Bearing mechanism, motor, and blower fan

What is claimed is: 1. A bearing mechanism comprising: a first component portion including a first tubular portion centered on a central axis extending in a vertical direction; a second component portion including a second tubular portion centered on the central axis, and arranged to be rotatable relative to the first component portion, an inner circumferential surface of the second tubular portion being arranged radially opposite an outer circumferential surface of the first tubular portion; and a lubricating oil; wherein one of the first and second component portions includes a shaft centered on the central axis, while the other of the first and second component portions includes a sleeve in which the shaft is inserted; the lubricating oil is arranged to continuously exist between a portion including the sleeve and a portion including the shaft; a radial dynamic pressure bearing portion is defined between the shaft and the sleeve, or a thrust dynamic pressure bearing portion is defined in a thrust gap between an upper surface of the sleeve and a member opposed to the upper surface of the sleeve; the outer circumferential surface of the first tubular portion and the inner circumferential surface of the second tubular portion are arranged to together define a seal gap therebetween, the seal gap including a seal portion in which a surface of the lubricating oil is located; a member including the first tubular portion is either a resin-molded article or a metal die-cast article; the first tubular portion includes, in an area where the outer circumferential surface of the first tubular portion and the lubricating oil are in contact with each other, a maximum outside diameter portion at which the first tubular portion is arranged to have a greatest outside diameter, an annular shoulder portion including a surface facing toward the surface of the lubricating oil and at which the first tubular portion is arranged to have an outside diameter smaller than that of the maximum outside diameter portion, and an inclined portion at which the outside diameter of the first tubular portion is arranged to gradually decrease from the annular shoulder portion toward the surface of the lubricating oil; and the outer circumferential surface of the first tubular portion includes a line joining the maximum outside diameter portion and the annular shoulder portion to each other. 2. The bearing mechanism according to claim 1 , wherein a radial protrusion of the annular shoulder portion is arranged to have a width of 70 μm or less. 3. A motor comprising: a stationary portion; the bearing mechanism of claim 1 ; and a rotating portion supported by the bearing mechanism to be rotatable with respect to the stationary portion. 4. A blower fan comprising: a plurality of blades arranged in a circumferential direction with a central axis extending in a vertical direction as a center; and the motor of claim 3 , the motor being arranged to rotate the blades about the central axis; wherein the blades are fixed to the rotating portion of the motor. 5. The bearing mechanism according to claim 1 , wherein the first component portion includes: the sleeve; and a sleeve housing inside which the sleeve is arranged; the sleeve housing includes: a cylindrical portion being the first tubular portion, and arranged to cover an outer circumference of the sleeve; and a bottom portion arranged to close a lower portion of the cylindrical portion; the second component portion includes: the shaft; a plate-shaped portion arranged to extend radially outward from an upper end of the shaft; and a tubular hanging-down portion being the second tubular portion, and arranged to extend downward from the plate-shaped portion; and the sleeve housing is either a resin-molded article or a metal die-cast article. 6. The bearing mechanism according to claim 5 , wherein a lower surface of the bottom portion of the sleeve housing includes a gate mark. 7. The bearing mechanism according to claim 5 , wherein the thrust gap is defined between the upper surface of the sleeve and a lower surface of the plate-shaped portion, and the thrust dynamic pressure bearing portion is defined in the thrust gap; and a radial protrusion of the annular shoulder portion is arranged to have a width greater than half a width of the thrust gap. 8. The bearing mechanism according to claim 5 , wherein a radial protrusion of the annular shoulder portion is arranged to have a width of 70 μm or less. 9. A motor comprising: a stationary portion; the bearing mechanism of claim 5 ; and a rotating portion supported by the bearing mechanism to be rotatable with respect to the stationary portion. 10. A blower fan comprising: a plurality of blades arranged in a circumferential direction with a central axis extending in a vertical direction as a center; and the motor of claim 9 , the motor being arranged to rotate the blades about the central axis; wherein the blades are fixed to the rotating portion of the motor. 11. The bearing mechanism according to claim 5 , wherein an outer edge portion of an upper surface of the cylindrical portion of the sleeve housing includes an annular slanting surface arranged to gradually increase in diameter with decreasing height. 12. The bearing mechanism according to claim 3 , wherein a lower surface of the bottom portion of the sleeve housing includes a gate mark. 13. The bearing mechanism according to claim 11 , wherein the thrust gap is defined between the upper surface of the sleeve and a lower surface of the plate-shaped portion, and the thrust dynamic pressure bearing portion is defined in the thrust gap; and a radial protrusion of the annular shoulder portion is arranged to have a width greater than half a width of the thrust gap. 14. The bearing mechanism according to claim 11 , wherein a radial protrusion of the annular shoulder portion is arranged to have a width of 70 μm or less. 15. A motor comprising: a stationary portion; the bearing mechanism of claim 11 ; and a rotating portion supported by the bearing mechanism to be rotatable with respect to the stationary portion. 16. A blower fan comprising: a plurality of blades arranged in a circumferential direction with a central axis extending in a vertical direction as a center; and the motor of claim 15 , the motor being arranged to rotate the blades about the central axis; wherein the blades are fixed to the rotating portion of the motor.