Closure device for a container

The invention claimed is: 1. A closure device ( 1 ) for a container ( 2 ) with a container opening ( 3 ), wherein the closure device ( 1 ) has a lid element ( 4 ) for closing the container opening ( 3 ), an inner housing, and a chamber ( 6 ) arranged between the lid element ( 4 ) and the inner housing ( 5 ), wherein the chamber ( 6 ) and inner housing ( 5 ) have mutually corresponding closure means ( 7 ) and opening means ( 9 ), which interact with each other in such a way that a discharge opening ( 8 ) allocated to the chamber ( 6 ) can be released by moving the lid element ( 4 ) relative to the inner housing ( 5 ), so that a medium stored in the chamber ( 6 ) can exit into the into container ( 2 ), and the chamber ( 6 ) and inner housing ( 5 ) each have corresponding first threads ( 10 ) formed relative to a rotational thread axis ( 19 ), wherein the chamber ( 6 ) has a first region (A) above the first threaded means ( 10 ) and a second region (B) above and/or horizontally overlapping the first thread means ( 10 ) and/or below the first threaded means ( 10 ), wherein the first region (A) is designed radially larger than the second region (B) relative to the rotational thread axis ( 18 ), wherein a wall of the second region (B) is integral and in one piece with a wall of the first region (A) and has an opening ( 13 ) in an area facing the lid, wherein a closure of the chamber ( 6 ) is formed by a film element ( 15 ) bridging the opening ( 13 ) and having a lower side that is in contact with the chamber and that seals the chamber ( 6 ) fluid tight, and wherein the chamber ( 6 ) has a horizontal division (T) above the first threaded means ( 10 ) relative to a use position in which a longitudinal device axis extends vertically, as a result of which the chamber ( 6 ) is divided into a lower chamber part ( 6 ′) and an upper chamber part ( 6 ″), and the lid element ( 4 ) is designed as a one piece element to interact with a container neck by way of a thread. 2. The closure device according to claim 1 , wherein the chamber ( 6 ) is a separate element from the lid element and is only positively connected with the lid element ( 4 ). 3. The closure device according to claim 1 , wherein the second region (B) has an expansion region ( 28 ) required for adjustment to the first region (A), which is over-molded in a materially integral manner. 4. The closure device according to claim 3 , wherein the expansion region ( 28 ) has a conical region ( 25 ) in a vertical section. 5. The closure device according to claim 3 , wherein the expansion region ( 28 ) of the chamber ( 6 ) has a radial extension corresponding to 0.8 to 1.2 times the diameter at a thread base of a second thread ( 12 ) for interacting with the container ( 2 ). 6. The closure device according to claim 1 , wherein the two chamber parts ( 6 ′, 6 ″) consist of plastics that can be welded to each other. 7. The closure device according to claim 1 , wherein the chamber ( 6 ) is enveloped by an outer metallic sleeve, and wherein a radial expansion region is also gripped by the sleeve even after the chamber ( 6 ) has been removed from a container ( 2 ). 8. The closure device according to claim 1 , wherein the overall contained volume of the chamber ( 6 ) comprises up to 40% or more above a plane resulting from sealants ( 23 ) formed on the closure device ( 1 ), which are provided for establishing a seal on a front surface of a container ( 2 ). 9. A closure device ( 1 ) for a container ( 2 ), in particular a glass container, with a container opening ( 3 ), wherein the closure device ( 1 ) has a lid element ( 4 ) for closing the container opening ( 3 ), an inner housing, a chamber ( 6 ) arranged between the lid element ( 4 ) and the inner housing ( 5 ), wherein the chamber ( 6 ) and inner housing ( 5 ) have mutually corresponding closure means ( 7 ) and opening means ( 9 ), which interact with each other in such a way that a discharge opening ( 8 ) allocated to the chamber ( 6 ) can be released by moving the lid element ( 4 ) relative to the inner housing ( 5 ), so that a medium stored in the chamber ( 6 ) can exit into the into container ( 2 ), and the chamber ( 6 ) and inner housing ( 5 ) each have corresponding first threads ( 10 ) formed relative to a rotational thread axis ( 19 ), wherein the chamber ( 6 ) extends laterally above the first threaded means ( 10 ) until over the first threaded means ( 10 ), wherein the chamber ( 6 ) is welded to the lid element ( 4 ), wherein the chamber ( 6 ) has a connecting flange defining an opening before welding, the connecting flange being aligned essentially parallel to an adjacent surface of the lid element, and wherein the chamber is connected with the lid element along the resultant annularly formed region. 10. A closure device ( 1 ) for a container ( 2 ), in particular a glass container, with a container opening ( 3 ), wherein the closure device ( 1 ) has a lid element ( 4 ) for closing the container opening ( 3 ), a chamber ( 6 ) arranged between the lid element ( 4 ) and an inner housing ( 5 ), wherein the chamber ( 6 ) and inner housing ( 5 ) have mutually corresponding closure means ( 7 ) and opening means ( 9 ), which interact with each other in such a way that a discharge opening ( 8 ) allocated to the chamber ( 6 ) can be released by moving the lid element ( 4 ) relative to the inner housing ( 5 ), so that a medium stored in the chamber ( 6 ) can exit into the into container ( 2 ), and the chamber ( 6 ) and inner housing ( 5 ) each have corresponding first threads ( 10 ) formed relative to a rotational thread axis ( 19 ), wherein the closure means ( 7 ) in a sealing plane has a soft plastic ( 20 ) radially outward and a rigid plastic ( 21 ) radially inward, and wherein a front surface of the closure means ( 7 ) facing a tank interior consists entirely or partially of the soft plastic ( 20 ).