A power transmission system for a working vehicle comprises: a vehicle frame; a prime mover mounted on the vehicle frame; a pair of left and right drive wheels; a pair of left and right transaxles juxtaposed on the vehicle frame, wherein each of the left and right transaxles includes a single axle f
A power transmission system for a working vehicle comprises: a vehicle frame; a prime mover mounted on the vehicle frame; a pair of left and right drive wheels; a pair of left and right transaxles juxtaposed on the vehicle frame, wherein each of the left and right transaxles includes a single axle for individually driving each of the left and right drive wheels in forward and rearward directions; a working device; and a working power clutch unit disposed between the left and right transaxles so as to clutch on/off power transmitted from the prime mover to the working device. The working power clutch unit includes: a driving side rotary mechanism for receiving power from the prime mover; the driving side rotary mechanism having one or more first rotors interlocking with each other; a driven side rotary mechanism for outputting power to the working device, the driven side rotary mechanism having one or more second rotors interlocking with each other; and a hydraulic clutch drivingly interposed between the driving side rotary mechanism and the driven side rotary mechanism, and incorporated in the working power clutch unit.
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What is claimed is: 1. A power transmission system for a working vehicle, comprising: a vehicle frame; a prime mover mounted on the vehicle frame; a pair of left and right drive wheels; a pair of left and right transaxles juxtaposed on the vehicle frame, wherein each of the left and right transaxle
What is claimed is: 1. A power transmission system for a working vehicle, comprising: a vehicle frame; a prime mover mounted on the vehicle frame; a pair of left and right drive wheels; a pair of left and right transaxles juxtaposed on the vehicle frame, wherein each of the left and right transaxles includes a single axle for individually driving each of the left and right drive wheels in forward and rearward directions; a working device; and a working power clutch unit disposed between the left and right transaxles so as to clutch on/off power transmitted from the prime mover to the working device, the working power clutch unit including: a driving side rotary mechanism for receiving power from the prime mover, the driving side rotary mechanism having one or more first rotors interlocking with each other, a driven side rotary mechanism for outputting power to the working device, the driven side rotary mechanism having one or more second rotors interlocking with each other, and a hydraulic clutch drivingly interposed between the driving side rotary mechanism and the driven side rotary mechanism, and incorporated in the working power clutch unit. 2. The power transmission system according to claim 1, wherein the working power clutch unit is integrally connected to the left and right transaxles. 3. The power transmission system according to claim 2, further comprising: a connection frame connecting the left and right transaxles to each other, wherein the working power clutch unit is supported by the connection frame. 4. The power transmission system according to claim 1, wherein the left and right transaxles receive power from the prime mover through the driving side rotary mechanism of the working power clutch unit. 5. The power transmission system according to claim 4, further comprising: a belt transmission interposed between the driving side rotary mechanism of the working power clutch unit and the pair of left and right transaxles. 6. The power transmission system according to claim 1, wherein the left and right transaxles receive power from the prime mover, which is not transmitted through the driving side rotary mechanism of the working power clutch unit. 7. The power transmission system according to claim 6, further comprising: a belt transmission interposed between the prime mover and the pair of left and right transaxles. 8. The power transmission system according to claim 1, wherein a rotary axis of the foremost first rotor receiving power from the prime mover is not coaxial but parallel to a rotary axis of the last second rotor outputting power to the working device. 9. The power transmission system according to claim 8, wherein the driving side rotary mechanism includes a gear train including gears serving as the first rotors whose rotary axes are not coaxial to each other. 10. The power transmission system according to claim 9, wherein the gear train includes an idle gear. 11. The power transmission system according to claim 1, wherein all of the first rotors and all of the second rotors are coaxial to each other. 12. The power transmission system according to claim 1, further comprising: a hydraulic pressure source for the hydraulic clutch, wherein at least one of the left and right transaxles includes the hydraulic pressure source. 13. The power transmission system according to claim 1, further comprising: a hydraulic pressure source for the hydraulic clutch, wherein the working power clutch unit includes the hydraulic pressure source. 14. The power transmission system according to claim 1, further comprising: a delay valve disposed on a fluid supply passage to the hydraulic clutch so as to moderate the clutching action of the hydraulic clutch. 15. The power transmission system according to claim 1, further comprising: a reservoir tank disposed in the working power clutch unit, wherein each of the working power clutch unit and the left and right transaxles includes an individual fluid sump fluidly connected to the reservoir tank. 16. The power transmission system according to claim 1, further comprising: a cooling fan which is rotatably integral with the first rotor. 17. The power transmission system according to claim 1, further comprising: a transmission interposed between the prime mover and the driving side rotary mechanism. 18. The power transmission system according to claim 1, wherein the prime mover includes an output shaft directly connected to the driving side rotary mechanism. 19. The power transmission system according to claim 1, further comprising: a brake mechanism disposed on the downstream side of the hydraulic clutch so as to brake the driven side rotary mechanism when the hydraulic clutch is clutched off.
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