Pump device and pump system

The invention claimed is: 1. A pump device, comprising: an impeller that rotates about an axis of rotation; an inlet passage that extends along the axis of rotation; a volute chamber provided around the impeller; a high-pressure chamber provided around the inlet passage; a circumferential wall that separates the inlet passage and the high-pressure chamber; and a bypass passage that bypasses the inlet passage and communicates the volute chamber and the high-pressure chamber, wherein the circumferential wall has a plurality of through holes provided in a circumferential direction, a central axis of each of the through holes is included in a plane substantially perpendicular to the axis of rotation, when a straight line passing through the axis of rotation and a center of a high-pressure chamber side opening of the through hole and perpendicular to the axis of rotation is defined as a reference line, the central axis is inclined with respect to the reference line, and a direction of inclination of the central axis with respect to the reference line is determined so that an inlet passage side opening of the through hole is located downstream from the high-pressure chamber side opening in a rotational direction of the impeller. 2. The pump device according to claim 1 , wherein at least two groups of the plurality of through holes are provided in a direction in which the axis of rotation extends. 3. A pump device comprising: an impeller that rotates about an axis of rotation; an inlet passage that extends along the axis of rotation; a volute chamber provided around the impeller; a high-pressure chamber provided around the inlet passage; a circumferential wall that separates the inlet passage and the high-pressure chamber; a bypass passage that communicates the volute chamber and the high-pressure chamber; and a flow rate control valve provided in the bypass passage, wherein the circumferential wall has a plurality of through holes provided in a circumferential direction, a central axis of each of the through holes is included in a plane substantially perpendicular to the axis of rotation, when a straight line passing through the axis of rotation and a center of a high-pressure chamber side opening of the through hole and perpendicular to the axis of rotation is defined as a reference line, the central axis is inclined with respect to the reference line, and a direction of inclination of the central axis with respect to the reference line is determined so that an inlet passage side opening of the through hole is located downstream from the high-pressure chamber side opening in a rotational direction of the impeller. 4. A pump system, comprising: the pump device according to claim 3 ; and a controller that adjusts an opening degree of the flow rate control valve. 5. The pump system according to claim 4 , further comprising a flow rate detector that detects a flow rate of a liquid drawn into the pump device or discharged from the pump device, wherein the controller increases the opening degree of the flow rate control valve as the flow rate detected by the flow rate detector increases. 6. The pump system according to claim 4 , further comprising a pressure detector that detects a pressure of a liquid discharged from the pump device, wherein the controller decreases the opening degree of the flow rate control valve as the pressure detected by the pressure detector increases. 7. The pump system according to claim 4 , wherein the pump device comprises a motor that drives the impeller, the pump system further comprises a torque detector that detects a torque of the motor, and the controller increases the opening degree of the flow rate control valve as the torque detected by the torque detector increases. 8. The pump system according to claim 4 , wherein the pump device comprises a motor that drives the impeller, the pump system further comprises a current detector that detects a current flowing in the motor, and the controller increases the opening degree of the flow rate control valve as the current detected by the current detector increases. 9. The pump system according to claim 4 , wherein the pump device comprises a motor that drives the impeller, and the controller increases the opening degree of the flow rate control valve as the number of revolutions of the motor increases. 10. The pump system according to claim 4 , wherein the pump system is an air conditioning apparatus in which a refrigerant whose saturated vapor pressure is a negative pressure at ordinary temperature is circulated.