Patent ID: 7108501
Filing Date: 2006-09-19
Classification: B29C,B29K

Abstract:
1. INTEGRATED MOLD FOR THE PRODUCTION OF CONTAINERS IN BI-ORIENTATED THERMOPLASTICS, characterized by the fact, that it can be installed in an injection molding machine, occupying the space normally destined for injection molds and comprising a central chassis ( 8 ), around which are at least one injection mold and one stretch-blow mold are placed; The central chassis ( 8 ) comprises a central block mechanism ( 30 ) where the injection and blow cores, the ejection and the stretch-blow mechanism ( 9 , 13 , 23 ) are attached; In the central chassis ( 8 ) and mounted on two rotating plate shafts ( 11 ) of the central block mechanism ( 30 ) is a motorized rotating mechanism ( 31 ), consisting of two rotating plates ( 28 ), to transport the preforms from one position to another, on the periphery of the central chassis ( 8 ); As the rotating plates ( 28 ) are fixed via the rotating plate tie-bars ( 17 ) and have on their interior surface sliding bars ( 7 ) of the preform carrier plates ( 27 ) and carrier plate opening limit cams ( 19 ), to open the latches ( 3 ), placed on both the injection and blow molds, that drag the preform carrier plates ( 27 ) during the opening of the integrated mold to the edge of the rotating plates ( 28 ), where they are then in the position to transport the preforms, during the productive cycle, which, while explanatory and simplified, starts after the mounting and positioning of the integrated mould in the totally open position, with the preform carrier plates ( 27 ) ready for preform transport and with all the cavities and preform carrier plates ( 27 ) empty; After the lateral closing of the blow mold, the injection molding machine then closes its platens and concludes the total closing of the integrated mold at this point, the molten plastic is injected into the injection mold forming the first set of preforms, once the preforms are solid, the machine platens move and the INTEGRATED MOLD is fully open, wit the performs positioned for transport on the edge of the Rotating Plates ( 28 ); now starts the movement of the Rotating Mechanism ( 31 ), in a synchronized way, and the first set of preforms goes to an intermediate waiting position, between the injection and blow molds; the INTEGRATED MOLD is again completely closed, so that a second set of preforms is injected in the injection mold, again total opening of the INTEGRATED MOLD and rotation, after this the first set of preforms are placed in front of the blow mold; total close of the INTEGRATED MOLD and a third set of preforms are injected whilst at the same time the first set of preforms are being stretched and blown, so that the finished containers can be obtained; again total opening of the INTEGRATED MOLD, the rotation system ( 31 ) is again rotated causing the first set of finished containers to be placed at the ejection position; Again the integrated mold is completely closed, and ejection of the finished containers is carried out in parallel wit the injection of the fourth set of preforms and the stretch-blow of to second set of preforms; Alter a new opening stroke and rotation cycle the now empty preform carrier plates ( 27 ) are placed in front of the injection mold, so that after the next closing of the integrated mold a new production cycle starts and the process repeats, injection, stretch-blow, ejection, opening, rotation and so on successively.