Battery housing for lithium-ion cells

The invention claimed is: 1. A battery housing comprising: an inner chamber configured to accommodate galvanic cells, each cell having at least one cut-out area configured to be opened in an event of failure of the cell, wherein an interior of the battery housing includes at least one dispenser configured to dispense a flame-inhibiting, flame-retarding and/or flame-extinguishing agent, the at least one dispenser including a wall, the at least one dispenser arranged between poles of a single cell, wherein the at least one dispenser includes at least one dispenser opening arranged adjacent to the at least one cut-out area of the single cell and configured to be opened, wherein the at least one dispenser opening is configured to be opened in an event of a mechanical shock and/or an increase in temperature and/or a pressure increase above a predetermined limiting value, wherein the at least one dispenser opening is a thinned portion of the wall of the at least one dispenser, and wherein the at least one dispenser is configured to be arranged between the poles of the galvanic cell or of the module composed of a plurality of galvanic cells without taking up additional space apart from a space available between the poles of the cell or cells. 2. The battery housing as claimed in claim 1 , wherein the at least one dispenser is configured to dispense one of a liquid, a foam, and a solid. 3. The battery housing as claimed in claim 1 , wherein the at least one dispenser is formed, at least in a region of the at least one dispenser opening, at least partially from an organic material with a melting point in a range from ≧80° C. to ≦200° C. 4. The battery housing as claimed in claim 1 , wherein the at least one dispenser is formed, at least in a region of the at least one dispenser opening, at least partially from a plastic. 5. The battery housing of claim 4 , wherein the plastic a thermoplast. 6. The battery housing as claimed in claim 1 , wherein the at least one dispenser opening includes an opening mechanism-configured to enable the at least one dispenser opening to be opened automatically. 7. The battery housing of claim 6 , wherein the opening mechanism is configured to be opened based on crash sensor data when an accident of a vehicle comprising the battery housing is detected. 8. The battery housing as claimed in claim 1 , wherein the at least one dispenser is a blow-molded body. 9. The battery housing as claimed in claim 1 , wherein the at least one dispenser is formed at least partially from a glass, at least in a region of the at least one dispenser opening. 10. The battery housing as claimed in claim 1 , wherein the at least one dispenser includes a plurality of dispenser openings. 11. The battery housing of claim 10 , wherein a number of dispenser openings of a dispenser corresponds to a number of cells. 12. The battery housing as claimed in claim 1 , wherein: each cell has the cut-out area on a cell upper side, and at least one dispenser opening is configured to be arranged above the cells. 13. The battery housing as claimed in claim 1 , wherein the flame-inhibiting, flame-retarding and/or flame-extinguishing agent comprises at least one of at least one alkaline earth compound and at least one radical catcher. 14. The battery housing of claim 1 , wherein the galvanic cells are lithium-ion cells. 15. The battery housing of claim 1 , wherein the wall or a joint seam is one of a weld seam, flow line or joint.