Engine start system minimizing mechanical impact or noise

What is claimed is: 1. An engine start system comprising: a motor which is energized by supply of electric power from a battery through a motor circuit to produce torque; an output shaft which rotates when subjected to the torque, as produced by said motor; a pinion gear through which the torque, as produced by said motor, is transmitted to a ring gear coupled to an engine; a pinion movable body which is movable along said output shaft together with said pinion gear; a pinion actuator working to move said pinion movable body to the ring gear; a switching mechanism working to open or close main contacts installed in the motor circuit to cut or supply the electric power from the battery to said motor; a controller which controls operations of said pinion actuator and said switching mechanism when the engine is restarted during deceleration of the engine prior to stop of the engine; and delay means for delaying a second operation time that is a time when said switching mechanism is to be activated to close the main contacts until after a first operation time that is a time when said pinion actuator is to be activated to move said pinion movable body when the engine is restarted, said delay means producing a time lag between the first and second operation times so as to close the main contacts through said switching mechanism to supply the electric power to said motor after said pinion movable body is moved by said pinion actuator to shift the pinion gear from a rest position to a gear engageable position where said pinion gear is engageable with the ring gear, and then said pinion gear engages the ring gear, wherein the controller is configured to operate the switching mechanism at the second operation time based on the first operation time and the time lag produced by the delay means. 2. An engine start system as set forth in claim 1 , wherein said delay means sets the time lag between the first and second operation times to 30 ms or more. 3. An engine start system as set forth in claim 1 , wherein said pinion actuator is implemented by a solenoid actuator which produces a first electromagnet, and said switching mechanism is implemented by a motor on-off switch which produces a second electromagnet, and wherein said controller is designed to control operations of the solenoid actuator and the motor on-off switch independently of each other and has installed therein a delay function which makes up said delay means. 4. An engine start system as set forth in claim 1 , wherein said pinion actuator is implemented by a solenoid actuator which produces a first electromagnet, and said switching mechanism is implemented by a motor on-off switch which produces a second electromagnet, wherein said controller is designed to control operations of the solenoid actuator and the motor on-off switch independently of each other, and wherein said delay means is implemented by a delay circuit connected to an excitation circuit which works to excite the motor on-off switch. 5. An engine start system as set forth in claim 3 , wherein said controller changes the time lag between when the engine is requested to be restarted during the deceleration of the engine and when the engine is requested to be restarted after a complete stop of the engine. 6. An engine start system as set forth in claim 3 , wherein said solenoid actuator and said motor on-off switch are aligned in series with each other in an axial direction thereof. 7. An engine start system as set forth in claim 6 , wherein said solenoid actuator and said motor on-off switch have casings, respectively, which are arrayed integrally in the axial direction and constitute a magnetic circuit. 8. An engine start system as set forth in claim 1 , further comprising a magnetic coil producing an electromagnet when energized, a plunger which is movable along an inner periphery of said magnetic coil in an axial direction thereof, and a single electromagnetic switch designed to perform both an operation of said pinion actuator and an operation of the switching mechanism following movement of said plunger, and wherein the time lag is provided by a plunger stroke that is a distance which said plunger moves from a time when said plunger starts to be moved by attraction, as produced by the electromagnetic, until the main contacts are closed. 9. An engine start system as set forth in claim 1 , wherein the engine start system is installed in a vehicle equipped with an idle stop system working to stop and restart the engine automatically. 10. An engine start system comprising: a motor which is energized by supply of electric power from a battery through a motor circuit to produce torque; an output shaft which rotates when subjected to the torque, as produced by said motor; a pinion gear through which the torque, as produced by said motor, is transmitted to a ring gear coupled to an engine; a pinion movable body which is movable along said output shaft together with said pinion gear; a pinion actuator working to move said pinion movable body to the ring gear; a switching mechanism working to open or close main contacts installed in the motor circuit to cut or supply the electric power from the battery to said motor; a controller which controls operations of said pinion actuator and said switching mechanism when the engine is restarted during deceleration of the engine prior to stop of the engine; and delay means for delaying a second operation time that is a time when said switching mechanism is to be activated to close the main contacts until after a first operation time that is a time when said pinion actuator is to be activated to move said pinion movable body when the engine is restarted, said delay means producing a time lag between the first and second operation times so as to close the main contacts through said switching mechanism to supply the electric power to said motor after said pinion movable body is moved by said pinion actuator to advance the pinion gear from a rest position to a maximum movable position where engagement of said pinion gear with the ring gear is to be achieved, and then said pinion gear has engaged the ring gear, wherein the controller is configured to operate the switching mechanism at the second operation time based on the first operation time and the time lag produced by the delay means. 11. An engine start system as set forth in claim 10 , wherein said delay means sets the time lag between the first and second operation times to 30 ms or more. 12. An engine start system as set forth in claim 10 , wherein said pinion actuator is implemented by a solenoid actuator which produces a first electromagnet, and said switching mechanism is implemented by a motor on-off switch which produces a second electromagnet, and wherein said controller is designed to control operations of the solenoid actuator and the motor on-off switch independently of each other and has installed therein a delay function which makes up said delay means. 13. An engine start system as set forth in claim 10 , wherein said pinion actuator is implemented by a solenoid actuator which produces a first electromagnet, and said switching mechanism is implemented by a motor on-off switch which produces a second electromagnet, wherein said controller is designed to control operations of the solenoid actuator and the motor on-off switch independently of each other, and wherein said delay means is implemented by a delay circuit connected to an excitation circuit which works to excite the motor on-off switch. 14. An engine start system as set forth in claim 12 , wherein said controller changes the time lag between when the engine