Automatic wheel grid

The invention claimed is: 1. A wheel grid comprising: a crossbar configured to be coupled to a main boom of a wheel lift tow vehicle; a first L-arm comprising a first extension member and a first wheel brace member, the first extension member rotatably coupled to the crossbar at a first pivot point; a second L-arm comprising a second extension member and a second wheel brace member, the second extension member rotatably coupled to the crossbar at a second pivot point; a first crossbar end coupled to a first end of the crossbar adjacent a proximal end of the first crossbar end and configured to engage a first tire of a towed vehicle, the first crossbar end comprising a first cantilevered portion adjacent a distal end of the first crossbar end; and a second crossbar end coupled to a second end of the crossbar adjacent a proximal end of the second crossbar end and configured to engage a second tire of the towed vehicle, the second crossbar end comprising a second cantilevered portion adjacent a distal end of the second crossbar end; wherein the first and second L-arms are configured to rotate into a stowed position in which the first wheel brace member is positioned under the first cantilevered portion and the second wheel brace member is positioned under the second cantilevered portion. 2. The wheel grid of claim 1 , wherein: the first and second extension members are rotatably coupled to the crossbar at respective proximal ends; a distal end of the first extension member is coupled to a proximal end of the first wheel brace member and a distal end of the second extension member is coupled to a proximal end of the second wheel brace member; and the first wheel brace member extends substantially perpendicularly away from the first extension member and the second wheel brace member extends substantially perpendicularly away from the second extension member. 3. The wheel grid of claim 2 , wherein in the stowed position, the first and second extension members are positioned substantially parallel and adjacent to the crossbar and the first and second wheel brace members extend in a direction substantially perpendicular to the crossbar. 4. The wheel grid of claim 2 , wherein the L-arms are configured to rotate into a loading position in which the extension members are substantially parallel and adjacent to the crossbar and the first wheel brace member is substantially parallel and adjacent to the second wheel brace member. 5. The wheel grid of claim 4 , further comprising a linear actuator coupled to one or more linkages, the linear actuator and the one or more linkages configured to rotate the first L-arm approximately 180 degrees from the stowed position to the loading position. 6. The wheel grid of claim 2 , wherein the first and second wheel brace members are substantially straight. 7. The wheel grid of claim 1 , wherein the distance from the first pivot point to the first wheel brace member is less than the distance from the first pivot point to a distal end of the first crossbar end. 8. The wheel grid of claim 1 , further comprising: a mounting bracket coupled to the crossbar, the mounting bracket configured to be rotatably coupled to the main boom via a rotation pin; and a detent assembly coupled to the crossbar and configured to engage a detent flat on the main boom to resist the rotation of the wheel grid relative to the main boom when the crossbar is perpendicular to the main boom. 9. The wheel grid of claim 8 , wherein the detent assembly comprises: a detent bracket slidably coupled to two fasteners, the two fasteners coupled to the crossbar; and two springs, each spring positioned around one of the two fasteners and configured to bias the detent bracket away from the crossbar. 10. The wheel grid of claim 9 , wherein the fasteners are threadedly coupled to the crossbar and wherein the detent assembly further comprises two locknuts, each locknut configured to restrict the rotation of one of the fasteners. 11. A tow vehicle comprising: a tow vehicle frame; a main boom coupled to the tow vehicle frame and extending rearward from the tow vehicle frame; and a wheel grid rotatably coupled to the main boom by a rotation pin, the wheel grid comprising: a crossbar configured to be coupled to the main boom; an L-arm comprising an extension member and a wheel brace member, the extension member rotatably coupled to the crossbar at a pivot point; and a crossbar end coupled to an end of the crossbar adjacent a proximal end of the crossbar end and configured to engage a tire of a towed vehicle, the crossbar end comprising a cantilevered portion adjacent a distal end of the crossbar end; wherein the L-arm is configured to rotate into a stowed position in which the wheel brace member is positioned under the cantilevered portion. 12. The tow vehicle of claim 11 , wherein: a proximal end of the extension member is rotatably coupled to the crossbar a distal end of the extension member is coupled to a proximal end of the wheel brace member; and the wheel brace member extends substantially perpendicularly away from the extension member. 13. The tow vehicle of claim 12 , wherein in the stowed position, the extension member is positioned substantially parallel and adjacent to the crossbar and the wheel brace member extend in a direction substantially perpendicular to the crossbar in a forward direction under the tow vehicle frame. 14. The tow vehicle of claim 11 , wherein the distance from the pivot point to the wheel brace member is less than the distance from first pivot point to a distal end of the crossbar end. 15. The tow vehicle of claim 11 , wherein the wheel grid is configured to rotate at least 180 degrees about the rotation pin.