Magnetic toggle locking system

The fastening system uses magnetic cooperation and an actuation device to simplify the disassembly process by maintaining the locking member in the unlocked position, addressing the inefficiency of constant manual actuation in existing systems.

FR3162252B1Active Publication Date: 2026-06-05FAURECIA INTERIEUR IND

Patent Information

Authority / Receiving Office
FR · FR
Patent Type
Patents
Current Assignee / Owner
FAURECIA INTERIEUR IND
Filing Date
2024-05-17
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing fastening systems require constant manual actuation to prevent re-engagement during disassembly, making the process tedious and inefficient.

Method used

A fastening system with a support that includes two magnets, allowing the locking member to be constrained into an unlocking configuration via magnetic cooperation, and an actuation device to facilitate easy disassembly without continuous manual actuation.

Benefits of technology

Enables easier disassembly of attached parts by maintaining the locking member in the unlocked position without constant manual intervention, simplifying the detachment process.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

Magnetic toggle locking system. The locking system (10) comprises: - a base (20) having a first locking element (28); - a locking device (50) comprising: - a support (52) including a first magnet (60); and - a locking member (70) mounted to rotate freely about an axis of rotation (R) between locking and unlocking configurations; the locking member (70) comprising: - a first magnet (84) adapted to cooperate with the first magnet (62) of the support (52) to constrain the locking member (70) towards the locking configuration; - a second magnet (86). The support (52) of the locking device (50) includes a second magnet (62) adapted to cooperate with the second magnet (86) of the locking member (70) to constrain the locking member (70) towards the unlocking configuration. Figure for the abbreviation: Figure 1
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Description

Title of the invention: Fixing system using a magnetic toggle locking device

[0001] The present invention relates to a system for attaching an add-on part to a main part, comprising:

[0002] - a base intended to be integral with the main part, the base comprising a first locking element;

[0003] - a locking device intended to be integral with the added part, including:

[0004] - a support comprising a first magnet; and

[0005] - a locking member mounted movably for rotation on the support about an axis of rotation, between:

[0006] - a locking configuration in which a second element of the locking mechanism is able to cooperate with the first locking element of the base to fix the added part onto the main part;

[0007] - an unlocking configuration in which the second element of The locking mechanism is arranged away from the first locking element of the base so as to allow the added part to be separated from the main part;

[0008] the locking mechanism comprising:

[0009] - a first magnet capable of cooperating with the first magnet of the support for constrain the locking mechanism towards the locking configuration;

[0010] - a second magnet.

[0011] US 3 681 727 discloses such a fastening system.

[0012] In this fastening system, the first locking element can be considered the marginal portion of the housing opening, and the second locking element can be considered the locking anchor. This system uses an actuating magnet to move the locking member from the locked position to the unlocked position.

[0013] However, such a fastening system is not entirely satisfactory. Indeed, it is necessary to keep the actuating magnet constantly pressed against one of the magnets of the locking member throughout the disassembly of the locking device from the base in order to prevent the locking anchor and the marginal portion of the housing opening from cooperating again and preventing disassembly.

[0014] This makes the disassembly operation tedious for an operator wishing to separate the base and the locking device.

[0015] The aim of the invention is then to propose a fastening system allowing easier disassembly of an added part in relation to the main part.

[0016] To this end, the invention relates to a fastening system of the aforementioned type in which the support of the locking device includes a second magnet capable of cooperating with the second magnet of the locking member to constrain the locking member towards the unlocking configuration.

[0017] Thus, the cooperation between the second magnet of the locking support and the second magnet of the locking member allows the locking member to be held in the unlocked position. The operator wishing to separate the attachment from the main part then does not need to maintain any actuating device for this purpose. Disassembly of the attachment from the main part is thus made easier.

