Air conditioning system and cooling method for drive motor thereof

What is claimed is: 1. An air conditioning system, comprising: a main circuit having a multi-stage compressor, a condenser, a throttling element and an evaporator connected by pipelines; a cooling branch, the inlet of which is connected to the main circuit between the condenser and the throttling element, and the outlet of which is connected to at least one of the first-stage suction port and the intermediate-stage suction port of the multi-stage compressor, wherein the cooling branch flows through the drive motor of the multi-stage compressor, and a regulating valve for controlling the cooling branch is provided on the cooling branch; and a control module that controls the opening of the regulating valve on the cooling branch based on the temperature of the outlet downstream of the drive motor on the cooling branch and the intermediate suction pressure of the intermediate-stage suction port of the multi-stage compressor; wherein the cooling branch comprises a first branch and a second branch connected to the multi-stage compressor from downstream of the drive motor on the cooling branch; wherein, the first branch comprises a first valve that controls the opening and closing thereof and a first outlet connected to the first-stage suction port of the multi-stage compressor; and the second branch comprises a second valve that controls the opening and closing thereof and a second outlet connected to the intermediate-stage suction port of the multi-stage compressor. 2. The air conditioning system according to claim 1 , wherein the multi-stage compressor is a screw compressor or a centrifugal compressor. 3. A cooling method for a drive motor of an air conditioning system for use in the air conditioning system including: a main circuit having a multi-stage compressor, a condenser, a throttling element and an evaporator connected by pipelines; a cooling branch, the inlet of which is connected to the main circuit between the condenser and the throttling element, and the outlet of which is connected to at least one of the first-stage suction port and the intermediate-stage suction port of the multi-stage compressor, wherein the cooling branch flows through the drive motor of the multi-stage compressor, and a regulating valve for controlling the cooling branch is provided on the cooling branch; and a control module that controls the opening of the regulating valve on the cooling branch based on the temperature of the outlet downstream of the drive motor on the cooling branch and the intermediate suction pressure of the intermediate-stage suction port of the multi-stage compressor; the method comprising: detecting the temperature of the outlet downstream of the drive motor on the cooling branch and the intermediate suction pressure of the intermediate-stage suction port of the multi-stage compressor; when the difference between the temperature of the outlet and the saturation temperature corresponding to the intermediate suction pressure is greater than the preset superheat temperature, increasing the opening of the regulating valve; or, when the difference between the temperature of the outlet and the saturation temperature corresponding to the intermediate suction pressure is smaller than the preset superheat temperature, decreasing the opening of the regulating valve. 4. The cooling method for a drive motor according to claim 3 , comprising: detecting the temperature of the drive motor; when the temperature of the drive motor is greater than a preset cooling temperature, turning on the first branch; or when the temperature of the drive motor is smaller than the preset cooling temperature, turning on the second branch. 5. An air conditioning system, comprising: a main circuit having a multi-stage compressor, a condenser, a throttling element and an evaporator connected by pipelines; a cooling branch, the inlet of which is connected to the main circuit between the condenser and the throttling element, wherein the cooling branch flows through the drive motor of the multi-stage compressor, and wherein the cooling branch further comprises a first branch and a second branch connected to the multi-stage compressor from downstream of the drive motor; wherein, the first branch comprises a first valve that controls the opening and closing thereof and a first outlet connected to the first-stage suction port of the multi-stage compressor; and the second branch comprises a second valve that controls the opening and closing thereof and a second outlet connected to the intermediate-stage suction port of the multi-stage compressor; and a control module that controls the opening and closing of the first outlet and/or the second outlet on the cooling branch based on the temperature of the drive motor. 6. The air conditioning system according to claim 5 , wherein a regulating valve for controlling the cooling branch is further provided between the inlet of the cooling branch and the drive motor. 7. The air conditioning system according to claim 6 , wherein the control module controls the opening of the regulating valve on the cooling branch based on the temperature of the outlet downstream of the drive motor on the cooling branch and the intermediate suction pressure of the intermediate-stage suction port of the multi-stage compressor. 8. The air conditioning system according to claim 5 , wherein the multi-stage compressor is a screw compressor or a centrifugal compressor. 9. A cooling method for a drive motor of an air conditioning system for use in the air conditioning system according to claim 6 , comprising: detecting the temperature of the drive motor; when the temperature of the drive motor is greater than the preset cooling temperature, turning on the first branch; or when the temperature of the drive motor is smaller than the preset cooling temperature, turning on the second branch. 10. The cooling method for a drive motor according to claim 9 , comprising: detecting the temperature of the outlet downstream of the drive motor on the cooling branch and the intermediate suction pressure of the intermediate-stage suction port of the multi-stage compressor; when the difference between the temperature of the outlet and the saturation temperature corresponding to the intermediate suction pressure is greater than the preset superheat temperature, increasing the opening of the regulating valve; or, when the difference between the temperature of the outlet and the saturation temperature corresponding to the intermediate suction pressure is smaller than the preset superheat temperature, decreasing the opening of the regulating valve.