Device for opening/closing an opening element by detecting movement of a user's limb, and associated opening/closing method

The invention claimed is: 1 . A device for opening/closing an opening element of a motor vehicle by detecting movement of a limb of a user, said device comprising: an approach and/or contact detection sensor comprising a single electrode, and one or more processors configured to analyze variations in capacitance of the single electrode; an opening element opening/closing electronic controller; a sealed housing comprising at least one first metal surface and at least one second metal surface, the at least one first metal surface and the at least one second metal surface being separate, the at least one first metal surface being disposed inside the sealed housing; and a detector configured to detect a predetermined form of said variations of the single electrode, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period, wherein said single electrode is located outside the sealed housing such that said single electrode is respectively coupled electrically to the: least one first surface disposed inside the sealed housing and the at least one second surface to create at least two separate approach and/or contact detection areas. 2 . The device as claimed in claim 1 , wherein the sealed housing comprises a reflector and lamps, and wherein the first metal surface takes the form of parts of the reflector. 3 . The device as claimed in claim 1 , wherein the sealed housing comprises a decorative part, and wherein the second surface takes the form of the decorative part. 4 . The device as claimed in claim 3 , wherein the decorative part is located at least partially around the reflector. 5 . The device as claimed in claim 1 , wherein the movement is a back-and-forth movement across the device, and wherein the predetermined number of peaks is four. 6 . A lamp for a motor vehicle comprising the device as claimed in claim 1 . 7 . A motor vehicle comprising the device as claimed in claim 1 . 8 . A method for opening/closing an opening element of a motor vehicle by detecting movement of a limb of a user, using an opening/closing device including an approach and/or contact detection sensor including a single electrode and one or more processors configured to analyze variations in capacitance of the single electrode, and an opening element opening/closing controller, said opening/closing device including a sealed housing including at least one first metal surface and at least one second metal surface, the at least one first metal surface and the at least one second metal surface being separate, the at least one first metal surface being disposed inside the sealed housing, and a detector configured to detect a predetermined form of said variations a of the single electrode, exhibiting succession of a predetermined number of peaks of predetermined amplitude within a predetermined period, said single electrode being located outside the sealing housing such that said single electrode is respectively coupled electrically to the at least one first surface disposed inside the sealing housing and to the at least one second surface to create at least two separate approach and/or contact detection areas, said method comprising: detecting a predetermined form of said variations of the single electrode, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period when the single electrode is respectively coupled electrically to the at least one first surface disposed inside the sealed housing and to the at least one second surface to create the at least two separate approach and/or contact detection areas; and opening/closing the opening element according to the detected predetermined form of the variations of the single electrode. 9 . The method as claimed in claim 8 , wherein the movement is a back-and-forth movement across the device, and wherein the predetermined number of peaks is four. 10 . The device as claimed in claim 2 , wherein the sealed housing comprises a decorative part, and wherein the second surface takes the form of the decorative part. 11 . The device as claimed in claim 2 , wherein the movement is a back-and-forth movement across the device, and wherein the predetermined number of peaks is four. 12 . The device as claimed in claim 3 , wherein the movement is a back-and-forth movement across the device, and wherein the predetermined number of peaks is four. 13 . The device as claimed in claim 4 , wherein the movement is a back-and-forth movement across the device, and wherein the predetermined number of peaks is four. 14 . A lamp for a motor vehicle comprising the device as claimed in claim 2 . 15 . A lamp for a motor vehicle comprising the device as claimed in claim 3 . 16 . A lamp for a motor vehicle comprising the device as claimed in claim 4 . 17 . A lamp for a motor vehicle comprising the device as claimed in claim 5 . 18 . A motor vehicle comprising the device of claim 2 . 19 . The device as claimed in claim 1 , wherein a first part of the single electrode that is coupled electrically to the at least one first metal surface creates a first approach and/or contact detection electrode defined by the first part of the single electrode and the at least one first metal surface to form a first approach and/or contact detection area of the at least two approach and/or contact detection areas, and a second part of the single electrode that is coupled electrically to the at least one second metal surface creates a second approach and/or contact detection electrode defined by the second part of the single electrode and the at least one second metal surface to form a second approach and/or contact detection area of the at least two approach and/or contact detection areas. 20 . The method as claimed in claim 8 , wherein a first part of the single electrode is coupled electrically to the at least one first metal surface to create a first approach and/or contact detection electrode defined by the first part of the single electrode and the at least one first metal surface to form a first approach and/or contact detection area of the at least two approach and/or contact detection areas, and a second part of the single electrode is coupled electrically to the at least one second metal surface to create a second approach and/or contact detection electrode defined by the second part of the single electrode and the at least one second metal surface to form a second approach and/or contact detection area of the at least two approach and/or contact detection areas.