[0018] According to other advantageous aspects of the invention, the fastening system comprises one or more of the following features, taken individually or in all technically possible combinations:

[0019] - the support for the locking device includes a base extending along a extension plan defined by a longitudinal direction and a transverse direction, the base comprising a first portion including the first magnet of the support and a second portion including the second magnet of the support, the first and second magnets of the support of the locking device being permanently mounted in the base of the support of the locking device;

[0020] - the first and second portions of the base of the device support lockings are arranged side by side along the longitudinal direction,

[0021] the locking member being mounted movably in rotation between the locking configuration and the unlocking configuration on the base of the support along the axis of rotation, the axis of rotation being substantially parallel to the transverse direction and being arranged between the first and second portions of the base of the support,

[0022] the locking mechanism comprising:

[0023] - a first extension extending along a first direction of extension substantially perpendicular to the axis of rotation and comprising the first magnet of the locking mechanism;

[0024] - a second extension extending along a second extension direction substantially perpendicular to the axis of rotation and comprising the second magnet of the locking mechanism;

[0025] the first extension direction and the second extension direction forming an angle between 120° and 150°;

[0026] - the fastening system further includes an actuation device intended to move the locking mechanism from the locked configuration to the unlocked configuration,

[0027] the actuation device comprising an actuating magnet suitable for being arranged near the second magnet of the support so that the magnetic field of the actuating magnet adds to the magnetic field of the second magnet of the support so as to cause the second magnet of the locking member to move closer to the second magnet of the support and to cause the locking member to move into the unlocked configuration,

[0028] the second magnet of the locking device support cooperating with the second magnet of the locking member to maintain the locking member in the unlocked configuration when the actuating magnet is moved away from the second magnet of the locking device support;

[0029] - the base comprising a back wall and at least one side wall, the wall of bottom and at least one side wall delimiting an enclosure,

[0030] the locking device being movable along an insertion direction substantially perpendicular to the bottom wall between:

[0031] - a recessed position in which the locking member extends into the enclosure and in which the second locking element of the locking mechanism is capable of cooperating with the first locking element of the base; and

[0032] - a clear position in which the locking member extends outwards of the enclosure and in which the second locking element of the locking mechanism is away from the first locking element of the base;

[0033] - when the locking device is in the depressed position and when the organ of When the locking mechanism is in the unlocked position, moving the locking device from the pressed position to the released position causes the locking element to move to the locked position;

[0034] - the fastening system is such that:

[0035] - the base includes at least one cam;

[0036] - the locking mechanism includes at least one counter-cam;

[0037] at least one counter-cam of the locking member cooperating with at least one cam of the base when the locking device is moved from the pressed position to the disengaged position so that the locking member is driven towards the locking configuration;

[0038] - at least one cam is formed by a part extending from the wall of base of the pedestal, at least one counter-cam being formed by a pin of the locking mechanism extending in a direction substantially parallel to the axis of rotation;

[0039] - the support for the locking device includes at least one guide wall intended to cooperate with at least one side wall of the base to guide the movement of the locking device along the insertion direction between the disengaged position and the pressed-in position;

[0040] - the fastening system is such that:

[0041] - the first locking element of the base comprises:

[0042] - a hanging surface extending substantially perpendicularly to the integration management; and

[0043] - a surface beveled relative to the attachment surface;

[0044] - the second locking element of the locking mechanism comprises:

[0045] - a hook adapted to cooperate with the hooking surface of the first element of locking when the locking mechanism is in the locking configuration, to fix the added part onto the main part;

[0046] - a beveled surface cooperating with the beveled surface of the first element of The base locks when the locking device is moved to the pressed position, so that when the locking device is moved to the pressed position:

[0047] - the locking member is moved in rotation along the axis of rotation from the locking configuration to an intermediate configuration between the locking configuration and the unlocking configuration; then

[0048] - the locking member is moved in rotation along the axis of rotation towards the magnetic attraction locking configuration between the first magnet of the locking member and the first magnet of the support of the locking device so that the hook of the second locking member of the locking member cooperates with the hooking surface of the first locking member of the base to fix the attached part to the main part.

