Integrated dynamic brake apparatus

What is claimed is: 1. An integrated dynamic brake apparatus comprising a hydraulic pressure generating unit configured to convert rotational power of a motor into linear reciprocating movement; a brake actuation unit including a master cylinder disposed separately at one side of a pump piston included in the hydraulic pressure generating unit; a valve block disposed over the motor and configured to control discharging of a fluid accommodated in the master cylinder; and an electronic control unit disposed at one side of the motor and configured to control the motor and the valve block, wherein the pump piston linearly reciprocates along a first axis perpendicular to an axis of rotation of the motor, wherein the hydraulic pressure generating unit comprises: a rack bar engaged with a pinion and configured to linearly move in a first axis direction based on rotation of the pinion, the pump piston being connected to one side of the rack bar, and wherein a protrusion is formed at one side of the rack bar, an insertion groove is formed in the pump piston at a position corresponding to the protrusion, and the protrusion is inserted into the insertion groove to couple the rack bar and the pump piston. 2. The integrated dynamic brake apparatus according to claim 1 , wherein the hydraulic pressure generating unit further comprises: a worm shaft disposed at the other side of the motor and coaxially connected to a rotor of the motor; and a worm wheel engaged with the worm shaft and configured to rotate about a second axis perpendicular to both of the axis of rotation of the motor and the first axis based on rotation of the worm shaft. 3. The integrated dynamic brake apparatus according to claim 2 , wherein the pinion has the same axis of rotation as that of the worm wheel. 4. The integrated dynamic brake apparatus according to claim 3 , wherein the hydraulic pressure generating unit further comprises a hydraulic pressure generating unit housing configured to accommodate the worm shaft, the worm wheel, the pinion and the rack bar, and the other side of the motor is disposed to come in contact with the hydraulic pressure generating unit housing. 5. The integrated dynamic brake apparatus according to claim 3 , wherein a portion of the rack bar opposite to a portion engaged with the pinion is supported by at least one bearing. 6. The integrated dynamic brake apparatus according to claim 5 , wherein the brake actuation unit comprises: a brake actuation unit housing including the master cylinder formed to extend in the first axis direction; an input rod assembly inserted and coupled into the brake actuation unit housing along a second axis perpendicular to both of the axis of rotation of the motor and the first axis; and a pedal simulator accommodated in a portion of the brake actuation unit housing opposite to the input rod assembly. 7. The integrated dynamic brake apparatus according to claim 6 , wherein one side and the other side of the valve block are disposed to come in contact with each of the electronic control unit and the brake actuation unit housing. 8. The integrated dynamic brake apparatus according to claim 6 , further comprising a reservoir in contact with an upper portion of the brake actuation unit housing. 9. The integrated dynamic brake apparatus according to claim 1 , wherein a spherical protrusion port is formed at an end of the protrusion, a connector formed to accommodate the spherical protrusion port is provided at an end of the insertion groove, and the protrusion port is caulked to the connector. 10. The integrated dynamic brake apparatus according to claim 1 , wherein a connector configured to apply 3-phase power to the motor and a magnetic body configured to detect a position of the motor are disposed at one side of the motor. 11. The integrated dynamic brake apparatus according to claim 10 , wherein the electronic control unit comprises: a valve coil configured to control opening/closing of the valve block; and a motor position sensor configured to detect a position of the motor by detecting a variation in magnetic flux of the magnetic body. 12. An integrated dynamic brake apparatus comprising a hydraulic pressure generating unit configured to convert rotational power of a motor into linear reciprocating movement; a brake actuation unit including a master cylinder disposed separately at one side of a pump piston included in the hydraulic pressure generating unit; a valve block disposed over the motor and configured to control discharging of a fluid accommodated in the master cylinder; and an electronic control unit disposed at one side of the motor and configured to control the motor and the valve block, wherein one side of the motor comes in contact with a lower portion of a first surface of the electronic control unit and the other side of the motor is connected to a worm shaft, the valve block is disposed over the motor and one side surface of the valve block comes in contact with an upper portion of the first surface of the electronic control unit, and an axis of rotation of the worm shaft is perpendicular to the first surface and the pump piston linearly reciprocates to be parallel to a vertical direction of the first surface, wherein the hydraulic pressure generating unit comprises: a rack bar engaged with a pinion and configured to linearly move in a first axis direction based on rotation of the pinion, the pump piston being connected to one side of the rack bar, and wherein a protrusion is formed at one side of the rack bar, an insertion groove is formed in the pump piston at a position corresponding to the protrusion, and the protrusion is inserted into the insertion groove to couple the rack bar and the pump piston. 13. The integrated dynamic brake apparatus according to claim 12 , wherein the hydraulic pressure generating unit further comprises: the worm shaft disposed at the other side of the motor and coaxially connected to a rotor of the motor; and a worm wheel engaged with the worm shaft, wherein the axis of rotation of the worm wheel is perpendicular to the axis of rotation of the motor and parallel to a horizontal direction of the first surface. 14. The integrated dynamic brake apparatus according to claim 13 , wherein the pinion has the same axis of rotation as that of the worm wheel.