Vane compressor

What is claimed is: 1. A vane compressor comprising: a housing having therein a rotor chamber; a rotor that is disposed in the rotor chamber so as to be rotatable about an axis of rotation and has therein a pair of vane slots; and a plurality of vanes provided in the respective vane slots so as to be slidable in and out of the vane slots, a compression chamber being formed by one surface of the rotor chamber, the other surface of the rotor chamber, an inner peripheral surface of the rotor chamber, an outer peripheral surface of the rotor, and any two adjacent vanes, wherein the vane slots include a first vane slot and a second vane slot that extends in a direction in which the first vane slot extends, the vanes include a first vane slidably received in the first vane slot and a second vane slidably received in the second vane slot, the rotor has therein a communication hole that provides communication between the first vane slot and the second vane slot, the first vane and the second vane have respective bottom surfaces near the axis of rotation of the rotor, at least one of the first vane and the second vane has a recessed portion in the corresponding bottom surface, the vane compressor further includes a transmission pin that is positioned in accommodated in the communication hole, the transmission pin includes a loose-fit portion that is loosely inserted in the recessed portion, a shaft portion that extends in a direction opposite to a direction in which the loose-fit portion is inserted and that extends towards a communication passage extending axially through a rotary shaft, and a flange portion that is formed between the loose-fit portion and the shaft portion and in contact with the bottom surface in which the recessed portion is formed, the vane compressor further includes a coil spring that is disposed in the communication hole to urge the first vane and the second vane in opposite directions away from each other via the flange portion, and the coil spring is disposed around the shaft portion and supported by the flange portion so as to urge and support the transmission pin. 2. The vane compressor according to claim 1 , wherein the coil spring is disposed in a compressed state. 3. The vane compressor according to claim 1 , wherein the first vane is configured to slide into the first vane slot and push the second vane to slide out of the second vane slot, and the second vane is configured to slide into the second vane slot and push the first vane to slide out of the first vane slot. 4. The vane compressor according to claim 1 , wherein the recessed portion includes a first recessed portion formed in the bottom surface of the first vane and a second recessed portion formed in the bottom surface of the second vane, the transmission pin includes a first transmission pin that is disposed in the first recessed portion and extends toward the second vane and a second transmission pin that is disposed in the second recessed portion and extends toward the first vane, the first transmission pin and the second transmission pin are disposed such that inner ends of the first transmission pin and the second transmission pin face each other with a clearance therebetween, the first transmission pin includes a first loose-fit portion that is loosely inserted in the first recessed portion, a first shaft portion that extends in a direction opposite to a direction in which the first loose-fit portion is inserted, and a first flange portion that is formed between the first loose-fit portion and the first shaft portion and in contact with the bottom surface in which the first recessed portion is formed, the second transmission pin includes a second loose-fit portion that is loosely inserted in the second recessed portion, a second shaft portion that extends in a direction opposite to a direction in which the second loose-fit portion is inserted, and a second flange portion that is formed between the second loose-fit portion and the second shaft portion and in contact with the bottom surface in which the second recessed portion is formed, the communication hole provides communication between the first recessed potion and the second recessed portion, and one end of the coil spring is in contact with the first flange portion and the other end of the coil spring is in contact with the second flange portion. 5. The vane compressor according to claim 4 , wherein the first shaft portion has a first tapered portion that is tapered toward the second transmission pin, and the second shaft portion has a second tapered portion that is tapered toward the first transmission pin. 6. The vane compressor according to claim 4 , wherein diameters of the first flange portion and the second flange portion are smaller than a diameter of the communication hole. 7. The vane compressor according to claim 4 , wherein the first vane and the second vane have a same shape, and the first transmission pin and the second transmission pin have a same shape. 8. The vane compressor according to claim 1 , wherein a discharge chamber is formed in the housing, a first backpressure chamber is formed between the bottom surface of the first vane and a bottom surface of the first vane slot, a second backpressure chamber is formed between the bottom surface of the second vane and a bottom surface of the second vane slot, the rotary shaft is fixed in the rotor so as to extend along the axis of rotation and be rotatably supported by the housing, and a backpressure passage that provides communication between the discharge chamber and the first and second backpressure chambers is formed in the rotary shaft and the rotor. 9. The vane compressor according to claim 8 , wherein the communication hole extends through the rotary shaft and forms a part of the backpressure passage.