A bicycle can include a frame. The frame can include a front steering axle, a front fork assembly, and a handlebar assembly for steering a front wheel of the bicycle. The bicycle can also include one or more vibration isolators. The one or more vibration isolators can be operatively connected to at least one of the frame, the front steering axle, the front fork assembly, and the handlebar assembly. The one or more vibration isolators can also be configured to exhibit a non-linear stiffness profile including a region of quasi-zero stiffness. As a result, the one or more vibration isolators isolate a rider of the bicycle from vibrations transferred through the frame.

A suspension apparatus includes a first tube and a second tube that are telescopic and that are disposed on a vehicle body side and on a wheel side, respectively; a cylinder that is provided in the first tube; a rod that is provided in the second tube; a piston that is provided on the rod, slidingly contacts with an inner circumferential surface of the cylinder, and forms a first gas chamber on a side of the first tube; a coil spring configured to urge the first tube and the second tube in an extension direction; and a spring receiving member that is disposed at a position on a second tube side from a movable region of the piston, the coil spring being disposed between the spring receiving member and the second tube.

A tiltable vehicle (100) is described comprising a vehicle frame (102, 108), one front wheel (124), two rear wheels (112A, 112B) and two swing arms. The swing arms are pivotably coupled to a pivot point (121) on the vehicle frame at a first end, and to one of the rear wheels at an opposing end. A swing arm (41) is rotatable around a rotational axis (42) lying in a plane of symmetry of the vehicle frame (102, 108). Each of two linkages (63, 64) is coupled at a first end to one of the swing arms at the pivot point. The vehicle comprises two connection arms (53, 56) arranged between the linkages (63, 64) and one outer end of the rocker arm (40). The connection arms comprise resilient members (61, 62) comprising a number of Belleville springs arranged in at least two groups of rings so as to create a non-linear spring characteristic.

A vehicle body includes a vehicle frame and an engine assembly, and further includes an intermediate supporting frame connected between the vehicle frame and the engine assembly. A first cushioning device is provided between the intermediate supporting frame and the vehicle frame. In the application of the vehicle body, since the first cushioning device is provided, the first cushioning device can effectively reduce vibration transmitted from the intermediate supporting frame when the vibration is transmitted to the intermediate supporting frame during the vibration of the engine assembly, and the vibration received by the vehicle frame may be much less than the vibration transmitted from the intermediate supporting frame, thus the vehicle frame can be effectively prevented vibrating heavily. Therefore, the heavy vibration of the vehicle body can be effectively reduced by means of the vehicle body.

One embodiment of a compact front wheel drive cycle in which the front steerable fork is connected to the frame via a spring. And in addition, the rear fork is attached to the frame via a freely rotating caster pivot. Other embodiments are described and shown.

A hidden-type shock absorbing bicycle frame has a front vehicle frame, a transmission assembly, a rear vehicle frame, and a damper. The front vehicle frame has a seat tube having two assembly plates. The assembly plate has an upper pivot hole and a lower pivot hole. An assembly space is formed between the assembly plates. The transmission assembly is pivotally connected to the upper pivot holes and has two front arms located in the assembly space and two rear arms located at two sides of the seat tube and extending backwardly. The rear vehicle frame is pivotally connected with the rear arms and is pivotally connected with the seat tube. The damper hidden inside the assembly space has a top end pivotally connected with the front arms and a bottom end pivotally connected to the lower pivot holes.

A bicycle includes a frame, a front fork, a fixed stop member fixed in relation to the frame, a bearing member that supports the front fork relative to the frame for rotation about a steering axis, and a compression ring. The compression ring includes a body portion between the bearing member and the front fork and a stop portion rotationally aligned with the fixed stop member to inhibit over-rotation of the front fork relative to the frame. The stop portion comprises a second material harder than the first material of the body portion. The stop portion can include a contact surface that contacts the fixed stop member when the front fork is sufficiently rotated, and the contact surface can comprise the second material. The second material can comprise one or more of aluminum, titanium, ceramic, and steel. The body portion can be formed as an overmold on the stop portion.