Slide valve of a single screw compressor

The invention claimed is: 1. A single screw compressor comprising: a main rotor; at least one gate rotor; and a casing for the main rotor, wherein the casing comprises: a first end comprising a discharge port; a second end being opposite from the first end and in an axial direction of the main rotor; a bore adjacent to the main rotor, wherein the bore comprises a first bore end and a second bore end, and wherein a distance between the second bore end and the second end of the casing is smaller than a distance between the first bore end and the second end of the casing; and a slide slidable within the bore, wherein the slide comprises a cut-out between a first upstream sealing part and a second downstream sealing part of the slide, wherein the first upstream sealing part of the slide comprises a surface facing away from the cut-out that is inclined to a plane transverse to the axes of the slide and the main rotor at an angle substantially the same as the main rotor pitch angle, the surface facing the first bore end, wherein the slide is slidable between a high volume ratio position where the cut-out is within the casing and provides a path to the discharge port, and a low volume ratio position where an entire first upstream sealing part of the slide is beyond the first end of the casing to provide a fixed discharge path in the bore of the casing, wherein, during the low volume ratio position, a gap exists between a portion of the surface of the first upstream sealing part of the slide facing away from the cut-out and the discharge port, wherein the second bore end is positioned closer to the first bore end than the second end of the casing is positioned relative to the first bore end, and wherein the main rotor sucks a refrigerant from a gap between the main rotor and the second end of the casing, compresses the refrigerant working with the at least one gate rotor, and discharges the refrigerant to the discharge port. 2. The single screw compressor according to claim 1 , wherein the second bore end is positioned closer to the discharge port than the second end of the casing is positioned relative to the discharge port.