Supply system for a medium into an exhaust system

What is claimed is: 1. A supply system for an exhaust-gas purification apparatus for the treatment of exhaust gases of an internal combustion engine having an exhaust line, said supply system comprising: a storage vessel for a medium; a doser for dosing the medium into the exhaust line of the internal combustion engine, including: a cooling jacket; a feed port; and a return port, wherein the doser is designed such that, during the operation of the supply system, flow can pass through said cooling jacket from the feed port to the return port of the doser for the purpose of cooling said doser; and a provision line, including: a feed line for the supply of the medium to the doser; a return line for returning the medium from the doser into the storage vessel; a branch line fluidly connected to said return line and to said doser such that the medium is supplied to the doser through said branch line; and an additional fluid connection between the feed line and the return line, wherein the additional fluid connection opens out into the feed line upstream of the feed port of the doser and opens out into the return line downstream of the return port of the doser, said additional fluid connection configured for receiving said medium therethrough when said storage vessel is blocked by a frozen said medium, and wherein only a small amount of said medium is extracted by said branch line for dosing into the exhaust line such that adequate dosing of said medium into the exhaust line and adequate cooling of said doser are ensured until said storage vessel is no longer blocked by said frozen said medium. 2. The supply system of claim 1 , wherein said additional fluid connection is formed as a bypass line through which the medium can be delivered along the provision line so as to bypass the storage vessel. 3. The supply system of claim 1 , wherein a pump for delivering the medium is arranged in the feed line, wherein the pump is arranged downstream of the point at which the additional fluid connection opens out into the feed line. 4. The supply system of claim 1 , wherein a pump for delivering the medium is arranged in the return line, wherein the pump is arranged upstream of the point at which the additional fluid connection opens out into the return line. 5. The supply system of claim 1 , wherein said additional fluid connection opens out into the return line directly upstream of the storage vessel and opens out into the feed line directly downstream of the storage vessel. 6. The supply system of claim 1 , wherein said additional fluid connection is provided by at least one T-piece, wherein the at least one T-piece is part of at least one of the feed line and the return line. 7. The supply system of claim 1 , wherein a section of the provision line directly facing the storage vessel is of an H-shaped form, said H-shaped form including a first limb, a second limb and a third limb, wherein said first limb is part of the feed line, wherein said second limb, parallel to said first limb, is part of the return line, and said third limb, arranged transversely with respect to said first and second limbs, provides said additional fluid connection. 8. The supply system of claim 7 , wherein said provision line is designed such that it can be heated at least in regions, wherein an electric heating device is provided. 9. The supply system of claim 1 , wherein a throttle device is arranged in the additional fluid connection, wherein the throttle device includes at least one of a region with a reduced line cross section and an adjustable throttle element. 10. The supply system of claim 1 , wherein a pressure-maintaining device is arranged in the additional fluid connection, wherein the pressure-maintaining device is in the form of a pressure-maintaining valve. 11. The supply system of claim 1 , wherein said supply system is designed for introducing a reducing agent into said exhaust line of the internal combustion engine, wherein the reducing agent is arranged in said storage vessel. 12. The supply system of claim 11 , wherein the supply system is designed for dosing a urea solution into said exhaust line of the internal combustion engine, wherein the supply system has a urea solution, in the storage vessel. 13. The supply system of claim 8 , wherein said regions includes a region of the H-shaped section, said provision line being designed such that it can be heated in said region of the H-shaped section. 14. The supply system of claim 12 , wherein the urea solution is an aqueous urea solution.