First of all, the diameter of the earth has for practical and aesthetic reasons been notably enlarged in the Planetarium-Tellurium (in reality, the earth is 109 times smaller than the sun) allowing a good view of the continents and indeed of countries. All the planets can be seen perfectly, although these, as explained above, are not to scale regarding size and distance. The indications (date, equation of time, zodiac) are represented in an easily readable and consistent way, and on a separate area from the layout depicting the rotation of the planets.


The planetarium-tellurium is wound with a lever system, and it has a power reserve of 15 days.

The perpetual calendar, which is for the first time included in a planetarium, is fitted with a rapid corrector that allows it to be corrected either forwards or backwards. The same adjustment can be made to the Planetarium-Tellurium, after it has not been wound for a long period. This synchronisation, seemingly simple yet a true technical feat since it is also linked to the time zone mechanism including local, summer and winter time, is the result of lengthy research into mechanical engineering and of very important developments allowing the object to be quickly restarted. This had previously been impossible, because it required asking the help of a specialist in watchmaking and astronomy

The movement is fitted with a Stop-Restart balance whose function it is to restart it after having been immobilised (the problem of the failure of the balance starting up during winding of the movement is an inherent feature of the detent escapement).


The numerous calculations required for this project were executed by a renowned astronomer-physicist. This means that the main consistent error occurs only regarding the earth on its axis, with +1° in approx. 7.7 years. The other figures are as follows: +1° in approx. 168 years for the rotation of the moon around the earth, and -1° in approx. 2 million years for the rotation of the earth around the sun. Given that the value of 1° is below the timing tolerances (+/- 2°) adopted for this planetarium, whilst for the earlier planetariums, the error range was far greater, one realises that the error of the earth on its axis is perfectly acceptable, indeed of no significance.


The movement of the Richard Mille Planetarium-Tellurium has a detent escapement which is much more efficient than the lever escapement because it interferes less with the balance wheel.

The adjustment forward and backward is done on the balance wheel with variable inertia, using adjusting screws. This type of balance is highly sophisticated and guarantees greater reliability as well as better chronometric results. The index has thus been left out, which allows for a more precise and repetitive time adjustment.

The winding spring is a Tensator type spring, and provides a more consistent torque, which is a vital element in the performance.


Astronomic representations (R) and indications (I)

• Rotation of the earth on its axis (R)
  
• Rotation of the earth around the sun (R)
  
• Obliquity of the earth (R)
  
• Rotation of the moon on its axis (R)
  
• Rotation of the moon around the earth (R)
  
• Phases of the moon (I)
  
• Equation of time (I)
  
• Mercury (R)
  
• Venus (R)
  
• Sun (R)

Rotation of the earth on its axis (R)
One rotation on its axis in 24 hours. Error: +1° in 7.7 years

Rotation of the earth around the sun (R)
One rotation in 1 year. Error: -1° in 2 million years. This rotation is used as the basis for indicating the seasons, the equinoxes, solstices and zodiac signs, represented in their respective windows.

Obliquity of the earth (R)
Exact rotation, the tilt of the earth’s axis between the two poles: 23.5°. This tilt towards the sun provides a perfect understanding of the phenomenon of the seasons.

Rotation of the moon on its axis and rotation of the moon around the earth (R)
The calculation of the rotation is based on a synodic month of 29.53058912 days (time interval between two new moons). Error : +1° in 168 years.

Phases of the moon (I)
The phases of the moon are represented on the moon itself with a surrounding ring that represents the area visible from the earth.

Equation of time (I)
The equation of time is represented by a fuel gauge liek dial divided into sectors on the front part of the planetarium. The hand represents in + or – the minutes that must be added or subtracted from the mean time in order to obtain the true solar time.

Solar time
Associated with the equation of time, it represents the true time in relation to the sun. This indication is connected to the planetary mechanism and is on the dial.

Mercury (R)
Representation of Mercury performing a rotation around the sun in 87.9 days. Mercury does not rotate around its axis.

Venus (R)
Representation of Venus performing a rotation around the sun in 224.7 days. Venus does not rotate around its axis.

Sun (R)
Static representation of the sun in the centre of the planetarium-tellurium.

Time indications

• Hour
  
• Minute
  
• Time zones
  
• Date (Perpetual calendar)
  
• Day (Perpetual calendar)
  
• Month (Perpetual calendar)
  
• Year, decade (Perpetual calendar)
  
• Leap year
  
• Power reserve
  
• Seasons, equinoxes, solstices, Zodiac signs

Titanium, steel, brass, gold, silver, tungsten

It is still possible today to restore watches that are more than 6 centuries old. The Richard Mille planetarium-tellurium will not be an exception to this rule, each component can be manufactured again. But by way of an example, the mainspring is designed to last approximately 350 years….

Cleaning is recommended every 5 years.

In-house service. In the long term, this type of objects can be repaired by a highly qualified watchmaker, or by a very skilled restorer of ancient watches.

3 years, components and workmanship, including transport. Does not cover drops, extreme shocks or inappropriate handling.