Hydrokinetic torque coupling device with torsional vibration damper in combination with two vibration absorbers

What is claimed is: 1. A hydrokinetic torque coupling device for coupling together a driving shaft and a driven shaft, the torque coupling device comprising: a hollow casing including a cover shell and an impeller shell non-movably secured to the cover shell; an impeller wheel coaxially aligned with a rotation axis and including the impeller shell; a turbine wheel coaxially aligned with and drivable by the impeller wheel; a torsional vibration damper; a turbine hub non-rotatably connected to the turbine wheel; a locking piston slidably mounted to the turbine hub and forming an input part of the torsional vibration damper; a first vibration absorber and a second vibration absorber, each of the first and second vibration absorbers being one of a dynamic absorber and a centrifugal pendulum oscillator; the torsional vibration damper comprising: a first retainer plate rotatable about the rotation axis; a driven member rotatable relative to the first retainer plate coaxially with the rotation axis; and a plurality of damper elastic members interposed between the first retainer plate and the driven member, the damper elastic members elastically coupling the first retainer plate to the driven member; the turbine hub non-rotatably coupled to the driven member of the torsional vibration damper; the first vibration absorber being mounted to the turbine hub; the second vibration absorber being mounted to the turbine hub and disposed axially between the cover shell and the locking piston; the first vibration absorber and the second vibration absorber tuned to damp different orders of vibration. 2. The hydrokinetic torque coupling device as defined in claim 1 , wherein the torsional vibration damper and the first vibration absorber are disposed within the casing. 3. The hydrokinetic torque coupling device as defined claim 1 , wherein the second vibration absorber is disposed within the casing. 4. The hydrokinetic torque coupling device as defined in claim 1 , wherein the first vibration absorber is the dynamic absorber and the second vibration absorber is the centrifugal pendulum oscillator. 5. The hydrokinetic torque coupling device as defined in claim 4 , wherein the dynamic absorber includes an inertial member and a connecting plate coupled to the inertial member, wherein the centrifugal pendulum oscillator includes a support member and at least one pair of first and second flyweights configured to oscillate with respect to the support member in a rotation plane orthogonal to the rotation axis, wherein the first and second flyweights are mounted on axially opposite sides of the support member and connected axially to one another, and wherein both the connecting plate of the first vibration absorber and the support member of the second vibration absorber are non-rotatably connected to the turbine hub. 6. The hydrokinetic torque coupling device as defined in claim 1 , wherein the first vibration absorber is the centrifugal pendulum oscillator and the second vibration absorber is the dynamic absorber. 7. The hydrokinetic torque coupling device as defined in claim 6 , wherein the dynamic absorber includes an inertial member and a connecting plate coupled to the inertial member, wherein the centrifugal pendulum oscillator includes a support member and at least one pair of first and second flyweights configured to oscillate with respect to the support member in a rotation plane orthogonal to the rotation axis, wherein the first and second flyweights are mounted on axially opposite sides of the support member and connected axially to one another, and wherein both the support member of the first vibration absorber and the connecting plate of the second vibration absorber are non-rotatably connected to the turbine hub. 8. The hydrokinetic torque coupling device as defined in claim 1 , wherein both the first and second vibration absorbers are dynamic absorbers. 9. The hydrokinetic torque coupling device as defined in claim 8 , wherein the dynamic absorber includes an inertial member and a connecting plate coupled to the inertial member, and wherein the connecting plates of both the first and second vibration absorbers are non-rotatably connected to the turbine hub. 10. The hydrokinetic torque coupling device as defined in claim 1 , wherein both the first and second vibration absorbers are centrifugal pendulum oscillators. 11. The hydrokinetic torque coupling device as defined in claim 10 , wherein the centrifugal pendulum oscillator includes a support member and at least one pair of first and second flyweights configured to oscillate with respect to the support member in a rotation plane orthogonal to the rotation axis, wherein the first and second flyweights are mounted on axially opposite sides of the support member and connected axially to one another, and wherein the support members of both the first and second vibration absorbers are non-rotatably connected to the turbine hub. 12. The hydrokinetic torque coupling device as defined in claim 1 , wherein a radially inner portion of the second vibration absorber is attached to an axial end portion of the turbine hub facing the casing. 13. An internal combustion engine in combination with a hydrokinetic torque coupling device, the engine comprising: a driving shaft rotatable about a rotation axis; the torque coupling device configured for drivingly coupling together the driving shaft and a driven shaft, the torque coupling device comprising: a hydrodynamic torque converter including a hollow casing non-rotatably coupled to the driving shaft, an impeller wheel coaxial with the rotation axis and including an impeller shell, and a turbine wheel coaxial with and drivable by the impeller wheel, a torsional vibration damper, a turbine hub non-rotatably connected to the turbine wheel, a locking piston slidably mounted to the turbine hub and forming an input part of the torsional vibration damper, and first and second vibration absorbers, each of the first and second vibration absorbers being one of a dynamic absorber and a centrifugal pendulum oscillator; the torsional vibration damper comprising: a first retainer plate rotatable about the rotation axis, a driven member rotatable relative to the first retainer plate coaxially with the rotation axis, and a plurality of damper elastic members interposed between the first retainer plate and the driven member, the damper elastic members elastically coupling the first retainer plate to the driven member; the hollow casing including a cover shell and the impeller shell non-movably secured to the cover shell; the turbine hub non-rotatably coupled to the driven member of the torsional vibration damper; the turbine wheel, the turbine hub, the torsional vibration damper and the first vibration absorber disposed within the casing; the first vibration absorber being mounted to the turbine hub, the second vibration absorber being mounted to the turbine hub and disposed axially between the cover shell and the locking piston; the first vibration absorber and the second vibration absorber tuned to damp different orders of vibration.