Metering and pouring device for flowable substances and container equipped with such a metering and pouring device

The invention claimed is: 1. A metering and pouring device for flowable substances, comprising: a holding part including an inside jacket that encloses a rotationally-symmetrical holding chamber with a first chamber section, and a radially-projecting opening edge on an axial end of the holding part, whereby the first chamber section extends axially from the opening edge to a circumferential inclined support surface in which at least one passage window is made; a metering insert that encloses a metering chamber, the metering insert arranged inside the holding part and configured to be rotatable relative to the holding part, the metering insert relative to the holding part having at least one metering window, wherein the metering insert is configured in a manner corresponding to the holding part and includes a jacket that is closed with an insert base, which jacket encloses an overflow chamber which extends from an opening edge up to a circumferential, inclined connecting surface in which the at least one metering window is made, wherein the metering chamber, which extends axially from the connecting surface to the insert base, has a smaller inside diameter than the overflow chamber; and a rotatable closure part equipped with first engagement means, which in an assembled state of components of the holding part, metering insert and closure part, are engaged with corresponding second engagement means in the metering insert in such a way that a turn of the closure part from a first position into a second position and vice versa will effect a turn of the metering insert relative to the holding part, whereby in the first position, the at least one metering window of the metering insert and the at least one passage window of the holding part at least partially overlap one another, and in the second position, the metering window and the passage window will be separated from one another, whereby when the closure part is turned beyond the second position, the first engagement means and the second engagement means are disengaged, wherein the closure part is configured such that a movement in an axial direction will be produced by a turn of the closure part. 2. Metering and pouring device according to claim 1 , wherein the metering insert is held axially captive in the holding part by positive fit. 3. Metering and pouring device according to claim 1 , comprising: three passage windows arranged in the support surface of the inside jacket of the holding part, which windows in each case are at a same angular distance from one another and in each case extend in a peripheral direction over an angular range of less than 60°; and wherein three metering windows are arranged in the connecting surface of the jacket of the metering insert, which windows in each case are at a same angular distance from one another and in each case extend in a peripheral direction over an angular range of less than 60°. 4. The metering and pouring device according to claim 1 , in combination with a container, whereby the holding part is mounted in a stationary and axially captive manner on a neck of the container. 5. The combination according to claim 4 , wherein the holding part, the metering insert and the closure part are configured of blow-molded plastic. 6. The combination according to claim 4 , configured as an upside-down container, whereby a cover plate of the closure part forms a base of the container. 7. The combination according to claim 4 , wherein the stationary and axially captive attachment of the holding part to the container neck is configured as a positive fit and/or a gluing and/or a force fit. 8. The combination according to claim 7 , wherein the metering and pouring device is mounted on the container neck such that in the case of the closure part being superposed with the holding part, the at least one metering window is at least partially overlapped with the passage window, while the metering window is closed when the closure part is removed. 9. Metering and pouring device according to claim 1 , wherein the first engagement means on the closure part comprises: at least one axially-extending strip, which is arranged on a peripheral surface of an engagement skirt which extends from an inner top surface of the closure part and projects radially; and wherein the second engagement means are an alternating sequence of axial fins and grooves, which are provided next to an opening edge on a wall of the overflow chamber. 10. Metering and pouring device according to claim 9 , wherein each groove on the wall of the overflow chamber that is bordered by two axial fins has an intake area expanded in a direction of the opening edge for the at least one corresponding strip on the engagement skirt. 11. Metering and pouring device according to claim 9 , wherein the at least one axial strip that is arranged on the peripheral surface of the engagement skirt has a partial area that tapers in a direction of its free end. 12. Metering and pouring device according to claim 11 , wherein an annular sealing support projects in an axial direction from the inner top surface of the closure part, which support concentrically surrounds the engagement skirt and is located radially adjacent to the opening edge when the holding part, metering insert and closure part are assembled. 13. Metering and pouring device according to claim 12 , wherein the rotationally-symmetrical holding chamber is closed on its axial end, facing away from the opening edge, with a chamber base, whereby a second chamber section connects to the inclined support surface of the inside jacket of the holding part, which section extends up to the chamber base and has a smaller inside diameter than the first chamber section; and wherein a side of the chamber base facing the chamber interior has a number of recesses that correspond to the number of the at least one passage windows, whereby each recess extends over an angular range that corresponds to a peripheral extension of each of the at least one passage windows in the inclined support surface; and wherein a number of radially-extending strips are arranged on an outside surface of the insert base of the metering insert that faces the chamber base, which number corresponds to the number of the at least one metering windows in the connecting surface, whereby in the assembled state of the holding part, metering insert and closure part, each strip is accommodated by a recess in the chamber base. 14. Metering and pouring device according to claim 13 , wherein each recess in an end area of its peripheral extension has a locking projection, configured as a radial locking fin which projects from the base of the recess. 15. Metering and pouring device according to claim 14 , comprising: wipers arranged on a bottom of the connecting surface of the metering insert, which faces the support surface of the holding part, in an area of the metering window. 16. Metering and pouring device according to claim 15 , wherein the opening edge of the holding part is connected to a cylindrical outer skirt, which extends in a manner that is axis-parallel and concentric to the inside jacket and the outside wall of the outer skirt comprises: means for positive securing of the closure part that is equipped with corresponding engagement means. 17. Metering and pouring device according to claim 16 , wherein the means for positive securing and corresponding engagement means are respectively a first threaded section arranged on the closure part and a corresponding second threaded section arranged on the outer skirt. 18.