DEVICE FOR OPENING/CLOSING AN OPENING ELEMENT BY DETECTING MOVEMENT OF A USER'S LIMB, AND ASSOCIATED OPENING/CLOSING METHOD

Abstract

Disclosed is a device for opening/closing an opening element of a motor vehicle by detecting movement of a users limb, the device including an approach and/or contact detection sensor including a single electrode and an analyzer for analyzing the variations in capacitance of the electrode, and an opening element opening/closing control unit. The device also includes: a sealed housing including first and second metal surfaces; and a unit for detecting a predetermined form of the variations of the electrode, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period; the first and second surface being separate, and the electrode being located outside the sealed housing, in such a way that the electrode is coupled electrically to the at least one first surface and to the at least one second surface so as to create at least two approach and/or contact detection areas.

Claims

1. A device for opening/closing an opening element of a motor vehicle by detecting movement of a users limb, said device comprising an approach and/or contact detection sensor comprising a single electrode and analysis means for analysing said variations in capacitance of the electrode, and an opening element opening/closing control unit, said device comprising: a) a sealed housing comprising at least one first metal surface and at least one second metal surface, b) detection means for detecting a predetermined form of said variations of the electrode, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period, the at least one first surface and the at least one second surface being separate, and said electrode being located outside the sealed housing, in such a way that said electrode is coupled electrically to the at least one first surface and to the at least one second surface so as to create at least two approach and/or contact detection areas.

2. The device as claimed in claim 1 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 a device as claimed in claim 1.

8. A method for opening/closing an opening element of a motor vehicle by detecting movement of a users limb, using an opening/closing device comprising an approach and/or contact detection sensor comprising a single electrode and analysis means for analysing the variations in capacitance of the electrode, and an opening element opening/closing control unit, wherein said device is equipped in advance with: a) a sealed housing comprising at least one first metal surface and at least one second metal surface, b) detection means for detecting a predetermined form of said variations of the electrode, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period, the at least one first surface and the at least one second surface being separate, said electrode being located outside the housing, in such a way that said electrode is coupled electrically to the at least one first surface and to the at least one second surface so as to create at least two approach and/or contact detection areas, and wherein said method comprises the following steps: c) detecting a predetermined form of said variations of the electrode, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period, d) opening/closing the opening element according to the detection thus performed.

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. A motor vehicle comprising the device of claim 3.

20. A motor vehicle comprising the device of claim 4.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] Other characteristics and advantages of the invention will become clear in the light of the following description. This description is purely illustrative and should be read in conjunction with the appended drawings, in which:

[0027] FIG. 1 shows schematically a vehicle V comprising an opening/closing device for an opening element according to the invention,

[0028] FIG. 2 shows a sectional view from the left of a right tail lamp 100 of a vehicle comprising the opening/closing device D according to the invention,

[0029] FIG. 3 shows a top view from the right of a right tail lamp 100 of a vehicle comprising the opening/closing device D according to the invention,

[0030] FIG. 4 shows an exploded view of the views of FIGS. 2 and 3,

[0031] FIG. 5a shows a first front view of the device D according to the invention,

[0032] FIG. 5b shows a second front view of the device D according to the invention,

[0033] FIG. 6 is a schematic illustration of the device D together with the two capacitive detection areas,

[0034] FIG. 7 is a graph showing the variation of capacitance at the terminals of the electrode when a users hand passes across the tail lamp.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0035] FIG. 1 shows a motor vehicle V comprising an opening/closing device D for an opening element of the vehicle V according to the invention. In the illustrated example, what is described is the opening/closing without physical contact, that is to say in a “hands free”manner, of a trunk C of the vehicle. In this example, the device D is contained in a right tail lamp 100 of the vehicle V.

[0036] As mentioned above, the aim of the invention is to enable the user to open the trunk C of his vehicle without physical contact and without the drawbacks (such as the risk of falls) of the prior art.

[0037] To this end, the invention proposes the device D shown in FIGS. 2, 3, 4 and 5a, 5b. FIG. 2 shows a sectional view from the left of the right tail lamp 100 of the vehicle V.

