Device for a laser working system, laser working system having same, and method for setting a focal position of an optical element

The invention claimed is: 1. A laser machining head, comprising: a housing; an optical element arranged in a beam path of said laser machine head; and a temperature detector arrangement arranged in the housing inclined with respect to the beam path and having a thermopile matrix positioned at a distance from the optical element and configured to measure a spatially resolved two-dimensional temperature distribution of an entire surface of said optical element, wherein the matrix is at least a 2×2 matrix and wherein an opening angle of the temperature detector arrangement is at least 60°×60°, the spatially resolved two-dimensional temperature distribution including at least four spatially separated temperature measurement points, at least one of which being in a center of the optical element. 2. The laser machine head according to claim 1 , further comprising: at least one heating device arranged on said optical element and separate from the temperature detector arrangement and operable to supply thermal energy to said optical element. 3. The laser machine head according to claim 2 , wherein said at least one heating device is arranged on an edge region of said optical element in order to supply the thermal energy to the edge region. 4. The laser machine head according to claim 2 , wherein said at least one heating device includes a plurality of heating elements, wherein said plurality of heating elements forms a heating ring consisting of at least two segments. 5. The laser machine head according to claim 2 , wherein said at least one heating device comprises a single heating ring. 6. The laser machine head according to claim 2 , wherein said at least one heating device comprises: a base; and a plurality of heat sources located on said base. 7. The laser machine head according to claim 6 , wherein said heat sources are electrical resistors. 8. The laser machine head according to claim 2 , further comprising a thermal coupling element thermally coupling said at least one heating device to said optical element. 9. The laser machine head according to claim 2 , further comprising a holder for said optical element, said holder being arranged between said at least one heating device and said optical element and being configured to provide thermal contact between said optical element and said at least one heating device. 10. The laser machine head according to claim 2 , further comprising a controller configured to control said at least one heating device such that said optical element has a predetermined temperature distribution. 11. The laser machine head according to claim 10 , wherein said controller is configured to adjust a focus of said optical element by supplying thermal energy. 12. The laser machine head according to claim 1 , further comprising a drive device configured to adjust a position of said optical element along an optical axis, and a controller for controlling said drive device to adjust a focus of said optical element by adjusting the position of said optical element based on the measured temperature distribution. 13. The laser machine head according to claim 1 , wherein said optical element comprises at least one of a lens, a lens system, a focusing lens, a collimating lens, a diverging lens, a beam shaping optics, a protective glass and a beam splitter. 14. A method of adjusting a focus position of an optical element arranged in a beam path in a laser machining system wherein the laser machining system comprises a laser machining head including a housing, the method comprising: measuring a two-dimensional temperature distribution of an entire surface of said optical element with a temperature detector arrangement having a thermopile matrix with at least a 2x2matrix of detector elements positioned at a distance from the optical element and arranged in the housing inclined with respect to the beam path, an opening angle of the temperature detector being at least 60°×60°, the two-dimensional temperature distribution including at least four spatially separated temperature measurement points, at least one of which being in a center on the surface of the optical element. 15. The method according to claim 14 , further comprising selectively heating an edge region of said optical element in order to adjust the focus position. 16. The method of claim 14 , further comprising: providing a substantially homogeneous temperature distribution for said optical element by selective heating. 17. The method according to claim 14 , further comprising adjusting a position of said optical element along an optical axis based on the measured temperature distribution. 18. A device for a laser machining system, comprising: an optical element arranged in a beam path of said device; and a temperature detector arrangement having a thermopile matrix positioned at a distance from the optical element and configured to measure a spatially resolved two-dimensional temperature distribution of an entire surface of said optical element, wherein the matrix is at least a 2×2 matrix, the spatially resolved two-dimensional temperature distribution including at least four spatially separated temperature measurement points, at least one of which being in a center of the optical element, the device further comprising: at least one heating device arranged on said optical element and separate from the temperature detector arrangement and operable to supply thermal energy to said optical element, and a thermal coupling element thermally coupling said at least one heating device to said optical element, wherein the thermal coupling element comprises a rubber-like material.