Continuous variable valve duration apparatus and engine provided with the same

What is claimed is: 1. A continuous variable valve duration apparatus comprising: a camshaft; first and second cam portions on which a cam is formed respectively, the camshaft inserted to the first and second cam portions such that relative phase angles with respect to the camshaft are variable; first and second inner brackets configured to transmit rotation of the camshaft to the first and second cam portions respectively; a cam lifter in which the first and second inner brackets are rotatably inserted, a cam lifter guide formed on the cam lifter of which a relative position with respect to the camshaft is variable, the cam lifter guide being slanted; a cam cap configured to rotatably support the first and the second cam portions, the cam lifter slidably mounted to the cam cap; a control portion including a screw shaft parallel to the camshaft; and an adapter engaged with the screw shaft, on which an adapter guide slidably engaged with the cam lifter guide and moving a relative position of the cam lifter according to rotation of the screw shaft. 2. The continuous variable valve duration apparatus of claim 1 , wherein the control portion comprises: a control motor; and a planetary gear set connected to the screw shaft and configured to transmit rotation of the control motor to the screw shaft. 3. The continuous variable valve duration apparatus of claim 2 , wherein the control portion further comprises: a worm wheel connected to the planetary gear set; and a worm gear engaged with the worm wheel. 4. The continuous variable valve duration apparatus of claim 3 , wherein the control portion further comprises: a control portion housing; and a housing cover connected to the control portion housing, wherein the planetary gear set, the worm wheel and the worm gear are disposed within the control portion housing. 5. The continuous variable valve duration apparatus of claim 4 , wherein the control portion further comprises: a position sensor disposed within the control portion housing and configured to detect rotation of the control shaft. 6. The continuous variable valve duration apparatus of claim 1 , wherein a cam cap guide for guiding movement of the cam lifter is formed to the cam cap. 7. The continuous variable valve duration apparatus of claim 1 , wherein a cam cap bearing configured to rotatably support the screw shaft is formed in the cam cap. 8. The continuous variable valve duration apparatus of claim 1 , further comprising a thrust screw cap formed on a cylinder head and configured to limit a movement of the screw shaft in a length direction thereof. 9. The continuous variable valve duration apparatus of claim 1 , wherein a cam key is formed on the first and second cam portions, respectively; first and a second sliding holes are formed in the first and second inner brackets, respectively; a cam key pin, on which a cam key slot where the cam key is slidably inserted therein is formed, is rotatably inserted into the each first sliding hole; a camshaft pin is connected to the camshaft; and a slider pin, on which a camshaft pin slot where the camshaft pin is slidably inserted therein is formed, is rotatably inserted into the each second sliding hole. 10. The continuous variable valve duration apparatus of claim 1 , further comprising a cam lift bearing disposed between the first and second inner brackets and the cam lifter, respectively. 11. The continuous variable valve duration apparatus of claim 1 , further comprising a partition disposed between the first and second inner brackets. 12. The continuous variable valve duration apparatus of claim 1 , wherein the cam is formed on the first and the second cam portions as a pair; a cam cap connecting portion is formed between the paired cams of each of the first and second cam portions; and a cam support configured rotatably support the cam connecting portion is formed on the cam cap. 13. The continuous variable valve duration apparatus of claim 1 , wherein a cam key is formed on the first and second cam portions, respectively; first and a second sliding holes are formed in the first and second inner brackets, respectively; a cam key pin, on which a cam key slot where the cam key is slidably inserted therein is formed, is rotatably inserted into the each first sliding hole; and a slider pin includes a pin body and a pin head integrally formed with the pin body, and wherein the pin body is slidably inserted into the camshaft, and the pin head is rotatably inserted into the second sliding hole. 14. The continuous variable valve duration apparatus of claim 13 , wherein a camshaft oil hole is formed in the camshaft along a length direction thereof; a body oil hole communicated with the camshaft oil hole is formed in the pin body; and an oil groove communicated with the body oil hole is formed in the pin head. 15. An engine comprising: a camshaft; first and second cam portions on which a cam is formed respectively, the camshaft inserted to the first and second cam portions of which relative phase angles with respect to the camshaft are variable; first and second inner brackets configured to transmit rotation of the camshaft to the first and second cam portions respectively; a cam lifter in which the first and second inner brackets are rotatably inserted, a cam lifter guide formed on the cam lifter of which a relative position with respect to the camshaft is variable, the cam lifter guide being slanted; a cam cap configured to rotatably support the first and the second cam portions, the cam lifter slidably mounted to the cam cap; a control portion including a screw shaft parallel to the camshaft; and an adapter engaged with the screw shaft, on which an adapter guide slidably engaged with the cam lifter guide and moving a relative position of the cam lifter according to rotation of the screw shaft. 16. The engine of claim 15 , wherein the control portion comprises: a control motor; a planetary gear set connected to the screw shaft and configured to transmit rotation of the control motor to the screw shaft; a worm wheel connected to the planetary gear set; and a worm gear engaged with the worm wheel. 17. The engine of claim 16 , wherein the control portion further comprises: a control portion housing; and a housing cover connected to the control portion housing, wherein the planetary gear set, the worm wheel and the worm gear are disposed within the control portion housing. 18. The engine of claim 17 , wherein the control portion further comprises: a position sensor disposed within the control portion housing and configured to detect rotation of the control shaft. 19. The engine of claim 15 , wherein a cam key is formed on the first and second cam portions, respectively; first and a second sliding holes are formed in the first and second inner brackets, respectively; a cam key pin, on which a cam key slot where the cam key is slidably inserted therein is formed, is rotatably inserted into the each first sliding hole; a camshaft pin is connected to the camshaft; and a slider pin, on which a camshaft pin slot where the camshaft pin is slidably inserted therein is formed, is rotatably inserted into the each second sliding hole. 20. The engine of claim 15 , wherein a cam key is formed on the first and second cam portions, respectively; first and a second sliding holes are formed in the first and second inner brackets, respectively; a cam key pin, on which a cam key slot where the cam key is