliness, “sputtering” is the absolutely cleanest coating technology for the type of metal used and because all emissions are abated, in particular those into the atmosphere of sulphuric acid and cyanides produced by galvanic processes.
Solid paint with up to 5% of solvents (compared to 75% of traditional products) is employed for the successive protective clearcoat phase.
The process generates very little waste and the resulting finish is particularly resistant over time. In any of these cases, glass finishing is designed to ensure the best relation with the emitted light, screening the source and maximizing direct emission through transparency. The most basic version with the traditional E27 or E14 joint is designed to provide different performance levels compared to the more innovative RWB version, where colours can be combined with each other to create lightscapes that meet space requirements. It is a timeless solution for its flexibility in adjusting to the development of standard source technologies.
