FR2908903A1 - Indexation device for being housed in control board, has control unit maintained in indexation position using magnetic attraction exerted by magnet when protuberances of metallic element are located opposite to magnet - Google Patents

Abstract

The device (1) has a notching unit with a metallic element (4) e.g. cylindrical ring, and a cylindrical magnet (5) that are displaced with respect to one another during movement of a movable control unit e.g. rotary button, where the element is made of steel, copper, zinc, iron or nickel. The control unit is maintained in an indexation position using the magnetic attraction exerted by the magnet when parallelepiped or cylindrical shaped protuberances (6i) of the element are located opposite to the magnet. The magnet is extended along direction parallel to a rotational axis (A) of the element.

Description

1 Indexing device for control panel of a control system

  ventilation, heating and / or air conditioning. The technical sector of the present invention is that of indexing devices 5 for control panel of a ventilation system, heating and / or air conditioning. In a motor vehicle having a ventilation system, heating and / or air conditioning, a control panel located in the facade of the dashboard of the vehicle allows a user to control the system 10 ventilation, heating and / or air conditioning. To this end, the control panel comprises control members allowing the user to adjust at his convenience various parameters such as the flow rate of the delivered air flow, the temperature of the air flow as well as the area of the passenger compartment of the vehicle traveled by the air flow. For each parameter, there are several levels of pre-established settings. For example, for the parameter of the air flow rate, the user has the choice between a minimum flow, a maximum flow and no flow. Each level of adjustment corresponds to a precise indexing position of the control member. Each indexing position is created by an indexing device making it possible to keep the control member in the desired indexing position and to tactily inform the user when the latter moves from one position to another by the intermediate a mechanical strength of the control member. In the first place, this mechanical resistance stabilizes the indexing position chosen by the user. Indeed, this stabilization is necessary in order to avoid any change of unwanted indexing position. Since a vehicle is subjected to various vibrations, a large vibration can cause the control member to move to an undesired indexing position if the latter is not stable. Secondly, when the user actuates one of these control members, he is informed about the fact of passing from one adjustment level to another by the mechanical strength of the control member. This mechanical resistor exists for each setting level, i.e. for each indexing position. Thus, to move from one indexing position to another, the user must exert a force on the control member to overcome the mechanical strength of the starting indexing position in order to put the control member in the next indexing position. This distinction of the different indexing positions is made by the feeling of the user of this mechanical resistance of the control member when the user actuates the latter to move from one position to another. This mechanical resistance is due to a notching means. The detent means comprises an element mounted on the control member defining a splined path and a spring plunger traversing this splined path and marking each indexing position by engaging in a trough of the splined path under the action of a spring. Thus, to move from one indexing position to another, the user must exert a force on the control member to overcome the action of the spring on the diver and allow the latter to engage in a following hollow of the fluted path. Such locking means using a mechanical device, however, suffer from major drawbacks. One of the main disadvantages is the noise created by such a locking means when the control member is actuated.

  This provides inconvenience to the user when handling the controller. Another disadvantage is the friction of the different parts of the locking means between them. In this respect, the contact of the fluted path with the plunger involves abrasion phenomena of the parts of the notching means. Consequently, a replacement of the parts of the locking means is necessary after a certain number of manipulations. The object of the present invention is therefore to solve the disadvantages described above mainly by eliminating any mechanical contact between the various moving parts constituting the notching means. Thus, the acoustic discomfort during manipulation of the control member no longer exists and the locking means has an almost unlimited lifetime and requires reduced maintenance since abrasion wear phenomena do not exist 2908903 3 more. In addition, such a device is inexpensive since the number of parts is reduced. This indexing device is also simple in its structure which allows it to be adapted to a large number of control panel architectures without modifications.