[0038] The right tail lamp 100 consists of a sealed housing 40 (see FIG. 5b) connected by a wiring harness (not shown) to an electronic module for controlling and managing the vehicle lights, the sealed housing 40 being made of plastic material for example, and comprising, but not limited to, [0039] a. a casing B comprising one or more lamps, usually one or more LED (light-emitting diode) lamps, which must be protected from moisture, together with a first reflector R1 forming the inner walls of the casing, [0040] b. a first glazed element 31 forming a wall of the casing, [0041] c. a decorative part R2 (see FIG. 4) made of metal or chrome plated plastic, surrounding all or part of the casing B, [0042] d. a plurality of successive light guides 20 made of plastic, nested within each other, and adapted for concentrating and/or diffusing and/or orienting the light beams from the lamps, [0043] e. transparent plastic glazed elements which may or may not be colored.

[0044] The reflector R1 usually takes the form of a coating, with a high refractive index for light, on the inner walls of the casing B. The light projected by the lamp(s) is reflected by the walls of the reflector R1 of the casing B, then passes through the succession of transparent glazed elements (see FIG. 4), that is to say through the first glazed element 31 and then through the transparent glazed elements 30 and the light guides 20, so that the light from the lamps is guided in accordance with the driver-controlled lights that are switched on, these lights being rear lights, flashing lights, or others. The reflector R1 is a metal or plastic reflector comprising a metallic coating, made of chrome-plated plastic for example.

[0045] The decorative part R2 can be seen by the user from the outside, through one of the transparent glazed elements 30, and forms an ornamental feature of the lamp 100.

[0046] The device D comprises a proximity sensor 10, comprising one electrode, namely the single electrode E1 (see FIG. 4), together with the sealed housing 40 comprising at least two metal surfaces S1, S2 that are separate, that is to say not electrically connected or coupled to each other, and an electronic controller 50 (shown in FIG. 4).

[0047] The proximity sensor 10 takes the form of a housing comprising a capacitive approach and/or contact detection sensor in the form of the electrode E1, connected to an electronic circuit for measuring the capacitance at the terminals of the electrode E1. The sensor 10 is also electrically connected to the control unit 50, which is itself connected to the mechanism (not shown) for opening/closing the trunk C. The sensor 10 measures the variations of capacitance ΔCe of the electrode E1 and transmits said variations to the control unit 50, which comprises means for analyzing said variations and which then sends an opening/closing signal to the mechanism of the trunk C, based on the variations of capacitance thus received.

[0048] The means for analyzing said variations of the capacitance of the electrode E1 take the form of means M1 for detecting a predetermined form of said variations, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period, as explained below.

[0049] In our example, explained below, the predetermined number of peaks is 4, but this is in no way limiting.

[0050] The electrode E1 consists of a metal surface, made of copper for example. According to the invention, the sensor 10 comprising the electrode E1 is located outside the sealed housing 40, against or near an outer wall PA (see FIG. 4) of the housing 40, so that said electrode E1 is coupled electrically to the metallic surface of the reflector R1, located inside the housing 40, which will be referred to as the first metallic surface S1.

[0051] According to the invention, and in an ingenious manner, the electrode E1 is also located in contact with, or near, the decorative part R2, so as to be coupled electrically to said part, which will be referred to as the second metallic surface S2. This is illustrated in FIG. 5.

[0052] Thus, as shown in FIG. 5, the electrode E1, positioned in this way outside the sealed housing 40 of the right tail lamp 100, is then coupled electrically to the first metallic surface S1 and to the second metallic surface S2; that is to say, said electrode E1 is coupled electrically to the two surfaces made of metal or of metallized or chrome plated plastic.

[0053] FIG. 6 is a schematic view of FIG. 5. The part E1A of the electrode E1 that is coupled electrically to the first metallic surface S1 creates an electrode EA defined by the metallic surfaces formed by the part E1A of said electrode E1 and by the first metallic surface S1, thus forming a first approach and/or contact detection area Z1 around said reflector R1.

[0054] The part of the electrode E1B that is coupled electrically to the second metallic surface S2 creates an electrode EB defined by the metallic surfaces formed by the part E1B of said electrode E1 and by the second metallic surface S2, thus forming a second approach and/or contact detection area Z2 around the decorative part R2.

[0055] It should be noted that the single electrode E1 may take the form of two or more metallic parts that are electrically interconnected, a first part of the electrode being coupled electrically to the first metallic surface S1 and a second part of the electrode being coupled electrically to the second metallic surface S2.

[0056] It should be noted that the invention is not limited to two detection areas, and the electrode E1 may thus consist of a plurality of parts of the same single electrode that are electrically interconnected, each part being electrically connected to one or more metallic parts of the lamp 100, thus creating a plurality of detection areas.

