After-treatment of refraction correction by ophthalmic surgery

The invention claimed is: 1. A planning device for generating control data for a treatment apparatus for ophthalmic surgery, which cuts at least one incision surface in a cornea, using a laser device, the planning device including: a calculation device comprising a computer configured to receive data of a previously-introduced cornea incision surface having an existing flap incision and an existing opening incision extending from an exterior surface of the cornea to the existing flap incision so as to form at least a partial existing corneal flap, and to establish a new cornea incision surface, based on the data of the previously-introduced cornea incision surface and to generate a control data set for controlling the laser device for the new cornea incision surface, wherein the computer of the calculation device is further configured to determine the new cornea incision surface having a new flap incision that is ring-shaped and located posterior to the existing flap incision, a new opening incision located lateral to the existing flap incision and extending from the exterior surface of the cornea to the new flap incision, and a connecting mantle incision connecting the new flap incision to the existing flap incision in such a manner that the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle between 60° and 120°, such that a new hinged corneal flap is formed, the new hinged corneal flap including portions of the at least partial existing corneal flap. 2. The device according to claim 1 , wherein the calculation device establishes the new cornea incision surface as a continuation of the previously-introduced cornea incision surface, wherein an overlap region is provided between the previously-introduced cornea incision surface and the new cornea incision surface. 3. The device according to claim 1 , wherein the information concerning the previously-introduced cornea incision surface comprises data generated during a previous operation or data generated directly subsequent to a previous operation, and which enables reproduction of a location and shape of the previously-introduced cornea incision surface. 4. A treatment apparatus for ophthalmic surgery, comprising a laser device that cuts at least one incision surface in the cornea by means of laser radiation in accordance with control data, and the planning device for generating the control data according to claim 1 . 5. The apparatus according to claim 4 further comprising a device for recording progression of a production of the new cornea incision surface. 6. The apparatus according to claim 4 , wherein the laser device emits focused, pulsed laser radiation into the cornea and produces an incision by adjusting a focus position along an incision surface. 7. The planning device of claim 1 , wherein the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle between 80° and 100°. 8. The planning device of claim 7 , wherein the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle of approximately 90°. 9. The planning device of claim 1 , wherein the computer is further configured to establish the new cornea incision surface, to generate the control data set, and to determine the new cornea incision surface in the manner that the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle between 60° and 120°. 10. A method for generating control data for a treatment apparatus for ophthalmic surgery which cuts at least one incision surface in the cornea using a laser device, the method comprising: making available cornea data that contain information about a cornea incision surface that has been previously introduced, the previously-introduced cornea incision surface having an existing flap incision and an existing opening incision extending from an exterior surface of the cornea to the existing flap incision so as to form at least a partial existing corneal flap, establishing a new cornea incision surface based on the cornea data, the new cornea incision surface having a new flap incision that is ring-shaped and located posterior to the existing flap incision, a new opening incision located lateral to the existing flap incision and extending from the exterior surface of the cornea to the new flap incision, and a connecting mantle incision connecting the new flap incision to the existing flap incision, and generating a control data set for the new cornea incision surface for controlling the laser device, wherein the new cornea incision surface is determined in such a manner that the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle between 60° and 120°, such that a new hinged corneal flap is formed, the new hinged corneal flap including portions of the at least partial existing corneal flap. 11. The method of claim 10 , wherein the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle between 80° and 100°. 12. The method of claim 11 , wherein the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle of approximately 90°. 13. A method for ophthalmic surgery, wherein at least one incision surface in a cornea is cut with a laser device using a treatment apparatus, wherein the method comprises: making available cornea data that contain information about a cornea incision surface that has been previously-introduced, the previously-introduced cornea incision surface having an existing flap incision and an existing opening incision extending from an exterior surface of the cornea to the existing flap incision so as to form at least a partial existing corneal flap, establishing a new cornea incision surface based on the cornea data, the new cornea incision surface having a new flap incision that is ring-shaped and located posterior to the existing flap incision, a new opening incision located lateral to the existing flap incision and extending from the exterior surface of the cornea to the new flap incision, and a connecting mantle incision connecting the new flap incision to the existing flap incision, and generating a control data set for the new cornea incision surface, transmitting the control data to the treatment apparatus, and producing the new cornea incision surface by controlling the laser device with the control data set, wherein the new cornea incision surface is determined in such manner that the existing flap incision of the previously-introduced cornea incision surface is intersected by at least a part of the connecting mantle incision of the new cornea incision surface at an angle between 60° and 120°, such that a new hinged corneal flap is formed, the new hinged corneal flap including portions of the at least partial existing corneal flap. 14. The method according to claim 13 , wherein the new cornea incision surface continues incisions previously made, wherein a