Automatic deflection limiting latches for a thrust reverser

We claim: 1. An aircraft nacelle comprising: a first thrust reverser half and a second thrust reverser half, wherein the first thrust reverser half and the second thrust reverser half are rotatable about a hinge between a closed position in which the first thrust reverser half and the second thrust reverser half enclose a core compartment, and an open position in which the first thrust reverser half and the second thrust reverser half are separated and allow access to the core compartment; and a locking mechanism configured to automatically engage, wherein the locking mechanism is configured to prevent the first thrust reverser half from separating from the second thrust reverser half in response to an increase in pressure in the core compartment, the locking mechanism comprising: a pneumatic actuator; and a supply channel extending through an inner fixed structure of the first thrust reverser half, wherein the supply channel is configured to supply air from a bypass air duct of the aircraft nacelle to the pneumatic actuator. 2. The aircraft nacelle of claim 1 , wherein the locking mechanism comprises a bumper comprising a locking slot. 3. The aircraft nacelle of claim 1 , wherein the locking mechanism comprises a locking pin. 4. The aircraft nacelle of claim 1 , further comprising an air supply line connecting the supply channel to the pneumatic actuator. 5. The aircraft nacelle of claim 1 , wherein the locking mechanism comprises a bellows. 6. The aircraft nacelle of claim 5 , further comprising a locking pin coupled to the bellows, wherein the locking pin is configured to enter a locking slot in a bumper. 7. The aircraft nacelle of claim 1 , further comprising a pressure relief door in the first thrust reverser half, wherein the pressure relief door comprises an arrestor hook. 8. The aircraft nacelle of claim 7 , further comprising a pylon bracket, wherein the arrestor hook contacts a retaining bar in the pylon bracket. 9. An aircraft nacelle comprising: a first thrust reverser half configured to move relative to at least one of an opposite thrust reverser half, an engine, or a pylon in order to open the first thrust reverser half; a latch coupled to the first thrust reverser half and movable between a latched position in which the latch prevents relative movement between the first thrust reverser half and at least one of the opposite thrust reverser half, the engine, or the pylon, and an unlatched position in which the latch permits relative movement between the first thrust reverser half and at least one of the opposite thrust reverser half, the engine, or the pylon; a pneumatic actuator configured to operate the latch; and a supply channel extending through an inner fixed structure of the first thrust reverser half, wherein the supply channel is configured to supply air from a bypass air duct of the aircraft nacelle to the pneumatic actuator; wherein the latch latches automatically responsive to conditions of aircraft flight. 10. The aircraft nacelle of claim 9 , wherein the latch latches automatically responsive to a pressure differential of the air inside a core compartment between the engine and the first thrust reverser half relative to the pressure of the air inside a bypass air duct in the first thrust reverser half. 11. The aircraft nacelle of claim 9 , wherein the latch latches automatically responsive to the temperature of the air inside a core compartment between the engine and the first thrust reverser half. 12. The aircraft nacelle of claim 9 , wherein the latch comprises a locking pin and a bumper.