Compressor, air conditioning system, and a method of controlling a compressor

The invention claimed is: 1. A compressor, comprising: two primary-stage cylinders disposed in parallel; a secondary-stage cylinder disposed downstream of the two primary-stage cylinders, comprising a cylinder body and a sliding vane provided inside the cylinder body; and a locking part for locking or unlocking the sliding vane, the locking part being engaged to or disengaged from the sliding vane, such that when the sliding vane is in a locked position, the sliding vane is locked within a closed cavity of the secondary-stage cylinder, and a locking end of the locking part protrudes towards the secondary-stage cylinder; an enthalpy-increasing component, comprising: an enthalpy-increasing cavity, the secondary-stage cylinder being in communication with the enthalpy-increasing cavity; each of the two primary-stage cylinders being in communication with the enthalpy-increasing cavity, and the locking part being slidably disposed within the enthalpy-increasing cavity, and a locking end of the locking part protruding towards the sliding vane; and an air supply part for supplying air to the secondary-stage cylinder via the enthalpy-increasing cavity, the air supply part being connected to the enthalpy-increasing cavity; and a resetting element, for keeping the locking part at a locked position, the resetting element being disposed within the enthalpy-increasing cavity and at a reset end of the locking part, the reset end being disposed opposite to the locking end. 2. The compressor according to claim 1 , wherein the locking part comprises a locking pin, a first end of the locking pin being the locking end, a first end of the locking pin having an engaging groove that is engaged to or disengaged from the sliding vane. 3. The compressor according to claim 1 , wherein the locking part comprises a locking pin, a first end of the locking pin serving as the locking end, the sliding vane having a locking mating part matable with the locking end, the locking end is able to lock or unlock the locking mated part. 4. The compressor according to claim 3 , wherein a first end of the locking pin has a locking bump, and the locking mating part serves as a locking recess, and the locking bump is able to lock or unlock the locking recess. 5. The compressor according to claim 1 , wherein the reset end has a receiving recess, and at least part of the resetting element being disposed within the receiving recess. 6. The compressor according to claim 1 , wherein the enthalpy-increasing component is also provided with an exhaust port, the compressor also comprises a control valve, the exhaust port being in communication with the enthalpy-increasing cavity, and the control valve controlling opening and closing states of the exhaust port. 7. An air conditioning system, comprising a compressor according to claim 1 . 8. The air conditioning system according to claim 7 , wherein the compressor further comprises an enthalpy-increasing component comprising: an enthalpy-increasing cavity, the secondary-stage cylinder being in communication with the enthalpy-increasing cavity; each of the two primary-stage cylinders being in communication with the enthalpy-increasing cavity, and the locking part being slidably disposed within the enthalpy-increasing cavity, and a locking end of the locking part protruding towards the sliding vane; and an air supply part for supplying air to the secondary-stage cylinder via the enthalpy-increasing cavity, the air supply part being connected to the enthalpy-increasing cavity. 9. The air conditioning system according to claim 8 , wherein the locking part comprises a locking pin, a first end of the locking pin being the locking end, a first end of the locking pin having an engaging groove that is engaged to or disengaged from the sliding vane. 10. The air conditioning system according to claim 8 , wherein the locking part comprises a locking pin, a first end of the locking pin serving as the locking end, the sliding vane having a locking mating part matable with the locking end, the locking end is able to lock or unlock the locking mated part. 11. The air conditioning system according to claim 10 , wherein a first end of the locking pin has a locking bump, and the locking mating part serves as a locking recess, and the locking bump is able to lock or unlock the locking recess. 12. The air conditioning system according to claim 8 , wherein the compressor further comprises a resetting element for keeping the locking part at a locked position, the resetting element being disposed within the enthalpy-increasing cavity and at a reset end of the locking part, the reset end being disposed opposite to the locking end. 13. The air conditioning system according to claim 12 , wherein the reset end has a receiving recess, and at least part of the resetting element being disposed within the receiving recess. 14. The air conditioning system according to claim 8 , wherein the enthalpy-increasing component is also provided with an exhaust port, the compressor also comprises a control valve, the exhaust port being in communication with the enthalpy-increasing cavity, and the control valve controlling opening and closing states of the exhaust port. 15. A compressor controlling method, comprising: controlling a locking part to engage to or disengage from a sliding vane of a secondary-stage cylinder so as to lock or unlock the sliding vane, such that when the sliding vane is engaged with the locking part, the sliding vane is locked within a closing cavity of the cylinder of the secondary-stage cylinder, to offload the secondary-stage cylinder and cause two primary-stage cylinders to work; and according to a magnitude relationship between an air pressure of the secondary-stage cylinder and that in the two primary-stage cylinders, controlling the locking part to engage with or disengage from the secondary-stage cylinder, so as to lock or unlock the secondary-stage cylinder, an air pressure of the secondary-stage cylinder being a sum of air pressures of the two primary-stage cylinders and an air pressure of an air supply part. 16. The compressor controlling method according to claim 15 , wherein: when the air supply part supplies air, the air pressure in the secondary-stage cylinder is larger than the air pressures in the two primary-stage cylinders; the locking part moves far away from the secondary-stage cylinder; the locking part unlocks the sliding vane of the secondary-stage cylinder; the secondary-stage cylinder is in a working state; and when the air supply part is closed, the air pressure within the secondary-stage cylinder is equal to the air pressures within the two primary-stage cylinders; the locking part moves towards the secondary-stage cylinder under a resetting action force of the resetting element; the locking part locks the sliding vane of the secondary-stage cylinder, and the secondary-stage cylinder is in an offloaded state. 17. The compressor controlling method according to claim 15 , wherein: when the air supply part supplies air, the control valve controls the exhaust gas to close, so as to make the secondary-stage cylinder exhaust; and when the air supply part is closed, the control valve controls the exhaust port to open so as to make the enthalpy-increasing cavity exhaust.