Expander

What is claimed is: 1. An expander, comprising: a casing that includes therein an expansion chamber into which lubricant and vapor of a working medium are introduced from a working medium feeding port; an expander rotor that is rotationally driven by an expanding force transmitted from the vapor of the working medium introduced into the expansion chamber; a first bearing provided adjacent to the working medium feeding port of the expansion chamber for supporting a rotation shaft of the expander rotor so that the expander rotor is rotatable; a second bearing provided farther from the working medium feeding port than is the first bearing, and adjacent to a working medium lead-out port of the expansion chamber, for supporting the rotation shaft of the expander rotor so that the expander rotor is rotatable; a first bearing chamber that is provided inside the casing and accommodates the first bearing, the pressure inside the first bearing chamber being lower than that of the feeding port of the expansion chamber, wherein a part of the working medium and the lubricant introduced from the working medium feeding port into the expansion chamber flow into the first bearing chamber by the pressure difference between the expansion chamber and the first bearing chamber; and a lubricant passage having an, end connected to the first bearing chamber at a position above a lowermost portion of the first bearing in the first bearing chamber, wherein the lubricant passage connects the first bearing chamber to a low-pressure portion having a pressure lower than that of the first bearing chamber, and wherein the lubricant that has been used to lubricate the first bearing while flowing into the first bearing chamber flows to the low-pressure portion through the lubricant passage due to the pressure difference between the first bearing chamber and the low-pressure portion. 2. The expander according to claim 1 , wherein a shaft seal that seals the outer periphery of the rotation shaft is provided at a position between the first bearing chamber and the expansion chamber inside the casing, and a lower end of an end of the lubricant passage is located below a lowermost portion of the shaft seat. 3. The expander according to claim 2 , wherein an end of the lubricant passage is connected to a side portion of the first bearing chamber. 4. The expander according to claim 1 , wherein the casing is provided with a discharge port that has a pressure lower than that of the first bearing chamber and discharges the working medium discharged from the lead-out port of the expansion chamber to the outside of the casing, and the low-pressure portion is the discharge port. 5. The expander according to claim 1 , further comprising: a pair of expander rotors including the expander rotor; a pair of the first bearings that supports the rotation shafts of the pair of expander rotors, wherein the casing includes therein a pair of the first bearing chambers respectively accommodating the pair of first bearings and a communication passage causing the pair of first bearing chambers to communicate with each other, and the communication passage is located above the lowermost portion of each first bearing. 6. An expander, comprising: a casing that includes therein an expansion chamber into which lubricant and vapor of a working medium are introduced; an expander rotor that is rotationally driven by an expanding force transmitted from the vapor of the working medium introduced into the expansion chamber; a first bearing that supports a rotation shaft of the expander rotor to a working medium feeding port of the expansion chamber so that the expander rotor is rotatable; a second bearing that supports the rotation shaft of the expander rotor to a working medium lead-out port of the expansion chamber so that the expander rotor is rotatable; a first bearing chamber that is provided inside the casing and accommodates the first bearing, the pressure inside the first bearing a chamber being lower than that of the feeding port of the expansion chamber; and a lubricant passage having an end connected to the first bearing chamber at a position above a lowermost portion of the first bearing in the first bearing chamber and connecting the first bearing chamber to a low-pressure portion having a pressure lower than that of the first bearing chamber, wherein the expansion chamber includes an intermediate portion that is located between the working medium feeding port with respect to the expansion chamber and the working medium lead-out port from the expansion chamber and has an intermediate pressure between the feeding port and the lead-out port, and the low-pressure portion is the intermediate portion. 7. An expander, comprising: a casing that includes therein an expansion chamber into which lubricant and vapor of a working medium are introduced; an expander rotor that is rotationally driven by an expanding force transmitted from the vapor of the working medium introduced into the expansion chamber; a first bearing that supports a rotation shaft of the expander rotor to a working medium feeding port of the expansion chamber so that the expander rotor is rotatable; a second bearing that supports the rotation shaft of the expander rotor to a working medium lead-out port of the expansion chamber so that the expander rotor is rotatable; a first bearing chamber that is provided inside the casing and accommodates the first bearing, the pressure inside the first bearing chamber being lower than that of the feeding port of the expansion chamber; and a lubricant passage having an end connected to the first bearing chamber at a position above a lowermost portion of the first bearing in the first bearing chamber and connecting the first bearing chamber to a low-pressure portion having a pressure lower than that of the first bearing chamber, wherein a second bearing chamber that has a pressure lower than that of the first bearing chamber and accommodates the second bearing is provided inside the casing, and the low-pressure portion is the second bearing chamber.