Automatic transmission

The invention claimed is: 1. An automatic transmission comprising: an input shaft to be drivably coupled to a driving source of a vehicle; a drive shaft to be drivably coupled to a wheel; a forward/backward switching device having a forward engagement element forming a path for transferring rotation in a forward direction of the vehicle when engaged and a backward engagement element forming a path for transferring rotation in a backward direction of the vehicle when engaged; a transmission mechanism capable of changing a transmission shift ratio; a first engagement element present in a first power transmission path coupling the input shaft to the drive shaft via the forward/backward switching device; a second engagement element present in a second power transmission path coupling the input shaft to the drive shaft via the transmission mechanism; wherein a first mode is entered in which the forward engagement element and the first engagement element are put in an engagement state and the input shaft is connected to the drive shaft via the first power transmission path for rotational transfer when the vehicle travels forward at a speed less than a predetermined speed or a second mode is entered in which the second engagement element is put in the engagement state and the input shaft is connected to the drive shaft via the second power transmission path for rotational transfer when the vehicle travels forward at a speed equal to or more than the predetermined speed, a first rotary shaft disposed in a part of the first power transmission path on the forward/backward switching device side from the first engagement element, the first rotary shaft operating together with the forward/backward switching device; a second rotary shaft disposed in a part of the first power transmission path on a shaft side of one of the input shaft and the drive shaft from the first engagement element, the second rotary shaft operating together with the one of the input shaft and the drive shaft, the second rotary shaft being disposed as a double shaft overlapped in a shaft direction with the first rotary shaft; and a bearing present so as to be overlapped in the shaft direction with the first rotary shaft and the second rotary shaft between the first rotary shaft and the second rotary shaft, the bearing supporting the first rotary shaft and the second rotary shaft in a relatively rotatable manner, wherein an engagement mode in which the forward engagement element is put in the engagement state is executed when the vehicle travels forward in the second mode in which the second engagement element is put in the engagement state and the first engagement element is put in a release state. 2. The automatic transmission according to claim 1 , wherein, when the vehicle travels forward in the second mode in which the second engagement element is put in the engagement state and the first engagement element is put in the release state, if a difference in a rotational speed between the first rotary shaft and the second rotary shaft is smaller than a first threshold, a release mode in which the forward engagement element is put in the release state is executed. 3. The automatic transmission according to claim 2 , wherein, when the vehicle travels forward in the second mode in which the second engagement element is put in the engagement state and the first engagement element is put in the release state, if the difference in the rotational speed is larger than a second threshold that is larger than the first threshold, the engagement mode in which the forward engagement element is put in the engagement state is executed. 4. The automatic transmission according to claim 3 , wherein: the transmission mechanism is a continuously variable transmission mechanism capable of continuously changing the transmission shift ratio, the first mode is a non-continuously variable mode, and the second mode is a continuously variable mode. 5. The automatic transmission according to claim 4 , wherein the first engagement element is a synchromesh mechanism capable of meshing a first gear rotating integrally with the first rotary shaft with a second gear rotating integrally with the second rotary shaft. 6. The automatic transmission according to claim 1 , wherein: the transmission mechanism is a continuously variable transmission mechanism capable of continuously changing the transmission shift ratio, the first mode is a non-continuously variable mode, and the second mode is a continuously variable mode. 7. The automatic transmission according to claim 2 , wherein: the transmission mechanism is a continuously variable transmission mechanism capable of continuously changing the transmission shift ratio, the first mode is a non-continuously variable mode, and the second mode is a continuously variable mode. 8. The automatic transmission according to claim 1 , wherein the first engagement element is a synchromesh mechanism capable of meshing a first gear rotating integrally with the first rotary shaft with a second gear rotating integrally with the second rotary shaft. 9. The automatic transmission according to claim 2 , wherein the first engagement element is a synchromesh mechanism capable of meshing a first gear rotating integrally with the first rotary shaft with a second gear rotating integrally with the second rotary shaft. 10. The automatic transmission according to claim 3 , wherein the first engagement element is a synchromesh mechanism capable of meshing a first gear rotating integrally with the first rotary shaft with a second gear rotating integrally with the second rotary shaft. 11. The automatic transmission according to claim 6 , wherein the first engagement element is a synchromesh mechanism capable of meshing a first gear rotating integrally with the first rotary shaft with a second gear rotating integrally with the second rotary shaft. 12. The automatic transmission according to claim 7 , wherein the first engagement element is a synchromesh mechanism capable of meshing a first gear rotating integrally with the first rotary shaft with a second gear rotating integrally with the second rotary shaft.