Air-ground detection system for semi-levered landing gear

What is claimed is: 1. A method using an air-ground detection system comprising a truck beam of a semi-levered landing gear mounted on a pivot point, a positioning mechanism connected to a semi-levered linkage assembly that secures an angle of the truck beam in a toes up position, the semi-levered linkage assembly configured to change from a secured, steady state to a locked state in response to initial ground contact, and the air-ground detection system further comprising a sensor connected to the semi-levered linkage assembly, the semi-levered linkage assembly comprising a compression spring and a tension spring, the method comprising: holding, using the compression spring, the semi-levered linkage assembly in a steady state while a tension load on the semi-levered linkage assembly is less than a pre-determined tension load value; holding, using the tension spring, the semi-levered linkage assembly in the steady state while a first compression load on the semi-levered linkage assembly is less than a pre-determined compression load value; permitting, using the tension spring, the semi-levered linkage assembly to fold closed while under a second compression load exceeding the pre-determined compression load value; and sensing, using the sensor, a change of the semi-levered linkage assembly from a steady state to a locked state based on a change in orientation of the tension spring. 2. The method of claim 1 further comprising: sending, using the sensor, a signal indicating an occurrence of initial ground contact in response to sensing the change. 3. The method of claim 1 , wherein the semi-levered linkage assembly further comprises a locking mechanism configured to secure the angle of the truck beam in the toes-up position, and wherein the method further comprises: changing the locking mechanism from the steady state to the locked state in response to an initial ground contact. 4. The method of claim 3 , wherein the locking mechanism further comprises a compression spring, and wherein the method further comprises: holding the locking mechanism in the steady state under a tension load less than the pre-determined tension load value. 5. The method of claim 4 , wherein the locking mechanism further comprises a first link and a second link, wherein the compression spring is connected to the first link, wherein the compression spring is restrained in a pre-loaded position, and wherein the method further comprises: compressing the locking mechanism beyond the steady state by applying to the locking mechanism a tension load greater than the pre-determined tension load value; and the compression spring of the locking mechanism preventing force from being applied to the second link. 6. The method of claim 3 further comprising a stop connected to the locking mechanism and wherein the method further comprises: the stop preventing rotation of the truck beam at a pre-determined degree of rotation in response to a change from the steady state to the locked state. 7. The method of claim 3 , wherein the semi-levered linkage assembly further comprises a pivot pin to which the truck beam is mounted, and wherein the method further comprises: rotating the truck beam about the pivot pin between a toes up position prior to landing a toes down position after an initial ground contact.