Motor operated valve

What is claimed is: 1. A motor operated valve driven by a stepping motor, comprising: a body having an inlet port through which fluid is introduced from an upstream side, an outlet port through which fluid is delivered to a downstream side, and a valve hole through which the inlet port and the outlet port communicate with each other; a valve element configured to open and close a valve section by moving away from and toward the valve hole; a stepping motor including a stator mounted on an end surface of the body, and a rotor configured to be rotated when power is supplied to the stator, for driving the valve element in opening and closing directions of the valve section; a shaft coaxially fixed to the rotor, and supported by the body such that the shaft is rotatable about an axis of the shaft a predetermined number of times, the shaft being configured to transmit a driving force of the stepping motor to the valve element; a stopper mechanism for restricting a rotation amount of the shaft; and a can fixed to the body, the can being a cylindrical member covering a space in which the valve element, the shaft, and the stopper mechanism are disposed and containing the rotor, the can defining an internal space in which a fluid pressure acts and an external space in which no fluid pressure acts, the can being coaxially inserted into the stator, wherein positions of the stator and the rotor in a rotating direction when the shaft is stopped by an operation of the stopper mechanism are set to be reference positions at which magnetic poles of the stator and magnetic poles of the rotor are opposite to each other, wherein the rotor is configured to be stopped at the reference position by an arrangement of the stopper mechanism, wherein the stator is positioned relative to the body according to a positional relation between a fitting part, formed on surfaces of the stator and the body attached to each other, and an insertion part where the can is inserted into the stator, and magnetic poles of the stator and magnetic poles of the rotor are opposite to each other at the reference positions, and wherein the surfaces of the stator and the body attached to each other are surfaces of the stator and the body facing each other in an axial direction, and the fitting part is present between the stator and the body. 2. A motor operated valve according to claim 1 , wherein the fitting part includes a pin formed on one of a surface of the stator and a surface the body facing each other, and a fitting hole that is formed in another of the surfaces and into which the pin is fitted. 3. A motor operated valve according to claim 2 , wherein the fitting part includes the pin formed on the stator and the fitting hole formed in the body. 4. A motor operated valve according to claim 3 , wherein the body has a prismatic shape, and wherein the fitting hole is formed substantially on a diagonal line of the end surface of the body. 5. A motor operated valve according to claim 1 , further comprising a motion converting mechanism configured to convert rotational movement of the rotor into translational movement of the shaft, wherein the valve element is supported by a leading end of the shaft, wherein the motion converting mechanism has a screw mechanism including an external thread portion formed on a side of the shaft and an internal threaded portion formed on a side of the body and configured to be engaged with the external thread portion, and wherein the screw mechanism has a lead angle set so as to be self-locked when power supply to the stator is cut off in a state in which magnetic poles of the stator and magnetic poles of the rotor are opposite to each other. 6. A motor operated valve driven by a stepping motor, comprising: a body having an inlet port through which fluid is introduced from an upstream side, an outlet port through which fluid is delivered to a downstream side, and a valve hole through which the inlet port and the outlet port communicate with each other; a valve element configured to open and close a valve section by moving away from and toward the valve hole; a stepping motor including a stator mounted on an end surface of the body, and a rotor configured to be rotated when power is supplied to the stator, for driving the valve element in opening and closing directions of the valve section; a shaft coaxially connected with the rotor, and configured to transmit a driving force of the stepping motor to the valve element; a stopper mechanism for restricting a rotation amount of the shaft; and a can fixed to the body, the can being a cylindrical member covering a space in which the valve element, the shaft, and the stopper mechanism are disposed and containing the rotor, the can defining an internal space in which a fluid pressure acts and an external space in which no fluid pressure acts, the can being coaxially inserted into the stator, wherein positions of the stator and the rotor in a rotating direction when the shaft is stopped by an operation of the stopper mechanism are set to be reference positions at which magnetic poles of the stator and magnetic poles of the rotor are opposite to each other, wherein the rotor is configured to be stopped at the reference position by an arrangement of the stopper mechanism, wherein the stator is positioned relative to the body according to a positional relation between a fitting part, formed on surfaces of the stator and the body attached to each other, and an insertion part where the can is inserted into the stator, and magnetic poles of the stator and magnetic poles of the rotor are opposite to each other at the reference positions, wherein the fitting part includes a pin formed on one of a surface of the stator and a surface the body facing each other, and a fitting hole that is formed in an other of the surfaces and into which the pin is fitted, wherein the fitting part includes the pin formed on the stator and the fitting hole formed in the body, wherein the stator includes: a yoke having a plurality of magnetic poles arranged annually; a bobbin mounted on the yoke in such a manner that the magnetic poles are inserted into the bobbin; and an exciting coil wound around the bobbin, and wherein the pin is formed integrally with the yoke in such a manner that the pin protrudes from an end surface of the yoke. 7. A motor operated valve according to claim 6 , wherein the pin is integrated with the yoke in such a manner that the pin is partially swaged into a hole formed in the end surface of the yoke. 8. A motor operated valve driven by a stepping motor, comprising: a body having an inlet port through which fluid is introduced from an upstream side, an outlet port through which fluid is delivered to a downstream side, and a valve hole through which the inlet port and the outlet port communicate with each other; a valve element configured to open and close a valve section by moving away from and toward the valve hole; a stepping motor including a stator mounted on an end surface of the body, and a rotor configured to be rotated when power is supplied to the stator, for driving the valve element in opening and closing directions of the valve section; a shaft coaxially connected with the rotor, and configured to transmit a driving force of the stepping motor to the valve element; a stopper mechanism for restricting a rotation amount of the shaft; a can fixed to the body, the can being a cylindrical member covering a space in which the valve element, the shaft, and the stopper mechanism are disposed and containing the rotor, the can defining an internal space in which a fluid pressure acts and an external space in which no fluid pressure acts, the can being coaxially inserted into the stator;