Locking system equipped with a handle and with a remotely situated inertial system

What is claimed is: 1. A locking system for a door leaf of a motor vehicle comprising the door leaf which extends longitudinally, in a vertical plane, from a front edge up to a rear edge, the door leaf comprising a central area which is interposed longitudinally between the front edge and the rear edge, and the locking system including a handle which comprises: a frame adapted to be fastened on the door leaf; a gripping lever mounted movable in rotation relative to the frame about a first axis of rotation, between at least a rest position and a control position for opening a lock of the door leaf; a gripping element arranged on an outer side of the door leaf and configured so as to enable a user to actuate the gripping lever, the gripping element being delimited longitudinally by a front end and a rear end, wherein, the front end of the gripping element is secured to the gripping lever to drive the gripping lever in rotation when the rear end of the gripping element is actuated; a transmission lever pivotally mounted relative to the frame about a second axis of rotation, between a rest position and an actuation position in which the transmission lever actuates the opening of the lock, the transmission lever being driven in rotation by the gripping lever; and a first inertial safety system mounted on the frame and including a rocker which carries an inertial mass, the rocker being pivotally mounted between a rest position and a blocking position in which the rocker inhibits the rotation of the transmission lever, in an impact event, wherein the first axis of rotation of the gripping lever extends vertically at the front of the front end of the gripping element, the inertial mass being arranged longitudinally in front of the first axis of rotation of the gripping lever, and wherein the first axis of rotation extends substantially perpendicular with respect to the second axis of rotation. 2. The locking system according to claim 1 , wherein the inertial mass is adapted to be arranged longitudinally between the central area of the door leaf and the first axis of rotation of the gripping lever. 3. The locking system according to claim 1 , wherein the gripping element has an elongated shape which extends longitudinally from its front end up to its rear end. 4. The locking system according to claim 1 , wherein the rocker extends longitudinally, from a rear end, up to a front end which carries the inertial mass and which comprises a blocking finger designed so as to cooperate with a blocking face delimited by the transmission lever to oppose the rotation of the transmission lever in the impact event, the rocker being pivotally mounted about a third vertical axis of rotation interposed between the rear end and the front end of the rocker. 5. The locking system according to claim 1 , wherein the gripping element is adapted to be flush with an outer face of the door leaf when the gripping lever occupies its rest position, the outer face being arranged outside the motor vehicle. 6. The locking system according to claim 1 , wherein the handle includes a second inertial safety system including a rocker which carries an inertial mass, the rocker being pivotally mounted between a rest position and a blocking position in which the rocker inhibits the rotation of the transmission lever, in the impact event, the inertial mass of the second inertial safety system being arranged longitudinally at the front of the front end of the gripping element, and in that each of the second inertial safety system and the first inertial safety system are configured so as to be activated in response to a different range of impact intensities. 7. A door handle for a motor vehicle door leaf, the door handle including: a frame which adapted to be fastened on the motor vehicle door leaf; a gripping lever mounted movable in rotation relative to the frame about a first axis of rotation, between at least a rest position and a control position for opening a lock of the motor vehicle door leaf; a gripping element arranged on an outer side of the motor vehicle door leaf and configured so as to enable a user to actuate the gripping lever, the gripping element being delimited longitudinally by a front end and a rear end, wherein the front end of the gripping element is secured to the gripping lever to drive the gripping lever in rotation when the rear end of the gripping element is actuated; a transmission lever pivotally mounted relative to the frame about a second axis of rotation, between a rest position and an actuation position in which the transmission lever actuates the opening of the lock, the transmission lever being driven in rotation by the gripping lever; and a first inertial safety system mounted on the frame and including a rocker which carries an inertial mass, the rocker being pivotally mounted between a rest position and a blocking position in which the rocker inhibits the rotation of the transmission lever, in an impact event, wherein the first axis of rotation of the gripping lever extends vertically at the front of the front end of the gripping element, the inertial mass being arranged longitudinally in front of the first axis of rotation of the gripping lever, and wherein the first axis of rotation extends substantially perpendicular with respect to the second axis of rotation. 8. A locking system for a door leaf of a motor vehicle comprising the door leaf which extends longitudinally, in a vertical plane, from a front edge up to a rear edge, the door leaf comprising a central area which is interposed longitudinally between the front edge and the rear edge, and the locking system including a handle which comprises: a frame adapted to be fastened on the door leaf; a gripping lever mounted movable in rotation relative to the frame about a first axis of rotation, between at least a rest position and a control position for opening a lock of the door leaf; a gripping element arranged on an outer side of the door leaf and configured so as to enable a user to actuate the gripping lever, the gripping element being delimited longitudinally by a front end and a rear end; a transmission lever pivotally mounted relative to the frame about a second axis of rotation, between a rest position and an actuation position in which the transmission lever actuates the opening of the lock, the transmission lever being driven in rotation by the gripping lever; and a first inertial safety system mounted on the frame and including a rocker which carries an inertial mass, the rocker being pivotally mounted between a rest position and a blocking position in which the rocker inhibits the rotation of the transmission lever, in an impact event, wherein the first axis of rotation of the gripping lever extends vertically at the front of the front end of the gripping element, the inertial mass being arranged longitudinally in front of the first axis of rotation of the gripping lever, wherein the handle includes a second inertial safety system including a rocker which carries an inertial mass, the rocker being pivotally mounted between a rest position and a blocking position in which the rocker inhibits the rotation of the transmission lever, in the impact event, the inertial mass of the second inertial safety system being arranged longitudinally at the front of the front end of the gripping element, and in that each of the second inertial safety system and the first inertial safety system are configured so as to be activated in response to a different range of impact intensities.