Power tool

What we claim is: 1. A power tool, which performs a prescribed operation on a workpiece by linearly moving a tool accessory, comprising: a body, which body houses: a tool holder for holding the tool accessory, a driving motor, a rotary shaft member that is rotationally driven by the driving motor, and a striking mechanism that linearly drives the tool accessory along with rotation of the rotary shaft member, wherein the striking mechanism includes: a cylinder that is configured to be allowed to linearly reciprocate, a striking element that is housed within the cylinder and configured to be allowed to linearly reciprocate within the cylinder, an air chamber that is defined by the striking element and the cylinder, a swinging mechanism that is connected to the cylinder and reciprocates the cylinder by swinging along with rotation of the rotary shaft member, and an intermediate element that is housed within the tool holder and configured to be allowed to linearly reciprocate, and the power tool is configured to cause the striking element to collide with the intermediate element via pressure fluctuations caused in the air chamber by reciprocating movement of the cylinder and to further cause the intermediate element to collide with the tool accessory, thereby linearly moving the tool accessory, wherein: the power tool defines a longitudinal direction parallel to a cylinder moving axis and a transverse direction crossing the longitudinal direction, the longitudinal direction defines a first side to which the cylinder compresses air of the air chamber, and a second side opposite to the first side, the body further houses a volume compensation mechanism for compensating the volume of the air chamber, the volume compensation mechanism includes a first compensation mechanism and a second compensation mechanism, the first compensation mechanism is configured to allow the swinging mechanism to reciprocate between a swinging mechanism reference position located on the first side and a swinging mechanism moving position located on the second side, and has a first biasing member that biases the swinging member so as to place the swinging mechanism in the swinging mechanism reference position when the swinging mechanism is placed in the swinging mechanism moving position, the second compensation mechanism is configured to allow the intermediate element to reciprocate between an intermediate element reference position located on the first side and an intermediate element moving position located on the second side, and has a second biasing member that biases the intermediate element so as to place the intermediate element in the intermediate element reference position when the intermediate element is placed in the intermediate element moving position, the volume compensation mechanism is further configured such that: the first compensation mechanism moves the swinging mechanism from the swinging mechanism reference position to the swinging mechanism moving position by a reaction force generated by movement of the cylinder from the second side to the first side, and moves the cylinder to the second side along with the movement of the swinging mechanism, thereby increasing the volume of the air chamber, in the state that the volume of the air chamber is increased by the first compensation mechanism, the second compensation mechanism moves the intermediate element from the intermediate element reference position to the intermediate element moving position by a reaction force generated by the predetermined operation of the tool accessory, and moves the striking element to the second side along with movement of the intermediate element, thereby compensating the volume of the air chamber, and wherein a distance between the swinging mechanism reference position and the swinging mechanism moving position in the longitudinal direction is equal to a distance between the intermediate element reference position and the intermediate element moving position in the longitudinal direction. 2. The power tool as defined in claim 1 , wherein: the rotary shaft member extends in the longitudinal direction, the body has a first bearing member that supports a prescribed region of the rotary shaft member on the first side, a second bearing member that supports a prescribed region of the rotary shaft member on the second side, and a first biasing member arrangement region in which one end of the first biasing member is arranged, and a prescribed region of the second bearing member and a prescribed region of the first biasing member are arranged on the same line in the transverse direction. 3. The power tool as defined in claim 1 , wherein: the driving motor has an output shaft having an output gear, the rotary shaft member has a driven gear member having gear teeth for engagement with the output gear, and a prescribed region of the gear teeth and a prescribed region of the first biasing member are arranged on the same line in the transverse direction. 4. The power tool as defined in claim 1 , wherein: the driven gear member has a longitudinally extending part that extends in the longitudinal direction and is press-fitted onto the rotary shaft member, the first biasing member has a support member that extends in the transverse direction and an elastic element that is arranged between the support member and the first biasing member arrangement region and biases the support member from the second side to the first side, the support member has a swinging mechanism side region that abuts on the swinging mechanism, an elastic element side region that abuts on the elastic element, and a support member hole that extends through the longitudinally extending part, and the support member is configured to be allowed to slide in a reciprocating manner with respect to the longitudinally extending part, and a prescribed region of the longitudinally extending part and a prescribed region of the elastic element are arranged on the same line in the transverse direction. 5. The power tool as defined in claim 1 , wherein the elastic element comprises a plurality of coil springs, and the coil springs are arranged to be equally spaced apart from the support member hole on opposite sides of the support member hole in the transverse direction. 6. The power tool as defined in claim 1 , wherein: the driving motor has an output shaft having an output gear, and a first rotation axis that is defined by rotation of the output shaft, the rotary shaft member has a driven gear member that is engaged with the output gear, and a second rotation axis that is defined by rotation of the rotary shaft member, the driven gear member comprises a bevel gear and has a transversely extending part extending in the transverse direction, the driving motor and the rotary shaft member are arranged such that the first rotation axis and the second rotation axis cross each other, and the first biasing member comprises an elastic element arranged between the transversely extending part and the swinging mechanism. 7. The power tool as defined in claim 6 , wherein: the elastic element comprises a conical spring having a large-diameter part and a small-diameter part, and the large-diameter part is arranged toward the transversely extending part and the small-diameter part is arranged toward the swinging mechanism. 8. The power tool as defined in claim 7 , wherein: the intermediate element has a first region including a first end on the first side, a second region including a second end on the second side, and an intermediate region formed between the first region and the second region, the second compensation mechanism has a covering member that covers the first region, the intermediate region and at lea