Fluid pressure control device

The invention claimed is: 1. A fluid pressure control device comprising: a cylinder that extends/retracts to drive a load by a working fluid supplied from a pump; a control valve that switches supply/discharge of the working fluid to/from the cylinder to control an extension/retraction operation of the cylinder; a pilot valve that pilot operates the control valve by a pilot pressure; a main passage that connects the control valve to a load-side pressure chamber of the cylinder on which a load pressure by the load acts when the control valve is in a blocked position; and a load-retaining mechanism that is interposed in the main passage and retains the load pressure of the load-side pressure chamber when the control valve is in the blocked position, wherein the load-retaining mechanism comprises: an operated check valve that permits a flow of the working fluid from the control valve to the load-side pressure chamber while also permitting a flow of the working fluid from the load-side pressure chamber to the control valve according to a pressure of a back pressure chamber to which pressure of the load-side pressure chamber is constantly led via a restriction passage; and a switching valve that operates in conjunction with the control valve by a pilot pressure supplied via the pilot valve to switch an operation of the operated check valve, wherein the switching valve comprises: a pilot chamber to which the pilot pressure is supplied via the pilot valve; a spool that moves according to the pilot pressure of the pilot chamber; and a piston that is accommodated in the pilot chamber and imparts a thrust force to the spool upon receiving the pilot pressure at its back surface, wherein the piston comprises: a first piston that is slidingly accommodated in the pilot chamber and is acted upon by the pilot pressure at its back surface, and a second piston whose distal end faces an end surface of the spool and is inserted coaxially with the first piston into an accommodating hole formed in the first piston, and wherein a spherical protrusion is provided on a center of either one of a bottom surface of the accommodating hole of the first piston and a back surface of the second piston. 2. The fluid pressure control device according to claim 1 , wherein a gap that enables the second piston to tilt within the accommodating hole is formed between an inner peripheral surface of the accommodating hole of the first piston and an outer peripheral surface of the second piston. 3. The fluid pressure control device according to claim 2 , wherein the gap between the inner peripheral surface of the accommodating hole of the first piston and the outer peripheral surface of the second piston is set equal to or greater than dimensions that enable the second piston to tilt within the accommodating hole and equal to or less than dimensions that enable the bottom surface of the accommodating hole of the first piston and the second piston to abut each other via the protrusion.