[0049] The invention will become clearer upon reading the following description, given solely by way of non-limiting example, and made with reference to the drawings in which:

[0050] [Fig-1] [Fig.1] is a schematic illustration of a cross-sectional view of the system of fixing according to the invention, along a cutting plane substantially perpendicular to the extension plane of the base of the support of the locking device and to the axis of rotation of the locking member, the locking device being in the disengaged position, the locking member being in the locked configuration;

[0051] [Fig.2] [Fig.2] is a schematic illustration of a cross-sectional view of the system of fixing of [Fig. 1], according to the same cutting plane, the locking device being in the disengaged position, the locking member being in the locked configuration, the beveled surface of the second locking element of the locking member being applied against the beveled surface of the first locking element of the base;

[0052] [Fig.3] [Fig.3] is a schematic illustration of a cross-sectional view of the system of fixing of the [Fig.l], according to the same cutting plane, the locking device being in the disengaged position, the locking member being in the intermediate configuration between the locking configuration and the unlocking configuration;

[0053] [Fig.4] [Fig.4] is a schematic illustration of a cross-sectional view of the system of fixing the [Fig.l], according to the same cutting plane, the locking device being in the pressed position, the locking member being in the locking configuration, the hook of the second locking element of the locking member cooperating with the hooking surface of the first locking element of the base;

[0054] [Fig. 5] [Fig. 5] is a schematic illustration of a cross-sectional view of the system of fixing the [Fig.l], according to the same cutting plane, the locking device being in the pressed position, the actuating magnet being arranged near the second magnet of the support, the locking member being in the unlocking configuration, the hook of the second locking element of the locking member being away from the hooking surface of the first locking element of the base;

[0055] [Fig. 6] [Fig. 6] is a schematic illustration of a cross-sectional view of the system of fixing the [Fig.l], according to the same cutting plane, the locking device being moved away from the pressed position, the actuating magnet having been moved away from the second magnet of the support, the locking member being in the unlocking configuration, at least one counter-cam of the locking member cooperating with at least one cam of the base;

[0056] [Fig.7] [Fig.7] is a schematic illustration of a cross-sectional view of the system of fixing the [Fig.l], according to the same cutting plane, the locking device being moved away from the pressed position, the movement of the locking device towards the cleared position causing the cooperation between at least one counter-cam of the locking member and at least one cam of the base so that the locking member is driven towards the locking configuration;

[0057] [Fig.8] [Fig.8] is a schematic illustration of a cross-sectional view of the system of fixing according to the invention, according to the same cutting plane, the locking device being in the disengaged position, the locking member being again in the locked configuration.

[0058] With reference to figures 1 to 8, a fastening system 10 of an added part on a main part is described, according to the invention.

[0059] For example, the main part and the added part are parts of a vehicle.

[0060] According to a particular example, the added part is a trim element of the vehicle and the main part is a frame of the vehicle.

[0061] According to another particular example, the added piece is a decorative element and the main piece is a structure of a trim element.

[0062] The fastening system 10 includes a base 20 and a locking device 50.

[0063] Advantageously, the fastening device 10 further includes an actuation device 94.

[0064] The base 20 is intended to be integral with the main part.

[0065] The base 20 includes a first locking element 28.

[0066] Advantageously, the base 20 comprises a bottom wall 22 and at least one side wall 36 delimiting an enclosure 26. In particular, the base 20 comprises two side walls 36.

[0067] Even more advantageously, the base 20 includes at least one cam 38. In particular, the base 20 includes two cams 38.

[0068] For example, the bottom wall 22 extends along an extension plane PE1 defined by a longitudinal direction X and a transverse direction Y substantially orthogonal to the longitudinal direction X.

[0069] For example, the bottom wall 22 delimits an opening 24.

[0070] For example, the first locking element 28 includes a protrusion 30 delimiting at least partially the opening 24.

[0071] The protrusion 30 includes a hooking surface 32 extending substantially perpendicularly to an insertion direction DI of the locking device 50, in particular substantially parallel to the extension plane PE1 of the bottom wall 22 and a surface 34 beveled with respect to the hooking surface 32.

[0072] In particular, the beveled surface 34 at least partially delimits the opening 24.

[0073] As illustrated in the example of figures 1 to 8, at least one side wall 36 extends from the bottom wall 22 along an elevation direction Z substantially orthogonal to the longitudinal direction X and the transverse direction Y.

