Handheld measuring aid for use with a six-degrees-of-freedom laser tracker

What is claimed is: 1. A handheld measuring aid for use in a system—having a station for position and orientation determination of the handheld measuring aid—for surveying an object surface, the handheld measuring aid comprising: a body; visual markings, which are arranged in a defined spatial relationship, forming a pattern, on the body in a marking region; a measuring probe, which is arranged on an orifice of the body in a defined spatial relationship in relation to the pattern, for the object surface, having a ball to be used in a tactile manner for physically contacting a measurement point on the object surface; a first operating element actuatable by a user; an electronic circuit for generating a signal that occurs as a function of an actuation of the first operating element and is indicative of a triggering of a position and orientation determination of the handheld measuring aid which can be carried out by the station; and wireless communication means for transmitting the signal to the station; wherein: the first operating element is arranged on a first section of the body extending away from the orifice, and the handheld measuring aid is designed to be held, in a measuring position of the handheld measuring aid, in one hand like a pen, wherein, in this measurement position: the first section is used as a gripping region for at least a thumb and an index finger of the user, and the first operating element is actuatable using the gripping thumb or the gripping index finger; wherein a rolling axis is defined by the body as the axis of the body which corresponds to the direction of the greatest extension, wherein the following sections of the handheld measuring aid follow one another in the following sequence along the rolling axis: measuring probe, orifice having the first section extending away therefrom, a second section, which essentially continues a dimensioning of the first section transversely to the rolling axis, so that the first and second sections together form an elongated pin section, which is insertable into a pocket hole having an opening of 3 cm diameter, and the marking region, wherein this has, at least in one transverse direction, a significantly greater extension transversely to the rolling axis than the first and second sections. 2. The handheld measuring aid according to claim 1 , wherein the visual markings are passive or active light spots, which can be acquired by a camera. 3. The handheld measuring aid according to claim 2 , wherein the passive or active light spots are formed by reflectors or by LEDs. 4. The handheld measuring aid according to claim 1 , wherein a retroreflector is arranged on the body in a defined spatial relationship in relation to the pattern or the measuring probe. 5. The handheld measuring aid according to claim 4 , wherein the retroreflector comprises a hollow corner cube retroreflector, and the defined spatial relationship is in relation with a center point of the pattern. 6. The handheld measuring aid according to claim 1 , wherein the communication means are additionally implemented to receive signals transmitted from the station, wherein the communication means includes a receiving diode for detecting measuring radiation emitted on the part of the station in the direction of the measuring aid, onto which the signals are modulated, wherein the receiving diode is arranged closely adjacent to the retroreflector and/or downstream from the retroreflector, which is implemented as partially radiation transparent for this purpose, in the measuring radiation propagation direction. 7. The handheld measuring aid according to claim 1 , wherein the first section has a mean transverse/depth extension transversely to the rolling axis of at most 4 cm and at least 0.5 cm. 8. The handheld measuring aid according to claim 1 , wherein the pin section has a longitudinal extension in the direction of the rolling axis of at most 15 cm. 9. The handheld measuring aid according to claim 1 , wherein the pin section has a longitudinal extension in the direction of the rolling axis of approximately between 7 and 12 cm. 10. The handheld measuring aid according to claim 1 , wherein the marking region has a longitudinal extension in the direction of the rolling axis of approximately between 5 and 8 cm, a transverse extension in a first direction transversely to the rolling axis of approximately between 5 and 8 cm, and a depth extension in a second direction that is perpendicular to the first direction transversely to the rolling axis of approximately between 18 to 6 cm. 11. The handheld measuring aid according to claim 1 , wherein the marking region has a longitudinal extension in the direction of the rolling axis of at most 10 cm; a transverse extension in a first direction transversely to the rolling axis of at most 10 cm; and a depth extension in a second direction that is perpendicular to the first direction transversely to the rolling axis of at most 7 cm. 12. The handheld measuring aid according to claim 1 , wherein, wherein the visual markings are active light spots that are allocated into two groups so that they form two concentric patterns, which are respectively optionally activatable and deactivatable, wherein the two groups are alternately respectively activated or deactivated automatically via a control circuit of the handheld measuring aid in reaction to receiving a signal via communication means. 13. A system for surveying an object surface made of a measuring aid according to claim 1 and a station for position and orientation determination of the measuring aid. 14. The system according to claim 13 , wherein the handheld measuring aid has a retroreflector on the body in a defined spatial relationship in relation to the pattern or the measuring probe, and wherein the station is implemented as a laser tracker for aligning a laser beam on the retroreflector, wherein the laser tracker additionally has a camera for recording an image of the pattern, and wherein the laser tracker has functionalities for the three-dimensional determination of the position of the retroreflector via laser beam and for the three-dimensional determination of the orientation of the handheld measuring aid via analysis of the recorded image of the pattern. 15. The system according to claim 14 , wherein the retroreflector comprises a hollow corner cube retroreflector. 16. A handheld measuring aid for use in a system—having a station for position and orientation determination of the handheld measuring aid—for surveying an object surface, the handheld measuring aid comprising: a body; visual markings, which are arranged in a defined spatial relationship, forming a pattern, on the body in a marking region; a measuring probe, which is arranged on an orifice of the body in a defined spatial relationship in relation to the pattern, for the object surface, having a ball to be used in a tactile manner for physically contacting a measurement point on the object surface; a first operating element actuatable by a user; an electronic circuit for generating a signal that occurs as a function of an actuation of the first operating element and is indicative of a triggering of a position and orientation determination of the handheld measuring aid which can be carried out by the station; and wireless communication means for transmitting the signal to the station; wherein: the first operating element is arranged on a first section of the body extending away from the orifice, and the handheld measuring aid is designed to be held, in a measuring position of the handhel