Method for producing hollow bodies from thermoplastic materials by using an at least three-part blow-molding tool and apparatus for carrying out the method

What is claimed is: 1. A method for producing a hollow body from thermoplastic material, comprising: using an at least three-part blow-molding tool having at least two blow-mold halves, which each have at least one part-cavity and are displaceable toward one another and away from one another in an opening and closing movement, and at least one central tool, which is arrangeable between the blow-mold halves, and displaceable transversely in relation to the opening and closing movement of the blow-mold halves, and wherein the central tool includes at least one extendible and retractable sealing element, extruding or providing and arranging at least two molten performs of thermoplastic material between the blow-mold halves in an opened receiving position of the blow-mold halves, bringing the preforms into the part-cavities of the blow-mold halves and molding the preforms into shells using the sealing element on the central tool which is extended on the central tool for sealing off at least one of the part-cavities before and/or while the part-cavities are subjected to differential pressure and are brought into contact with the blow-mold halves, joining at least one insert in at least one shell of the shells by using the central tool arranged between the blow-mold halves, removing the central tool from between the blow-mold halves, and joining the shells to form the hollow body by closing the blow-mold halves while applying clamping force and, optionally, final blow molding of the hollow body. 2. The method as claimed in claim 1 , wherein the joining of the at least one insert occurs by using a displacing movement of at least one blow-mold half of the blow-mold halves toward the central tool or in a direction of the central tool. 3. The method as claimed in claim 2 , wherein the joining of the at least one insert occurs during or after the displacing movement of the at least one blow-mold half of the blow-mold halves. 4. The method as claimed in claim 1 , wherein the sealing off of at least one of the part-cavities occurs by using superposed displacing movement of at least one blow-mold half of the blow-mold halves and the sealing element of the central tool. 5. The method as claimed in claim 1 , wherein, at a beginning of a blow-molding cycle, the central tool is loaded with the at least one insert in a loading position not between the blow mold halves and is then displaced into a working position between the blow-mold halves. 6. The method as claimed in claim 1 , wherein the joining of the at least one insert occurs by using a displacing movement of at least one blow-mold half of the blow-mold halves toward the central tool, and the sealing element being retracted previously or at a same time. 7. The method as claimed in claim 1 , wherein the at least one central tool comprises a two-part central tool, the parts of which are moved apart and brought against the blow-mold halves for sealing off the part-cavities before and/or while the part-cavities are subjected to the differential pressure. 8. The method as claimed in claim 1 , wherein the sealing off of the part-cavities occurs by using a displacing movement of the central tool and/or the sealing element of the central tool in relation to the blow-mold halves arranged fixed in place in an opened position. 9. The method as claimed in claim 1 , wherein the joining of the at least one insert occurs by using a displacing movement of the central tool in relation to the blow-mold halves arranged fixed in place in an opened position. 10. An apparatus comprising: an at least three-part blow-molding tool having at least two blow-mold halves, which each have at least one part-cavity and are displaceable toward one another and away from one another in an opening and closing movement, and at least one central tool, which is arrangeable between the blow-mold halves, and displaceable transversely in relation to the opening and closing movement of the blow-mold halves, and wherein the central tool includes at least one extendible and retractable sealing element which is configured to seal at least one of the part-cavities of the blow-mold halves. 11. The apparatus as claimed in claim 10 , wherein the at least one extendible and retractable sealing element are is formed as a peripheral sealing frame. 12. The apparatus as claimed in claim 10 , wherein the at least one extendible and retractable sealing element which is configured to seal at least one of the part-cavities of the blow-mold halves further comprises at least two extendible and retractable sealing elements which are each configured to seal at least one of the part-cavities of the blow-mold halves. 13. The apparatus as claimed in claim 10 , wherein the central tool comprises at least one component receptacle to hold at least one insert. 14. The apparatus as claimed in claim 12 , wherein the at least two extendible and retractable sealing elements are arranged on opposing sides of the central tool. 15. The apparatus as claimed in claim 14 , wherein each of the extendible and retractable sealing elements is formed as a peripheral sealing frame. 16. A method for producing a hollow body from thermoplastic material, comprising: using an at least three-part blow-molding tool having at least two blow-mold halves, which each have at least one part-cavity and are displaceable toward one another and away from one another in an opening and closing movement, and at least one central tool, which is arrangeable between the blow-mold halves, and displaceable transversely in relation to the opening and closing movement of the blow-mold halves, and wherein the central tool includes at least one extendible and retractable sealing element, extruding or providing and arranging at least two molten performs of thermoplastic material between the blow-mold halves in an opened receiving position of the blow-mold halves, extending the extendible and retractable sealing element of the central tool, arranging the central tool between the mold halves, sealing at least one of the part-cavities of the blow-mold halves with the sealing element of the central mold before and/or while subjecting the part-cavities to a differential pressure which brings the preforms into the part-cavities of the blow-mold halves to form shells, joining at least one insert in at least one shell of the shells by using the central tool, retracting the extendible and retractable sealing element of the central tool, removing the central tool from between the blow-mold halves, and joining the shells to form the hollow body by closing the blow-mold halves while applying clamping force and, optionally, final blow molding of the hollow body.