Marine propulsion apparatus

The invention claimed is: 1. A marine propulsion apparatus that can-transmits power of an internal combustion engine mounted on a ship to a propeller via a forward reverse switching mechanism, the marine propulsion apparatus comprising: a generator motor; and a connection switching mechanism capable of selectively connecting the generator motor to a power input side and a power output side of the forward reverse switching mechanism, wherein the connection switching mechanism is interposed between the generator motor and the forward reverse switching mechanism, wherein in a state where the generator motor is connected to the output side of the forward reverse switching mechanism by the connection switching mechanism, when the forward reverse switching mechanism is neutral, the propeller is driven by power of the generator motor, or the generator motor is operated as a generator by an idle force of the propeller due to a tidal current. 2. The marine propulsion apparatus according to claim 1 , wherein in a state where the generator motor is connected to the power input side of the forward reverse switching mechanism by the connection switching mechanism, when the power of the internal combustion engine is transmitted to the propeller via the forward reverse switching mechanism, the generator motor can assists the internal combustion engine, and when the forward reverse switching mechanism is neutral, the generator motor is operated as a generator by the power of the internal combustion engine. 3. A marine propulsion apparatus that transmits power of an internal combustion engine mounted on a ship to a propeller via a forward reverse switching mechanism, the marine propulsion apparatus comprising: a generator motor; and a connection switching mechanism capable of selectively connecting the generator motor to a power input side and a power output side of the forward reverse switching mechanism, wherein the connection switching mechanism is interposed between the generator motor and the forward reverse switching mechanism, wherein the connection switching mechanism includes a first gear train and a second gear train, respective input gears thereof being configured to be alternatively engaged with and disengaged from the generator motor, wherein the forward reverse switching mechanism includes an input shaft coupled to the internal combustion engine, a forward clutch on the input shaft, a forward rotation output gear that transmits the power of the internal combustion engine to a reduction output gear on a propeller side by an engagement of the forward clutch, a reverse rotation shaft parallel to the input shaft, a transmission gear pair that couples the reverse rotation shaft and the input shaft, a reverse clutch on the reverse rotation shaft, and a reverse output gear that transmits the power of the internal combustion engine to the reduction output gear by an engagement of the reverse clutch, wherein the input side is the transmission gear pair, and the output side is the forward rotation output gear and the reverse rotation output gear, wherein an output gear of the first gear train is meshed with the forward rotation output gear or the reverse rotation output gear, and wherein an output gear of a second gear train is set to have a specification of meshing with one of the transmission gear pair and a specification of meshing with an other of the transmission gear pair. 4. The marine propulsion apparatus according to claim 3 , wherein a reduction ratio of the first gear train is set to be larger than a reduction ratio of the second gear train. 5. A marine propulsion apparatus that transmits power of an internal combustion engine mounted on a ship to a propeller via a forward reverse switching mechanism, the marine propulsion apparatus comprising: a generator motor; and a connection switching mechanism capable of selectively connecting the generator motor to a power input side and a power output side of the forward reverse switching mechanism, wherein the connection switching mechanism is interposed between the generator motor and the forward reverse switching mechanism, wherein a housing that houses the forward reverse switching mechanism and the connection switching mechanism is formed by connecting a first cover body in which the internal combustion engine is installed, an intermediate case body, and a second cover body in which the generator motor is installed, an inside of the housing being formed with a first chamber surrounded by the first cover body and the intermediate case body, and a second chamber surrounded by the intermediate case body and the second cover body, and wherein the first chamber houses the forward reverse switching mechanism and the connection switching mechanism, while the second chamber houses a transmission mechanism that couples the generator motor and the connection switching mechanism in such a manner that power is transmitted. 6. The marine propulsion apparatus according to claim 5 , wherein an operation unit of the connection switching mechanism is disposed in an upper part of the first chamber of the housing, an actuator that switches and actuates the operation unit is disposed on a side of the generator motor, and an operation system that couples both is provided on an upper surface side of the housing. 7. The marine propulsion apparatus according to claim 1 , wherein the connection switching mechanism includes a first switching gear and a second switching gear, those gears being configured to be alternatively engaged with and disengaged from the generator motor, wherein the forward reverse switching mechanism includes an input shaft coupled to the internal combustion engine, a forward clutch on the input shaft, a forward rotation output gear that transmits the power of the internal combustion engine to a reduction output gear on a propeller side by an engagement of the forward clutch, a reverse rotation shaft parallel to the input shaft, a transmission gear pair that couples the reverse rotation shaft and the input shaft, a reverse-clutch on the reverse rotation shaft, and a reverse rotation output gear that transmits the power of the internal combustion engine to the reduction output gear by an engagement of the reverse clutch, wherein the input side is the transmission gear pair, and the output side is the forward rotation output gear and the reverse rotation output gear, wherein the forward rotation output gear and the reduction output gear are a conical gear pair, and an output shaft to which the reduction output gear is fixed is tilted with respect to the input shaft, wherein the first switching gear is meshed with the forward rotation output gear, as a reverse conical gear, and wherein the second switching gear is meshed with one or an other of the transmission gear pair.