[0057] The geometry of the two detection areas Z1, Z2 depends on, among other factors, the geometry of the two metallic surfaces S1, S2 coupled to the electrode E1, that is to say, among other factors, the geometry of the electrodes EA and EB, that is to say the geometry of the first and second metallic surfaces S1, S2.

[0058] Since the reflector R1 and the decorative part R2 have different geometries, the first and second metallic surfaces also have different geometries, resulting the creation of two detection areas Z1, Z2 which also have different geometries.

[0059] The geometry of a detection area is taken to be the dimensions of said area in three mutually orthogonal axes X, Y, Z, shown in FIG. 6.

[0060] Since the first and second metallic surfaces S1, S2 are not coupled electrically to each other, being separate for example, the electrodes El and EB each generate a detection area, that is to say they generate the two detection areas Z1, Z2. Said two detection areas Z1, Z2 may be separate and may not intersect each other, that is to say they may not have a common detection area, but it is also possible for them to have an intersection area, that is to say a common detection area.

[0061] The method of opening/closing the trunk C will now be explained with the aid of FIGS. 5a, 6 and 7.

[0062] When the user performs a predetermined movement, for example by moving his hand M back and forth across the opening/closing device D, as shown in FIG. 5 (the arrows pointing from left to right and right to left), said hand M passes consecutively into the detection areas Z2, Z1 and then Z1, Z2.

[0063] The presence of the hand is then detected consecutively by the two electrodes EB, EA, then EA, EB, causing a variation in the capacitance seen by the electrode E1.

[0064] This variation of capacitance ΔCe as a function of time t is shown in FIG. 7. The back and forth movement of the users hand M is characterized by a specific variation curve of the capacitance of the electrode E1, that is to say a curve exhibiting a predetermined form over a predetermined period Δt, and comprising: [0065] a. two first peaks P2A, P1A, corresponding to the first passage (forward movement of the hand M from right to left) across the lamp 100, that is to say a passage across the second part R2, in other words in the second detection area Z2, then across the first reflector R1, that is to say in the first detection area Z1, [0066] b. two second peaks P1B, P2B, corresponding to the second passage (return movement of the hand M from left to right) across the first reflector R1, that is to say in the first detection area Z1, then across the second reflector R2, that is to say in the second detection area Z2.

[0067] The variation peaks P1A, P1B of the capacitance of the electrode E1 correspond to the passage of the hand M across the reflector R1. The peaks of variation P2A, P2B of the capacitance of the electrode E1 correspond to the passage of the hand M across the decorative part R2. The amplitude of the peaks P1A, P1B, P2A, P2B depends on the geometry of the detection areas metallic surfaces Z1, Z2, and therefore on the dimensions of the first and second metallic surfaces S1, S2.

[0068] In our example, the predetermined form of the variations of the electrode E1 comprises 4 peaks, corresponding to two passages across each of the two elements, namely the reflector R1 and the decorative part R2, according to the predetermined movement of the users hand M.

[0069] Evidently, the invention is not limited to a back and forth movement of the users hand M across the opening/closing device D, but is also applicable to any movement of a party of the users body across the opening/closing device D allowing a successive passage from the first Z1 or the second detection area Z2, respectively, to the second Z2 or the first detection area Z1, and allowing the creation of a range of variation of capacitance ΔCe which may be compared with a predetermined form.

[0070] The invention is therefore ingenious in that enables the trunk of the vehicle to be opened in a “hands free”manner without the need to lift a lower limb from the ground. The invention is all the more remarkable in that it obviates the problems of sealing the lamp housing, by placing the electrode outside said sealed housing 40 rather than inside it. This is because placing the electrode inside the sealed housing 40 of the lamp has the disadvantage of requiring the passage of wires from inside the sealed housing 40 to the outside, these wires connecting the electrode E1 to the sensor 10 which is located outside the housing 40.

[0071] With the arrangement of the electrode E1 according to the invention, no intrusive changes are made to the housing 40, which remains completely sealed.

[0072] Furthermore, the invention enables two detection areas to be created in a skillful manner, by appropriate use of the metallic surfaces available in the lamp. Thus a single electrode enables at least two detection areas to be generated, by contrast with the prior art in which two electrodes are required to create two areas and make the detection robust.

[0073] The device according to the invention, for its part, enables robust and reliable detection to be provided using a single electrode, without intrusive modification of a part of the vehicle that must remain sealed.