Hand-held machine tool

The invention claimed is: 1. A method for operating a mobile machine tool for machining a workpiece, wherein the machine tool comprises a guide element having a guide surface for relatively guiding the machine tool and a workpiece surface of the workpiece towards one another along a machining path, wherein the machine tool comprises a drive unit having a drive motor for driving a tool receptacle arranged on the drive unit for receiving a work tool, wherein the machine tool comprises a detection device for detecting at least one workpiece reference which is assigned, with respect to a machining path, to a machining start point where the work tool is intended to start the machining of the workpiece or to a machining end point where the work tool is intended to end the machining of the workpiece, wherein the tool receptacle is designed for rotationally driving the work tool about an axis of rotation and for adjusting the penetration depth of the work tool into the workpiece by means of a depth adjustment device of the machine tool between depth adjustment positions, wherein the work tool has, on a radially outer circumference of the work tool, a cutting region for cutting into the workpiece, thereby forming a machining edge which is at different distances from the at least one workpiece reference depending on at least two depth adjusting positions in which the work tool projects at different distances from the guide surface wherein the method comprises determining a distance value of a distance of the machining edge from the at least one workpiece reference and determining a predetermined depth value for the depth adjustment position depending on the distance value. 2. A mobile machine tool for machining a workpiece, wherein the machine tool comprises a guide element having a guide surface for relatively guiding the machine tool and a workpiece surface of the workpiece towards one another along a machining path, wherein the machine tool comprises a drive unit having a drive motor for driving a tool receptacle arranged on the drive unit for receiving a work tool, wherein the machine tool comprises a detection device for detecting at least one workpiece reference which is assigned, with respect to a machining path, to a machining start point where the work tool is intended to start the machining of the workpiece or to a machining end point where the work tool is intended to end the machining of the workpiece and wherein the tool receptacle is designed for rotationally driving the work tool about an axis of rotation and for adjusting the penetration depth of the work tool into the workpiece by means of a depth adjustment device of the machine tool between depth adjustment positions, wherein the work tool has, on a radially outer circumference of the work tool, a cutting region for cutting into the workpiece, thereby forming a machining edge which is at different distances from the at least one workpiece reference depending on at least two depth adjusting positions in which the work tool projects at different distances from the guide surface, and wherein the depth adjustment device determines a distance value of the distance of the machining edge from the at least one workpiece reference and determines a predetermined depth value for the depth adjustment position depending on the distance value. 3. The machine tool according to claim 2 , wherein the depth adjustment device is designed for continuously determining the predetermined depth value depending on a relative movement of the machine tool and the workpiece with respect to the machining path. 4. The machine tool according to claim 2 , wherein the machine tool guides the work tool along the machining path in a working direction. 5. The machine tool according to claim 4 , wherein the depth adjustment device is designed to output the predetermined depth value indicating plunging of the work tool into the workpiece for movement in the working direction when a rear machining edge, viewed in the working direction, reaches the machining start point and/or is designed for outputting a predetermined depth value indicating the work tool retracting from the workpiece when a front machining edge, viewed in the working direction, reaches the machining end point. 6. The machine tool according to claim 4 , wherein the depth adjustment device is designed for outputting the predetermined depth value indicating retraction of the work tool from the workpiece if the work tool is moved by a predetermined measure against the working direction and/or if a rear machining edge, viewed in the working direction, reaches the machining start point. 7. The machine tool according to claim 4 , wherein the work tool and/or the tool receptacle, when moving between the at least two depth adjustment positions, passes through a motion path having a directional component parallel to the guide surface and a directional component orthogonal to the guide surface and the depth adjustment device is designed for determining the predetermined depth value depending on an adjustment of a front machining edge and/or a rear machining edge depending on the directional component parallel to the guide surface. 8. The machine tool according to claim 7 , wherein the directional component parallel to the guide surface is caused by pivoting the tool receptacle about a depth adjustment axis at a pivot angle. 9. The machine tool according to claim 7 , wherein a travel sensor is arranged outside a detection range of a marking sensor on the machine tool, and/or is arranged at a transverse distance from the machining edge and/or wherein the travel sensor and the marking sensor have physical measuring principles that differ from one another. 10. The machine tool according to claim 4 , wherein a distance between a front machining edge and a rear machining edge is dependent on a penetration depth of the work tool into the workpiece and the depth adjustment device is designed for determining the predetermined depth value depending on an adjustment of the front machining edge and/or the rear machining edge depending on the penetration depth of the work tool. 11. The machine tool according to claim 2 , wherein the machine tool has a travel sensor for determining a path length of a relative movement of the machine tool and the workpiece. 12. The machine tool according to any one of claim 11 , wherein the travel sensor can comprise or be formed by at least one rolling member for rolling along a surface of the workpiece and/or at least one optical detection element, and/or at least one position sensor and/or at least one magnetic sensor for detecting a geomagnetic field and/or at least one acceleration sensor. 13. The machine tool according to claim 11 , wherein the travel sensor and/or the marking sensor comprises, or is formed by, a camera and/or an optical sensor and/or an inductive sensor and/or a sensor operable by an actuating action of an operator for determining a virtual workpiece marking of the workpiece. 14. The machine tool according to claim 11 , wherein the marking sensor forms an assembly separate from the machine tool and can be moved relative to the workpiece irrespective of the machine tool. 15. The machine tool according to claim 2 , wherein the detection device is an actuating device operable by an operator for detecting the marking and/or comprises a marking sensor having a workpiece detection range directed at the workpiece when the machine tool is in operation for determining the at least one workpiece reference if the workpiece reference is attached to, or arranged at, or assigned to, the workpiece. 16. The machine tool acco