Capacitive sensing node integration to a surface of a mechanical part

The invention claimed is: 1. A motion detecting device, comprising: a stationary plastic sensor carrier ( 11 ) having: at least two sensor carrier sections having a first plastic material and at least one insulation section having a second plastic material, the at least one insulation section extending between two adjacent sensor carrier sections, the at least two sensor carrier sections and the at least one insulation section being integrally formed by a plastic molding process, a plurality of plated metal surface electrodes ( 13 ) arranged on surfaces of the at least two sensor carrier sections, and a plurality of surface electrode contacts ( 56 - 59 ; 60 - 63 ) connecting the plated metal surface electrodes ( 13 ) with a PCB ( 12 ); and a plastic knob element ( 14 , 20 ) movably arranged on the stationary plastic sensor carrier ( 11 ), such that the at least one insulation section and the plated metal surface electrodes ( 13 ) are at least partly covered by the knob element ( 14 , 20 ). 2. The motion detecting device ( 10 ) according to claim 1 , wherein the at least two sensor carrier sections and the at least one insulation section are formed by a double shot injection molding process. 3. The motion detecting device ( 10 ) according to claim 1 , wherein the plated metal surface electrodes ( 13 ) comprise a copper plating. 4. The motion detecting device ( 10 ) according to claim 1 , wherein the plated metal surface electrodes ( 13 ) comprise a nickel plating. 5. The motion detecting device ( 10 ) according to claim 1 , wherein the plated metal surface electrodes ( 13 ) comprise an electroless nickel immersion gold plating. 6. The motion detecting device ( 10 ) according to claim 1 , wherein the plated metal surface electrodes ( 13 ) comprise an organic solderable preservative. 7. The motion detecting device ( 10 ) according to claim 1 , wherein the at least two carrier sections comprise Acrylnitryle-Butadien-Styrole. 8. The motion detecting device ( 10 ) according to claim 1 , wherein the motion detecting device has an outer shape selected from a conical shape, a frustoconical shape, a pyramidal shape and a truncated pyramid shape. 9. The motion detecting device ( 10 ) according to claim 1 , further comprising a short circuit spring attached to the plastic knob element, wherein two portions of the short circuit spring form a short circuit between two electrode surfaces in a first predefined position and wherein the two portions of the short circuit spring do not form a short circuit between any electrode surfaces in a second predefined position. 10. The motion detecting device ( 10 ) according to claim 1 , further comprising a light sensor having a light source and a light detector, wherein the light source is attached to the plastic knob element, the light source being arranged such that the light source illuminates and receives reflected light from an electrode surface in a predetermined position. 11. The motion detecting device ( 10 ) according to claim 1 , further comprising an inductive sensor, the inductive sensor having a magnet and a coil, the magnet and the coil being attached to the plastic knob element. 12. The motion detecting device ( 10 ) according to claim 1 , further comprising a gear wheel, the gear wheel being arranged so as to engage with a sensor gear wheel on a circuit board, the gear wheel being arranged at an outer wall of the rotary knob guide. 13. The motion detecting device ( 10 ) according to claim 1 , wherein the plastic knob element ( 14 , 20 ) has a knob guide ( 14 ) and a knob grip ( 20 ), wherein the knob grip ( 20 ) is arranged on the knob guide ( 14 ), and wherein the knob guide has a tooth gear ( 17 ). 14. The motion detecting device ( 10 ) according to claim 1 , further comprising a center button reflector ( 24 ) arranged inside the plastic knob element ( 14 , 20 ), and a center button cap ( 26 ) arranged on top of the plastic knob element ( 14 , 20 ). 15. A motion detection interface arrangement ( 10 ) comprising: a motion detecting device according to claim 1 ; and a PCB with conductive paths having a plurality of interface ports ( 68 - 70 ; 71 - 74 ), the surface electrode contacts being electrically connected with the interface ports. 16. The motion detection interface arrangement ( 10 ) according to claim 15 , further comprising a latching spring, the latching spring being attached to the PCB, and a plurality of protrusions at a bottom end of the plastic knob element, wherein the latching spring engage between at least two of the protrusions. 17. The motion detection interface arrangement ( 10 ) according to claim 15 , further comprising a latching spring and a latching element and a plurality of protrusions at a bottom end of the plastic knob element, wherein the latching spring is attached to the PCB, the latching element being arranged between the protrusion and the latching spring, and wherein the latching element engages between at least two of the protrusions. 18. The motion detection interface arrangement ( 10 ) according to claim 15 , further comprising a wheel mounted on the PCB and a detector that detects a motion of the wheel, the wheel engaging with a gear on the knob element ( 14 , 20 ) and the detector being electrically connected to a conductive path on the PCB. 19. A motion detection device comprising: a motion detection interface arrangement ( 10 ) according to claim 15 ; and an electronic evaluation unit ( 36 ) having a plurality of interface ports electrically connected with the conductive paths of the PCB. 20. The motion detection device according to claim 19 , wherein the electronic evaluation unit is configured to detect an intentional hand contact by evaluating the strength and duration of signals from the electrode surfaces via the interface ports. 21. The motion detection device according to claim 19 , wherein the electronic evaluation unit is configured to detect a finger position by evaluating signals from the electrode surfaces via the interface ports. 22. The motion detection device according to claim 19 , wherein the electronic evaluation unit is configured to detect a rotational position of the knob element ( 14 , 20 ) by detecting a short circuit between two of the electrode surfaces and by detecting the absence of a short circuit between electrode surfaces. 23. The motion detection device according to claim 19 , wherein the electronic evaluation unit is configured to detect a rotational position of the knob element ( 14 , 20 ) by evaluating an electric signal from a coil via conductive paths of the PCB, the coil being attached to the knob element ( 14 , 20 ). 24. The motion detection device according to claim 19 , wherein the electronic evaluation unit is configured to detect a rotational position of the knob element ( 14 , 20 ) by evaluating an electric signal from a light detector via conductive paths of the PCB, the light detector being attached to the knob element ( 14 , 20 ). 25. A vehicle with a motion detection device according to claim 19 , wherein the motion detection device is integrated into an operating panel in a passenger compartment of the vehicle and wherein the electronic evaluation unit of the motion detection device is electrically connected to a device of the vehicle. 26. A method for producing a cylindrical capacitive sensor arrangement ( 11 ), comprising: injection molding a first shot m