Power transfer device

The invention claimed is: 1. A power transfer device comprising: a fluid transmission device that includes a pump impeller connected to a motor, a turbine runner connected to an input shaft of a transmission, and a fluid transmission chamber in which power is transferred via working oil between the pump impeller and the turbine runner; an oil pump driven by power from the motor; a chain drive mechanism that includes a drive sprocket coupled to the pump impeller of the fluid transmission device, a driven sprocket attached to a rotary shaft of the oil pump, and a chain wound around the drive sprocket and the driven sprocket; a sleeve member that rotatably supports the input shaft of the transmission; and a case that houses the fluid transmission device, the transmission, and the oil pump, wherein the case includes a first support portion and a second support portion disposed on the fluid transmission device side and on the transmission side, respectively, across the chain drive mechanism; the second support portion includes a cylindrical boss portion that extends toward the chain drive mechanism and that defines a through hole to which the sleeve member is fixed; the drive sprocket is fitted to a tubular portion of an impeller hub, which is fixed to the pump impeller, so as to be relatively non-rotatable; the boss portion of the second support portion is inserted into the tubular portion of the impeller hub through the drive sprocket; a first oil passage that communicates with the fluid transmission chamber is defined between an inner peripheral surface of the tubular portion of the impeller hub and an outer peripheral surface of the sleeve member; a seal member that restricts an inflow of working oil from the first oil passage is disposed between the tubular portion of the impeller hub and the boss portion; and a second oil passage that communicates with a support portion oil passage formed in the second support portion and the first oil passage is formed between the boss portion and the sleeve member. 2. The power transfer device according to claim 1 , wherein the pump impeller is rotatably supported by the first support portion via a bearing disposed on an outer peripheral side of the tubular portion of the impeller hub; and the seal member is disposed so as to overlap the bearing on an inner side of the bearing in a radial direction. 3. The power transfer device according to claim 1 , further comprising: an in-shaft oil passage formed in the input shaft so as to communicate with the fluid transmission chamber; a communication oil passage defined between an outer peripheral surface of the input shaft and an inner peripheral surface of the sleeve member so as to communicate between a second support portion oil passage formed in the second support portion and the in-shaft oil passage; a second seal member disposed between the input shaft and the sleeve member so as to restrict leakage of working oil from the communication oil passage; and a bush disposed on the first oil passage side with respect to the second seal member between the input shaft and the sleeve member so as to restrict leakage of working oil from the communication oil passage, wherein end portions of the input shaft and the sleeve member on the first oil passage side with respect to the second seal member are reduced in diameter; and the second oil passage includes a shaft-side oil groove formed in the outer peripheral surface of the sleeve member so as to communicate with the fluid transmission chamber, and a recessed portion formed in an inner peripheral surface of the second support portion so as to communicate with the support portion oil passage. 4. The power transfer device according to claim 3 , further comprising: a clutch that couples and decouples the motor and the input shaft of the transmission to and from each other; and a second in-shaft oil passage formed in the input shaft so as to communicate with an engagement oil chamber of the clutch, wherein the second support portion is provided with a third support portion oil passage that communicates with the second in-shaft oil passage via an oil hole formed in the sleeve member; and the second seal member restricts a flow of working oil between: a communication portion between the second in-shaft oil passage and the oil hole of the sleeve member; and the communication oil passage. 5. The power transfer device according to claim 4 , wherein: the second support portion includes a flange portion that includes the support portion oil passage; the boss portion extends from the flange portion toward the chain drive mechanism; and the recessed portion is formed in an inner peripheral surface of the flange portion so as to communicate with the support portion oil passage. 6. The power transfer device according to claim 3 , wherein: the second support portion includes a flange portion that includes the support portion oil passage; the boss portion extends from the flange portion toward the chain drive mechanism; and the recessed portion is formed in an inner peripheral surface of the flange portion so as to communicate with the support portion oil passage. 7. The power transfer device according to claim 1 , further comprising: an in-shaft oil passage formed in the input shaft so as to communicate with the fluid transmission chamber; a communication oil passage defined between an outer peripheral surface of the input shaft and an inner peripheral surface of the sleeve member so as to communicate between a second support portion oil passage formed in the second support portion and the in-shaft oil passage; a second seal member disposed between the input shaft and the sleeve member so as to restrict leakage of working oil from the communication oil passage; and a bush disposed on the first oil passage side with respect to the second seal member between the input shaft and the sleeve member so as to restrict leakage of working oil from the communication oil passage, wherein end portions of the input shaft and the sleeve member on the first oil passage side with respect to the second seal member are reduced in diameter; and the second oil passage includes a shaft-side oil groove formed in the outer peripheral surface of the sleeve member so as to communicate with the fluid transmission chamber, and a recessed portion formed in an inner peripheral surface of the second support portion so as to communicate with the support portion oil passage. 8. The power transfer device according to claim 7 , further comprising: a clutch that couples and decouples the motor and the input shaft of the transmission to and from each other; and a second in-shaft oil passage formed in the input shaft so as to communicate with an engagement oil chamber of the clutch, wherein the second support portion is provided with a third support portion oil passage that communicates with the second in-shaft oil passage via an oil hole formed in the sleeve member; and the second seal member restricts a flow of working oil between: a communication portion between the second in-shaft oil passage and the oil hole of the sleeve member; and the communication oil passage. 9. The power transfer device according to claim 8 , wherein: the second support portion includes a flange portion that includes the support portion oil passage; the boss portion extends from the flange portion toward the chain drive mechanism; and the recessed portion is formed in an inner peripheral surface of the flange portion so as to communicate with the support portion oil passage. 10. The power transfer device according to claim 7 , wherein: the second support portion includes a flange portion that includes the support p