Screw compressor with an hydropneumatic cylinder integral with the bearing holder

What is claimed is: 1. A screw compressor comprising: a casing; a drive shaft having one end supported, via a bearing, on a bearing holder held by the casing, and an other end coupled to an electric motor; a screw rotor coupled to the drive shaft; a gate rotor defining a compression chamber in the casing by meshing with a helical groove formed on the screw rotor; a slide valve slidable in an axial direction of the screw rotor and capable of regulating an area of a discharge opening of the compression chamber; and a slide valve driving mechanism including a hydropneumatic cylinder configured to drive the slide valve, the hydropneumatic cylinder being located opposite to the screw rotor with respect to the bearing interposed therebetween, the bearing holder having an outer peripheral surface configured as a guide surface guiding a sliding movement of the slide valve, the bearing holder and the hydropneumatics cylinder being formed as one piece, and the bearing holder having axial end portions, with one of the axial end portions located opposite to the screw rotor constituting a cylinder tube of the hydropneumatic cylinder, thereby achieving integration of the bearing holder and the hydropneumatic cylinder. 2. A screw compressor comprising: a casing; a drive shaft having one end supported, via a bearing, on a bearing holder held by the casing, and an other end coupled to an electric motor; a screw rotor coupled to the drive shaft; a gate rotor defining a compression chamber in the casing by meshing with a helical groove formed on the screw rotor; a slide valve slidable in an axial direction of the screw rotor and capable of regulating an area of a discharge opening of the compression chamber; and a slide valve driving mechanism including a hydropneumatic cylinder configured to drive the slide valve, the hydropneumatic cylinder being located opposite to the screw rotor with respect to the bearing interposed therebetween, the bearing holder having an outer peripheral surface configured as a guide surface guiding a sliding movement of the slide valve, the bearing holder having axial end portions, with one of the axial end portions located opposite to the screw rotor constituting a cylinder tube of the hydropneumatic cylinder, thereby achieving integration of the bearing holder and the hydropneumatic cylinder, in the bearing holder, a partition plate being provided to separate a bearing chamber where the bearing is held, from a cylinder chamber where a piston of the hydropneumatic cylinder is housed, and a low-pressure communication passage through which a low-pressure space provided in the casing communicates with the bearing chamber extending in the casing and the bearing holder. 3. The screw compressor of claim 2 , wherein the bearing holder has, on an outer periphery of an end portion thereof adjacent to the cylinder tube, a fixing portion which projects radially outwardly and via which the bearing holder is fixed to the casing, and a shim plate arranged to adjust an axial position of the bearing holder is fitted between the fixing portion and the casing. 4. The screw compressor of claim 3 , wherein the shim plate includes an arc-shaped shim plate which is one of multiple pieces prepared by dividing, in a circumferential direction, a ring-shaped position adjusting member fitting on the outer periphery of the bearing holder. 5. The screw compressor of claim 4 , wherein an oil supply passage through which a hydraulic oil is supplied to the hydropneumatic cylinder extends from a portion of the casing to a portion of the fixing portion, and the oil supply passage is provided with a passage connecting member which has a tube shape and is fitted to the casing and the fixing portion at a boundary between the casing and the fixing portion. 6. The screw compressor of claim 5 , wherein an O-ring is fitted between the passage connecting member and the casing, and another O-ring is fitted between the passage connecting member and the fixing portion. 7. The screw compressor of claim 5 , wherein an end plate is provided as a member to block an opening end, of the bearing holder, adjacent to the cylinder tube, and part of the oil supply passage extends in the end plate. 8. The screw compressor of claim 3 , wherein an oil supply passage through which a hydraulic oil is supplied to the hydropneumatic cylinder extends from a portion of the casing to a portion of the fixing portion, and the oil supply passage is provided with a passage connecting member which has a tube shape and is fitted to the casing and the fixing portion at a boundary between the casing and the fixing portion. 9. The screw compressor of claim 8 , wherein an O-ring is fitted between the passage connecting member and the casing, and another O-ring is fitted between the passage connecting member and the fixing portion. 10. The screw compressor of claim 8 , wherein an end plate is provided as a member to block an opening end, of the bearing holder, adjacent to the cylinder tube, and part of the oil supply passage extends in the end plate. 11. A screw compressor comprising: a casing; a drive shaft having one end supported, via a bearing, on a bearing holder held by the casing, and an other end coupled to an electric motor; a screw rotor coupled to the drive shaft; a gate rotor defining a compression chamber in the casing by meshing with a helical groove formed on the screw rotor; a slide valve slidable in an axial direction of the screw rotor and capable of regulating an area of a discharge opening of the compression chamber; and a slide valve driving mechanism including a hydropneumatic cylinder configured to drive the slide valve, the hydropneumatic cylinder being located opposite to the screw rotor with respect to the bearing interposed therebetween, the bearing holder having an outer peripheral surface configured as a guide surface guiding a sliding movement of the slide valve, the bearing holder having axial end portions, with one of the axial end portions located opposite to the screw rotor constituting a cylinder tube of the hydropneumatic cylinder, thereby achieving integration of the bearing holder and the hydropneumatic cylinder, the bearing holder having, on an outer periphery of an end portion thereof adjacent to the cylinder tube, a fixing portion which projects radially outwardly and via which the bearing holder is fixed to the casing, and a shim plate arranged to adjust an axial position of the bearing holder being fitted between the fixing portion and the casing. 12. The screw compressor of claim 11 , wherein the shim plate includes an arc-shaped shim plate which is one of multiple pieces prepared by dividing, in a circumferential direction, a ring-shaped position adjusting member fitting on the outer periphery of the bearing holder. 13. The screw compressor of claim 12 , wherein an oil supply passage through which a hydraulic oil is supplied to the hydropneumatic cylinder extends from a portion of the casing to a portion of the fixing portion, and the oil supply passage is provided with a passage connecting member which has a tube shape and is fitted to the casing and the fixing portion at a boundary between the casing and the fixing portion. 14. The screw compressor of claim 13 , wherein an O-ring is fitted between the passage connecting member and the casing, and another O-ring is fitted between the passage connecting member and the fixing portion. 15. The screw compressor of claim 13 , wherein an end plate is provided as a member to block an opening end, of the bearing holder