A shock absorber includes a first end and a second end that reciprocate relative to one another. The shock absorber includes a gas spring chamber, a damping chamber, and a floating piston. The first side of the floating piston is in fluid communication with the gas spring chamber. The second side of the floating piston is in fluid communication with the damping chamber. The gas in the gas spring chamber applies pressure against the floating piston, which applies pressure to the substantially incompressible fluid in the damping chamber. This pressure transfer may be adequate to minimize or prevent cavitation.

This invention relates to vehicle suspension systems and devices, and particularly to vehicle suspension systems and devices having an air spring with adjustable and/or tunable characteristics. The vehicle suspension may generally include features for modifying the spring rate of an air spring, such as, for example, to increase initial suppleness and to decrease spiking during later portions of travel. In an exemplary aspect, the fork may include features for decreasing the initial volume of the air chamber of the positive air spring during the initial part of travel and may further include features for expanding the air chamber of positive air spring during a later part of travel.

Adjustable suspension for a bicycle, comprising a suspension body provided with a main fluid inlet and a fluid outlet, a piston disposed in the suspension body and comprising a piston head delimiting a first chamber and a second chamber, the first chamber being in fluid communication with the main fluid inlet, the piston being movable in translation in the suspension body between at least one first position in which the fluid outlet fluidly communicates with the second chamber but not with the first chamber, so as to deploy the piston, and at least one second position in which the fluid outlet is in fluid communication with the first chamber.

Example adjustable suspension components for bicycles are described herein. An example bicycle suspension component includes a damper operable in a low damping state, a high damping state, and an intermediate damping state between the low damping state and the high damping state, a motion controller operable to change the damper between the low damping state, the intermediate damping state, and the high damping state, and a processor to, based on sensor data, activate the motion controller to change the damper between the intermediate damping state and one of the low damping state or the high damping state.

A trailing link multi-bar suspension assembly for a cycle having improved stability includes a first arm having a first side and a second side, a first arm fixed pivot and a first arm shock pivot, the first side and second side defining a wheel opening. A shock link has a shock link fixed pivot and a shock link floating pivot. A shock absorber has an inline configuration, a gas spring, a first shock mount, and a second shock mount, and the shock absorber is substantially located on the first side or second side of the wheel opening. A spring unit, has a gas spring comprising a spring body, a first spring mount and a second spring mount, and the spring unit is substantially located on the first side or second side of the wheel opening A wheel carrier has a wheel carrier first pivot and a wheel carrier second pivot spaced apart from one another, and a wheel mount that is adapted to be connected to a wheel. A control link has a control link floating pivot and a control link fixed pivot, the control link floating pivot being pivotably connected to the wheel carrier second pivot, and the control link fixed pivot being pivotably connected to the first arm control pivot.

A trailing link, multi-link suspension assembly for a cycle having improved stability includes a steering fork having a steering axis, a first arm, and a second arm. A shock absorber has an inline configuration, a gas spring, a first shock mount, and a second shock mount. A spring unit has a gas spring comprising a spring body, a first spring mount and a second spring mount A mechanical trail distance increases as the suspension assembly compresses relative to a fully extended state.

A user accessible shock travel spacer assembly is disclosed herein. The system is used on a shock assembly having a shaft with an initial predefined stroke length. A retaining cap having a retaining cap thickness and a retaining cap opening therethrough. The retaining cap opening having a diameter that is larger than an outer diameter (OD) of a shaft of a shock assembly. At least one fastener to fasten the retaining cap with a portion of the shock assembly about the shaft, such that the retaining cap reduces a stroke length of the shaft of the shock assembly by the retaining cap thickness.

A front fork of a bicycle may include a suspension system that includes a damper. The damper may include a hollow tube with orifices that may be partially blocked by an adjustable blocker. A free end of the adjuster that adjusts the blocker may maintain its axial position in any rotational position. Ambient air may be introduced through a valve and retained in the suspension system. The suspension may include a mechanical spring in a chamber away from the valve that introduces the ambient air.

The invention relates to a bicycle frame (1) with a remote-controlled shock absorber (2) connected to the frame (1). The shock absorber (2) comprises two dials (3, 4) for adjusting the compression and rebound. The frame (1) is characterised in that it comprises a depression (9; 25) communicated with the outside of the frame (1) and provided with a window (12; 28) that communicates the depression (9; 25) with an inner part (8b; 18b) of the frame (1). An actuator element (7) for adjusting the compression dial (3) extends from the outside of the frame (1) towards the window (12; 28) passing through the inner part (8b; 18b) of the frame (1). The invention improves the integration of the rear suspension of the bicycle while simultaneously allows for easy adjustment of the compression dial (3) and the rebound dial (4).

A suspension assembly for a cycle having improved stability includes a steering fork having a first arm and a second arm, each of the first arm and the second arm having a fixed pivot and a shock pivot, the space between the first arm and the second arm defining a wheel opening. A shock link has a shock link fixed pivot and a shock link floating pivot. A shock absorber has a shock gas spring comprising a shock spring body a shock gas piston having a first gas piston area, a spring unit having a spring gas spring comprising a spring body and a spring gas piston having a second gas piston area. A gas pressure inside the shock gas spring is equal to a predetermined pressure for a user's body weight to produce optimal ride conditions for the user's body weight.