[0074] In the specific example where the base 20 includes two side walls 36, the two side walls 36 extend opposite each other and delimit, between themselves and with the bottom wall 22, the enclosure 26.

[0075] Advantageously, at least one side wall 36 and the bottom wall 22 are made of material.

[0076] At least one cam 38 of the base 20 is formed by a piece extending from the bottom wall 22 of the base 20, in particular along the elevation direction Z, said piece being for example a wall.

[0077] In the specific example where the base 20 comprises two cams 38, the two cams 38 extend opposite each other, in particular on either side of the opening 24 along the transverse direction Y, and delimit, between themselves and with at least one side wall 36 and the bottom wall 22, the enclosure 26.

[0078] Advantageously, at least one cam 38 comprises a cam surface 40 inclined with respect to the extension plane PE1 of the bottom wall 22 and oriented substantially in the direction of the bottom wall 22.

[0079] Even more advantageously, at least one cam 38 and the bottom wall 22 came from material.

[0080] Even more advantageously, at least one cam 38, the bottom wall 22 and at least one side wall 36 are made of material.

[0081] The locking device 50 is intended to be integral with the added part.

[0082] The locking device 50 comprises a support 52 and a locking member 70.

[0083] The locking device 50 is movable along the insertion direction DI substantially perpendicular to the bottom wall 22 of the base 20, in particular substantially perpendicular to the extension plane PE1 of the bottom wall 22, between a pushed-in position and a released position.

[0084] In the pressed position, the locking member 70 extends into the enclosure 26 and a second locking element 72 of the locking member 70 is able to cooperate with the first locking element 28 of the base 20.

[0085] In the disengaged position, the locking member 70 extends outside the enclosure 26 and the second locking element 72 of the locking member 70 is away from the first locking element 28 of the base 20.

[0086] Advantageously, when the locking device 50 is in the pressed position and when the locking member 70 is in an unlocked configuration, the movement of the locking device 50 from the pressed position to the released position causes the locking member 70 to move to a locked configuration, as will be detailed below.

[0087] The support 52 includes a first magnet 60 and a second magnet 62.

[0088] Advantageously, the support 52 comprises a base 54 extending along an extension plane PE2 defined by the longitudinal direction X and the transverse direction Y. In particular, the extension plane PE2 of the base 54 of the support 52 is substantially parallel to the extension plane PE1 of the bottom wall 22 of the plinth 20 when the locking device 50 is in the depressed position.

[0089] Advantageously, the support 52 includes at least one guide wall 64 designed to cooperate with at least one side wall 36 of the base 20 to guide the movement of the locking device 50 along the insertion direction DI between the disengaged position and the depressed position. In particular, the support 52 includes two guide walls 64 each intended to cooperate with a side wall 36 of the base 20.

[0090] The base 54 includes in particular a first portion 56 comprising the first magnet 60 of the support 52 and a second portion 58 comprising the second magnet 62 of the support 52.

[0091] In particular, the first and second portions 56, 58 of the base 54 of the support 52 of the locking device 50 are arranged next to each other along the longitudinal direction X.

[0092] For example, the first and second portions 56, 58 of the base 54 are arranged on either side of a median frontal plane PFM of the support 52, defined by the transverse direction Y and elevation Z, in particular symmetrically to the median frontal plane PFM.

[0093] Advantageously, the first and second magnets 60, 62 are permanently mounted in the base 54 of the support 52 of the locking device 50. In particular, each of the first and second magnets 60, 62 is inserted into a cavity strictly contained in the base 54. In one embodiment, the first and second magnets 60, 62 are overmolded into the base 54 of the support 52.

[0094] For example:

[0095] - the poles 60A, 60B of the first magnet 60 of the support 52 are arranged along a axis MPS1 substantially perpendicular to the extension plane PE2 of base 54; and

[0096] - the poles 62A, 62B of the second magnet 62 of the support 52 are arranged along a axis MPS2 substantially perpendicular to the extension plane PE2 of base 54.

[0097] In particular, the first and second magnets 60, 62 of the support 54 are permanent magnets.

[0098] For example, the contact force generated by each of the first and second magnets 60, 62 of the support 52 is between 5 N and 20 N.