The invention therefore relates to an indexing device comprising a movable control member held in at least one indexing position by a notching means, wherein the notching means comprises a metal element provided with at least one protrusion and at least one magnet, said metal member and the magnet moving relative to each other during the movement of the control member and in that said control member is held in the position of indexing by means of the magnetic attraction exerted by the magnet when the protuberance is located vis-à-vis said magnet. According to a first feature of the invention, the magnet is located so that one of its poles is vis-à-vis a protuberance.

According to a second characteristic of the invention, the metal element is made of steel, copper, zinc, iron or nickel. According to another characteristic of the invention, the distance between a protuberance and a magnet is between 0.1 and 10 mm. The distance D is chosen as a function of the intensity of the attraction of the magnet on a protrusion 20 vis-à-vis that it is desired to be attributed. The shorter the distance D, the stronger the attraction and the greater the user will have to exert a significant force. According to another characteristic of the invention, the protuberances have a cylindrical or parallelepipedal shape. According to yet another characteristic of the invention, the protuberances 25 are distributed uniformly over the metal element. Advantageously, the metal element is a ring of cylindrical shape and the control member moves in rotation. Advantageously, the metal element is provided with at least two protuberances and in which two magnets are arranged so that each of the magnets is vis-à-vis with a respective protuberance when the control member is maintained in the indexing position.

Advantageously, the magnet extends in a radial direction of the metal element. Advantageously, the magnet extends in a direction parallel to an axis of rotation of the metal element. This configuration makes it possible to reduce the size of the indexing device. Advantageously, two magnets are arranged symmetrically with respect to an axis of rotation of the metal element when the protuberances are even in number. This configuration makes it possible to automatically center the indexing device. Thus, the control member can not be offset from its axis of rotation. Advantageously, two magnets are angularly offset relative to an axis of rotation of the metal element when the protuberances are odd in number.

Advantageously, the metal element is connected in rotation with the control member and the magnet is fixed relative to the control member. Advantageously, the magnet is connected in rotation with the control member and the metal element is fixed relative to the control member. Advantageously, the metal element is an elongated bar 20 and the control member moves in translation. Advantageously, the magnet is fixed on the control member. The invention also relates to a control panel for a motor vehicle in which is housed an indexing device according to the above characteristics.

Other features, details and advantages of the invention will emerge more clearly on reading the description given below as an indication in relation to drawings in which: FIG. 1 is a cross-sectional view of a indexing device; FIG. 2 is a perspective view of the indexing device according to FIG. 1; FIG. 3 is a cross-sectional view of another embodiment of the indexing device; FIG. 4 is a perspective view of the indexing device of FIG. 3; FIG. 5 is a perspective view of another embodiment of the invention; FIGS. 6, 7 and 8 are cross-sectional views illustrating the metal element; FIG. 9 is a cross-sectional view illustrating a control panel housing three indexing devices according to the invention.

