The perpetual calendar remains one of the most representatives of horological complications and also one of the oldest.  A direct descendant of the computus (Latin for calculation) that the clergy used to determine the religious and seasonal feasts of the seasons, these ancient mechanical perpetual calendars underpinned rural society from the early Middle Ages. A prime example can be found in the Strasbourg cathedral clock.

This reinvention of the perpetual calendar integrates the Equation of Time into the perpetual calendar, as well as practical new functions and indications that improve clarity. The priority was to simplify the complete displays and make it easier to set the perpetual calendar by using the bi-directional winding crown. Despite the complete indications and functions, Greubel Forsey's mechanical computer with Equation of Time is as easy to set as a simple date feature.

If your timepiece has stopped for several days and you need to take an imminent flight, simply pull out the crown checking the selection indicator near 2 o'clock. Turn the crown back and forth to change the calendar and all the different indications change by themselves. If you go too far, you just go back through the days until you get to the right date. It’s easy, intuitive and pleasant to use.

To meet this technical challenge Greubel Forsey developed a sophisticated coding mechanism: the mechanical computer for which three patents were filed. A stack of cams with movable fingers shift the indications on the front and back dials of the timepiece, the complete mechanism fitting entirely within the movement without increasing its dimensions. The cam for the months changes the month in a window on the front display and also moves the Equation of Time scale on the back. The years' cam controls the leap year indication on the front and that of the seasons on the back. The development of this coding device not only overturns conventional ways of setting the indications but also by displaying them simultaneously on front and back dials.

Just a glance at the subdial at 3 o’clock clearly reveals the three in-line windows that clearly indicate the day, the date and the month. The large date makes the calendar extremely legible.

 

Greubel-Forsey-Quantieme-Perpetuel-Equation-du-temps-1.jpg

QP à Equation © Greubel Forsey

What is the equation of time? Horology seeks to measure time as regularly as possible; however the Earth orbits the Sun in an elliptical path. As the Earth sweeps close past the Sun, the period between successive solar zeniths, or the solar day’s length, changes. This causes the difference between solar time and mean time to vary from a few seconds to as much as 16 minutes during the year. The Equation of Time is the conversion factor between solar and mean time. To read solar time, look at the back subdial for the displayed date’s Equation of Time.

In the spirit of the GMT, Greubel Forsey continues to put time to better service; where the back of the timepiece is not just there to showcase for fine hand finishing, but also provides a new way to tell the time.

On the back of the QP à ÉQUATION you find the Equation of Time indication, the seasons and the current year in four figures.

The indications on the back are made up of two superimposed transparent discs in synthetic sapphire crystal. The first disc is driven by the date wheel and has a scale in minutes indicating the difference between solar and mean time.

The second disc, which goes around once a year, has a figure shaped like a manta ray, and divided into four sections in red and blue to show whether the Equation of Time is positive or negative. To find out, look where the red line (positive difference) or the blue line (negative difference) crosses the scale. This Equation of Time display is unprecedented and provides a clearer appreciation of the Earth’s elliptical orbit around the sun as well as the equinoxes and solstices

The QP à ÉQUATION in white gold measures 43.5mm in diameter and is 16mm high. It includes a fourth patentthe 24-second Tourbillon inclined at 25°, . The balance oscillates at 21,600v/h and the power reserve is 72 hours from two fast-rotation superimposed barrels that feature protection against excess tension. This leaves space for a large free-sprung balance. The movement diameter is 37mm(16.41 lignes), height 9.55mm  and comprises 570 components and 65 jewels.