A hydraulic suspension damper includes a tube having an opened end and a closed end defining a compartment. A main piston is disposed in the compartment dividing the compartment into a compression chamber and a rebound chamber. A piston rod is attached to the main piston. A rod guide is disposed at said opened end. A stroke stop arrangement includes an insert and an additional piston attached to the piston rod. The insert has a narrowed section including an inner surface defining at least one recess between the distal end and the rod guide and extends axially along the insert in fluid communication with the compression chamber for allowing working liquid flow from the rebound chamber to the compression chamber during the rebound stroke. The at least one recess includes three recesses disposed equidistantly and spaced from one another.

The present exemplary embodiments relate to a variable damping force shock absorber in which variable valves each capable of varying a damping force during compression and rebound strokes are installed inside a cylinder, and thus, a volume of an apparatus is reduced to easily secure an installation space and prevent interference with peripheral components.

A system/assembly for a suspension fork for a bicycle is disclosed. The fork may comprise a compression system and an adjustment mechanism configured for adjustment of compression damping and adjustment of travel. Adjustment of travel reduces compression stroke distance within the full length of travel. The adjustment mechanism may be configured for at least two settings for compression damping and at least two settings for adjustment of travel. Settings for compression damping may comprise a setting with adjustment of compression damping but no adjustment of travel and a setting with adjustment of compression damping and adjustment of travel. Settings for adjustment of travel may comprise a travel-adjust setting where the stroke distance is reduced and a setting where the stroke distance may be the full length of travel. The adjustment mechanism may provide for performance adjustment at an adjuster. The fork may comprise a rebound system with an adjuster.

A hydraulic suspension damper includes a tube having an opened end and a closed end defining a compartment. A main piston is disposed in the compartment dividing the compartment into a compression chamber and a rebound chamber. A piston rod is attached to the main piston. A rod guide is disposed at said opened end. A stroke stop arrangement includes an insert and an additional piston attached to the piston rod. The insert has a narrowed section including an inner surface defining at least one recess between the distal end and the rod guide and extends axially along the insert in fluid communication with the compression chamber for allowing working liquid flow from the rebound chamber to the compression chamber during the rebound stroke. The at least one recess includes three recesses disposed equidistantly and spaced from one another.

A multi-section shock-linked vehicle suspension system is disclosed that transfers force from one point to another point in a system of interrelated shock absorbers. Force can be transmitted from one shock absorber to another using hydraulics or a gas such as air or nitrogen in a space-efficient form factor, without the use of levers and mechanical force transfer rods. The hydraulic or gas force can be tuned using valves to provide different suspension characteristics. The multi-section shock-linked system provides the ability to share wheel loads across the vehicle by using shock absorbers that are shared in addition to the individual shock absorber associated with each wheel.

A system/assembly for a suspension fork for a bicycle is disclosed. A suspension system for use in a vehicle is also disclosed. A front suspension fork for a bicycle such as a mountain bike configured to contain a hydraulic fluid for fluid flow and in a flow path providing for compression damping and for rebound damping is also disclosed. A damper assembly configured to contain a hydraulic fluid for fluid flow in a flow path is also disclosed. The assembly/system generally comprises a set of inventive concepts/inventions (combination of inventive features) including (but not specifically limited to): (1) an externally-accessible adjustment mechanism; and (2) internal floating piston. The compression assembly/system of the suspension fork comprises a combination of improved functional assemblies including (but not limited to) an adjustment mechanism (e.g. with a travel-adjust setting) operating through flow control elements; the compression assembly can be adjusted to a travel adjust setting (with a reduced stroke length) and either of a neutral setting or descend setting with progressively less resistance in the fluid flow circuit. The rebound assembly/system of the suspension fork comprises a combination of improved functional assemblies including (but not limited to) an adjustment mechanism; the rebound assembly can be adjusted in a range between a quick setting and a slow setting (corresponding to relative system response speed in rebound to restore stroke length) operating through flow control elements.

A hydraulic suspension damper includes a tube having an opened end and a closed end defining a compartment. A main piston is disposed in the compartment dividing the compartment into a compression chamber and a rebound chamber. A piston rod is attached to the main piston. A rod guide is disposed at said opened end. A stroke stop arrangement includes an insert and an additional piston attached to the piston rod. The insert has a narrowed section including an inner surface defining at least one recess between the distal end and the rod guide and extends axially along the insert in fluid communication with the compression chamber for allowing working liquid flow from the rebound chamber to the compression chamber during the rebound stroke. The at least one recess includes three recesses disposed equidistantly and spaced from one another.

Single adjustable air suspension shocks with built-in damper device and coil assist, apparatus, system and method for motor vehicles, such as automobiles, vans, trucks, off the road vehicles, and the like. Air suspension systems, devices, apparatus, and methods for allowing motor vehicle drivers to increase and decrease compressed air supplies in air suspension devices. Deflating interior air springs/airbags (bladders) inside the devices allows for springs and pistons on shock absorbers in the devices to expand outward separating lower front and rear frame portions which effectively lowers the motor vehicle to the ground surface and for the driver to have a firmer ride. Inflating the air springs/airbags (bladders) allows for the springs and the pistons on the shock absorbers in the devices to retract into the devices so that the devices have a more shock absorbing effect giving the driver and passenger(s) a smoother ride, which also raises the motor vehicles above the ground surface.

A hydraulic suspension damper includes a tube having an opened end and a closed end defining a compartment. A main piston is disposed in the compartment dividing the compartment into a compression chamber and a rebound chamber. A piston rod is attached to the main piston. A rod guide is disposed at said opened end. A stroke stop arrangement includes an insert and an additional piston attached to the piston rod. The insert has a narrowed section including an inner surface defining at least one recess between the distal end and the rod guide and extends axially along the insert in fluid communication with the compression chamber for allowing working liquid flow from the rebound chamber to the compression chamber during the rebound stroke. The at least one recess includes three recesses disposed equidistantly and spaced from one another.

Disclosed herein is a hydraulic jounce bouncer comprising a damper body, a shaft telescopically engaged with the damper body, a piston slidably disposed within the damper body and threadedly coupled to a first end of the shaft, wherein the piston has at least one compression port therethrough, and a negative spring disposed between the shaft and the damper body.