Rear suspension systems with rotary devices for laterally tiltable multitrack vehicles

What is claimed is: 1 . A suspension system for a laterally tiltable, multitrack vehicle, comprising: a balancer system extending between first and second trailing arms; and a rotary device acting between the trailing arms, wherein one of the balancer system and the rotary device is configured to provide a torque to influence a leaning angle of the vehicle and the other of the balancer system and the rotary device is configured to suppress resonant vertical motion of the vehicle. 2 . The suspension system of claim 1 , wherein the first and second trailing arms are parallel to one another. 3 . The suspension system of claim 1 , wherein, when the suspension system is in use, the first and second trailing arms are each configured to extend between a rear wheel of the vehicle and a frame rail of the vehicle. 4 . The suspension system of claim 1 , wherein the balancer system is configured to provide the torque and the rotary device is configured to suppress resonant vertical motion. 5 . The suspension system of claim 4 , wherein the balancer system comprises a balancer control arm, a hinged control arm connected to the balancer control arm, and an actuator attached to the hinged control arm. 6 . The suspension system of claim 4 , wherein the rotary device comprises a rotary spring/damper element. 7 . The suspension system of claim 1 , wherein the balancer system is configured to suppress resonant vertical motion and the rotary device is configured to provide the torque. 8 . The suspension system of claim 7 , wherein the balancer system comprises two vertical spring/damper elements connected to opposite ends of a balancer control arm. 9 . The suspension system of claim 8 , wherein the vertical spring/damper elements each include a shock absorber and a coil spring. 10 . The suspension system of claim 7 , wherein the rotary device comprises a rotary actuator. 11 . The suspension system of claim 10 , wherein the rotary actuator is axle mounted. 12 . The suspension system of claim 10 , wherein the rotary actuator is body mounted. 13 . The suspension system of claim 1 , wherein, when the suspension system is in use, the first and second trailing arms are configured to connect to respective first and second drive shafts of the vehicle. 14 . The suspension system of claim 1 , further including a gear positioned within a path of the rotary device. 15 . The suspension system of claim 14 , wherein the gear is a differential with a ratio of about −1. 16 . A rear suspension system for a laterally tiltable, multitrack vehicle, comprising: first and second trailing arms, each trailing arm extending between a rear wheel of the vehicle and a frame rail of the vehicle; a balancer system extending between the trailing arms, the balancer system being configured to create a torque to influence a leaning angle of a body of the vehicle; and a rotary device acting between the trailing arms, the rotary device being configured to suppress a resonant vertical motion of the body of the vehicle. 17 . The suspension system of claim 16 , wherein the balancer system comprises a balancer control arm, a hinged control arm connected to the balancer control arm, and an actuator attached to the hinged control arm. 18 . The suspension system of claim 16 , wherein the rotary device comprises a rotary spring/damper element. 19 . A rear suspension system for a laterally tiltable, multitrack vehicle, comprising: first and second trailing arms, each trailing arm extending between a rear wheel of the vehicle and a frame rail of the vehicle; a balancer system extending between the trailing arms, the balancer system being configured to suppress a resonant vertical motion of a body of the vehicle; and a rotary device acting between the trailing arms, the rotary device being configured to create a torque to influence a leaning angle of the body of the vehicle. 20 . The suspension system of claim 19 , wherein the balancer system comprises two vertical spring/damper elements connected to opposite ends of a balancer control arm. 21 . The suspension system of claim 19 , wherein the rotary device comprises a rotary actuator. 22 . A method of stabilizing a tiltable, multitrack vehicle, the method comprising: distributing a first load, during a roll motion of the vehicle, via a first mechanism positioned within a rear suspension of the vehicle to influence a leaning angle of the vehicle; and distributing a second load, during a jounce/rebound motion of the vehicle, via a second mechanism positioned within the rear suspension of the vehicle to suppress a resonant vertical motion of the vehicle, wherein the second mechanism provides a different load path than the first mechanism. 23 . The suspension system of claim 22 , wherein distributing the first load comprises distributing the first load via either a balancer system or a rotary device. 24 . The suspension system of claim 22 , wherein distributing the second load comprises distributing the second load via either a balancer system or a rotary device.