Figures 1 and 2 illustrate a first embodiment of an indexing device 1. Such an indexing device 1 is housed in a control panel of a motor vehicle not shown. The indexing device 1 for control panel comprises a movable control member 2. This control member 2 is rotatable about an axis A. The control member 2 consists of a gripping portion 2a and a body 2b having a groove 2c. The control member 2 is more particularly a rotary knob whose gripping portion is projecting from a control panel of a ventilation system, heating and / or air conditioning not shown. This control member 2 allows the user to choose the different pre-established adjustment levels of a parameter of the ventilation, heating and / or air conditioning system such as the flow rate of the delivered air flow, the flow temperature of air or the area of the passenger compartment covered by this airflow. The indexing device 1 also comprises a detent means 3 comprising a metal element 4 and a magnet 5. The magnet 5 is in cylindrical form. The magnet 5 has a length L5 and a width 15. The magnet 5 is symmetrical about a median N with respect to its jitter 15. It consists of two magnetic poles 5a, 5b and therefore creates a magnetic field. Each pole is constituted by a face of the cylinder. Magnet 30 is fixed on a control panel, not shown, so as to be fixed relative to the axis of rotation A of control member 2. According to one variant of the various embodiments, the one or more magnets are parallelepipedic in shape. In this embodiment, the metal element 4 is in the form of a cylindrical ring. Its cylinder conformation is adapted to the control member 2 so that the body 2b of the control member 2 is inserted into the metal element 4. As a result, the metal element 4 has a axis of rotation B coincides with the axis of rotation A of the control member 2. The metal element comprises an inner wall 41, an outer wall 42, two lateral faces 43 and 44. The lateral face 43 is the one facing at the gripping portion 2a of the control member 2 and the side face 44 is opposite to the side face 43. In addition, a lug 4a extends radially towards the axis B on an angular sector Se. the metal element 4. The lug 4a is located at the inner wall 41 of the metal element 4 so as to cooperate with the groove 2c in order to link the control member 2 and the element 2 in rotation. 4. The metal element 4 is fixed on the control member 2 by any means such as gluing or the welding so as not to slide relative to the control member 2. This metal element 4 is provided with twenty protuberances 6i. The protuberances 6i are disposed on the periphery of the metal element 4 and are of cylindrical shape. Each protuberance 6i 20 extends radially on the outer wall 42 of the metal element 4 and on an angular sector Sp of the metal element 4. Each protuberance 6i is symmetrical about a median M, this median M having the same direction as a direction of extension of the protuberance 6i. The extension direction is parallel to the radial direction. Various forms of protuberances are possible and will be detailed in the description a little later. The protuberances have a free face 61. The arrangement of the protuberances 6i forms a slot at the outer wall 42 of the metal element 4. This metal element 4 is made of steel. It may also be of any metal capable of being attracted by the magnetic field created by the magnet 5, such as, for example, copper, zinc, nickel or iron. When the control member 2 is not actuated, it is maintained in an indexing position Pi. When the control member 2 is in the indexing position Pi, a protuberance 6i is located in position. 