Injection device and axial-center position adjusting method

What is claimed is: 1. An injection device comprising: a screw inserted into a cylinder and configured to move in an axial direction and rotate about the axial direction; a pressure plate configured to support the screw rotatably but immovably in the axial direction; an injection motor configured to move the pressure plate in the axial direction; a fixed plate configured to support the injection motor and receive a reaction force of the pressure plate; a first supporting member configured to support a spline shaft or a spline nut fitted on the spline shaft rotatably but immovably in the axial direction, and attached to the pressure plate; a second supporting member configured to support the spline nut or the spline shaft rotatably but immovably in the axial direction, and attached to the fixed plate; a rotary motor attached to the fixed plate and configured to rotate the screw via the spline shaft and the spline nut; a first torque transmitting mechanism configured to transmit a torque of the rotary motor to the spline nut or the spline shaft supported by the second supporting member attached to the fixed plate; and a second torque transmitting mechanism configured to transmit a torque that is generated on the spline shaft or the spline nut supported by the first supporting member attached to the pressure plate, to the screw, wherein: the first supporting member is provided with a first positioning mechanism configured to adjust a mounting position of the first supporting member with respect to the pressure plate; the second supporting member is provided with a second positioning mechanism configured to adjust a mounting position of the second supporting member with respect to the fixed plate; the first supporting member and the second supporting member include holes formed therein for axial-center checking, rods being inserted through the holes; and the holes are formed in a manner that the rods smoothly pass through the holes when an axial center of the spline nut and an axial center of the spline shaft coincide with each other, and the rods do not smoothly pass through the holes when the axial center of the spline nut and the axial center of the spline shaft do not coincide with each other. 2. The injection device according to claim 1 , wherein: the first positioning mechanism is configured to adjust the mounting position of the first supporting member with respect to the pressure plate along a plane orthogonal to the axial direction; and the second positioning mechanism is configured to adjust the mounting position of the second supporting member with respect to the fixed plate along a plane orthogonal to the axial direction. 3. The injection device according to claim 1 , wherein: the first positioning mechanism and the second positioning mechanism each include adjusting screw members and screw supporting members configured to support the adjusting screw members by screw-engagement with the adjusting screw members; the pressure plate and the fixed plate are each provided with abutment members that abut against distal ends of the adjusting screw members; and by changing amounts of projection of the adjusting screw members from the respective screw supporting members by rotation of the adjusting screw members, the mounting positions of the first supporting member and the second supporting member are adjusted. 4. The injection device according to claim 1 , wherein: in mounting the first supporting member and the second supporting member, the mounting positions of the first supporting member and the second supporting member are adjusted by the first positioning mechanism and the second positioning mechanism in a manner that the rods are inserted through the holes formed in the first supporting member and the second supporting member. 5. An axial-center position adjusting method of adjusting axial-center positions of a spline shaft and a spline nut of an injection device, the injection device including the spline shaft configured to rotate a screw inserted into a cylinder, and the spline nut fitted on the spline shaft, wherein: the injection device further includes: a first supporting member attached to a pressure plate that supports the screw rotatably but immovably in an axial direction, and configured to support the spline shaft or the spline nut rotatably but immovably in the axial direction; a second supporting member attached to a fixed plate that supports an injection motor and receives a reaction force of the pressure plate, the injection motor being configured to move the pressure plate in the axial direction, and configured to support the spline nut or the spline shaft rotatably but immovably in the axial direction; a rotary motor attached to the fixed plate and configured to rotate the screw via the spline shaft and the spline nut; a first torque transmitting mechanism configured to transmit a torque of the rotary motor to the spline nut or the spline shaft supported by the second supporting member attached to the fixed plate; and a second torque transmitting mechanism configured to transmit a torque that is generated on the spline shaft or the spline nut supported by the first supporting member attached to the pressure plate, to the screw, the first supporting member is provided with a first positioning mechanism configured to adjust a mounting position of the first supporting member with respect to the pressure plate, the second supporting member is provided with a second positioning mechanism configured to adjust a mounting position of the second supporting member with respect to the fixed plate, the first supporting member and the second supporting member include holes formed therein for axial-center checking, rods being inserted through the holes, and the holes are formed in a manner that the rods smoothly pass through the holes when an axial center of the spline nut and an axial center of the spline shaft coincide with each other, and the rods do not smoothly pass through the holes when the axial center of the spline nut and the axial center of the spline shaft do not coincide with each other, the method comprising the step of: in mounting the first supporting member and the second supporting member, adjusting the mounting positions of the first supporting member and the second supporting member by use of the first positioning mechanism and the second positioning mechanism in a manner that the rods are inserted through the holes formed in the first supporting member and the second supporting member. 6. The axial-center position adjusting method according to claim 5 , further comprising the steps of: adjusting the mounting position of the first supporting member with respect to the pressure plate along a plane orthogonal to the axial direction, by means of the first positioning mechanism; and adjusting the mounting position of the second supporting member with respect to the fixed plate along a plane orthogonal to the axial direction, by means of the second positioning mechanism. 7. The axial-center position adjusting method according to claim 5 , wherein the first positioning mechanism and the second positioning mechanism each include adjusting screw members and screw supporting members configured to support the adjusting screw members by screw-engagement with the adjusting screw members, and the pressure plate and the fixed plate are each provided with abutment members that abut against distal ends of the adjusting screw members, the method further comprising the step of: turning the adjusting screw members so as to change amounts of projection of the adjusting screw members from the respective screw supporting members, and thereby adjusting the mounting positions of the first supporting member and the second supporting