[0099] At least one guide wall 64 of the support 52 extends from the base 54 substantially perpendicular to the extension plane PE2 of the base 54.

[0100] For example, between the clear position and the recessed position, at least one guide wall 64 slides on at least one side wall 36 of the base 20.

[0101] Advantageously, in the pushed-in position, at least one guide wall 64 extends into the enclosure 26 and is applied against at least one side wall 36 of the base 20.

[0102] Even more advantageously, at least one guide wall 64 and the base 54 are made of material.

[0103] The locking member 70 is mounted for rotational movement on the support 52, in particular on the base 54 of the support 52 along an axis of rotation R between the locking configuration (illustrated in figures 1, 2, 4 and 8) and unlocking configuration (illustrated in figures 5 and 6).

[0104] Advantageously, the locking member 70 is also rotatable on the support 52 along the axis of rotation R in an intermediate configuration between the locking configuration and the unlocking configuration (illustrated in particular in Figures 3 and 7).

[0105] In particular, the axis of rotation R is substantially parallel to the transverse direction Y and extends between the first and second portions 56, 58 of the base 54 of the support 52 of the locking device 50 along the longitudinal direction X.

[0106] In the locking configuration, the second locking element 72 of the locking member 70 is able to cooperate with the first locking element 28 of the base 20 to fix the locking device 50 to the base 20, and in particular to fix the added part to the main part.

[0107] In the unlocking configuration, the second locking element 72 of the locking member 70 is arranged away from the first locking element 28 of the base 20 so as to allow the locking device 50 to be separated from the base 20, and in particular to allow the added part to be separated from the main part.

[0108] The locking member 70 includes the second locking element 72.

[0109] The locking member 70 further comprises a first magnet 84 and a second magnet 86.

[0110] Advantageously, the locking member 70 further comprises a first extension 80 and a second extension 82.

[0111] Even more advantageously, the locking member 70 comprises at least one counter-cam 88. In particular, the locking member 70 comprises two counter-cams 88.

[0112] The second locking element 72 includes, for example, a bolt 74 extending along a bolt direction DP substantially perpendicular to the axis of rotation R, from a proximal end 74A mounted for rotation on the support 52, in particular on the base 54 of the support 52 and a distal end 74B opposite the proximal end 74A.

[0113] For example, as illustrated in Figures 3 to 7, the bolt 74, in particular the distal end 74B, is able to extend through the opening 24 of the base 20.

[0114] Advantageously, the bolt 74 includes a hook 76 and a beveled surface 78, in particular arranged at the distal end 74B of the bolt 74.

[0115] The hook 76 is able to cooperate with the hooking surface 32 of the first locking element 28 when the locking member 70 is in the locking configuration, to fix the attached part on the main part.

[0116] The beveled surface 78 of the bolt 74 cooperates with the beveled surface 34 of the first locking element 28 of the base 20 when the locking device 50 is moved to the depressed position so that when the locking device 50 is moved to the depressed position:

[0117] - the locking member 70 is moved in rotation about the axis of rotation R from the locking configuration to an intermediate configuration between the locking and unlocking configurations ([Fig.3]); then

[0118] - the locking member 70 is rotated about the axis of rotation R towards the magnetic attraction locking configuration between the first magnet 84 of the locking member 70 and the first magnet 60 of the support 52 of the locking device 50 so that the hook 76 of the second locking element 72 of the locking member 70 cooperates with the hooking surface 32 of the first locking element 28 of the base 20 to fix the locking device 50 to the base 20, and in particular to fix the attached part to the main part ([Fig.4]).

[0119] When the hook 76 of the second locking element 72 of the locking member 70 cooperates with the hooking surface 32 of the first locking element 28 of the base 20, the movement of the locking device 50 from the pressed position to the disengaged position along the insertion direction DI is prevented.

[0120] The first extension 80 extends along a first extension direction DE1 substantially perpendicular to the axis of rotation R, in particular from the proximal end 74A of the bolt 74.

[0121] In particular, the first extension 80 extends substantially in relation to the first portion 56 of the base 54 of the support 52, in particular along the elevation direction Z.

