Screw compressor and control method therefor

The invention claimed is: 1. A screw compressor comprising: a screw rotor comprising a suction head end and an exhaust tail end, wherein the screw rotor is configured to suck in gas from the suction head end and discharge compressed gas from the exhaust tail end; and a spool valve comprising a working side for sealing a compression chamber of the screw rotor, wherein the working side comprises a spool valve head end and a spool valve tail end, the spool valve head end and the spool valve tail end are arranged in a common direction as the suction head end and the exhaust tail end of the screw rotor along an axis direction of the screw rotor, and the spool valve is configured for reciprocating motion along the axis direction of the screw rotor; wherein the spool valve is configured to move to a suction capacity adjusting position, wherein, in the suction capacity adjusting position, the spool valve head end is located at an inner side of the suction head end of the screw rotor, and a suction capacity adjusting distance is formed between the spool valve head end and the suction head end, wherein the suction capacity adjusting distance is adjustable to adjust a suction capacity of the screw compressor without changing a speed of the screw rotor. 2. The screw compressor of claim 1 , wherein: the spool valve is configured to move to an internal volume ratio adjusting position, wherein, in the internal volume ratio adjusting position, the spool valve head end is located at an outer side of the suction head end of the screw rotor or is aligned with the suction head end, such that the spool valve is configured to adjust an internal volume ratio of the screw compressor. 3. The screw compressor of claim 1 , comprising: a position sensor located between the suction head end and the exhaust tail end of the screw rotor in the axis direction, wherein the position sensor is in contact with the spool valve, and the position sensor is configured to indicate a position of the spool valve. 4. The screw compressor of claim 3 , wherein: a non-working side of the spool valve has an inclined surface that is inclined relative to the screw rotor in the axis direction, the position sensor comprises a probe having a fixed position along the axis direction, wherein one end of the probe is in contact with the inclined surface and is configured to slide relative to the inclined surface as the spool valve moves, and wherein the probe is configured to move in a direction perpendicular to the axis direction as the spool valve moves, and the position sensor is configured to determine the position of the spool valve based on a distance that the probe moves in the direction perpendicular to the axis direction. 5. The screw compressor of claim 4 , wherein: the non-working side of the spool valve has a groove extending along the axis direction, and a bottom surface of the groove is inclined relative to the screw rotor in the axis direction, the probe has a contact end and a measurement end, wherein the contact end extends into the groove and contacts the bottom surface of the groove, wherein the contact end is configured to slide relative to the bottom surface as the spool valve moves, and the measurement end protrudes from the groove, and the position sensor is configured to determine the position of the spool valve based on a length of a portion of the probe protruding from the groove. 6. The screw compressor of claim 1 , wherein: when the spool valve is in a first position, the spool valve head end is located at an outer side of the suction head end of the screw rotor, a portion of a working side of the spool valve is configured to shield a section of the screw rotor extending from the suction head end to the exhaust tail end, and the screw compressor has an actual minimum internal volume ratio (Vi min ), wherein the first position is a first maximum stroke position of the spool valve toward the suction head end, when the spool valve is in a second position, the spool valve head end is aligned with the suction head end of the screw compressor, an entirety of the working side of the spool valve is configured to shield the section of the screw rotor extending from the suction head end to the exhaust tail end, and the screw compressor has an actual maximum internal volume ratio (Vi max1 ), and when the spool valve is in a third position, the spool valve head end is located at the inner side of the suction head end of the screw compressor, the entirety of the working side of the spool valve is configured to shield the section of the screw rotor between the suction head end and the exhaust tail end, and the screw compressor has a virtual maximum internal volume ratio (Vi max2 ), wherein the third position is a second maximum stroke position of the spool valve toward the exhaust tail end. 7. The screw compressor of claim 6 , wherein: the screw compressor is configured to adjust a position of the spool valve between the first position and the second position to adjust an internal volume ratio (Vi) of the screw compressor; and the screw compressor is configured to adjust the position of the spool valve between the second position and the third position to adjust a suction chamber volume of the screw compressor, and thereby adjust the suction capacity of the screw compressor. 8. The screw compressor of claim 1 , comprising: a piston rod connected to the spool valve tail end, wherein the piston rod is configured to be hydraulically driven to drive the spool valve to move reciprocally along the axis direction. 9. The screw compressor of claim 8 , comprising: a controller configured to adjust the speed of the screw rotor and configured to control a piston rod actuator to drive the piston rod to adjust a position of the spool valve. 10. A control method for operating a screw compressor, comprising: a) setting a working frequency parameter (F) and a working internal volume ratio parameter (Vi) of the screw compressor based on a target load, wherein the working frequency parameter (F) corresponds to a predetermined working suction capacity (R); b) determining whether the working frequency parameter (F) is lower than a working frequency threshold (Ft), wherein the working frequency threshold (Ft) corresponds to a threshold suction capacity (Rt); and c) adjusting a position of a spool valve based on the working frequency parameter al and the working internal volume ratio parameter wherein: c1) when the working frequency parameter (F) is not lower than the working frequency threshold (Ft), (i) the working frequency parameter (F) is set as a working frequency of the screw compressor to adjust a speed of a screw rotor of the screw compressor and to adjust a suction capacity of the screw compressor toward the predetermined working suction capacity (R), and a displacement (L1) of the spool valve moving to an internal volume ratio adjusting position corresponding to the working internal volume ratio parameter is determined based on the set working internal volume ratio parameter (Vi), and (ii) the spool valve is moved to the internal volume ratio adjusting position based on the displacement (L1), and, when the spool valve is in the internal volume ratio adjusting position, a spool valve head end of the spool valve is located at an outer side of a suction head end of the screw rotor of the screw compressor or is aligned with the suction head end, such that the spool valve shields a section of the screw rotor extending from the suction head end to an exhaust tail end of the screw rotor, and c2) when the working frequency parameter (F) is lower than the working frequency threshold (Ft), (i) the working frequency threshold (Ft) is set as the working freq