Cartier Tortue celestial carbon Crystal Watch 9460MC movement, the movement made Tortue watch by carbon Crystal bridge and the escapement lever and escape wheel and escapement axis is based on tungsten carbide material. Through the selection of improved operational efficiency, escapement parts without tuning and without lubrication can be achieved.
Cartier began in 2007, ID1 and ID2 concept table published in succession, pioneering new horizons of the watch-making industry, first to use niobium-titanium alloy, as the escape, glass-ceramics (Zerodur) spring, the ADLC class escapement drilled carbon-carbon coating, ceramic … … Attempting to pursue without adjusting, do not use Lube next generation watches. Thiscelestial Tourbillon carbon Crystal Watch, is the celestial Tourbillon will be released in 2010, and the result of combining results of ID1 and ID2.
This celestial Tortue carbon Crystal Watch, it is the most attractive objects Tourbillon mechanism! Axis in Tourbillon mechanism to bypass the line, run up quite interesting. Tourbillon of the basic structure has not changed, simply added a new gear and Rod, Tortue in the frame around the axis line.
Table is a table of special plan was divided into two levels. Top is theminute hand and hour hand, the lower is the Tourbillon. This configurationis quite reasonable. One round per minute speed, let the stars Tourbillonframework can be used as second hand. Is very simple, but is very difficult.Tourbillon itself is in the rotation, and full set of mechanisms in anotherbypass. Stability, weight, speed and even structure of tolerance, which istesting the technology.
watches mount 9460 MC hand wound movement depends on structural mechanism and 9541 MC should have similar (both are the same objects Tourbillon), however, 9460 MC is a new product concept combines two tables, so the main difference is in the selection. 9460MC hand-wound movement, made Tourbillon watch by carbon Crystal bridge, the escapement lever and escape wheel and escapement axis is based on tungsten carbide material. Through the selection of improved operational efficiency, escapement parts without tuning and without lubrication can be achieved.