Cylinder device

The invention claimed is: 1. A cylinder device comprising: a housing; a pressurizing piston that is liquid-tightly and slidably fitted to the housing; an input piston that is disposed coaxially with the pressurizing piston and linked with a brake operation member that is operable by a driver; a front pressurizing chamber that is provided in front of the pressurizing piston and connected to a brake cylinder; a back chamber that is provided behind the pressurizing piston and connected to an output hydraulic control device that can control an output hydraulic pressure through electric control; and a reaction force chamber which is provided between the input piston and the housing located in front of the input piston, and to which an operation reaction force receiving face that receives a force corresponding to an operation force applied to the brake operation member of the input piston is opposed, wherein one of the pressurizing piston and the input piston includes a recess that opens toward the other, the housing includes a generally tubular sleeve that is at least partially located inside the recess, the sleeve has a cylinder portion having openings on both sides thereof in an axial direction, and a flange portion that is larger in diameter than the cylinder portion, the flange portion is located behind the pressurizing piston and in front of the input piston, a space in front of the flange portion serves as the back chamber, the other of the pressurizing piston and the input piston includes an axial rod portion that is slidably fitted to the sleeve in at least one of a liquid-tight state and an air-tight state inside the recess, and a space between the axial rod portion and a bottom of the recess serves as a volume chamber whose volume can change in accordance with relative movements between the input piston and the pressurizing piston and which is connected to a low-pressure source or an atmosphere. 2. The cylinder device according to claim 1 , wherein the volume chamber constantly communicates with the low-pressure source or the atmosphere. 3. The cylinder device according to claim 1 , wherein the recess is provided in a rear portion of the pressurizing piston and is open rearward, a front portion of the input piston is provided with a small-diameter portion as the axial rod portion, an intermediate portion of the input piston is provided with a large-diameter portion that is larger in diameter than the small-diameter portion, and a front end face of a step portion between the small-diameter portion and the large-diameter portion of the input piston serves as the operation reaction force receiving face. 4. The cylinder device according to claim 3 , wherein a tube portion forming the recess of the pressurizing piston is slidably fitted to the outside of the sleeve in at least one of a liquid-tight state and an air-tight state, and is liquid-tightly and slidably fitted to the housing, the region in the recess of the pressurizing piston that is located behind the rear end face of the tube portion serves as the back chamber. 5. The cylinder device according to claim 1 , wherein the recess is provided in a front portion of the input piston and is open forward, the axial rod portion is provided in a rear portion of the pressurizing piston, and a front end face of a tube portion that forms the recess of the input piston serves as the operation reaction force receiving face. 6. The cylinder device according to claim 5 , wherein an intermediate portion of the pressurizing piston is provided with a large-diameter portion that is larger in diameter than a small-diameter portion as the axial rod portion, the large-diameter portion is liquid-tightly and slidably fitted to the housing, and a space behind a rear end face of a step portion between the large-diameter portion and the small-diameter portion of the pressurizing piston serves as the back chamber. 7. The cylinder device according to claim 1 , wherein the reaction force chamber serves as a liquid chamber in which hydraulic fluid is accommodated, and constitutes part of a stroke simulator, and the operation reaction force receiving face receives a hydraulic pressure in the reaction force chamber. 8. The cylinder device according to claim 1 , further comprising a spring that is provided in the reaction force chamber between the operation reaction force receiving face and the housing to generate an elastic force in accordance with movements of the input piston relative to the housing. 9. The cylinder device according to claim 1 , wherein a distance between the axial rod portion and the bottom of the recess is shorter than a distance between the operation reaction force receiving face and the housing. 10. The cylinder device according to claim 1 , wherein the flange portion is located in front of the operation reaction force receiving face of the input piston, and a space behind the flange portion serves as the reaction force chamber. 11. A cylinder device comprising: a housing; a pressurizing piston that is liquid-tightly and slidably fitted to the housing; an input piston that is disposed coaxially with the pressurizing piston and linked with a brake operation member that is operable by a driver; a front pressurizing chamber that is provided in front of the pressurizing piston and connected to a brake cylinder; a back chamber that is provided behind the pressurizing piston and connected to an output hydraulic control device that can control an output hydraulic pressure through electric control; and a reaction force chamber which is provided between the input piston and the housing located in front of the input piston, and to which an operation reaction force receiving face that receives a force corresponding to an operation force applied to the brake operation member of the input piston is opposed, wherein the input piston includes a recess that opens toward the pressurizing piston, the housing includes a generally tubular sleeve that is at least partially located inside the recess, both the input piston and the pressurizing piston are movable relative to the sleeve, the pressurizing piston includes an axial rod portion that is slidably fitted to the sleeve in at least one of a liquid-tight state and an air-tight state inside the recess, a space between the axial rod portion and a bottom of the recess serves as a volume chamber whose volume can change in accordance with relative movements between the input piston and the pressurizing piston and which is connected to a low-pressure source or an atmosphere, the recess is provided in a front portion of the input piston and is open forward, the axial rod portion is provided in a rear portion of the pressurizing piston, and a front end face of a tube portion that forms the recess of the input piston serves as the operation reaction force receiving face. 12. The cylinder device according to claim 11 , wherein an intermediate portion of the pressurizing piston is provided with a large-diameter portion that is larger in diameter than a small-diameter portion as the axial rod portion, the large-diameter portion is liquid-tightly and slidably fitted to the housing, and a space behind a rear end face of a step portion between the large-diameter portion and the small-diameter portion of the pressurizing piston serves as the back chamber. 13. A cylinder device comprising: a housing; a pressurizing piston that is liquid-tightly and slidably fitted to the housing; an input piston that is disposed coaxially with the pressurizing piston and linked with a brake operation member that is operable by a