Clutch device and washing machine

The invention claimed is: 1. A clutch device structured to connect and disconnect transmission of a rotation drive force from a motor to a washing tub, the clutch device comprising: a first rotor body to which the rotation drive force of the motor is transmitted; a second rotor body which is engageable with the first rotor body; a clutch drive motor which is connected with a first drive line and a second drive line and is structured to be rotated by electric power supplied through the first drive line and the second drive line; a clutch mechanism which is driven by the clutch drive motor to perform switching between a connecting state where the rotation drive force is transmitted from the first rotor body to the second rotor body and a disconnecting state where the connecting state is released; a first switch which is switched from an “ON” state to an “OFF” state when switched from the connecting state to the disconnecting state, the first switch comprising first and second contact point electrodes; a second switch which is switched from an “ON” state to an “OFF” state when switched from the disconnecting state to the connecting state, the second switch comprising first and second contact point electrodes; a first terminal which is electrically connected with the first contact point electrode of the first switch; a second terminal which is electrically connected with the first drive line; a third terminal which is electrically connected with the first contact point electrode of the second switch; and a fourth terminal which is electrically connected with the second drive line; wherein the second contact point electrode of the first switch and the second contact point electrode of the second switch are electrically connected with the second drive line. 2. The clutch device according to claim 1 , wherein the clutch mechanism comprises: a rotation member which is driven by the clutch drive motor; and a swing member which is structured to be reciprocatedly swung over a constant angular range based on rotation of the rotation member to move the second rotor body between a connecting position where the second rotor body is engaged with the first rotor body and a disconnecting position where engagement of the second rotor body with the first rotor body is released; the first rotor body and the second rotor body are coaxially disposed so as to be superposed on each other in an axial line direction of the washing tub, the swing member is overlapped with the second rotor body in the axial line direction and is disposed so as to swing with a swing center line coincided with rotation center lines of the first rotor body and the second body as a center, the swing member is formed on one side in the axial line direction with a plurality of first cam faces of a cam mechanism structured to move the second rotor body in a direction approached to and separated from the first rotor body, and the plurality of the first cam faces is disposed with equal angular intervals with the swing center line as a center. 3. The clutch device according to claim 2 , wherein the swing member is structured so that the swing member is reciprocatedly swung over the constant angular range by being moved by an eccentric pin provided in the rotation member and thereby the swing member is moved in the axial line direction between the connecting position and the disconnecting position, the eccentric pin is passed through a first rotation position and a second rotation position in tangential directions parallel to an imaginary line which is formed by connecting a rotation center of the rotation member and a swing center of the swing member, and when the eccentric pin is passed one of the first rotation position and the second rotation position, the swing member is moved to the connecting position and, when passing the other of the first rotation position and the second rotation position, the swing member is moved to the disconnecting position. 4. The clutch device according to claim 3 , wherein the clutch mechanism comprises a plurality of second cam faces, each of the plurality of second cam faces facing one of the plurality of first cam faces, and each second cam face of the plurality of second cam faces comprises: a connecting position holding cam face which is extended in a circumferential direction so that its normal direction is directed in a direction parallel to the axial line and which holds the second rotor body at the connecting position; and a disconnecting position holding cam face which is extended in the circumferential direction so that its normal direction is directed in a direction parallel to the axial line and which holds the second rotor body at the disconnecting position. 5. The clutch device according to claim 2 , wherein the clutch mechanism comprises a plurality of second cam faces, each of the plurality of second cam faces facing one of the plurality of first cam faces, and each second cam face of the plurality of second cam faces comprises: a connecting position holding cam face which is extended in a circumferential direction so that its normal direction is directed in a direction parallel to the axial line and which holds the second rotor body at the connecting position; and a disconnecting position holding cam face which is extended in the circumferential direction so that its normal direction is directed in a direction parallel to the axial line and which holds the second rotor body at the disconnecting position. 6. The clutch device according to claim 1 , further comprising: a rotation cam which is rotationally driven by the clutch drive motor; a first movable plate which structures the second contact point electrode of the first switch and which contacts with a cam face of the rotation cam in an urged state toward the cam face; and a second movable plate which structures the second contact point electrode of the second switch and which contacts with the cam face in an urged state toward the cam face, wherein a first inclined face of the cam face for moving the first movable plate and the second movable plate from an “ON” position to an “OFF” position is steeper in inclination than a second inclined face for moving the first movable plate and the second movable plate from the “OFF” position to the “ON” position. 7. The clutch device according to claim 6 , wherein the clutch mechanism comprises: a rotation member which is driven by the clutch drive motor; and a swing member which is structured to be reciprocatedly swung over a constant angular range based on rotation of the rotation member to move the second rotor body between a connecting position where the second rotor body is engaged with the first rotor body and a disconnecting position where engagement of the second rotor body with the first rotor body is released; the first rotor body and the second rotor body are coaxially disposed so as to be superposed on each other in an axial line direction of the washing tub, the swing member is overlapped with the second rotor body in the axial line direction and is disposed so as to swing with a swing center line coincided with rotation center lines of the first rotor body and the second body as a center, the swing member is formed on one side in the axial line direction with a plurality of first cam faces of a cam mechanism structured to move the second rotor body in a direction approached to and separated from the first rotor body, and the plurality of the first cam faces is disposed with equal angular intervals with the swing center line as a center. 8. The clutch device according to claim 7 , wherein the swing member is structured so that the swing member is reciprocatedly swung over the constant angular range by