Operating device for motor vehicles

The invention claimed is: 1. An operating device for a motor vehicle, including a plurality of proximity sensors for detecting contactless actuation, wherein the operating device extends in a first plane, and the proximity sensors are disposed in the first plane, separated from one another, and oriented with their detection regions in the same spatial direction, wherein a control and evaluation device is coupled to the proximity sensors, which is designed for a temporal detection of signals from each of the plurality of proximity sensors, wherein the plurality of proximity sensors are covered with at least one electrically insulating plastic cover, and thus separated from the detection region, wherein at least one electrically conductive separating device is disposed between the plurality of proximity sensors, oriented toward the side facing the detection regions, and directly adjacent to the at least one plastic cover, wherein the at least one plastic cover is made of multiple parts, and the at least one electrically conductive separating device extends between the parts of the at least one plastic cover, wherein a shape of the at least one separating device is adapted to cooperate with the at least one plastic cover such that the plastic parts act as inserts located in voids defined in the at least one electrically conductive separating device; and wherein the at least one electrically conductive separating device comprises an emblem of a vehicle manufacturer. 2. The operating device according to claim 1 , wherein at least three proximity sensors are provided, between which, in each case, sections of the at least one electrically conductive separating device are disposed. 3. The operating device according to claim 1 , wherein at least one light source, or a wave guide coupled to a light source, is disposed beneath the at least one electrically conductive separating device, thus on the side of the at least one electrically conductive separating device facing toward the detection region. 4. The operating device according to claim 1 , wherein at least one of the proximity sensors is designed as a capacitive sensor. 5. The operating device according to claim 1 , wherein at least one of the plurality of proximity sensors is designed as a magnetic field sensor. 6. The operating device according to claim 1 , wherein the control and evaluation device is designed to generate an actuation signal, as a function of a series of proximity detections from at least two of the plurality of proximity sensors. 7. The operating device according to claim 1 , wherein the at least one electrically conductive separating device is coupled to the control and evaluation device for applying a given potential thereto. 8. The operating device according to claim 7 wherein the potential is a ground potential. 9. A planar operating device for a motor vehicle, comprising: at least two spaced proximity sensors for detecting a contactless actuation, wherein the at least two proximity sensors are oriented with their detection regions facing in the same spatial direction; a control and evaluation device electrically coupled to the at least two proximity sensors; at least two spaced electrically insulating plastic covers, wherein a respective one of the at least two plastic covers overlies a respective one of the at least two proximity sensors; and an electrically conductive separating device including at least two spaced voids, each accommodating respective ones of the at least two plastic covers and of the at least two proximity sensors. 10. The operating device of claim 9 wherein each of the at least two plastic covers overlaps a respective one of the at least two proximity sensors that the respective plastic cover overlies on all sides of the respective proximity sensor in order to electrically separate the respective proximity sensor from the electrically conductive separating device. 11. The operating device of claim 9 further comprising a light source, or a wave guide coupled to a light source, which is disposed beneath the separating device and faces towards the detection regions of the at least two spaced proximity sensors. 12. The operating device of claim 9 wherein the at least two proximity sensors comprise at least one of capacitive sensors and magnetic field sensors. 13. The operating device of claim 9 wherein the control and evaluation device generates an actuation signal as a function of a series of proximity detections from the at least two proximity sensors. 14. The operating device of claim 9 wherein the control and evaluation device is also electrically coupled to the electrically conductive separating device. 15. The operating device of claim 14 wherein the separating device is coupled to the control and evaluation device for applying a given potential thereto. 16. The operating device of claim 15 wherein the potential is a ground potential. 17. The operating device of claim 9 wherein the separating device comprises an emblem of a vehicle manufacturer.