Constant force escapement mechanism

The invention claimed is: 1. A constant force escapement mechanism for a timepiece movement, configured to be inserted between, on a first upstream side, a gear train driven by an energy storage device, and on a second downstream side, an oscillator, the escapement mechanism comprising, from upstream to downstream: an input wheel; a detent lever; an escape wheel; a stop member; wherein the stop member is configured to cooperate downstream with the oscillator and upstream with a first toothing comprised in the escape wheel, wherein the escape wheel is a flexible one-piece component comprising a felloe carrying the first toothing and a pinion permanently meshing with the input wheel which is configured to mesh with an input of the gear train, and the felloe and the pinion are connected to each other by flexible arms configured to store energy from the gear train and to restore the energy according to a position of the detent lever, wherein the detent lever includes a first arm configured to cooperate with the first toothing of the escape wheel, and a second arm configured to cooperate with a second toothing comprised in the input wheel to stop or release the input wheel, wherein the detent lever is configured to tilt, about a pivot bearing comprised therein, at each passage of at least one tooth of the first toothing of the escape wheel, and wherein the pivot bearing is sized to allow passage of a determined number of teeth of the second toothing of the input wheel. 2. The escapement mechanism according to claim 1 , wherein at least one of the flexible arms includes a stop member configured to limit amplitude of pivoting of the input wheel. 3. The escapement mechanism according to claim 1 , wherein the input wheel is a fourth seconds-wheel. 4. The escapement mechanism according to claim 1 , wherein the second arm of the detent lever includes a toothed sector, configured to cooperate with the second toothing of the input wheel. 5. The escapement mechanism according to claim 1 , wherein the escapement mechanism includes a bridge, which is in one-piece with the pivot bearing of the detent lever and with the detent lever. 6. The escapement mechanism according to claim 5 , wherein the stop member is in one-piece with the bridge and includes flexible bearings allowing the stop member to pivot and arranged to limit pivoting travel of the stop member. 7. The escapement mechanism according to claim 5 , wherein the bridge includes elastic return means acting on the first arm and/or second arm. 8. The escapement mechanism according to claim 1 , wherein the stop member is a pallet-lever. 9. A timepiece movement comprising one the escapement mechanism according to claim 1 , inserted between, on a first upstream side, a gear train driven by an energy storage device, and, on a second downstream side, an oscillator. 10. The timepiece movement according to claim 9 , wherein the oscillator is a sprung-balance assembly. 11. A timepiece comprising a movement according to claim 10 , wherein the timepiece is a watch. 12. The timepiece movement according to claim 9 , wherein the oscillator is a tuning fork.