Projection unit and method for controlling the projection unit

The invention claimed is: 1. A projection unit comprising a reflector-lamp arrangement which is designed to emit light during operation, wherein the light radiates toward an aperture, wherein a setting unit is provided, with which a light intensity distribution of the emitted light is adjustable relative to the aperture, wherein the light intensity distribution is adjusted depending on a period of operation of the lamp, or a measuring unit is provided, with which at least part of the light intensity distribution is detectable, wherein the light intensity distribution is adjusted relative to the aperture depending on a change in the light intensity distribution, provision is made of a control unit is configured to control the setting unit, which controls the setting unit depending on the light intensity distribution detected by the measuring unit or depending on the period of operation of the lamp. 2. The projection unit as claimed in claim 1 , wherein the setting unit adjusts the light intensity distribution of the emitted light relative to the aperture in such a way that a maximum of the light intensity distribution substantially lies in the aperture. 3. The projection unit as claimed in claim 1 , wherein the measuring unit detects at least part of the light intensity distribution of a part of the light that does not radiate through the aperture. 4. The projection unit as claimed in claim 1 , wherein the measuring unit has a plurality of sensors which detect the light intensity distribution, wherein the sensors are arranged outside the aperture. 5. The projection unit as claimed in claim 1 , wherein for adjusting the light intensity distribution relative to the aperture, a position of the lamp or of an optical element, or of the aperture can be changed by the setting unit. 6. The projection unit as claimed in claim 1 , wherein the setting unit has at least one motor which, for the purpose of adjusting the light intensity distribution, can be used to change the position of a lamp housing of the lamp or of the optical element or of the aperture or the position of the lamp in relation to the reflector. 7. The projection unit as claimed in claim 1 , wherein the setting unit is designed as a pivoting unit, which, for the purpose of adjusting the light intensity distribution, can be used to pivot the lamp housing of the lamp or the optical element or the aperture or the position of the lamp in relation to the reflector. 8. The projection unit as claimed in claim 1 , wherein said projection unit is a digital light processing projection unit or a liquid crystal display projection unit or a liquid crystal on silicon projection unit or a graphical optical blackout projection unit. 9. The projection unit as claimed in claim 1 , wherein said projection unit is designed as a multi-lamp system. 10. The projection unit as claimed in claim 1 , wherein the lamp has electrodes whose geometry can be changed by a reshape method. 11. The projection unit as claimed in claim 1 , wherein the light intensity distribution is adjustable by the setting unit relative to the aperture in an aperture plane approximately in 1/10 mm steps. 12. The projection unit as claimed in claim 1 , wherein the reflector-lamp arrangement comprises a discharge lamp. 13. The projection unit as claimed in claim 4 , wherein the sensors are light sensors or temperature sensors or a camera. 14. The projection unit as claimed in claim 6 , wherein the at least one motor is an electrical stepper motor. 15. The projection unit as claimed in claim 9 , wherein said projection unit is designed as a double- or quadruple-lamp arrangement. 16. A method for controlling a projection unit, the projection unit comprising a reflector-lamp arrangement which is designed to emit light during operation, wherein the light radiates toward an aperture, wherein a setting unit is provided, with which a light intensity distribution of the emitted light is adjustable relative to the aperture, wherein the light intensity distribution is adjusted depending on a period of operation of the lamp, or a measuring unit is provided, with which at least part of the light intensity distribution is detectable, wherein the light intensity distribution is adjusted relative to the aperture depending on a change in the light intensity distribution, the method comprising: detecting at least part of the light intensity distribution by means of the measuring unit, and evaluating the light intensity distribution by means of an evaluation unit for the purpose of detecting changes in the light intensity distribution. 17. The method as claimed in claim 16 , further comprising at least one of: adjusting the light intensity distribution of the emitted light relative to the aperture by means of the setting unit for the purpose of compensating for changes in the light intensity distribution; and adjusting the light intensity distribution of the emitted light relative to the aperture by means of the setting unit depending on the period of operation.