Maintenance method for an installation for forming containers, including a resynchronizing procedure

The invention claimed is: 1. Maintenance method for an installation ( 1 ) for production of containers ( 2 ) from blanks ( 3 ) made of plastic material, which comprises: a blow-molding machine ( 4 ) comprising a rotating carousel ( 5 ) and a plurality of forming stations ( 6 ), each including a mold (M) that is mounted on the carousel ( 5 ) and that can assume an open position to make possible the insertion of a blank ( 3 ) and the withdrawal of a container ( 2 ), and a closed position to make possible the forming of a container ( 2 ) from the blank ( 3 ); a primary power unit ( 8 ) connected to the carousel ( 5 ) to drive it in a cyclical rotation; a transfer device ( 13 , 14 ), which comprises a wheel ( 15 ) provided with a plurality of gripping elements ( 16 ), each able, during the rotation of the wheel ( 15 ), to be positioned at a transfer point (T) where the gripping element ( 16 ) is normally aligned with a mold (M) to insert a blank ( 3 ) therein or to withdraw a container ( 2 ) therefrom; a secondary power unit ( 18 ) connected to the wheel ( 15 ) and synchronized with the primary power unit ( 8 ) to drive the wheel ( 15 ) in a cyclical rotation that is synchronized with that of the carousel ( 5 ); a control unit ( 12 ), connected to the power units ( 8 , 18 ); the method comprising: detection of a misalignment of the gripping elements ( 16 ) in relation to the molds (M); stopping of the carousel ( 5 ) and of the wheel ( 15 ); desynchronization of the power units ( 8 , 18 ); definition, from a reference point connected with the carousel ( 5 ), of a resynchronizing zone (R) positioned between two molds (M 1 , M 2 ) located, during the stopping, on either side of the transfer point (T); desynchronized partial rotation of the carousel ( 5 ) and/or of the wheel ( 15 ), until placement of a gripping element ( 16 ) in the resynchronizing zone (R); resynchronizing of the power units ( 8 , 18 ); synchronized rotation, by stepping, of the carousel ( 5 ) and of the wheel ( 15 ) to make possible the withdrawal of the blanks ( 3 ) or of the containers ( 2 ) from the molds (M 1 , M 2 ) near the transfer point; desynchronizing of the power units ( 8 , 18 ); desynchronized partial rotation of the carousel ( 5 ) and/or of the wheel ( 15 ), until resetting the alignment of the gripping elements ( 16 ) with the molds (M); resynchronizing of the power units ( 8 , 18 ). 2. Method according to claim 1 , wherein the steps are, completely or partially, controlled by a push on a stepping controller ( 21 ), connected to the control unit ( 12 ). 3. Method according to claim 2 , wherein the instantaneous angular position of the carousel ( 5 ) and that of the wheel ( 15 ) are furnished to the control unit ( 12 ) by an encoder. 4. Method according to claim 3 , wherein the resynchronizing zone (R) is located equidistant from two adjacent molds (M 1 , M 2 ). 5. Method according to claim 2 , wherein the resynchronizing zone (R) is located equidistant from two adjacent molds (M 1 , M 2 ). 6. Method according to claim 1 , wherein the instantaneous angular position of the carousel ( 5 ) and that of the wheel ( 15 ) are furnished to the control unit ( 12 ) by an encoder. 7. Method according to claim 6 , wherein the resynchronizing zone (R) is located equidistant from two adjacent molds (M 1 , M 2 ). 8. Method according to claim 1 , wherein the resynchronizing zone (R) is located equidistant from two adjacent molds (M 1 , M 2 ).