Rotatable-drum laundry drier and method of controlling a rotatable-drum laundry drier to dry delicate laundry

The invention claimed is: 1. A method of controlling a rotatable-drum laundry drier to dry delicate laundry in a drum of the rotatable-drum laundry drier; the method comprising the steps of: feeding drying air into the drum; rotating the drum at a variable rotation speed about an axis of rotation; rotating the drum at a first rotation speed higher than, or equal to, a rotation speed at which centrifugal acceleration of the inner surface of the drum equals gravitational acceleration, so that the laundry is pressed by centrifugal force against the inner surface of the drum and so prevented from sliding/tumbling inside drum; alternating first rotation cycles of said drum at said first rotation speed with one or more second rotation cycles of said drum at a not null second rotation speed lower than said first rotation speed and such that, at each second rotation cycle, at least part of the laundry slides/tumbles slowly inside the drum while remaining in contact with the inner surface of the drum and/or another part of the laundry contacting the drum; measuring the moisture in the laundry, in the course of one or more second rotation cycles of the drum at the second rotation speed, by means of moisture sensors connected to a stationary part of the casing of the rotatable-drum laundry drier and located so that, as the drum rotates, they come into contact with the laundry inside the drum, wherein said moisture sensors comprise at least two electrodes facing the internal of the drum; calculating, during the second rotation cycles of the drum at the second rotation speed, the moisture and the quantity/weight of the laundry; and calculating the drying cycle end time of the rotatable-drum laundry drier on the basis of the moisture and the quantity/weight of the laundry; wherein after calculating the drying cycle end time, the drum returns to said first rotation speed. 2. A method, as claimed in claim 1 , comprising two or more second rotation cycles at a second rotation speed lower than said first rotation speed and such that, at each second rotation cycle, at least part of the laundry slides/tumbles slowly inside the drum while remaining in contact with the inner surface of the drum and/or another part of the laundry contacting the drum. 3. A method as claimed in claim 2 , wherein in two different second rotation cycles the direction of rotation of said drum is the same. 4. A method as claimed in claim 2 , wherein said drum is stopped between two subsequent second rotation cycles. 5. A method as claimed in claim 2 , wherein the second rotation speed of said drum is the same during all said second rotation cycles. 6. A method as claimed in claim 2 , wherein the direction of rotation of said drum in a second rotation cycle is different from the direction of rotation of said drum in a different second rotation cycle. 7. A method as claimed in claim 2 , wherein said drum is stopped between the end of a first rotation cycle and the following second rotation cycle. 8. A method as claimed in claim 2 , wherein said drum is stopped between the end of a second rotation cycle and the following first rotation cycle. 9. A method as claimed in claim 2 , wherein the second rotation speed of said drum in a second rotation cycle is different from the second rotation speed of said drum during a different second rotation cycle. 10. A method as claimed in claim 1 , further comprising the steps of: making interruptions in rotation of the drum at the first rotation speed; commanding, at each interruption in rotation, one or more second rotation cycles of the drum at said second rotation speed; alternating rotations of the drum in a first rotation direction with rotations of the drum in a second rotation direction, opposite the first, during the second rotation cycles of the drum at the second rotation speed, so as to produce controlled movement of the laundry inside the drum. 11. A method as claimed in claim 1 , wherein, during each second rotation cycle of the drum at the second rotation speed, the drum performs at least a partial revolution. 12. A method as claimed in claim 1 , further comprising the step of regulating the number of second rotation cycles of the drum at the second rotation speed, on the basis of the number of contacts between said moisture sensors and said laundry. 13. A method as claimed in claim 1 , further comprising the step of adjusting said second rotation speed of the drum during each second rotation cycle at the second rotation speed, on the basis of the number of contacts between said moisture sensors and said laundry. 14. A method as claimed in claim 1 , further comprising the step of adjusting the alternating rotation directions of the drum during said second rotation cycles at the second rotation speed, on the basis of the number of contacts between said moisture sensors and said laundry. 15. A method as claimed in claim 1 , further comprising the step of adjusting the duration of each second rotation cycle at the second rotation speed, on the basis of the number of contacts between said moisture sensors and said laundry. 16. A method as claimed in claim 1 , further comprising the step of adjusting the interval between two consecutive second rotation cycles at the second rotation speed, on the basis of the number of contacts between said moisture sensors and said laundry. 17. A rotatable-drum laundry drier comprising: a drum for housing delicate laundry; a fan configured to feed drying air into the drum; a motor configured to rotate the drum at a variable rotation speed about an axis of rotation; and an electronic control system configured to implement a delicate-laundry drying method as claimed in claim 1 . 18. A method of controlling a rotatable-drum laundry drier to dry delicate laundry in a drum of the rotatable-drum laundry drier; the method comprising the steps of: feeding drying air into the drum; rotating the drum at a variable rotation speed about an axis of rotation; rotating the drum at a first rotation speed higher than, or equal to, a rotation speed at which centrifugal acceleration of the inner surface of the drum equals gravitational acceleration, so that the laundry is pressed by centrifugal force against the inner surface of the drum and so prevented from sliding/tumbling inside drum; alternating first rotation cycles of said drum at said first rotation speed with one or more second rotation cycles of said drum at a not null second rotation speed lower than said first rotation speed and such that, at each second rotation cycle, at least part of the laundry slides/tumbles slowly inside the drum while remaining in contact with the inner surface of the drum and/or another part of the laundry contacting the drum; measuring the moisture in the laundry, in the course of one or more second rotation cycles of the drum at the second rotation speed, by means of moisture sensors connected to a stationary part of the casing of the rotatable-drum laundry drier and located so that, as the drum rotates, they come into contact with the laundry inside the drum wherein the moisture sensors comprise at least two electrodes facing the internal of the drum; and calculating the drying cycle end time of the rotatable-drum laundry drier on the basis of the measured moisture of the laundry during the second rotation cycles; wherein after calculating the drying cycle end time, the drum returns to said first rotation speed.