Fluid pressure pump and fluid pressure system

What is claimed is: 1. A fluid pressure pump, comprising: a port plate in which a fluid passage is formed; a cylinder block including a cylinder chamber in which a piston is housed, wherein the cylinder chamber is in communication with the fluid passage in the port plate; and a pressing means configured to apply a pressing force to the cylinder block, the pressing force configured to press the cylinder block to the port plate, and a swash plate specifying movement of the piston in a rotational axis direction of the cylinder block, wherein the pressing means comprises: a changing means configured to change the pressing force, and a piston pressing means configured to press the piston to the swash plate and a cylinder block pressing means that presses the cylinder block to the port plate, wherein the cylinder block pressing means is disposed at a distance from the rotational axis, the distance being larger than a distance between the piston pressing means and the rotational axis, wherein the changing means is provided in the cylinder block pressing means, wherein the cylinder block pressing means is operated by a fluid pressure, and wherein the changing means is configured to decrease the pressing force that presses the cylinder block to the port plate as the fluid pressure supplied to the cylinder block pressing means increases. 2. The fluid pressure pump of claim 1 , wherein the changing means is configured to cause the cylinder block pressing means to stop pressing the cylinder block to the port plate when the fluid pressure supplied to the cylinder block pressing means is equal to or above a predetermined fluid pressure value. 3. The fluid pressure pump of claim 1 , wherein the changing means is configured to press the cylinder block to the port plate with a predetermined force when the fluid pressure supplied to the cylinder block pressing means is below a predetermined fluid pressure value, and the changing means is configured not to press the cylinder block to the port plate when the fluid pressure supplied to the cylinder block pressing means is equal to or above the predetermined fluid pressure value. 4. The fluid pressure pump of claim 1 , wherein the changing means includes a plurality of the cylinder block pressing means, and wherein the plurality of cylinder block pressing means are arranged at a regular interval about the rotational axis. 5. The fluid pressure pump of claim 4 , further comprising: a housing configured to house the plurality of cylinder block pressing means, wherein the changing means includes a communication passage through which a fluid pressure is supplied to the plurality of cylinder block pressing means, and wherein the communication passage is provided in the housing. 6. The fluid pressure pump of claim 1 , further comprising a rolling element bearing is attached to an outer periphery of the cylinder block, wherein the cylinder block pressing means is configured to press an outer ring of the rolling-element bearing, and wherein the outer ring is movable in the rotational axis direction by the cylinder block pressing means. 7. The fluid pressure pump of claim 1 , further comprising: a housing configured to house the cylinder block pressing means, wherein the housing includes a holder portion that has an internal space in which the cylinder block pressing means is disposed, and a fluid pressure supplying portion that is communicated with the internal space and configured to supply a fluid pressure to the internal space, wherein the cylinder block pressing means includes: a pressing rod configured to press the cylinder block to the port plate; and a pressing member configured to apply a pressing force to the pressing rod to press the pressing rod toward the cylinder block in the rotational axis direction, wherein the pressing rod includes a pressure receiving portion that receives the fluid pressure in the direction where the pressing rod moves away from the cylinder block against the force applied to the pressing rod by the pressing member in the rotational axis direction. 8. The fluid pressure pump of claim 1 , wherein the piston pressing means is disposed closer to the rotational axis relative to the position where the piston is disposed. 9. The fluid pressure pump of claim 1 , wherein the port plate is coaxial with the cylinder block, wherein the pressing means includes a pressing surface that is axially displaceable and is shaped to bias the cylinder block to the port plate in an axial direction, and wherein the changing means includes an opening through which a hydraulic fluid is supplied to dynamically change the pressing force of the pressing surface. 10. A fluid pressure system, comprising: the fluid pressure pump of claim 1 ; a motor driving the fluid pressure pump; a control device controlling the motor; and a fluid actuator driven by a fluid pressure generated by the fluid pressure pump. 11. A fluid pressure pump, comprising: a cylinder block including a central axis and a cylinder chamber in which a piston is housed; a port plate coaxially coupled to the cylinder block, the port plate including a fluid passage communicated with cylinder chamber; a first biasing member configured to bias the cylinder block to the port plate in a first axial direction; a biasing force adjuster configured to dynamically control biasing force of the first biasing member; and a second biasing member configured to bias the piston in a second axial direction opposite to the first axial direction, wherein the biasing force adjuster includes an introducing oil passage configured to supply a hydraulic fluid to displace the first biasing member in a second axial direction opposite to the first axial direction to dynamically control the biasing force of the first biasing member.