A pneumatic brake booster includes a drive piston actuating a master cylinder by a push rod while being returned to rest position by a return spring. The brake booster has a vibration damper having a part made of an elastic material working compressively, of overall parallelepipedic shape, with a length greater than the spacing of two coils of the spring prior to its installation in the brake booster and whose front and back faces are equipped with a longitudinal slit penetrating the material mass of the damper for engagement by way of those slits on the two coils of the return spring.

A pneumatic brake booster includes a drive piston actuating a master cylinder by a push rod while being returned to rest position by a return spring. The brake booster has a vibration damper having a part made of an elastic material working compressively, of overall parallelepipedic shape, with a length greater than the spacing of two coils of the spring prior to its installation in the brake booster and whose front and back faces are equipped with a longitudinal slit penetrating the material mass of the damper for engagement by way of those slits on the two coils of the return spring.

A shock absorber assembly comprises two springs 11, 12 arranged in series so as, in use, to extend between a pair of spaced apart spring seats. A coupling member 13 is arranged between the adjacent ends 11b, 12a of the springs 11, 12. The coupling member 13 is adjustable and is formed by a shaft having a pair of flanges 14, 15 provided on the outer surface thereof. The shaft extends axially beyond each flange 14, 15 so as to extend inside the windings of the abutting spring ends 11b, 12a to locate the spring ends 11b, 12a on the coupler 13. Each flange 14, 15 engages an associated adjacent ends 11b, 12a of one of the springs 11, 12. At least one of said flanges 14, 15 is moveable longitudinally along the shaft so as to vary the longitudinal separation between the two flanges 14, 15 and thereby vary the preload on the springs 11, 12.

A shock absorber assembly comprises two springs 11, 12 arranged in series so as, in use, to extend between a pair of spaced apart spring seats. A coupling member 13 is arranged between the adjacent ends 11b, 12a of the springs 11, 12. The coupling member 13 is adjustable and is formed by a shaft having a pair of flanges 14, 15 provided on the outer surface thereof. The shaft extends axially beyond each flange 14, 15 so as to extend inside the windings of the abutting spring ends 11b, 12a to locate the spring ends 11b, 12a on the coupler 13. Each flange 14, 15 engages an associated adjacent ends 11b, 12a of one of the springs 11, 12. At least one of said flanges 14, 15 is moveable longitudinally along the shaft so as to vary the longitudinal separation between the two flanges 14, 15 and thereby vary the preload on the springs 11, 12.

A method of assembling a damper device includes overlapping a first support portion of a first rotor and a first accommodation portion of a second rotor to eliminate an axial offset therebetween; disposing a first elastic member in the first support portion and the first accommodation portion; overlapping a second support portion of the first rotor and a second accommodation portion of the second rotor to eliminate an axial offset therebetween by simultaneously compressing the first elastic member and rotating the second rotor relative to the first rotor to a first-side in a rotational direction; disposing a second elastic member in the second support portion and the second accommodation portion; and simultaneously compressing the second elastic member and rotating the second rotor relative to the first rotor to a second-side in the rotational direction by angle corresponding to the offset between the first support portion and the first accommodation portion.

The invention provides a support with first and second end portions. The second end portion is on the side opposite to the first end portion in a longitudinal direction of the support. A coil spring is arranged between the first and second end portions. The coil spring comprises a first spiral member that extends between the first and second end portions in a circumferential direction of the support, and a second spiral member that extends between the first and second end portions in a circumferential direction of the support. The first and second spiral members extend in the longitudinal direction around a longitudinal axis of the support, wherein the first spiral member of the coil spring and the second spiral member of the coil spring are moveable relative to each other, and wherein the support further comprises a damper device that is attached to the first spiral member.

The invention relates to the technical field of mechanical compression, and particularly provides a pressing and retaining device for a spring. The invention aims to solve the problems of inconvenient operation and poor compression accuracy in the existing technical solutions for spring pressing and retaining To this end, a pressing and retaining device for a spring of the invention comprises a spring compression assembly and a spring retaining assembly. The spring compression assembly is configured to be capable of compressing the spring into a set state. The spring retaining assembly is configured to be capable of fixing the spring and maintaining a compressed state of the spring when the spring is compressed into the set state, and to be capable of still fixing the spring and maintaining the compressed state of the spring when the spring retaining assembly and the spring are disengaged as a whole from the spring compression assembly. Therefore, the invention makes it possible to remove the spring retaining assembly and the spring, which is compressed into the set state, as a whole from the spring compression assembly, and to use the whole for the assembly of a rear axle assembly of a vehicle. The pressing and retaining of the spring are easy to operate, and the safety during operation is also improved.

A spring apparatus (10), including: a spring (12); an elongated object (18A) disposed within and along the spring (12); and a mode-changing assembly (16), for providing a first mode in which a portion (38) of the spring (12) being along the elongated object (18A) is not springy, and a second mode in which an entire of the spring (12) is springy.

A spring apparatus (10), including: a spring (12); an elongated object (18A) disposed within and along the spring (12); and a mode-changing assembly (16), for providing a first mode in which a portion (38) of the spring (12) being along the elongated object (18A) is not springy, and a second mode in which an entire of the spring (12) is springy.

A device, kit, and method for the treatment of anatomical joint dysfunctions, and more particularly, to a spring hinge comprising: a primary coil spring having a helical structure with a central cavity, wherein the primary coil spring forms a plurality of spirals layered against one another when the primary coil spring is in an unexpanded state; wherein the primary coil spring comprises surfaces that are configured to nest against each other to resist translational or shearing movement between adjoining spiral layers.