Rotary compressor

The invention claimed is: 1. A rotary compressor comprising: a first compression mechanism comprising a first cylinder, a first piston disposed inside the first cylinder so as to form a first working chamber between an outer circumferential surface of the first piston and an inner circumferential surface of the first cylinder, a first vane that divides the first working chamber into a first suction chamber and a first compression-discharge chamber, a first suction port through which a working fluid to be compressed flows into the first suction chamber, a first discharge port through which the working fluid having been compressed flows out of the first compression-discharge chamber, and a first return port through which the working fluid is allowed to escape from the first compression-discharge chamber; a shaft having an first eccentric portion fitted to the first piston; a motor that rotates the shaft; a first suction path through which the working fluid is directed to the first suction port; a first back-pressure chamber that communicates with the first return port; a first check valve of a reed valve type that is provided in the first back-pressure chamber and that elastically deforms to open and close the first return port; a return path through which the working fluid is returned from the first back-pressure chamber to the first suction path; a volume-varying valve that is provided in the return path for varying a suction volume of the first compression mechanism, that selectively allows the working fluid to flow through the return path or precludes the working fluid from flowing through the return path to increase a pressure inside the first back-pressure chamber; an inverter that drives the motor; and a digital processor communicating with the volume-varying valve and the inverter and configured to control the volume-varying valve and the inverter so as to compensate for a decrease in the suction volume with an increase in a rotational speed of the motor, wherein when the first check valve deforms, a first flow passage that allows the working fluid to flow is formed, the first flow passage passing through the return port, the first back-pressure chamber and the return path in this order, the rotary compressor further comprising an accumulator that has an internal space capable of retaining the working fluid and to which the first suction path and the return path are connected, wherein the return path communicates with the first suction path via the internal space of the accumulator; the rotary compressor further comprises: a second compression mechanism comprising a second cylinder, a second piston disposed inside the second cylinder so as to form a second working chamber between an outer circumferential surface of the second piston and an inner circumferential surface of the second cylinder, a second vane that divides the second working chamber into a second suction chamber and a second compression-discharge chamber, a second suction port through which the working fluid to be compressed is allowed to flow into the second suction chamber, and a second discharge port through which the working fluid having been compressed is allowed to flow out of the second compression-discharge chamber; and a second suction path through which the working fluid is directed from the internal space of the accumulator to the second suction port, the shaft further having a second eccentric portion fitted to the second piston, the second compression mechanism further comprises a second return port through which the working fluid is allowed to escape from the second compression-discharge chamber, the rotary compressor further comprises a second back-pressure chamber that communicates with the second return port, and a second check valve of a reed valve type that is provided in the second back-pressure chamber and that elastically deforms to open and close the second return port, and an upstream end of the return path is connected not only to the first back-pressure chamber but also to the second back-pressure chamber. 2. The rotary compressor according to claim 1 , wherein each one of the first and second compression mechanisms further comprises a pair of sealing members sealing both sides of each of the first and second working chambers in an axial direction of the shaft, and each of the first and second return ports and each of the first and second back-pressure chambers are provided in each one of the pair of the sealing members. 3. The rotary compressor according to claim 1 , further comprising a closed casing housing the first and second compression mechanisms and the motor, wherein the first and second discharge ports open into an internal space of the closed casing, and the first and second back-pressure chambers are separated from the internal space of the closed casing. 4. The rotary compressor according to claim 1 , wherein a suction volume of the second compression mechanism keeps constant. 5. The rotary compressor according to claim 4 , wherein the suction volume of the first compression mechanism is substantially zero in a low volume mode in which the working fluid is allowed to flow through the return path. 6. The rotary compressor according to claim 5 , wherein the first compression mechanism and the second compression mechanism share an intermediate plate sandwiched between the first cylinder and the second cylinder, and sealing one side of the first working chamber and one side of the second working chamber in an axial direction of the shaft, the first compression mechanism comprises a first sealing member sealing the other side of the first working chamber that is opposite to the intermediate plate, the second compression mechanism comprises a second sealing member sealing the other side of the second working chamber that is opposite to the intermediate plate, the first sealing member and the second sealing member function also as bearings by which the shaft is rotatably supported, and a first diameter of a portion of the shaft that is supported by the first sealing member has a smaller diameter than a second diameter of a portion of the shaft that is supported by the second sealing member. 7. The rotary compressor according to claim 1 , wherein, in a rotational direction of the shaft, an angular distance from the first vane to the first return port is approximately equal to an angular distance from the second vane to the second return port. 8. The rotary compressor according to claim 1 , wherein the first compression mechanism and the second compression mechanism share an intermediate plate sandwiched between the first cylinder and the second cylinder, and sealing one side of the first working chamber and one side of the second working chamber in an axial direction of the shaft, the first compression mechanism comprises a first sealing member sealing the other side of the first working chamber that is opposite to the intermediate plate, the second compression mechanism comprises a second sealing member sealing the other side of the second working chamber that is opposite to the intermediate plate, and the first return port and the first back-pressure chamber are provided in the first sealing member, and the second return port and the second back-pressure chamber are provided in the second sealing member. 9. The rotary compressor according to claim 1 , wherein the first compression mechanism comprises a first intermediate plate sealing one side of the first working chamber that faces toward the second compression mechanism, and a first sealing member sealing the other side of the first working chamber that is opposite to the first intermediate plate, the second compression mechanism comprises a second intermediate plate sealing one side of the second wor