[0122] The first extension 80 includes in particular the first magnet 84 of the locking member 70.

[0123] The second extension 82 extends along a second extension direction DE2 substantially perpendicular to the axis of rotation R, in particular from the proximal end 74A of the bolt 74.

[0124] In particular, the second extension 82 extends substantially in relation to the second portion 58 of the base 54 of the support 52, in particular along the elevation direction Z.

[0125] The second extension 82 includes in particular the second magnet 86 of the locking member 70.

[0126] The second extension 82 and the first extension 80 extend in particular on either side of the bolt 74 along the longitudinal direction X.

[0127] Advantageously, the second extension direction DE2 and the first extension direction DE1 form an angle α between 120° and 150°.

[0128] Even more advantageously, the first extension direction DE1 and the bolt direction DP form an angle [3] between 80° and 100°.

[0129] Even more advantageously, the second extension direction DE2 and the bolt direction DP form an angle including between 20° and 70°.

[0130] The angles a, [3 and y depend in particular on the power of the first and second magnets 60, 62, on the power of the first and second magnets 84, 86 and on the distance of these magnets 60, 62, 84, 86 with respect to the axis of rotation R.

[0131] In an embodiment where the magnets 60, 62, 84, 86 are of the same power and at the same distance from the axis R, the angle a must be strictly less than 180°-2o with o being the maximum deflection angle of the bolt 74 (between the bolt direction DP and the insertion direction DI; see [Fig.3]) when moving the locking device 50 towards the pressed position.

[0132] The first magnet 84 of the locking member 70 is able to cooperate with the first magnet 60 of the support 52 to constrain the locking member 70 towards the locking configuration.

[0133] The second magnet 86 of the locking member 70 is able to cooperate with the second magnet 62 of the support 52 to constrain the locking member 70 towards the unlocking configuration.

[0134] Advantageously, the first and second magnets 84, 86 of the locking member 70 are permanently mounted in the extensions 80, 82 of the locking member 70. In particular, the first magnet 84 of the locking member 70 is inserted into a cavity strictly contained in the first extension 80 and the second magnet 86 of the locking member 70 is inserted into a cavity strictly contained in the second extension 82. In one embodiment, the first and second magnets 84, 86 are overmolded into the locking member 70, in particular into the extensions 80, 82.

[0135] For example:

[0136] - the poles 84A, 84B of the first magnet 84 of the locking member 70 are arranged along an axis MPV1 substantially perpendicular to the first extension direction DE1 of the first extension 80; and

[0137] - the poles 86A, 86B of the second magnet 86 of the locking member 70 are arranged along an axis MPV2 substantially perpendicular to the second extension direction DE2 of the second extension 82.

[0138] In particular, the first and second magnets 84, 86 of the locking member 70 are permanent magnets.

[0139] For example, the contact force generated by each of the first and second magnets 84, 86 of the locking member 70 is between 5 N and 10 N.

[0140] Advantageously, the first and second magnets 60, 62 of the support 52 of the locking device 50, the first and second magnets 84, 86 of the locking member 70, and the angle a formed by the first and second extension directions DE1, DE2 are such that:

[0141] - in the locking configuration, the locking member 70 is constrained towards the locking configuration by magnetic attraction between the first magnet 60 of the support 52 and the first magnet 84 of the locking member 70;

[0142] - in the unlocking configuration, the locking member 70 is constrained to the unlocking configuration by magnetic attraction between the second magnet 62 of the support 52 and the second magnet 86 of the locking member 70; and

[0143] - in the intermediate configuration between the locking configuration and the unlocking configuration, the locking member 70 is forced towards the locking configuration by magnetic attraction between the first magnet 60 of the support 52 and the first magnet 84 of the locking member 70.

[0144] The person skilled in the art will understand that it is possible to modify the first magnet 60 of the support 52, the second magnet 62 of the support 52, the first magnet 84 of the locking member 70, the second magnet 86 of the locking member 70 and / or the angle a formed by the first and second extension directions DE1, DE2 to obtain a tilting or not of the locking member 70 in the locking or unlocking configuration depending on the angle formed by the bolt 74, in particular by the bolt direction DP, with the extension plane PE1 of the bottom wall 22 of the base 20.

