Piston assembly and fluid pressure device

The invention claimed is: 1. A piston assembly, comprising: a piston body displaceable in an axial direction inside a sliding hole; and a piston rod protruding from the piston body in the axial direction, wherein: the piston body includes a piston-side engaging portion; the piston rod includes a rod-side engaging portion engaging with the piston-side engaging portion; one of the piston-side engaging portion and the rod-side engaging portion is inserted into the other from a side to engage with each other to regulate relative axial displacement between the piston body and the piston rod; the piston body includes a disk-shaped wall portion and the piston-side engaging portion which protrudes in the axial direction of the piston body from the disk-shaped wall portion; the piston-side engaging portion includes an engaging groove which has a U shape, a C shape, or a semicircular arc shape and an inner protrusion which protrudes inward and is disposed adjacent to the engaging groove, the engaging groove being formed between the disk-shaped wall portion and the inner protrusion; the rod-side engaging portion includes an engaging protrusion having an annular shape and an annular groove which is disposed adjacent to the engaging protrusion and extends in a circumferential direction of the piston rod; the inner protrusion of the piston-side engaging portion is fitted in the annular groove of the rod-side engaging portion; and the engaging protrusion of the rod-side engaging portion is fitted in the engaging groove of the piston-side engaging portion, wherein: a damper mechanism configured to relieve impact occurring when the piston body reaches at least one of stroke ends; the damper mechanism is supported by the piston body so as not to transmit impact load to the piston body when the piston body reaches the stroke end; the damper mechanism includes a circumference-side damper disposed around an outer circumferential part of the piston rod; the piston rod is provided with a stopper receiving groove extending in a circumferential direction in the outer circumferential part; a stopper member divided into a plurality of elements in the circumferential direction is fitted in the stopper receiving groove; and the circumference-side damper covers the stopper member, and thus the stopper member supports the circumference-side damper and is prevented from coining off the stopper receiving groove. 2. The piston assembly according to claim 1 , wherein the piston-side engaging portion and the rod-side engaging portion engage with each other to be rotatable relative to each other about an axis of the piston body. 3. The piston assembly according to claim 1 , wherein: the damper mechanism includes an end-side damper disposed at an end surface of the piston rod; and the end-side damper is held between the piston body and the piston rod and protrudes from a through-hole disposed in a central part of the piston body. 4. The piston assembly according to claim 3 , wherein the end-side damper seals a gap between the piston body and the piston rod. 5. The piston assembly according to claim 3 , wherein the end-side damper elastically pushes the end surface of the piston rod. 6. The piston assembly according to claim 1 , wherein the piston body is composed of resin. 7. The piston assembly according to claim 1 , wherein the piston body is provided with a thin portion having a depth in an axial direction of the piston body and surrounding the piston-side engaging portion. 8. The piston assembly according to claim 1 , further comprising: a circumference-side damper having a ring shape and disposed around an outer circumferential part of the piston rod to relieve impact occurring when the piston body reaches a stroke end; and a spacer having a ring shape and interposed between the piston body and the circumference-side damper; wherein the piston body, the spacer, and the circumference-side damper are stacked in the axial direction. 9. A fluid pressure device, comprising: a body having a sliding hole inside the body; and a piston assembly disposed to be able to reciprocate along the sliding hole, wherein: the piston assembly includes a piston body displaceable in an axial direction inside the sliding hole and a piston rod protruding from the piston body in the axial direction; the piston body includes a piston-side engaging portion; the piston rod includes a rod-side engaging portion engaging with the piston-side engaging portion; one of the piston-side engaging portion and the rod-side engaging portion is inserted into the other from a side to engage with each other to regulate relative axial displacement between the piston body and the piston rod: the piston body includes a disk-shaped wall portion and the piston-side engaging portion which protrudes in the axial direction of the piston body from the disk-shaped wall portion; the piston-side engaging portion includes an engaging groove which has a U shape, a C shape, or a semicircular arc shape and an inner protrusion which protrudes inward and is disposed adjacent to the engaging groove, the engaging groove being formed between the disk-shaped wall portion and the inner protrusion; the rod-side engaging portion includes an engaging protrusion having an annular shape and an annular groove which is disposed adjacent to the engaging protrusion and extends in a circumferential direction of the piston rod; the inner protrusion of the piston-side engaging portion is fitted in the annular groove of the rod-side engaging portion; and the engaging protrusion of the rod-side engaging portion is fitted in the engaging groove of the piston-side engaging portion, wherein: a damper mechanism configured to relieve impact occurring when the piston body reaches at least one of stroke ends; the damper mechanism is supported by the piston body so as not to transmit impact load to the piston body when the piston body reaches the stroke end; the damper mechanism includes a circumference-side damper disposed around an outer circumferential part of the piston rod; the piston rod is provided with a stopper receiving groove extending in a circumferential direction in the outer circumferential part; a stopper member divided into a plurality of elements in the circumferential direction is fitted in the stopper receiving groove; and the circumference-side damper covers the stopper member, and thus the stopper member supports the circumference-side damper and is prevented from coming off the stopper receiving groove. 10. The fluid pressure device according to claim 9 , wherein the fluid pressure device is configured as a fluid pressure cylinder, a valve device, a measuring cylinder, a sliding table, or a chuck device.