Shock absorber and suspension apparatus

The invention claimed is: 1. A shock absorber comprising: a telescopic tube member configured to include a vehicle body side tube and a vehicle wheel side tube; a cap member that closes an upper side opening of the vehicle body side tube; a cylinder erected in an axial center portion of the vehicle wheel side tube; a piston rod held by the cap member and configured to enter and exit the cylinder; a piston held by the piston rod and configured to move through the cylinder in an axial direction; a reservoir formed between the tube member and the cylinder; an expansion side chamber and a contraction side chamber that are formed in the cylinder, defined by the piston, and configured to be filled with a working fluid; a rod interior passage formed in the piston rod, and configured to extend in an axial direction of the piston rod and open onto either the expansion side chamber or the contraction side chamber; a cap interior passage formed in the cap member and configured to connect the rod interior passage to the reservoir; a plurality of valve bodies provided in series or in parallel midway in the cap interior passage; and a plurality of adjusters attached to the cap member and configured to be capable of adjusting a valve opening pressure or an opening amount of the plurality of valve bodies. 2. The shock absorber according to claim 1 , wherein one of the plurality of valve bodies is a direction control valve that allows the working fluid to flow from the cylinder side toward the reservoir side but prevents the working fluid from flowing in an opposite direction; another of the plurality of valve bodies is a flow control valve that restricts a flow of the working fluid passing through the cap interior passage; and the valve body serving as the direction control valve and the valve body serving as the flow control valve are disposed in series. 3. The shock absorber according to claim 2 , wherein the valve body serving as the direction control valve is formed in a spherical shape and pushed by a biasing spring against an annular valve seat provided midway in the cap interior passage; one of the plurality of adjusters modifies the valve opening pressure of the valve body serving as the direction control valve in order to adjust a damping force generated when a speed of the piston is in a low speed region; the valve body serving as the flow control valve is formed in a needle shape, a pointed end portion thereof being inserted into an annular valve seat provided midway in the cap interior passage; and another of the plurality of adjusters modifies the opening amount of the valve body serving as the flow control valve in order to adjust a damping force generated when the speed of the piston is in a medium/high speed region. 4. A suspension apparatus comprising the shock absorber according to claim 1 in a pair, wherein the rod interior passage of one of the shock absorbers opens onto the expansion side chamber so that an expansion side damping force can be adjusted by the adjuster; and the rod interior passage of the other shock absorber opens onto the contraction side chamber so that a contraction side damping force can be adjusted by the adjuster.