5. Specifically, the magnet 5 is located so that one of its poles 5a, 5b is vis-à-vis the protrusion 6i. In addition, the magnet 5 extends in a radial direction to the metal element 4. In other words, the magnet 5 is located in a direction defined by a radius of the cylinder forming the metal element 4 and the direction its length L5 is parallel to the direction of the radius. It is understood by locating in the opposite direction the fact that a pole of the magnet 5 is aligned with the free face 61 of a protuberance 6i so that the intensity of the magnetic attraction is the higher possible. More precisely, this localization vis-à-vis corresponds to an alignment of the median M of the protuberance 6i with the median N of the magnet 5. The permanent magnetic field created by the magnet 5 attracts this protuberance 6i towards it and thus prevents free rotation of the metal element 4 about its axis B. The magnetic attraction exerted by the magnet 5 on the protrusion 6i thus maintains the control member 2 in the indexing position Pi. of the indexing device 1 where the protuberance 6i is located opposite the magnet 5 corresponds to an indexing position Pi. When the indexing device 1 comprises a single magnet 5, there are as many positions Pi indexing that protrusions 6i 20 disposed on the metal element 4. An indexing position Pi corresponding to a preset level of setting of the parameter for which the control member 2 is actuated, there are as many levels of regulation for a parameter there are protuberances 6i on the metal element 4, in the embodiment comprising a single magnet 5. In addition, the fact that one of the poles 5a, 25 5b of the magnet 5 either vis-à-vis a protuberance 6i implies that there is no mechanical contact between the magnet 5 and the metal element 4. In this respect, the magnet 5 is placed around the periphery of the 4 and therefore, there is a distance D between a protuberance 6i and the magnet 5. The distance D is determined when the control member 2 is held in a position 30 indexing Pi by the attraction magnetic. This distance D is measured between the face of the magnet 5, that is to say the pole, vis-a-vis the protuberance 6i and the free face of the protrusion 6i 6. The distance D between a protuberance 6i and a magnet 5 is between 0.1 and 10mm. This distance D is chosen as a function of the intensity of the magnetic attraction that the magnet 5 has to exert on a protuberance 6i in order to keep the control member 2 in an indexing position P. The shorter the distance D will be , the higher the attraction will be high and therefore the user will have to exert a large force F on the control member 2 to rotate it. According to the embodiment of Figures 1 and 2, the distance D is 1 mm. It is meant by placing around the periphery the fact that the magnet 5 can be oriented so that the direction of its length L5 is parallel to the median M of the protuberance 6i vis-à-vis. When the user rotates the control member 2 to choose a level of adjustment, that is to say change indexing position Pi, he must exert a force F on the control member 2 to overcome the magnetic attraction holding the control member 2 in the indexing position P1. If a sufficient force F is exerted on the control member 2 to overcome the magnetic attraction between the magnet 5 and the protuberance 6i vis-à-vis, the metal element 4 moves relative to the magnet 5. As a result, the protuberance 6i moves away from the magnet 5 and undergoes less and less the magnetic field. At the same time, a next protuberance 6i + 1 approaches the magnet 5 and undergoes more and more the magnetic attraction of the magnet 5. When the next protuberance 6i + 1 is opposite the the magnet 5, the magnetic attraction is at its maximum and this configuration of the indexing device 1 corresponds to a subsequent indexing position Pi + 1 of the control member 2. The operation of the control member 2 is not limited to a single direction of rotation. As a result, the indexing device 1 makes it possible to go from an indexing position Pi to a following indexing position Pi + 1 or preceding Pi-1 according to the direction of rotation given by the user when he is operating the control member 2. The following and previous terms relate to the direction of rotation given by the user during the operation of the control member 2.

