Blind rivet fastening device

The invention claimed is: 1. A blind rivet fastening device for deforming a sleeve of a rivet body so as to expand diametrically by drawing, in the axial direction, a mandrel of a blind rivet including a mandrel and a rivet body, thereby fastening the rivet body to a mounted member via the expanded sleeve portion and a flange of the rivet body, and breaking the mandrel, the blind rivet fastening device characterized in comprising: an electric motor provided on one end; a power transmitting means for transmitting the rotation of the electric motor; a spindle provided in front of the electric motor and rotated by the power transmitted by the power transmitting means; a ball screw nut adjacent to the spindle, and connected to and rotated by the spindle; a ball screw shaft provided in the central portion of the ball screw nut in the axial direction, and moved in the axial direction by the rotation of the ball screw nut; a drawing means connected to the ball screw shaft for gripping and drawing a shaft portion of the mandrel; a rotation count detecting element for detecting the rotation count of the electric motor; a trigger provided in a handle portion; and a control means for controlling the forward rotation, reverse rotation, and stopping of the electric motor based on operation of the trigger and the rotation count of the electric motor; a first clutch including a spindle clutch and a nut clutch, the first clutch positioned between the spindle and the ball screw nut, and a second clutch which includes a rear clutch and a front clutch is positioned in front of the ball screw shaft, wherein the first and second clutches are provided to keep excessive tongue from moving the pulling head beyond the range defined by the home position HP and the rear position RP. 2. An electric blind rivet fastening device according to claim 1 , wherein a collection chamber for collecting the broken portions of mandrel shafts is provided between the electric motor and the spindle. 3. An electric blind rivet fastening device according to claim 1 , wherein the drawing means comprises: a pulling head moved in the axial direction by the ball screw shaft moving in the axial direction; a jaw case adjacent to the pulling head, integrated with the pulling head, and having an inner peripheral surface whose inner diameter becomes smaller towards the front end; a jaw provided inside the jaw case, and having an outer peripheral surface in contact with the inner peripheral surface of the jaw case; and a nose piece adjacent to the jaw, and having an opening portion through which passes the shaft portion of the mandrel. 4. An electric blind rivet fastening device according to claim 1 , wherein the power transmitting means comprises: a motor gear connected to the electric motor; a rear gear provided below the motor gear and engaging the motor gear; a spindle gear engaging the spindle; a front gear provided below the spindle gear and engaging the spindle gear; a second shaft provided below the collection chamber and integrally joined to the rear gear and the front gear. 5. An electric blind rivet fastening device according to claim 1 , wherein the electric motor is a brushless motor. 6. An electric blind rivet fastening device according to claim 1 , wherein the rotation count detecting element is a Hall element. 7. An electric blind rivet fastening device according to claim 1 , wherein the spindle clutch includes a cylindrical portion and a fan-shaped portion, able to move in the axial direction with respect to the spindle, and rotating with the spindle; and wherein the nut clutch includes a fan-shaped portion engaging the fan-shaped portion of the spindle clutch, and integrally joined to the ball screw nut; the first clutch able to disengage from the spindle clutch and the nut clutch so as not to transmit the rotation of the spindle to the ball screw nut. 8. An electric blind rivet fastening device according to claim 7 , wherein a protruding portion of a cylindrical tail integrally joined to the rear end of the ball screw shaft pushes an inner end face of the spindle clutch to the rear in the axial direction, and the fan-shaped portion of the spindle clutch disengages the fan-shaped portion of the nut clutch when the ball screw shaft reaches the rear end in the axial direction. 9. An electric blind rivet fastening device according to claim 3 , further comprising a second clutch including: a rear clutch having a cylindrical shape and saw teeth at the front end, and arranged so as to be able to move in the axial direction around the pulling head but so as not to be able to rotate; and a front clutch having a cylindrical shape and saw teeth at the rear end engaging the saw teeth of the rear clutch, and arranged in front of the rear clutch, around the pulling head, and integrally joined to the pulling head. 10. An electric blind rivet fastening device according to claim 9 , wherein the saw teeth of the rear clutch have one face which is parallel to the rear clutch in the axial direction, and another face inclined with respect to the axial direction; and the saw teeth of the front clutch have a shape able to engage the saw teeth of the rear clutch. 11. An electric blind rivet fastening device according to claim 10 , wherein the ball screw shaft does not move in the axial direction but rotates with the ball screw nut, the front clutch rotates, and the rear clutch retreats in the axial direction so the front clutch is able to rotate when the ball screw shaft reaches the front end.