Personal air flow device for a vehicle

What is claimed is: 1 . A personal air flow device for a vehicle, comprising: a plurality of air flow ducts with a common air exit region for outflow of a desired total air mass flow, each of the air flow ducts being connected to the air exit region in such a way that the air flow duct applies an air mass flow ({dot over (m)} 1 , {dot over (m)} 2 ) to the air exit region, the air mass flows ({dot over (m)} 1 , {dot over (m)} 2 ) being controlled relative to one another in such a way that they are superimposed to form the total air mass flow. 2 . The personal air flow device of claim 1 , wherein: at least one of the air flow ducts has a regulating fitting for reducing a cross section (A 1 , A 2 ) of the air flow duct, and the air mass flow ({dot over (m)} 1 , {dot over (m)} 2 ) through the air flow duct having the regulating fitting can be controlled by the regulating fitting. 3 . The personal air flow device of claim 1 , wherein: the personal air flow device is connectable to an air-conditioning unit of the vehicle, and at least one of the air flow ducts is configured so that the air mass flow ({dot over (m)} 1 , {dot over (m)} 2 ) through the air flow duct is regulated by the air-conditioning unit. 4 . The personal air flow device of claim 1 , further comprising local separation of the air flow ducts from one another. 5 . The personal air flow device of claim 1 , wherein: at least one of the air flow ducts has an angle controller for varying an angle (α 1 , α 2 ) of the air flow duct and thereby controlling the air mass flow ({dot over (m)} 1 , {dot over (m)} 2 ) through the air flow duct that has the angle controller. 6 . The personal air flow device of claim 5 , wherein the angle controller comprises rigid air-directing elements for directing the air mass flows ({dot over (m)} 1 , {dot over (m)} 2 ). 7 . The personal air flow device of claim 5 , wherein the angle controller does not comprise any air-directing elements for directing the air mass flows ({dot over (m)} 1 , {dot over (m)} 2 ). 8 . The personal air flow device of claim 1 , wherein: the air flow ducts comprise a main flow duct and a secondary flow duct, the personal air flow device has, upstream of the main flow duct, means for generating a pressure difference between the main flow duct and the secondary flow duct, and the air mass flow ({dot over (m)} 2 ) through the secondary flow duct can be controlled by the means. 9 . The personal air flow device of claim 1 , wherein: the air flow ducts comprise two upper air flow ducts and two lower air flow ducts, the upper air flow ducts are oriented at a variable angle (α 1 ) with respect to the lower air flow ducts, each air flow duct has fixed air-directing elements in the air exit region, and the air-directing elements are oriented in such a way that the air mass flows ({dot over (m)} 1 , {dot over (m)} 2 ) of the upper air flow ducts and of the lower air flow ducts intersect. 10 . The personal air flow device of claim 1 , wherein the air exit region is shaped so that the air mass flows ({dot over (m)} 1 , {dot over (m)} 2 ) interact within the personal air flow device. 11 . The personal air flow device of claim 1 , wherein the air exit region is shaped so that the air mass flows ({dot over (m)} 1 , {dot over (m)} 2 ) interact outside the personal air flow device.