Accordingly, the user can change from an indexation position Pi to a next indexation position Pi + 1 and then return to the indexing position Pi by simply changing the direction of rotation of the organ. 2. This allows the user to quickly reach the desired indexing position by rotating the controller as little as possible. The indexing device 1 also comprises an end stop 5 which is not shown. This limit stop 7 is in the form of a tongue extending radially on the outer wall 42 of the metal element 4. The stop 7 is located between two successive protuberances 6i and thus defines the two protuberances as the protuberance initial 6ii and the final protuberance 6if. The initial protuberance 6ii corresponds to the first indexing position P1, that is to say the one offering the minimum adjustment level of a parameter and the last final protrusion 6if corresponds to the last indexing position Pif, c that is, the one offering the maximum setting level of the parameter. For example, for the air flow parameter, the first indexing position Pii corresponds to a zero flow rate and the last indexing position Pif 15 corresponds to a maximum flow rate. This abutment 7 extends radially so as to be brought into contact with the magnet 5. In other words, the abutment 7 extends radially beyond the protuberances 6i. The abutment 7 therefore extends at least over a height greater than the height of a protuberance and the distance D.

In an embodiment not shown, the indexing device 1 comprises a magnet 5 and a metal element 4 in the form of a cylindrical ring provided with a single protuberance 6i. Such an indexing device 1 has only one indexing position Pi and behaves like a switch. For example, when the control member 2 is held in the single indexing position, a blower of the ventilation, heating and / or air conditioning system is energized. When the control member 2 is not maintained in the indexing position P, the blower does not work and no air flow is delivered into the passenger compartment. In Figures 3 and 4 is shown a second embodiment. The indexing device 1 comprises, in this case, two magnets 5. The two magnets 5 are arranged in such a way that each is in contact with a respective protrusion 6i when the control member 2 is maintained in an indexing position Pi. In the case where the indexing device 1 comprises at least two magnets 5, an indexing position Pi corresponds to a position of the control member 2 where each magnet 5 is in position. vis-à-vis a protrusion 6i. Thus, the number of indexing position Pi corresponds to the number of protuberances 6i divided by the number of magnets 5. According to FIGS. 3 and 4, the metal element comprises twenty protuberances. Thus, this indexing device 1 comprises ten indexing positions P. More specifically, the two magnets 5 are arranged symmetrically with respect to an axis of rotation B of the metal element. The distance D separating a magnet 5 from the protuberance vis-à-vis is 0.5 mm. This embodiment illustrating the indexing device 1 with two magnets 5 distributed symmetrically with respect to the axis B has the great advantage of exerting opposite magnetic attractions on two distinct protuberances 6i and symmetrical with respect to the axis 15B Due to the symmetry of this embodiment, the metal element 4 undergoes two magnetic attractions of the same direction, of the same intensity but in the opposite direction. Thus, the metal element 4 and the control member 2 remain centered on the axis B. This symmetry of the indexing device 1 then ensures a permanent centering of the metal element 4 and the control member 2 by In order to obtain such symmetry, the metal element 4 has an even number of protuberances 6i and the latter are distributed symmetrically with respect to the axis B. FIG. 5 shows another embodiment. having two magnets 5. In this case, the two magnets 5 extend in a direction parallel to the axis of rotation B of the metal element 4. This axial disposition of the magnets 5 and protuberances 6i reduces the cluttering of the indexing device 1 in a radial direction relative to the metal element 4. In this way, the various control members 2 governing the adjustment of the parameters of the ventilation system, heating and / or climatisat Ion may be close to each other and thus obtain a compact design of a control panel comprising at least two control members 2. Each protrusion 6i is disposed on the side face 44 of the metal element 4 and s' extend axially on an angular section Sp of the metal element 4. In other words, each protuberance 6i extends in a direction parallel to the axis of rotation of the metal element 4. In a similar manner to the In the preceding embodiment, each magnet 5 is located opposite a respective protuberance 6i when the control member 2 is held in an indexing position P1. The magnets 5 are arranged symmetrically with respect to the axis of rotation. rotation of the metal element 4, the latter comprising an even number of protuberances 6i distributed symmetrically with respect to the axis B. The distance D separating a protuberance 6i facing a magnet 5 is 5 mm . According to a not shown variant of this embodiment, the body 2b of the control member 2 is hollow and the metal element 4 is placed inside. The control member 2 and the metal element are connected in rotation 15 and the metal element 4 is in the form of a cylindrical ring whose protuberances extend radially at the inner wall 41 of the ring. This embodiment has the advantage of minimizing the bulk of the indexing device 1. For this purpose, the magnet or magnets 5, arranged vis-à-vis a protuberance 6i respectively when the body of 2 are held in an indexing position, are located inside the metal element 4, itself housed inside the control member 2. In this way, the size of the device of indexing 1 in the control panel depends only on the dimensions of the control member 2.

In Figures 6, 7 and 8, different conformations of the metal element 4 are illustrated in a sectional view. Each metal element 4 shown is in the form of a cylindrical ring. The protuberances 6i of each metal element 4 are uniformly distributed on the outer wall 42. A distribution of the protuberances 6i on the inner wall 41 will be in the same manner as that described below when the control member 2 is housed in the metallic element 4. Uniform distribution is understood to mean a metallic element 4 having all its protuberances 6i spaced apart with the same value of angular sector Sd. An angular sector Sd separates two successive protuberances 6i. The value of the angular sector Sd is between 10 and 180. For example, for a metal element 4 having two protuberances 6i, the value of the angular sector Sd is 180. For a metal element 4 having six protuberances 6i uniformly spaced, the value of the angular sector Sd is 60 and for a metal element 4 of nine protuberances 6i uniformly spaced, the angular sector Sd is 40. In FIG. 6, a metal element 4 comprises nine protuberances 6i. Each protuberance 6i has a section of rectangular shape, involving a generally cylindrical or rectangular parallelepipedal shape. In FIG. 7, the metal element 4 comprises nine protuberances 6i of trapezoidal section. In FIG. 8, the metal element 4 comprises nine protuberances 6i of square section involving a generally cubic, cylindrical or rectangular parallelepipedal shape.

