Electric parking brake

What is claimed is: 1. An electric parking brake, comprising: a pair of pressing portions provided in a caliper housing to convert rotational motion into linear motion to press a brake pad; an actuator configured to transmit power to the pair of pressing portions; and a load control portion provided rotatably between the pair of pressing portions and the actuator, the load control portion applying a uniform load to the pair of pressing portions by pressing any one of the pair of pressing portions that generates a less load during braking operation, wherein the caliper housing comprises a pair of coupling parts protruding from the rear of the caliper housing, and the load control portion is provided between the pair of coupling parts rotatably based on a pin coupled to a center of the load control portion, and opposite ends of the load control portion is provided to face the pair of pressing portions based on the center of the load control portion. 2. The electric parking brake of claim 1 , wherein a thrust bearing configured to support a load according to axial force is provided on a rear of the pair of pressing portions, respectively, and the load control portion and the thrust bearing are in curved surface contact with each other by means of a curved surface contacting means. 3. The electric parking brake of claim 2 , wherein the curved surface contacting means comprising: a curved surface contacting protrusion protruding from a center portion of an outer surface of the thrust bearing to form a curved surface, and a curved surface contacting groove formed to be in contact with the curved surface contacting protrusion on the load control portion facing the curved surface contacting protrusion. 4. The electric parking brake of claim 1 , wherein the pair of pressing portions comprises: a piston slidably inserted into a cylinder part of the caliper housing; and a power transmission including a spindle rotating by receiving driving force from the actuator within the cylinder part, and a nut connected to the spindle and provided on the inside of the piston to press the piston or release the pressure of the piston while moving forward or backward by forward and reverse rotation of the spindle. 5. The electric parking brake of claim 1 , wherein the actuator comprises: a motor; a power connecting portion connected to a rotation shaft of the motor; and a reduction device connected to the power connecting portion to transmit rotational force of the motor to the pair of pressing portions, respectively. 6. An electric parking brake, comprising: a pair of pressing portions provided in a caliper housing to convert rotational motion into linear motion to press a brake pad; an actuator configured to transmit power to the pair of pressing portions; and a load control portion provided rotatably between the pair of pressing portions and the actuator, the load control portion applying a uniform load to the pair of pressing portions by pressing any one of the pair of pressing portions that generates a less load during braking operation, wherein the pair of pressing portions comprises: a piston slidably inserted into a cylinder part of the caliper housing; and a power transmission including a spindle rotating by receiving driving force from the actuator within the cylinder part, and a nut connected to the spindle and provided on the inside of the piston to press the piston or release the pressure of the piston while moving forward or backward by forward and reverse rotation of the spindle, and wherein a through-hole is provided respectively at the opposite ends of the load control portion so that a part of the spindle passes through and is connected to the actuator. 7. An electric parking brake comprising: a pair of pressing portions provided in a caliper housing to convert rotational motion into linear motion to press a brake pad; an actuator configured to transmit power to the pair of pressing portions; and a load control portion provided rotatably between the pair of pressing portions and the actuator, the load control portion applying a uniform load to the pair of pressing portions by pressing any one of the pair of pressing portions that generates a less load during braking operation, wherein the actuator comprises: a motor; a power connecting portion connected to a rotation shaft of the motor; and a reduction device connected to the power connecting portion to transmit rotational force of the motor to the pair of pressing portions, respectively, and wherein the power connecting portion comprises: a power transmission shaft having a predetermined length and provided between the motor and the reduction device; a first helical gear coupled to the rotation shaft of the motor; a second helical gear provided on one end of the power transmission shaft and meshed with the first helical gear; a pair of worm shaft gears provided on the power transmission shaft and connected to the reduction device; and a bearing portion provided on the power transmission shaft to rotatably support the power transmission shaft. 8. The electric parking brake of claim 7 , wherein the reduction device comprises: a worm wheel gear meshed with the pair of worm shaft gears; a sun gear coupled to a center of the worm wheel gear and rotating together as the worm wheel gear rotates; a plurality of planetary gears meshed with an outer side of the sun gear; a ring gear provided as an internal gear to accommodate the plurality of planetary gears; and a carrier supporting rotatably the plurality of planetary gears and installed to rotate coaxially with the sun gear to output rotational power.