Fluid dynamic bearing manufacturing method

What is claimed is: 1. A bearing manufacturing method which supplies a lubricating oil stored in an oil tank under a reduced pressure environment to a bearing inside a chamber connected with the oil tank through piping and a liquid transfer pump, the liquid transfer pump including a housing defining a channel for the lubricating oil, and a rotor arranged to be magnetically levitated and rotate without making contact with the housing to generate a pressure which causes the lubricating oil to travel toward the chamber, the bearing manufacturing method comprising the steps of: a) arranging the bearing inside the chamber; b) reducing a pressure inside the chamber to make both a pressure inside the oil tank and the pressure inside the chamber lower than an atmospheric pressure, and to place the pressure inside the oil tank and the pressure inside the chamber in a minimal or no pressure difference condition which, if the liquid transfer pump were not provided, would not cause a flow of the lubricating oil in the piping; c) after step b), flowing the lubricating oil from the oil tank into the chamber through power of the liquid transfer pump to inject the lubricating oil into the bearing; and d) after step c), increasing the pressure inside the chamber. 2. The bearing manufacturing method according to claim 1 , wherein an oil delivery mechanism including an outlet arranged inside the chamber is further provided; the oil delivery mechanism includes: an injection tube portion including the outlet; and an on-off valve arranged between the injection tube portion and the liquid transfer pump to open and close a channel for the lubricating oil; and step c) includes: c1) starting the liquid transfer pump to generate a pressure which causes the lubricating oil to travel toward the oil delivery mechanism in the lubricating oil; c2) after step c1), opening the on-off valve; c3) after step c2), discharging a predetermined amount of the lubricating oil through the outlet; c4) after step c3), closing the on-off valve; and c5) after step c4), stopping the liquid transfer pump. 3. The bearing manufacturing method according to claim 2 , wherein a position at which the channel is opened and closed by the on-off valve is inside the chamber. 4. The bearing manufacturing method according to claim 2 , wherein the injection tube portion is made of stainless steel; and a diameter of an inner circumferential surface of the injection tube portion is 0.4 mm or less. 5. The bearing manufacturing method according to claim 1 , wherein an oil delivery mechanism including an outlet arranged inside the chamber is further provided; the oil delivery mechanism includes: an injection tube portion including the outlet; and an on-off valve arranged between the injection tube portion and the liquid transfer pump to open and close a channel for the lubricating oil; the liquid transfer pump is caused to operate at all times while steps a) to d) are performed; and step c) includes: c1) opening the on-off valve; c2) after step c1), discharging a predetermined amount of the lubricating oil through the outlet; and c3) after step c2), closing the on-off valve. 6. The bearing manufacturing method according to claim 5 , wherein a position at which the channel is opened and closed by the on-off valve is inside the chamber. 7. The bearing manufacturing method according to claim 5 , wherein the injection tube portion is made of stainless steel; and a diameter of an inner circumferential surface of the injection tube portion is 0.4 mm or less. 8. The bearing manufacturing method according to claim 1 , wherein an oil delivery mechanism including an outlet arranged inside the chamber is further provided; the oil delivery mechanism includes: an injection tube portion including the outlet; and an on-off valve arranged between the injection tube portion and the liquid transfer pump to open and close a channel for the lubricating oil; the liquid transfer pump is caused to operate in a low-speed operation mode having a rotation rate lower than that of a normal operation mode in steps a) and b); and step c) includes: c1) switching a mode of the liquid transfer pump from the low-speed operation mode to the normal operation mode; c2) after step c1), opening the on-off valve; c3) after step c2), discharging a predetermined amount of the lubricating oil through the outlet; c4) after step c3), closing the on-off valve; and c5) after step c4), switching the mode of the liquid transfer pump from the normal operation mode to the low-speed operation mode. 9. The bearing manufacturing method according to claim 8 , wherein a position at which the channel is opened and closed by the on-off valve is inside the chamber. 10. The bearing manufacturing method according to claim 8 , wherein the injection tube portion is made of stainless steel; and a diameter of an inner circumferential surface of the injection tube portion is 0.4 mm or less. 11. The bearing manufacturing method according to claim 1 , wherein the bearing includes a stationary bearing member, a rotatable bearing member, a bearing gap defined between the stationary bearing member and the rotatable bearing member, and a tapered opening portion joined to the bearing gap; in step c), the lubricating oil is discharged into the opening portion; and in step d), the lubricating oil is caused to penetrate from the opening portion into the bearing gap by an increase in the pressure inside the chamber. 12. The bearing manufacturing method according to claim 11 , wherein an oil delivery mechanism including an outlet arranged inside the chamber is further provided; the oil delivery mechanism includes: an injection tube portion including the outlet; and an on-off valve arranged between the injection tube portion and the liquid transfer pump to open and close a channel for the lubricating oil; and step c) includes: c1) starting the liquid transfer pump to generate a pressure which causes the lubricating oil to travel toward the oil delivery mechanism in the lubricating oil; c2) after step c1), opening the on-off valve; c3) after step c2), discharging a predetermined amount of the lubricating oil through the outlet; c4) after step c3), closing the on-off valve; and c5) after step c4), stopping the liquid transfer pump. 13. The bearing manufacturing method according to claim 12 , wherein a position at which the channel is opened and closed by the on-off valve is inside the chamber. 14. The bearing manufacturing method according to claim 12 , wherein the injection tube portion is made of stainless steel; and a diameter of an inner circumferential surface of the injection tube portion is 0.4 mm or less. 15. The bearing manufacturing method according to claim 11 , wherein an oil delivery mechanism including an outlet arranged inside the chamber is further provided; the oil delivery mechanism includes: an injection tube portion including the outlet; and an on-off valve arranged between the injection tube portion and the liquid transfer pump to open and close a channel for the lubricating oil; the liquid transfer pump is caused to operate at all times while steps a) to d) are performed; and step c) includes: c1) opening the on-off valve; c2) after step c1), discharging a predetermined amount of the lubricating oil through the outlet; and c3) after step c2), closing the on-off valve. 16. The bearing manufacturing method according to claim 15 , wherein a position at which the channel is opened and closed by the on-off va