Brake apparatus for vehicle

What is claimed is: 1. A brake apparatus for a vehicle, comprising: a caliper part coupled to a vehicle body and having a cylinder; a piston part configured to move within the cylinder to make or break a contact with a pad plate part; a shaft part configured to reciprocate in mutually opposed directions parallel to a longitudinal direction of the cylinder when provided with a driving force from a driving part; a pressing part connected to the shaft part and configured to press the piston part toward the pad plate part when the shaft part moves in one of the mutually opposed directions in which the shaft part reciprocates; and an angle adjusting part positioned between the shaft part and the pressing part and configured to adjust a rotational axis angle of the shaft part with respect to the pressing part. 2. The brake apparatus of claim 1 , wherein: the cylinder is configured to rotate in a first direction when provided with a reaction force generated by the contact made between the piston part and the pad plate part, and the shaft part is configured to rotate on the angle adjusting part in the first direction along with the cylinder. 3. The brake apparatus of claim 2 , wherein the pressing part is coupled to an inner surface of the piston part. 4. The brake apparatus of claim 2 , wherein the pressing part has a front surface configured to contact an inner rear surface of the piston part. 5. The brake apparatus of claim 4 , wherein the front surface of the pressing part is flat. 6. The brake apparatus of claim 2 , wherein the angle adjusting part comprises: an insertion part extending from the pressing part and having an insertion space; and a ball joint part extending from the shaft part and configured to rotate within the insertion part in connection with a change to the rotational axis angle of the shaft part. 7. The brake apparatus of claim 6 , wherein the angle adjusting part further comprises a load switching part concavely recessed into the pressing part from the insertion part and configured to make a rolling contact with a front surface of the ball joint part. 8. The brake apparatus of claim 7 , wherein the load switching part comprises first and second inclined surfaces structured such that a distance between the first and second inclined surfaces decreases toward the pressing part from the insertion part. 9. The brake apparatus of claim 8 , wherein an angle between the first inclined surface and a center axis of the cylinder is smaller than that between the second inclined surface and the center axis of the cylinder. 10. The brake apparatus of claim 6 , wherein the angle adjusting part further comprises a separation prevention part extending from the insertion part and positioned to face a rear surface of the ball joint part. 11. The brake apparatus of claim 10 , wherein the separation prevention part comprises a plurality of separation prevention parts arranged in a circumferential direction of the insertion part with a predetermined interval therebetween. 12. The brake apparatus of claim 6 , further comprising a stopper part extending from the shaft part and configured to interfere with a movement of the insertion part to constrain an axial rotation of the shaft part. 13. The brake apparatus of claim 12 , wherein: the insertion part has a cut-out portion, and the stopper part protrudes in a radial direction of the shaft part from an outer circumferential surface of the shaft part to the cut-out portion of the insertion part. 14. The brake apparatus of claim 13 , wherein the stopper part is in contact with an inner surface of the insertion part surrounding the cut-out portion. 15. The brake apparatus of claim 14 , wherein the stopper part is configured to move in a longitudinal direction of the cut-out portion when the shaft part rotates in the first direction.