Method and device for detecting a focal position of a laser beam

The invention claimed is: 1. A device for detecting a focal position of a machining laser beam in a laser machining head, the device comprising: an optical element arranged in a portion of a path of said laser beam that is converging towards a focus, the optical element decoupling at least one back reflection from the laser beam path; and a sensor arrangement for detecting beam properties of said laser beam in a region of said focus along a direction of propagation of said laser beam, said sensor arrangement measuring the decoupled at least one back reflection of said laser beam at at least two locations offset from each other along the direction of propagation of said laser beam for determining the focal position, wherein said sensor arrangement includes a non-spatially-resolving sensor or detector, or a power detector, or a photodiode, a position of which is changeable in a direction of propagation of the decoupled at least one back reflection relative thereto in order to measure an intensity of the decoupled at least one back reflection near a beam axis thereof at different locations. 2. The device according to claim 1 , wherein the decoupled at least one back reflection is split into at least two partial back reflections by at least one beam splitter and directed to at least two sensors or detectors of said sensor arrangement. 3. The device of claim 1 , wherein the optical element is arranged in the direction of propagation of said laser beam after a focusing optics, between a focusing optics and a beam nozzle, or between a focusing optics and the focus. 4. A method for detecting a focal position of a machining laser beam in a laser machining head, the method comprising: decoupling, by an optical element arranged in a portion of a path of said laser beam that is converging towards a focus, at least one back reflection from the laser beam path, detecting, by a sensor arrangement, beam properties of said laser beam in a region of said focus along a direction of propagation of said laser beam, and measuring, by said sensor arrangement, the decoupled at least one back reflection of said laser beam at at least two locations offset from one another along the direction of propagation of said laser beam for determining the focal position, wherein an intensity of the decoupled at least one back reflection near a beam axis thereof is measured at different locations by a non-spatially-resolving sensor or detector of said sensor arrangement, a position of which in a direction of propagation of the decoupled at least one back reflection is changeable relative thereto. 5. The method of claim 4 , wherein the optical element is arranged in the direction of propagation of said laser beam after a focusing optics, between a focusing optics and a beam nozzle, or between a focusing optics and the focus. 6. A device for detecting a focal position of a machining laser beam in a laser machining head, the device comprising: an optical element arranged in a portion of a path of said laser beam that is converging towards a focus, the optical element decoupling at least one back reflection from the laser beam path; and a sensor arrangement for detecting beam properties of said laser beam in a region of said focus along a direction of propagation of said laser beam, said sensor arrangement measuring the decoupled at least one back reflection of said laser beam at at least two locations offset from each other along the direction of propagation of said laser beam for determining the focal position, wherein the decoupled at least one back reflection is split by a deflection unit into a plurality of partial reflections, optical paths of which from a last surface of a focusing optics to a sensor or detector of said sensor arrangement are different from one another. 7. The device according to claim 6 , wherein said deflection unit consists of one or more planar plates such that, by a plurality of surfaces, a plurality of back reflections can be directed to said sensor or detector of said sensor arrangement, each of the plurality of back reflections being associated with a location on a beam axis of the machining laser beam. 8. The device according to claim 6 , wherein said sensor or detector of said sensor arrangement is a spatially resolving sensor. 9. The device according to claim 8 , wherein said spatially resolving sensor is a CCD or a camera sensor or a line sensor, an orientation of which corresponds to a beam propagation direction of the split back reflections. 10. The device according to claim 8 , wherein said spatially resolving sensor is arranged to be displaceable along a direction of propagation of the decoupled at least one back reflection. 11. The device according to claim 8 , wherein the decoupled at least one back reflection is directed onto said deflection unit by a deflection element arranged to be displaceable along a direction of propagation of the decoupled at least one back reflection. 12. The device according to claim 8 , wherein said spatially resolving sensor is arranged to be inclined with respect to a direction of propagation of the decoupled at least one back reflection. 13. The device according to claim 8 , wherein said spatially resolving sensor is movable into a plurality of positions inclined with respect to a direction of propagation of the decoupled at least one back reflection. 14. A device for detecting a focal position of a machining laser beam in a laser machining head, the device comprising: an optical element arranged in a portion of said laser beam that is converging towards a focus, the optical element decoupling at least one back reflection from the laser beam path; and a sensor arrangement for detecting beam properties of said laser beam in a region of said focus along a direction of propagation of said laser beam, said sensor arrangement measuring the decoupled at least one back reflection of said laser beam at at least two locations offset from each other along the direction of propagation of said laser beam for determining the focal position, wherein said sensor arrangement comprises a scattering medium arranged along an optical axis of the decoupled at least one back reflection, wherein, for observation of a beam caustic of said laser beam, scattered light emanating from the decoupled at least one back reflection is imageable onto a detector using an imaging optics.