Direct-injection, applied-ignition internal combustion engine with injection device arranged in the cylinder liner, and method for operating an internal combustion engine of said type

The invention claimed is: 1. A direct-injection, applied-ignition internal combustion engine comprising: a cylinder head, and a cylinder; wherein the cylinder has at least one inlet opening for the supply of combustion air via an intake system and at least one outlet opening for the discharge of exhaust gases via an exhaust-gas discharge system; wherein the cylinder comprises a combustion chamber which is jointly formed by a piston crown of a piston, by a cylinder liner which laterally delimits the combustion chamber, and by the cylinder head, the piston being movable along a piston longitudinal axis between a bottom dead center and a top dead center; wherein the cylinder is equipped, in a region of the cylinder liner, with an injection device for the direct injection of fuel into the combustion chamber, which injection device has at least one opening which, during the course of an injection process, can be activated for the purposes of introducing fuel into the combustion chamber; wherein the cylinder is equipped with an additional injection device which is arranged in the cylinder head, the injection device being oriented toward the additional injection device such that a virtual elongation of a longitudinal axis of the injection device forms an obtuse angle α with a virtual elongation of a longitudinal axis of the additional injection device in a projection perpendicular to the piston longitudinal axis; and wherein, during a same combustion cycle, the injection device is configured to introduce the fuel into the combustion chamber by injecting the fuel in a direction away from the cylinder head, and the additional injection device is configured to introduce further fuel into the combustion chamber by injecting the further fuel in a different direction towards the cylinder head and towards the fuel introduced by the injection device, wherein both the fuel and the further fuel are liquid fuels, and wherein the cylinder is equipped with an ignition device and an additional ignition device initiating the applied ignition. 2. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the injection device is inclined relative to the piston longitudinal axis in the direction of the cylinder head. 3. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the additional injection device is arranged between the at least one inlet opening and the at least one outlet opening. 4. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the angle α is between 120 and 180 degrees. 5. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the cylinder has at least two inlet openings for the supply of combustion air to the combustion chamber. 6. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the cylinder has at least two outlet openings for the discharge of the exhaust gases from the combustion chamber. 7. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the cylinder is equipped with a port injection device that is arranged in the intake system. 8. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the cylinder-specific piston is equipped with at least one piston ring which is arranged in a piston skirt region which laterally delimits the cylinder-specific piston and seals off the combustion chamber. 9. The direct-injection, applied-ignition internal combustion engine of claim 8 , wherein, when the cylinder-specific piston is situated at top dead center, the at least one piston ring is positioned between the injection device and top dead center. 10. The direct-injection, applied-ignition internal combustion engine of claim 1 , wherein the injection device is oriented toward the at least one cylinder-specific inlet opening in such a way that the fuel emerging from the injection device is directed counter to the combustion air entering the combustion chamber via the inlet opening. 11. The direct-injection, applied-ignition internal combustion engine of claim 1 , further comprising a controller and executable instructions stored in non-transitory memory of the controller that cause the controller to inject fuel to the cylinder from the additional injection device arranged in the cylinder head into the cylinder while the piston crown is moving away from top dead center, and then while the piston crown is still moving away from top dead center beginning to inject fuel into the cylinder via the injection device when the piston crown travels below the injection device. 12. The direct-injection, applied-ignition internal combustion engine of claim 11 , wherein the piston is equipped with at least one piston ring which is arranged in a piston skirt region which laterally delimits the piston and seals off the combustion chamber. 13. The direct-injection, applied-ignition internal combustion engine of claim 12 , wherein, when the piston is situated at top dead center, the at least one piston ring is positioned between the injection device and top dead center. 14. The direct-injection, applied-ignition internal combustion engine of claim 11 , further comprising additional instructions to define a ratio of injected fuel from the injection device and the additional injection device as a function of at least one of engine speed and engine load.