Dual lock ring wheel assembly

The invention claimed is: 1. A wheel assembly comprising: a wheel base; a side rim disposed about a circumference of the wheel base and including an inside surface and a recess formed on the inside surface; an air seal disposed between the wheel base and the inside surface of the side rim, wherein the air seal engages the inside surface of the side rim; and a locking mechanism that secures the side rim onto the wheel base, the locking mechanism preventing the side rim from sliding axially off the wheel base, wherein the locking mechanism is configured to prevent the air seal from disengaging the inside surface and allowing air to exit the wheel assembly between the wheel base and the side rim when the locking mechanism is properly installed, and wherein the locking mechanism is configured to permit the side rim to move axially such that the recess formed on the inside surface of the side rim radially aligns with the air seal to allow air to exit the wheel assembly between the wheel base and the side rim when the locking mechanism is not properly installed, wherein the locking mechanism comprises a first lock ring and a second lock ring disposed inside a cavity between the wheel base and the side rim, wherein the air seal contacts the inside surface of the side rim while being radially offset with the recess when both the first lock ring and the second lock ring are properly disposed inside the cavity, and wherein the air seal is radially aligned with the recess when only one of the first lock ring and the second lock ring is disposed inside the cavity. 2. The wheel assembly of claim 1 , wherein the recess formed on the inside surface of the side rim is an annular groove. 3. The wheel assembly of claim 1 , wherein the recess formed on the inside surface of the side rim is an axial groove. 4. The wheel assembly of claim 3 , wherein multiple axial grooves are formed on the inside surface of the side rim, the axial grooves being spaced circumferentially apart from each other on the inside surface of the side rim. 5. The wheel assembly of claim 1 , wherein the recess formed on the inside surface of the side rim is a dimple. 6. The wheel assembly of claim 5 , wherein multiple dimples are formed on the inside surface of the side rim, the dimples being spaced circumferentially apart from each other on the inside surface of the side rim. 7. The wheel assembly of claim 1 , wherein the first lock ring and the second lock ring each have a cross-sectional profile that is generally a trapezoid with a short side opposite and parallel to a long side, a perpendicular side between the short side and the long side, and an angled side opposite the perpendicular side. 8. The wheel assembly of claim 7 , wherein the first lock ring and the second lock ring are disposed inside the cavity such that the angled side of the first lock ring contacts the wheel base, the long side of the first lock ring contacts the inside surface of the side rim, and the perpendicular side of the first lock ring contacts the perpendicular side of the second lock ring. 9. The wheel assembly of claim 8 , wherein the angled side of the second lock ring contacts the inside surface of the side rim, and the long side of the second lock ring contacts the wheel base inside of the cavity. 10. The wheel assembly of claim 1 , wherein the first lock ring comprises a mating surface that mates with a mating surface of the second lock ring. 11. The wheel assembly of claim 10 , wherein the mating surface of the first lock ring and the mating surface of the second lock ring are color coded. 12. The wheel assembly of claim 10 , wherein a connector connects the mating surface of the first lock ring to the mating surface of the second lock ring. 13. The wheel assembly of claim 1 , wherein the cavity includes a bottom surface formed on the wheel base and a top surface formed on the inside surface of the side rim, the top surface being parallel to the bottom surface. 14. The wheel assembly of claim 13 , wherein the cavity includes a first side surface formed on the inside surface of the side rim and a second side surface formed on the wheel base, the first side surface being parallel to the second side surface. 15. The wheel assembly of claim 14 , wherein the bottom surface and first side surface of the cavity contact the first lock ring and the top surface and second side surface of the cavity contact the second lock ring. 16. A method for assembling a wheel, the method comprising: placing a wheel base inside a tire, the wheel base having an air seal seat; placing a side rim inside the tire around the wheel base, the side rim having a recess formed on an inside surface of the side rim; moving the side rim on the wheel base to expose the air seal seat; placing an air seal around the wheel base and inside the air seal seat, wherein the air seal is configured to contact an inside surface of the side rim; inserting a lock ring assembly inside a cavity between the wheel base and the side rim, wherein the locking mechanism comprises a first lock ring and a second lock ring; inflating the tire; and detecting faulty assembly of the wheel if the side rim axially translates such that the recess formed on the inside surface of the side rim radially aligns with the air seal when only one of the first lock ring and the second lock ring is installed inside the cavity, such that air exits the wheel between the wheel base and the side rim thereby preventing inflation of the tire. 17. The wheel assembly of claim 16 , wherein the first lock ring interlocks with the second lock ring. 18. A wheel assembly comprising: a wheel base; a side rim disposed about a circumference of the wheel base and including an inside surface and a recess formed on the inside surface; a cavity disposed between the wheel base and the side rim; an air seal disposed between the wheel base and the inside surface of the side rim, and disposed axially between the recess and the cavity, wherein the air seal contacts the inside surface of the side rim; and a multipart lock ring assembly disposed within the cavity and configured, when properly installed, to prevent the air seal from radially aligning with the recess formed on the inside surface of the side rim and allowing air to exit the wheel assembly between the wheel base and the side rim, and wherein the multipart lock ring assembly is configured to permit the recess formed on the inside surface of the side rim to radially align with the air seal and allow air to exit the wheel assembly between the wheel base and the side rim when only a portion of the multipart lock ring assembly is installed in the cavity. 19. The method of claim 18 , wherein the lock ring assembly comprises a first lock ring and a second lock ring. 20. The wheel assembly of claim 19 , wherein the first lock ring and the second lock ring each include at least one annular channel. 21. The wheel assembly of claim 19 , wherein the first lock ring and the second lock ring are hollow.