Electric parking brake device

What is claimed is: 1. An electronic parking brake device comprising: a gear unit including a driving gear and a driven gear; an actuator configured to drive the gear unit; a rotating rod configured to be rotated by the gear unit; a push rod unit configured to pressurize one or more shoes while moved in connection with the rotating rod; a clutch unit coaxially connected to the driven gear of the gear unit, and configured to apply a rotational load to the gear unit while abutting the gear unit in response to the gear unit being rotated at a preset angle; and a controller configured to control an operation of the actuator according to a load applied to the actuator. 2. The electronic parking brake device of claim 1 , wherein the actuator is configured to rotate the driving gear, and wherein the driven gear is engaged with the driving gear and rotated while a speed of the driving gear is reduced. 3. The electronic parking brake device of claim 2 , wherein the driven gear comprises: a rod coupling part to which the rotating rod is fitted; a guide groove formed on an inner circumferential surface of the rod coupling part, and extended in a direction of a rotation axis; and a clutch connection part abutting the clutch unit. 4. The electronic parking brake device of claim 3 , wherein the rotating rod comprises: a gear assembly part installed through the rod coupling part; and a screw extension part formed coaxially with the gear assembly part, and comprises a screw coupled to the push rod unit. 5. The electronic parking brake device of claim 4 , wherein the gear assembly part comprises: a central shaft having a diameter corresponding to the rod coupling part; and a guide protrusion formed on an outer surface of the gear assembly part, and slid along the guide groove in an axial direction of the driven gear. 6. The electronic parking brake device of claim 5 , wherein the screw extension part comprises: a first extension formed at one end of the central shaft, and having the screw formed on an outer surface of the first extension, the screw being coupled to the push rod unit; and a second extension formed at the other end of the central shaft, and having a contact stabilizer formed at an end of the second extension. 7. The electronic parking brake device of claim 4 , wherein the rotating rod further comprises a push extension part connected to the gear assembly part on an opposite side of the screw extension part, and configured to transfer a sliding displacement of the gear assembly part to the push rod unit. 8. The electronic parking brake device of claim 7 , wherein the push rod unit comprises: a moving push rod abutting one shoe of a pair of the one or more shoes, screwed to the screw extension part, and moved along the screw extension part while interlocking with rotation of the screw extension part; and an interlocking push rod abutting another shoe of the pair of the one or more shoes, connected to the push extension part, and pushed and moved by the push extension part in response to the moving push rod being moved. 9. The electronic parking brake device of claim 3 , wherein the clutch unit comprises: a clutch base part disposed coaxially with the driven gear; a gear locking part formed in a protrusion shape on the clutch base part, and disposed at the preset angle with the clutch connection part; and a rotational load element configured to pressurize the clutch base part such that a load is applied to the driven gear while the clutch connection part is locked to the gear locking part. 10. The electronic parking brake device of claim 9 , wherein the rotational load element comprises: a first contact part disposed on one side of the clutch base part, and abutting the clutch base part; a second contact part facing the first contact part, with the clutch base part provided therebetween; and an elastic pressurizing member disposed between the clutch base part and the second contact part, and elastically pressurizing the clutch base part. 11. The electronic parking brake device of claim 2 , wherein the controller is configured to: drive the actuator in a forward direction in response to the electronic parking brake device being operated; and stop the operation of the actuator in response to a preset magnitude of current being applied to the actuator to apply pressure to a shoe of the one or more shoes to pressurize a drum. 12. The electronic parking brake device of claim 11 , wherein the controller is configured to: release the electronic parking brake device; recognize an increase in a current applied to the actuator in response to the load of the clutch unit transferred to the actuator in response to the driven gear rotated by the preset angle in a reverse direction in response to the electronic parking brake device being released; and drive the actuator to stop the actuator from rotating in the reverse direction in response to recognizing the increase in the current applied to the actuator. 13. An hybrid electronic parking brake device comprising: a main hydraulic braking unit comprising: a piston housing; and a piston disposed in the piston housing, the piston configured to adjust pressure applied to one or more shoes; a parking braking unit comprising: a push rod configured to adjust pressure applied to one or more shoes; a rotating rod configured to move the push rod to adjust pressure applied to the one or more shoes; and a gear unit configured to rotate the rotating rod to move the rotating rod, the gear unit comprising a driving gear and a driven gear; a housing enclosing the main hydraulic braking unit and the parking braking unit and a clutch unit coaxially connected to the driven gear of the gear unit, the rotating rod, and the push rod, the clutch unit being configured to apply a rotational load to the gear unit in response to the gear unit being rotated at a preset angle. 14. The hybrid electronic parking brake device of claim 13 , further comprising: an actuator configured to drive the gear unit by rotating the driving gear; and a controller configured to control an operation of the actuator to adjust a load applied to the actuator. 15. The hybrid electronic parking brake device of claim 14 , wherein the driven gear comprises a clutch connection part protruding toward the clutch unit, and wherein the clutch unit comprises: a clutch base disposed coaxially with the driven gear; a gear locking part protruding from the clutch base, the gear locking part disposed at a preset rotational angle with respect to the clutch connection part. 16. The hybrid electronic parking brake device of claim 15 , wherein the controller is configured to operate the hybrid electronic parking brake device by: driving the actuator in a forward direction; and stopping the operation of the actuator in response to a preset magnitude of current being applied to the actuator to apply pressure to a shoe of the one or more shoes to pressurize a drum. 17. The hybrid electronic parking brake device of claim 15 , wherein the controller is configured to release the hybrid electronic parking brake device by: driving the actuator in a reverse direction; recognizing an increase in a current applied to the actuator in response to the load of the clutch unit transferred to the actuator in response to the driven gear rotated by the preset angle in a reverse direction in response to the hybrid electronic parking brake device being released; and drive the actuator to stop the actuator from rotating in the reverse direction in res