Device and method for purifying exhaust gases for an internal combustion engine

The invention claimed is: 1. A system for purifying the exhaust gases of an internal combustion engine comprising: a first exhaust gas line connected to a first set of cylinders of said engine, including a catalytic converter functional to store NO x upon lean operation of said first set of cylinders; a second exhaust gas line connected to a second set of cylinders of said engine, including a catalytic converter functional to store ammonia, wherein during lean operation of the first set of cylinders, a first partial exhaust gas flows through the first exhaust gas line and a second partial exhaust gas flows through the second exhaust gas line; and means responsive to a selected storage capacity of NO x in said first mentioned catalytic converter and a substoichiometric rich operation of said first set of cylinders for unilaterally diverting the flow of gases in said first exhaust gas line downstream of said first mentioned catalytic converter through an intermediate cross-connection to said second exhaust line upstream of said second mentioned catalytic converter while simultaneously blocking the first partial exhaust gas flow through the first exhaust gas line downstream of the intermediate cross-connection. 2. The system according to claim 1 including means for operating said second set of cylinders at a lean stoichiometric ratio during substoichiometric operation of said first set of cylinders. 3. A method of purifying the exhaust gases of an internal combustion engine comprising: conducting a first stream of exhaust gases from a first set of cylinders of said engine along a first exhaust gas line including an NO x storage catalytic converter during a lean operation of the first set of cylinders; conducting a second stream of exhaust gases from a second set of cylinders of said engine along a second exhaust line including a catalytic converter with ammonia storage capability during the lean operation of the first set of cylinders; sensing a selected capacity of said NO x storage catalytic converter; and diverting the flow of said first stream of exhaust gases from said first exhaust gas line downstream of said NO x storage catalytic converter through an intermediate cross-connection to said second exhaust gas line upstream of said catalytic converter with ammonia storage capability while simultaneously blocking the first stream of exhaust gases through the first exhaust gas line downstream of the intermediate cross-connection, and operating said first set of cylinders at a substoichiometric rich ratio, responsive to sensing said selected capacity of said NO x storage catalytic converter. 4. The method of claim 3 including operating said second set of cylinders at a lean stoichiometric ratio.