FIG. 9 shows a sectional rear view of a control panel. The control panel 8 comprises three control members 2, each equipped with a notching means 3. From right to left there is a first indexing device 1 a identical to that described in FIGS. 3 and 4, a second device of FIG. indexing 1b and a third indexing device 1c.

The second indexing device 1b comprises a metal element 4 in the form of a cylindrical ring provided with protuberances 6i distributed in a non-uniform manner. Some protuberances 6i are spaced apart from an angular sector Sd higher than others. The non-uniform distribution of the protuberances 6i is symmetrical when the metal element 4 comprises an even number of protuberances 6i. In this sense, the metal element 4 is symmetrical about its axis of rotation B although the protuberances 6i are not all spaced with the same angular sector Sd. The indexing device 1b comprising two magnets 5, the latter are distributed symmetrically with respect to the axis B. These differences in spacing between the protuberances 6i meet design constraints during the preparation of the table. 8. It is also possible to envisage that some protuberances 6i are not identical in shape to each other on the same metal element 4. The third indexing device 1c comprises a metal element 4 provided with nine protuberances 6i and two magnets 5. The latter are not arranged symmetrically relative to each other along the axis of rotation B of the metal element 4. In this sense, the two magnets 5 are angularly offset relative to the the axis of rotation of the metal element 4. This angular offset 8 occurs when the number of protuberances on the metal element 4 is odd. This angular offset 8 is between 1 and 20. The value of this angular offset 8 is small in order to maintain a good centering of the indexing device 1. When the two magnets 5 are not arranged symmetrically, the magnetic attraction of each magnet 5 is in different directions. As a result, the magnetic attractions generated by each magnet 5 do not cancel each other out. As a result, the metal element 4 can decenter relative to its axis of rotation. However, it may be necessary to arrange the magnets 5 in this way for reasons of size of the control panel in which the indexing device 1 is housed. For example, a control panel may be shaped in such a way that do not offer the possibility of arranging two magnets 5 symmetrically with respect to the axis of the metal element 4. In this case, the angular offset 8 is necessary to house the indexing device 1 in the control panel. In FIG. 9, the indexing device 1c comprises two magnets 5 angularly offset with a value of 8 of 5. All the embodiments presented with the metallic element 4 linked in rotation with the control member can be made in a reverse design. This reverse design consists in fixing the magnet or magnets 5 on the control member 2 and thus rotationally connected to the magnet (s) 5 and the control member 2. In this variant, the metal element is fixed relative to the For example, in the case where the magnet or magnets 5 are fixed on the outer wall of the body 2b of the control member 2, the metal element 4 is in the form of an element provided with protuberances 6i on its inner wall. In general, such a reverse design only requires to respect the relative disposition of the magnets 5 with respect to the protuberances 6i when the control member 2 is held in an indexing position. According to another embodiment not shown, the body 2b of the control member 2 is hollow and the metal element 4 is housed inside. The metal element 4 and the control member 2 have their respective axis of rotation coincident. The protuberances 6i are disposed on the inner wall 41 and extend radially. The one or more magnets 5 are arranged symmetrically or angularly offset with respect to the axis B of the metal element 4. Each magnet 5 is arranged vis-à-vis a respective protrusion 6i. According to another embodiment not shown, the metal element 4 in the form of a ring is fixed on a drive kinematic connected to the control member 2. In other words, the axis of rotation B of the metal element 4 is not coincident with the axis A of the control member 2. In this case, the arrangement of the metal element 4 with respect to the magnets 5 is identical to that which has been described. previously. Another embodiment not shown consists of an indexing device 1 comprising a control member 2, a magnet 5 fixed to the control member 2 and a metal element 4. The control member 2 is operable according to a translation movement relative to the metal element 4. The metal element 4 is in the form of an elongate bar. The metal element 4 has a length L and width I and provided with protuberances 6i distributed along the length L. The bar may be in a rectangular or ovoid shape. The control member 2 moves along the length of the bar so that the magnet 5 is located in relation to a protuberance 6i. A variant comprising two magnets 5 arranged symmetrically with respect to the control member 2 and two metal elements 4 in the form of a bar makes it possible to maintain the centering of the indexing device 1. In this sense, the two metal elements 4 are arranged to extend in parallel directions. In fact, they have their parallel length. In addition, the protuberances 6i of a metal member 290 are exposed to the protuberances of the other metal member. Thus, when the two magnets 5 are vis-à-vis a respective protrusion 6i, the control member 2 is subject to magnetic attractions of the same direction but in opposite directions. The distance D between a protuberance 6i and a magnet 5 being the same whatever the indexing position, the intensity of the magnetic attractions is the same.

