| CPC F16F 9/348 (2013.01) [F16F 9/062 (2013.01)] | 5 Claims |
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1. A shock absorber comprising:
a cylinder in which a working fluid is sealed;
a piston provided to be slidable in the cylinder and partitioning an inside of the cylinder into two chambers including a chamber on an upstream side and a chamber on a downstream side;
a piston rod connected to the piston and extending to an outside of the cylinder;
a first passage and a second passage through which the working fluid flows out from the chamber on an upstream side to the chamber on a downstream side in the cylinder due to movement of the piston;
a first damping force generation mechanism provided in the first passage formed in the piston to generate a damping force; and
a second damping force generation mechanism disposed on the chamber on the upstream side or the chamber on downstream side with the piston rod inserted therethrough and provided in the second passage in parallel with the first passage to generate a damping force, wherein
the second damping force generation mechanism includes:
an annular first valve seat formed on a cylindrical part of a bottomed cylindrical case member having the cylindrical part and a bottom part;
an annular disc valve which includes:
an outer annular part in which a separable part on an outer circumferential side is separably disposed on the first valve seat of the case member;
an inner annular part through which the piston rod in inserted, and
two support parts which connect between the outer annular part and the inner annular part; and
a second valve seat provided on a side of the disc valve opposite to the first valve seat, and configured to separably support the disc valve at a position between the separable part and the support parts in a radial direction of the disc valve,
the second passage includes:
a piston rod passage part formed by cutting out or penetrating the piston rod; and
a chamber passage part which allows communication from the piston rod passage part to a case inner chamber between the bottom part of the case member and the disc valve,
the second damping force generation mechanism opens while the first damping force generation mechanism is in a closed state in a region in which a piston speed is low, and
both the first damping force generation mechanism and the second damping force generation mechanism open in a region in which the piston speed is higher than in the region in which the piston speed is low, and
the support parts are configured so that:
two outer connecting parts disposed on a same one side with respect to a center in a radial direction of the disc valve at a distance in a circumferential direction of the disc valve are connected to the outer annular part;
two inner connecting parts disposed on a same opposite side with respect to the center in the radial direction of the disc valve at a distance in the circumferential direction of the disc valve are connected to the inner annular part;
two connecting arm parts are provided to connect the outer connecting parts and the inner connecting parts which are close to each other in the circumferential direction of the disc valve; and
a distance between the two inner connecting parts is larger than a distance between the two outer connecting parts.
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