Electrically driven winch device and mobile crane

The invention claimed is: 1. An electrically driven winch device, comprising: a winch drum rotating around a drum axis in order to wind or unwind a work rope; a plurality of axial-gap electric motors, which are electric motors configured to drive the winch drum to rotate and are each provided with a stator, and a rotor that rotates around a rotation axis and is disposed to face the stator in an axial direction with an axial gap; and a drive shaft being disposed coaxially with the drum axis and serially connects the rotors of the plurality of electric motors on the rotation axis. 2. The electrically driven winch device according to claim 1 , further comprising a brake configured to brake the drive shaft. 3. A mobile crane comprising: an operation unit for hoisting work; and the electrically driven winch device according to claim 1 , wherein the work rope is a rope connected with the operation unit. 4. An electrically driven winch device, comprising: a winch drum rotating around a drum axis in order to wind or unwind a work rope; a plurality of axial-gap electric motors, which are electric motors configured to drive the winch drum to rotate and are each provided with a stator, and a rotor that rotates around a rotation axis and is disposed at an axial distance from the stator; and a drive shaft being disposed coaxially with the drum axis and serially connects the rotors of the plurality of electric motors on the rotation axis, wherein the axial-gap electric motor is an electric motor of double rotor type having one stator and a pair of rotors disposed so as to sandwich the stator in an axial direction. 5. A mobile crane comprising: an operation unit for hoisting work; and the electrically driven winch device according to claim 4 , wherein the work rope is a rope connected with the operation unit. 6. An electrically driven winch device, comprising: a winch drum rotating around a drum axis in order to wind or unwind a work rope; a plurality of axial-gap electric motors, which are electric motors configured to drive the winch drum to rotate and are each provided with a stator, and a rotor that rotates around a rotation axis and is disposed at an axial distance from the stator; and a drive shaft being disposed coaxially with the drum axis and serially connects the rotors of the plurality of electric motors on the rotation axis, wherein the stator has a plurality of slots composed of a magnetic core and an exciting coil, wherein the rotor has a plurality of magnetic poles composed of permanent magnets, and wherein each of the electric motors is to cause cogging decided by a number of the slots and a number of the magnetic poles, and further comprises a cancelling mechanism configured to cancel cogging that occurs in one electric motor of the plurality of electric motors, and cogging that occurs in another electric motor. 7. The electrically driven winch device according to claim 6 , wherein the cancelling mechanism includes: a characteristic that a rotor of one electric motor of the plurality of electric motors is fixed to the drive shaft at a reference rotation angle at which the magnetic pole is positioned at a predetermined reference position; and a characteristic that a rotor of another electric motor is fixed to the drive shaft in a state where the magnetic pole is positioned at a position shifted in a rotation direction with respect to the reference rotation angle so that cogging which occurs in the another electric motor, cancels cogging which occurs in the one electric motor. 8. The electrically driven winch device according to claim 6 , wherein the cancelling mechanism includes: a characteristic that a stator of one electric motor of the plurality of electric motors is disposed in the one electric motor in a state where the slot is positioned at a predetermined reference slot position; and a characteristic that a stator of another electric motor is disposed in the another electric motor with a positional relation that the slot is shifted in the rotation direction with respect to the reference slot position so that cogging which occurs in said the another electric motor, cancels cogging which occurs in the one electric motor. 9. A mobile crane comprising: an operation unit for hoisting work; and the electrically driven winch device according to claim 6 , wherein the work rope is a rope connected with the operation unit. 10. An electrically driven winch device, comprising: a winch drum rotating around a drum axis in order to wind or unwind a work rope; a plurality of axial-gap electric motors, which are electric motors configured to drive the winch drum to rotate and are each provided with a stator, and a rotor that rotates around a rotation axis and is disposed at an axial distance from the stator; a drive shaft being disposed coaxially with the drum axis and serially connects the rotors of the plurality of electric motors on the rotation axis; and a clutch, which switches over between a connected state where torque is transmitted between the drive shaft and the winch drum and a disconnected state where transmission of the torque is broken. 11. A mobile crane comprising: an operation unit for hoisting work; and the electrically driven winch device according to claim 10 , wherein the work rope is a rope connected with the operation unit.