Molding tool

The invention claimed is: 1. A molding tool, comprising: a base tool; a socket defined by the base tool; a molding core received in the socket; wherein the molding core has opposed side walls each defining a discrete recess therein, wherein the recesses are spaced a lateral distance apart from one another; at least two controllable adjustment elements for determining a position of the molding core within the socket of the base tool; wherein the at least two controllable adjustment elements are arranged in the base tool and are movable between a first position and a second position, wherein the at least two controllable adjustment elements each project into the socket in the first position and enter into the corresponding discrete recess in the molding core thereby engaging the molding core with the base tool, and the at least two controllable adjustment elements are retracted in the second position and withdrawn from the corresponding discrete recesses, thereby releasing the molding core from the base tool. 2. The molding tool as claimed in claim 1 , wherein the molding core has an upper surface, a lower surface and lateral surfaces, wherein a molding surface is formed on the upper surface, and wherein the at least two controllable adjustment elements are arranged on the lateral surfaces of the molding core. 3. The molding tool as claimed in claim 1 , wherein the at least two controllable adjustment elements are arranged in a lateral surface of the base tool which circumscribes the socket, for horizontal position adjustment of the molding core. 4. The molding tool as claimed in claim 1 , wherein the socket is bounded and defined by a bottom surface and an interior lateral surface of the base tool, and wherein a first adjustment element of the at least two controllable adjustment elements is arranged on the bottom surface of the base tool and a second adjustment element of the at least two controllable adjustment elements is arranged in the interior lateral surface of the base tool for vertical position adjustment of the molding core. 5. The molding tool as claimed in claim 1 , wherein the at least two controllable adjustment elements comprise at least one adjustment element arranged in the base tool and at least one adjustment element arranged in the molding core that allow for adjustment of a vertical position of the molding core. 6. The molding tool as claimed in claim 1 , wherein the at least two controllable adjustment elements are arranged in the base tool to set a tilt of the molding tool relative to the base tool. 7. The molding tool as claimed in claim 6 , wherein the molding core has a rounded shape, thus enabling the molding core to be tilted in the socket by actuating the at least two controllable adjustment elements arranged in the base tool. 8. The molding tool as claimed in claim 1 , wherein the base tool, the socket defined by the base tool, the molding core received in the socket and the at least two controllable adjustment elements for determining the position of the molding core within the socket comprise a first part of the molding tool; and wherein the molding tool further comprises a second part of the molding tool and the second part includes: a further base tool; a further socket defined by the further base tool; a further molding core received in the further socket; and at least two further controllable adjustment elements for determining the position of the further molding core within the further socket; and wherein the base tool and the further base tool are assembled for molding; and wherein the molding tool further includes an additional adjustment element for adjusting a position of the base tool relative to the further base tool in an assembled state. 9. The molding tool as claimed in claim 8 , wherein the additional adjustment element for adjustment is arranged in one or more of a guide column and in a guide recess. 10. The molding tool as claimed in claim 1 , wherein the at least one controllable adjustment element comprises one or more of a mechanical, pneumatic and a hydraulic adjustment element. 11. The molding tool as claimed in claim 1 , further comprising a controllable hydraulic expansion clamping element. 12. The molding tool as claimed in claim 11 , wherein the controllable hydraulic expansion clamping element comprises an expanding sleeve that deforms by an action of hydraulic oil. 13. A molding tool, comprising: a base tool; a socket defined by the base tool; a molding core received in the socket; wherein the molding core has a top wall, an opposed bottom wall, a first side wall and an opposed second side wall extending between the top wall and the bottom wall; a discrete recess defined in each of the first side wall and the second side wall of the molding core; said discrete recesses being defined between the top wall and the bottom wall of the molding core; at least two controllable adjustment elements arranged in the base tool and configured for determining a position of the molding core within the socket of the base tool; wherein the at least two controllable adjustment elements are movable between a first position and a second position; wherein each of the at least two controllable adjustment elements project into the socket in the first position and enter into the discrete recesses defined in the first side wall and second side wall of the molding core thereby engaging the molding core with the base tool; wherein each of the at least two controllable adjustment elements are retracted in the second position and are withdrawn from the discrete recesses in the first side wall and the second side wall of the molding core, thereby releasing the molding core from the base tool; and wherein the bottom wall of the molding core is rounded and contacts a bottom wall of the socket, wherein the rounded bottom wall enables tilting of the molding core within the socket. 14. A molding tool, comprising: a base tool; a socket defined by the base tool; a molding core received in the socket; wherein the molding core has a bottom wall and opposed side walls extending upwardly from the bottom wall; wherein each side wall defines a discrete recess therein; and at least two controllable adjustment elements arranged in the base tool, and configured for determining a position of the molding core within the socket of the base tool; wherein the at least two controllable adjustment elements are movable between a first position and a second position; and each of the at least two controllable adjustment elements projects into the socket in the first position and enters into one of the discrete recesses defined in the side walls of the molding core, thereby engaging the molding core with the base tool; wherein the at least two controllable adjustment elements are retracted in the second position and are withdrawn from the discrete recesses, thereby releasing the molding core from the base tool; wherein each of the at least two controllable adjustment elements has a rounded terminal end; and wherein each of the discrete recesses is bounded and defined by flat surfaces of the molding core, and wherein contact between the rounded terminal ends of the at least two controllable adjustment elements and the flat surfaces of the molding core enables tilting of the molding core within the socket and relative to the base tool. 15. A molding tool, comprising: a base tool; a socket defined by the base tool; a molding core received in the socket; wherein the molding core defines at least one recess therein; at least one controllable adjustment element selectively receivable in th