Lock with integrated cam

What is claimed is: 1. A padlock configured to be locked and unlocked by a key, the padlock comprising: a lock body having an internal cavity extending axially from a key-receiving end to a shackle-receiving end opposite the key-receiving end; a shackle received by the shackle-receiving end of the lock body, the shackle being selectively movable between an open position in which at least one end of the shackle is separated from the lock body and a closed position in which both ends of the shackle are received in the lock body; a locking mechanism received in the internal cavity and configured to be selectively moved by the key between a locked position in which the shackle is secured in the closed position and an unlocked position in which the shackle is movable between the open position and the closed position, the locking mechanism including: a lock cylinder positioned proximate the key-receiving end of the internal cavity, the lock cylinder being configured to interface with the key; and a cam positioned at an axial end of the lock cylinder opposite the key-receiving end of the lock cylinder, the cam being integrally connected thereto thereby restricting axial and rotational motion of the cam with respect to the lock cylinder; wherein the cam is rigidly secured to the lock cylinder to create a rigid connection between the cam and the lock cylinder, the rigid connection constraining the axial and rotational motion of the cam relative to the lock cylinder and wherein the rigid connection is maintained even without the cam and lock cylinder being received in an internal cavity of the lock body. 2. The padlock of claim 1 , wherein at least one of the cam or the lock cylinder receives a portion of the other one the cam or the lock cylinder. 3. The padlock of claim 2 , wherein at least one of the cam or the lock cylinder includes an arm extending axially therefrom, the arm being configured to engage the other one of the cam or the lock cylinder. 4. The padlock of claim 3 , wherein the arm includes a finger configured to engage a notch formed on the other one of the cam or the lock cylinder. 5. The padlock of claim 3 , wherein the arm includes an opening configured to receive a peg extending outwardly from the other one of the cam or the lock cylinder. 6. The padlock of claim 3 , wherein the at least one of the cam or the lock cylinder includes at least one additional arm extending axially therefrom to engage the other one of the cam or the lock cylinder. 7. The padlock of claim 6 , wherein the arm is a first arm and the at least one additional arm comprises a second arm positioned opposite the first arm so that the other one of the cam or the lock cylinder is received between the first arm and the second arm. 8. The padlock of claim 2 , wherein the cam is connected to the lock cylinder with a snap-fit mechanism. 9. The padlock of claim 1 , wherein the lock cylinder includes at least one tumbler biased toward the key-receiving end of the lock body by a tumbler spring and wherein the cam axially constrains the tumbler spring. 10. The padlock of claim 1 , wherein the cam is formed from a polymer comprising acetyl. 11. The padlock of claim 1 , wherein the lock cylinder is formed from cast zinc. 12. The locking mechanism of claim 1 , wherein the cam includes a pair of arms extending axially therefrom which each have a corresponding finger that engages a corresponding one of a pair of notches on the lock cylinder, wherein the pair of arms engaging the pair of notches creates the rigid connection between the cam and lock cylinder. 13. A locking mechanism configured for use in a lock configured to be locked and unlocked by a key, the locking mechanism comprising: a lock cylinder with a key-receiving end configured to interface with the key; and a cam positioned at an axial end of the lock cylinder opposite the key-receiving end thereof, the cam being integrally connected thereto thereby restricting axial and rotational motion of the cam with respect to the lock cylinder; wherein the cam is rigidly secured to the lock cylinder to create a rigid connection between the cam and the lock cylinder, the rigid connection constraining the axial and rotational motion of the cam relative to the lock cylinder and wherein the rigid connection is maintained even without the cam and lock cylinder being received in an internal cavity of the lock body. 14. The locking mechanism of claim 13 , wherein at least one of the cam or the lock cylinder receives a portion of the other one the cam or the lock cylinder. 15. The locking mechanism of claim 14 , wherein at least one of the cam or the lock cylinder includes an arm extending axially therefrom, the arm being configured to engage the other one of the cam or the lock cylinder. 16. The locking mechanism of claim 15 , wherein the arm includes a finger configured to engage a notch formed on the other one of the cam or the lock cylinder. 17. The locking mechanism of claim 15 , wherein the at least one of the cam or the lock cylinder includes at least one additional arm extending axially therefrom to engage the other one of the cam or the lock cylinder such that the other one of the cam or the lock cylinder is received between the arm and the at least one additional arm. 18. The locking mechanism of claim 14 , wherein the cam is connected to the lock cylinder with a snap-fit mechanism. 19. The locking mechanism of claim 13 , wherein the lock cylinder includes at least one tumbler biased toward the key-receiving end of the lock body by a tumbler spring and wherein the cam axially constrains the tumbler spring. 20. The locking mechanism of claim 13 , wherein the cam includes a pair of arms extending axially therefrom which each have a corresponding finger that engages a corresponding one of a pair of notches on the lock cylinder, wherein the pair of arms engaging the pair of notches creates the rigid connection between the cam and lock cylinder.