Electric expansion valve and refrigeration cycle device

What is claimed is: 1 . An electric expansion valve comprising: a drive unit configured to generate drive force upon receiving supply of electric power; an output shaft configured to rotate about an axis by drive force output from the drive unit and translate in conjunction with rotation of the output shaft; a main body including a first inflow/outflow port through which a refrigerant of a refrigeration cycle flows, a second inflow/outflow port formed at a position different from the first inflow/outflow port, a valve chamber disposed in a refrigerant passage connecting the first inflow/outflow port and the second inflow/outflow port, and a valve seat disposed inside the valve chamber; a valve body disposed within the valve chamber to open and close an opening of the valve seat; a joint portion configured to connect an end of the output shaft and the valve body to be integrally displaceable; and a centering mechanism configured to adjust to align an axial center of the output shaft with an axial center of the valve body, wherein the joint portion includes a cap member integrally attached to the valve body and having an insertion hole into which the output shaft is inserted, and a locking portion expanding from an end part of the output shaft to be larger than at least a maximum diameter of the insertion hole, in a case where the output shaft is displaced toward the valve seat, an end of the output shaft is configured to press the valve body to approach the valve seat in a state where the output shaft is inserted into the insertion hole, in a case where the output shaft is displaced away from the valve seat, the locking portion is configured to contact an opening edge of the insertion hole to separate the valve body from the valve seat, the centering mechanism includes a projection formed on one of the end of the output shaft and a surface of the valve body facing the end of the output shaft, the projection being shaped into a semispherical shape protruding from the output shaft or the valve body, and a recess formed on the other of the end of the output shaft and the surface of the valve body, the recess being shaped to be engaged with the projection and into a conical shape having a vertex at the axial center of the output shaft or the axial center of the valve body, and the projection and the recess are configured to align the axial center of the output shaft with the axial center of the valve body by engaging with each other. 2 . A refrigeration cycle device comprising a refrigeration cycle including a compressor configured to compress and discharge a refrigerant, a radiator configured to radiate heat of the high-pressure refrigerant discharged from the compressor, an electric expansion valve configured to decompress the refrigerant flowing out of the radiator, and an evaporator configured to evaporate the refrigerant decompressed by the electric expansion valve, wherein the electric expansion valve includes a drive unit configured to generate drive force upon receiving supply of electric power, an output shaft configured to rotate about an axis by drive force output from the drive unit and translate in conjunction with rotation of the output shaft, a main body including a first inflow/outflow port through which a refrigerant of a refrigeration cycle flows, a second inflow/outflow port formed at a position different from the first inflow/outflow port, a valve chamber disposed in a refrigerant passage connecting the first inflow/outflow port and the second inflow/outflow port, and a valve seat disposed inside the valve chamber, a valve body disposed within the valve chamber to open and close an opening of the valve seat, a joint portion configured to connect an end of the output shaft and the valve body to be integrally displaceable, and a centering mechanism configured to adjust to align an axial center of the output shaft with an axial center of the valve body, the refrigeration cycle device is switchable between a first operation mode in which the refrigerant of the refrigeration cycle flows from the first inflow/outflow port to the second inflow/outflow port via the refrigerant passage and the valve chamber, and a second operation mode in which the refrigerant of the refrigeration cycle flows from the second inflow/outflow port to the first inflow/outflow port via the refrigerant passage and the valve chamber, the joint portion includes a cap member integrally attached to the valve body and having an insertion hole into which the output shaft is inserted, and a locking portion expanding from an end part of the output shaft to be larger than at least a maximum diameter of the insertion hole, in a case where the output shaft is displaced toward the valve seat, an end of the output shaft is configured to press the valve body to approach the valve seat in a state where the output shaft is inserted into the insertion hole, in a case where the output shaft is displaced away from the valve seat, the locking portion is configured to contact an opening edge of the insertion hole to separate the valve body from the valve seat, the centering mechanism includes a projection formed on one of the end of the output shaft and a surface of the valve body facing the end of the output shaft, the projection being shaped into a semispherical shape protruding from the output shaft or the valve body, and a recess formed on the other of the end of the output shaft and the surface of the valve body, the recess being shaped to be engaged with the projection and into a conical shape having a vertex at the axial center of the output shaft or the axial center of the valve body, and the projection and the recess are configured to align the axial center of the output shaft with the axial center of the valve body by engaging with each other.