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 of a cam formed thereto respectively, of which the camshaft is inserted thereto first and second inner brackets transmitting rotation of the camshaft to the first and second cam portions respectively; first and second slider housings of which the first and second inner brackets are rotatably inserted thereto; a cam cap rotatably supporting the first and second cam portions respectively and of which each of the first and second slider housings is slidably mounted thereto; a control shaft disposed parallel to the camshaft and engaged with the first and second slider housings for selectively moving the first and second slider housings; and a control portion configured for selectively rotating the control shaft for changing positions of the first and second inner brackets. 2. The continuous variable valve duration apparatus of claim 1 , wherein a cam key is formed to the first and second cam portions respectively; and a first sliding hole is formed to the first and second inner brackets respectively; and a cam key pin of which a cam key slot where the cam key is slidably inserted therein is formed thereto wherein the cam key pin is rotatably inserted into each first sliding hole. 3. The continuous variable valve duration apparatus of claim 2 , wherein a second sliding hole is formed to the first and second inner brackets respectively, and a plurality of camshaft pins is connected to the camshaft; and a slider pin of which a camshaft pin slot where each camshaft pin is slidably inserted therein is formed thereto and the slider pin is rotatably inserted into each second sliding hole. 4. The continuous variable valve duration apparatus of claim 1 , wherein a shaft hole where the control shaft is inserted into is formed to the cam cap. 5. The continuous variable valve duration apparatus of claim 4 , further comprising a shaft bearing inserted into the shaft hole and rotatably supporting the control shaft. 6. The continuous variable valve duration apparatus of claim 1 , wherein a guide slot is formed to the cam cap; a guide shaft inserted into the guide slot and of which a rack gear is formed thereto is protruded from the first and second slider housings; and a pinion gear is formed to the control shaft and engaged with the rack gear; and wherein positions of the first and second slider housings are changed according to rotation of the control shaft. 7. The continuous variable valve duration apparatus of claim 6 , further comprising a bushing inserted into the guide slot for reducing frictional force of movement of the guide shaft. 8. The continuous variable valve duration apparatus of claim 6 , further comprising a stopper disposed to the cam cap for limiting movement of the slider housing. 9. The continuous variable valve duration apparatus of claim 1 , further comprising a slider housing bearing disposed between the first and second slider housings and the first and second inner brackets respectively. 10. The continuous variable valve duration apparatus of claim 1 , wherein the cam is formed as a pair of two cams; a cam cap connecting portion is formed between the two cams of the first and second cam portions; and the cam cap rotatably supports the cam cap connecting portion. 11. The continuous variable valve duration apparatus of claim 1 , wherein the control portion comprises: a worm wheel connected to the control shaft; a worm gear engaged with the worm wheel; and a control motor selectively rotating the worm gear. 12. The continuous variable valve duration apparatus of claim 1 , further comprising a partition disposed within the first and second slider housings respectively for preventing from interrupting of rotations of the first and second inner brackets. 13. An engine comprising: a camshaft; two first and second cam portions of a cam formed thereto respectively, of which the camshaft is inserted thereto and a cam key is formed thereto respectively; a plurality of camshaft pins connected to the camshaft; first and second inner brackets transmitting rotation of the camshaft pins to each cam key respectively; first and second slider housings of which the first and second inner brackets are rotatably inserted thereto; cam caps rotatably supporting the first and second cam portions together with a cylinder head and of which the first and second slider housings are slidably mounted thereto respectively; a control shaft disposed parallel to the camshaft and engaged with the first and second slider housings for selectively moving the first and second slider housings; and a control portion configured for selectively rotating the control shaft for changing positions of the first and second inner brackets. 14. The engine of claim 13 , wherein the control portion comprises: a worm wheel connected to the control shaft; a worm gear engaged with the worm wheel; and a control motor selectively rotating the worm gear. 15. The engine of claim 13 , wherein first and second sliding holes are formed to the first and second inner brackets respectively, and a cam key pin of which a cam key slot where the cam key is slidably inserted therein is formed thereto and the cam key pin is rotatably inserted into each first sliding hole; and a slider pin of which a camshaft pin slot where each camshaft pin is slidably inserted therein is formed thereto and the slider pin is rotatably inserted into each second sliding hole. 16. The engine of claim 13 , further comprising a slider housing bearing disposed between the first and second slider housings and the first and second inner brackets respectively. 17. The engine of claim 13 , wherein the cam is formed as a pair of two cams; and a cam cap connecting portion is formed between the two cams of the first and second cam portions, wherein a cam cap connecting portion is rotatably disposed between the cam cap and a cylinder housing. 18. The engine of claim 13 , wherein a guide slot is formed to the cam cap; and a shaft hole where the control shaft is inserted into is formed to the cam cap, and wherein the engine further comprises a shaft bearing inserted into the shaft hole and rotatably supporting the control shaft. 19. The engine of claim 13 , wherein a guide slot is formed to the cam cap; a guide shaft inserted into the guide slot and of which a rack gear is formed thereto is protruded from the slider housing; and a pinion gear is formed to the control shaft and engaged with the rack gear, and wherein positions of the first and second slider housings are changed according to a rotation of the control shaft. 20. The engine of claim 13 , wherein a guide surface is formed to the first and second slider housings; and a guider is formed to the cylinder head for contacting the guide surface and guiding movements of the first and second slider housings.