Method of operating a hand-held spray device and hand-held spray device

The invention claimed is: 1. A hand-held paint spray device, comprising: a spray head; an operator control unit; a connecting mechanism; at least one swinging mechanism; and a control device having a single sensor, the single sensor consisting of a digital gyro sensor that only detects (i) a z swinging angle about a z axis, which is orthogonal with respect to a longitudinal axis defined by the connecting mechanism, and (ii) a y swinging angle about a y axis, which is orthogonal with respect to the longitudinal axis defined by the connecting mechanism, and which is orthogonal with respect to the z axis, wherein the spray head comprises a spray nozzle, wherein the operator control unit comprises at least one operator control mechanism for controlling a flow of paint, wherein the connecting mechanism connects the spray head and the operator control unit, wherein the at least one swinging mechanism is arranged between the operator control unit and the spray nozzle, wherein the spray nozzle pivots relative to the operator control unit, and wherein the control device controls with the single sensor a manual rotation of the spray device causing a change in an orientation of the spray nozzle in space with respect to a target orientation of the spray nozzle, and corrects the change by the at least one swinging mechanism arranged between the operator control unit and the spray nozzle, such that the spray nozzle of the spray device is continuously adjusted to the target orientation that the spray nozzle had assumed before the manual rotation of the spray device. 2. The hand-held paint spray device as claimed in claim 1 , wherein the single digital gyro sensor is arranged on the operator control unit or on the spray head and in a region of the spray nozzle. 3. The hand-held paint spray device as claimed in claim 1 , wherein the connecting mechanism can be telescoped manually or automatically, and/or wherein the spray nozzle is a multi-purpose spray nozzle that can be switched between a flat jet and a round jet manually and/or automatically, and which can rotate manually and/or automatically, by at least one of the at least one swinging mechanism that are present, or by a rotation mechanism, which is present in addition to the at least one swinging mechanism, at least in 90° increments about a spraying direction. 4. The hand-held paint spray device as claimed in claim 1 , wherein each of the at least one swinging mechanism comprises at least an electric drive or a pneumatic drive, wherein the at least one electric drive or pneumatic drive is a rotary drive or a linear drive, and wherein at least one of the spray nozzle, the spray head and the connecting mechanism can be swung directly or indirectly, and/or rotated directly or indirectly, by the at least one electric or pneumatic drive. 5. The hand-held paint spray device as claimed in claim 1 , wherein the spray nozzle, the spray head, or the connecting mechanism can be swung out of a central rotational position by the at least one swinging mechanism, wherein in the central rotational position, the spray nozzle is positioned such that the target orientation is parallel with respect to the longitudinal axis defined by the connecting mechanism, through a w swinging angle by rotation about the z axis to an unlimited extent with left-hand rotation and right-hand rotation, and can be swung through a v swinging angle by rotation about the y axis to an unlimited extent with left-handed rotation and right-handed rotation, and can also be rotated through a u swinging angle by rotation about the x axis to an unlimited extent with left-handed rotation and right-handed rotation. 6. The hand-held paint spray device as claimed in claim 1 , wherein the paint spray device performs at least one of hydraulic paint spraying, pneumatic paint spraying, and electrostatic paint spraying. 7. The hand-held paint spray device as claimed in claim 1 , wherein the spray device comprises a power supply for supplying energy to the control device and the at least one swinging mechanism, wherein the power supply comprises an energy store, wherein the energy store comprises at least one of an electrical accumulator and is accommodated in the operator control unit, a power line which is laid parallel to a paint hose or laid in a paint hose, and an electrical generator, and wherein the electrical generator is driven by an air flow fed to the spray device or by a paint flow fed to the spray device by a turbine. 8. The hand-held paint spray device as claimed in claim 1 , wherein the connecting mechanism comprises at least one lance tube, and wherein the at least one lance tube is a carbon fiber component or a glass fiber component. 9. The hand-held paint spray device as claimed in claim 5 , wherein in the central rotational position, the spray nozzle is positioned such that the target orientation is parallel with respect to the longitudinal axis defined by the connecting mechanism, through the w swinging angle by rotation about the z axis up to +/−30°, and can be swung through the v swinging angle by rotation about the y axis up to +/−30°, and can be rotated through the u swinging angle by rotation about the x axis up to +/−30°. 10. The hand-held paint spray device as claimed in claim 5 , wherein in the central rotational position, the spray nozzle is positioned such that the target orientation is parallel with respect to the longitudinal axis defined by the connecting mechanism, through the w swinging angle by rotation about the z axis up to +/−45°, and can be swung through the v swinging angle by rotation about the y axis up to +/−45°, and can be rotated through the u swinging angle by rotation about the x axis up to +/−45°. 11. The hand-held paint spray device as claimed in claim 5 , wherein in the central rotational position, the spray nozzle is positioned such that the target orientation is parallel with respect to the longitudinal axis defined by the connecting mechanism, through the w swinging angle by rotation about the z axis up to +/−180°, and can be swung through the v swinging angle by rotation about the y axis up to +/−180°, and can be rotated through the u swinging angle by rotation about the x axis up to +/−180°.