Stroke simulator and bush for stroke simulator

The invention claimed is: 1. A stroke simulator comprising: a hollow cylinder, a simulator piston which is configured to be displaced in the cylinder by a hydraulic pressure generated by a hydraulic-pressure generator according to a manipulation of a brake manipulator by a driver, and a reaction-force generator for generating a reaction force corresponding to displacement of the simulator piston; and for applying the reaction force to the simulator piston, as a brake reaction force to be applied to the brake manipulator; wherein: the reaction-force generator comprises a spring sheet member having a flange which is contacted by a shoulder portion of the simulator piston, the spring sheet member further having a top wall portion spaced away from the flange in an axial direction of the cylinder, the top wall portion disposed beyond a forwardmost end of the simulator piston in the axial direction, and a bush which has a cylindrical shape and is configured to be elastically deformed in the axial direction by being pressed by the top wall portion of the spring sheet member in response to displacement of the simulator piston; two recesses or protrusions are formed on each of a first end portion and a second end portion of the bush, where the recesses are recessed and the protrusions protrude in the axial direction, the first end portion is at one end of the bush, and the second end portion is at another end of the bush; the recesses or protrusions on the first end portion are formed in positions of the bush which are different in the axial direction from positions of the recesses or protrusions on the second end portion; and wherein the two recesses or protrusions on the first end portion are formed along a first straight line perpendicular to the axial direction, and the two recesses or protrusions on the second end portion are formed along a second straight line perpendicular to the axial direction and to the first straight line. 2. The stroke simulator according to claim 1 , wherein a hollow having a columnar shape is formed in the bush to penetrate through the bush in the axial direction, and the recesses or protrusions are formed equally spaced out around the hollow on each of the first end portion and the second end portion. 3. The stroke simulator according to claim 1 , wherein a rod member which extends from the simulator piston toward the bush and guides elastic deformation of the bush in the axial direction is arranged through a rod insertion bore formed in the bush, and a portion, inserted from the simulator piston into the bush, of an outer circumference of the rod member which is in contact with an inner circumference of the rod insertion bore is even in the axial direction. 4. The stroke simulator according to claim 2 , wherein the recesses or protrusions on each of the first end portion and the second end portion are formed in the number of two, the two recesses or protrusions on the first end portion are formed along a first straight line perpendicular to the axial direction, and the two recesses or protrusions on the second end portion are formed along a second straight line perpendicular to the axial direction and the first straight line. 5. The stroke simulator according to claim 2 , wherein a rod member which extends from the simulator piston toward the bush and guides elastic deformation of the bush in the axial direction is arranged through a rod insertion bore formed in the bush, and a portion, inserted from the simulator piston into the bush, of an outer circumference of the rod member which is in contact with an inner circumference of the rod insertion bore is even in the axial direction. 6. The stroke simulator according to claim 1 , wherein a rod member which extends from the simulator piston toward the bush and guides elastic deformation of the bush in the axial direction is arranged through a rod insertion bore formed in the bush, and a portion, inserted from the simulator piston into the bush, of an outer circumference of the rod member which is in contact with an inner circumference of the rod insertion bore is even in the axial direction. 7. A bush for a stroke simulator, provided in a stroke simulator for generating, as a brake reaction force to be applied to a brake manipulator, a reaction force applied to a simulator piston which is displaced in a cylinder with a hydraulic pressure generated by a hydraulic-pressure generator according to a manipulation of the brake manipulator by a driver, the bush being arranged in a reaction-force generator which applies to the simulator piston a reaction force corresponding to displacement of the simulator piston; the stroke simulator comprising a hollow cylinder, said simulator piston and said reaction-force generator disposed inside of said hollow cylinder; wherein: the reaction-force generator comprises a spring sheet member having a flange which is contacted by a shoulder portion of the simulator piston, the spring sheet member further having a top wall portion spaced away from the flange in an axial direction of the cylinder, the top wall portion disposed beyond a forwardmost end of the simulator piston in the axial direction; the bush has a cylindrical shape and is configured to be elastically deformed in an axial direction by being pressed by the top wall portion of the spring sheet member in response to displacement of the simulator piston; and the bush has two recesses or protrusions formed on each of a first end portion and a second end portion thereof, the recesses are recessed and the protrusions protrude in the axial direction, the first end portion is at one end of the bush, the second end portion is at another end of the bush, and the recesses or protrusions on the first end portion are formed in positions of the bush which are different in the axial direction from positions of the recesses or protrusions on the second end portion, wherein the two recesses or protrusions on the first end portion are formed along a first straight line perpendicular to the axial direction, and the two recesses or protrusions on the second end portion are formed along a second straight line perpendicular to the axial direction and to the first straight line. 8. The bush for a stroke simulator according to claim 7 , wherein a hollow having a columnar shape is formed in the bush to penetrate through the bush in the axial direction, and the recesses or protrusions are formed equally spaced out around the hollow on each of the first end portion and the second end portion. 9. The bush for a stroke simulator according to claim 8 , wherein the recesses or protrusions on each of the first end portion and the second end portion are formed in the number of two, the two recesses or protrusions on the first end portion are formed along a first straight line perpendicular to the axial direction, and the two recesses or protrusions on the second end portion are formed along a second straight line perpendicular to the axial direction and the first straight line. 10. A stroke simulator including: a main body portion having a first cylindrical bore and a second cylindrical bore formed therein, the second cylindrical bore having a larger diameter than the first cylindrical bore; a simulator piston which is configured to be displaced in the first cylindrical bore with a hydraulic pressure generated by a hydraulic-pressure generator according to a manipulation of a brake manipulator by a driver, the simulator piston having a front end wall with a protrusion formed thereon, a cup-shaped first spring-sheet member which is externally fitted on the protrusion of the simulator piston, and a reaction-force generator which generates a reaction force corresponding to displacement of