Claims (17)

claims   An indexing device (1) comprising a movable control member (2) held in at least one indexing position (Pi) by a detent means (3), characterized in that the detent means (3) comprises a metallic element (4) provided with at least one protuberance (6i) and at least one magnet (5), said metal element (4) and the magnet (5) moving relative to each other during the movement of the control member (2) and in that said control member (2) is held in the indexing position (Pi) by means of the magnetic attraction exerted by the magnet (5) when the protuberance (6i) is located in relation to said magnet (5).   2. An indexing device according to claim 1, wherein the magnet (5) is located so that one of its poles (5a, 5b) is opposite a protuberance ( 6i).   An indexing device according to any one of the preceding claims, wherein the metal element (4) is made of steel, copper, zinc, iron or nickel.   4. An indexing device according to any one of the preceding claims, wherein the distance (D) between a protuberance (6i) and a magnet (5) is between 0.1 and 10 mm. 25   An indexing device according to any one of the preceding claims, wherein the protuberances (6i) have a cylindrical or parallelepipedic shape.   Indexing device according to one of the preceding claims, wherein the protuberances (6i) are uniformly distributed over the metal element (4). 16 20 2908903 17   An indexing device according to any one of the preceding claims, wherein the metal element (4) is a cylindrical ring and the control member (2) moves in rotation. 5   Indexing device according to Claim 7, in which the metal element (4) is provided with at least two protuberances (6i) and in which two magnets (5) are arranged in such a way that each of the magnets ( 5) is vis-à-vis with a protrusion (6i) respectively when the control member (2) 10 is maintained in the indexing position (Pi).   An indexing device according to claim 7 or 8, wherein the magnet (5) extends in a radial direction of the metal member (4).   10. An indexing device according to claim 7 or 8, wherein the magnet (5) extends in a direction parallel to an axis of rotation (B) of the metal element (4).   An indexing device according to any one of claims 7 to 10, wherein two magnets (5) are arranged symmetrically with respect to an axis of rotation (B) of the metal element (4) when the protuberances (6i) are even in number.   12. An indexing device according to any one of claims 7 to 10, wherein two magnets (5) are angularly offset relative to an axis of rotation (B) of the metal element (4) when the protuberances (6i ) are odd.   13. An indexing device according to any one of claims 7 to 12, wherein the metal element (4) is rotatably connected to the control member (2) and the magnet (5) is fixed by relative to the control member (2). 2908903 18   14. An indexing device according to any one of claims 7 to 12, wherein the magnet (5) is connected in rotation with the control member (2) and the metal element (4) is fixed relative to to the control member (2).   15. An indexing device according to one of claims 1 to 6i, wherein the metal element (4) is an elongated bar and the control member (2) moves in translation. 10   16. An indexing device according to claim 15, wherein the magnet (5) is fixed on the control member (2).   17. Control panel for a motor vehicle in which is housed an indexing device (1) according to claims 1 to 16. 5