[0145] With reference to figures 5 to 7, at least one counter-cam 88 of the locking member 70 cooperates with at least one cam 38 of the base 20, in particular with the cam surface 40, when the locking device 50 is moved from the pressed position to the disengaged position so that the locking member 70 is driven into the locking configuration.

[0146] In particular, at least one counter-cam 88 is formed by a pin 90 of the locking member 70 extending in a direction substantially parallel to the axis of rotation R, in particular from the bolt 74.

[0147] According to the particular example in the figures, each of the counter-cams 88 cooperates with a respective cam 38 of the base 20 when the locking device 50 is moved from the pressed position to the disengaged position so that the locking member 70 is driven to the locking configuration.

[0148] Advantageously, when the locking member 70 is in the unlocked configuration, the cooperation between at least one counter-cam 88 and at least one cam 38 during the movement of the locking device 50 towards the disengaged position exerts a force on the locking member 70 greater than the attractive force magnetic force exerted by the second magnet 62 of the support 52 on the second magnet 86 of the locking member 70, so that the locking member 70 passes into its locking configuration.

[0149] Advantageously, at least one counter-cam 88 and at least one cam 38 are such that the movement of the locking member 70 from the unlocking configuration to the locking configuration takes place when sufficient movement of the locking device 50 along the insertion direction DI has been carried out so that the second locking element 72 of the locking member 70, in particular the hook 76, is not held by the first locking element 28 of the base 20, in particular the hooking surface 32. Thus, the disassembly of the locking device 50 and the base 20 is permitted while restoring the locking member 70 to the locking configuration.

[0150] With reference to figures 4 and 5, the actuating device 94 is intended to drive the locking member 70 from the locking configuration to the unlocking configuration.

[0151] The actuation device 94 is capable of increasing the intensity of the magnetic field of the second magnet 62 of the support 52 so as to cause the second magnet 86 of the locking member 70 to move closer to the second magnet 62 of the support 52 and to cause the locking member 70 to move into the unlocking configuration.

[0152] In particular, the actuation device 94 includes an actuation magnet 96 suitable for being arranged near the second magnet 62 of the support 52 so that the magnetic field of the actuation magnet 96 adds to the magnetic field of the second magnet 62 of the support 52 so as to cause the second magnet 86 of the locking member 70 to move closer to the second magnet 62 of the support 52 and to cause the locking member 70 to move into the unlocking configuration.

[0153] In particular, with reference to [Fig.5], the poles 96A, 96B of the actuating magnet 96 are arranged along an axis MPA.

[0154] In particular, still with reference to [Fig.5], the actuating magnet 94 is intended to be arranged with respect to the support 52, in particular the base 54, in particular the second portion of the base 58, so that the axis MPA of the actuating magnet 96 and the axis MPS2 of the second magnet 62 are substantially collinear so that the magnetic field of the actuating magnet 96 adds to the magnetic field of the second magnet 62 of the support 52 so as to cause the second magnet 86 of the locking member 70 to move closer to the second magnet 62 of the support 52 and to cause the locking member 70 to move into the unlocking configuration.

[0155] With reference to figures 5 and 6, the second magnet 62 of the support 52 of the locking device 50 cooperates with the second magnet 86 of the locking member 70 to maintain the locking member 70 in the unlocked configuration when the actuating magnet 96 is moved away from the second magnet 62 of the support 52 of the locking device 50.

[0156] As explained above, it is advantageously the cooperation between at least one cam 38 and at least one counter-cam 88 during the movement of the locking device 50 towards the cleared position that causes the locking member 70 to tilt back into the locking configuration.

[0157] In what follows, always with reference to figures 1 to 8, the use of the fastening system 10 is described.

[0158] With reference to [Fig. 1], the fastening system 10 is such that the locking member 70 is in the locked configuration, the locking device 50 being in the disengaged position. In this situation, the first extension direction DE1 is substantially parallel to the extension plane PE2 of the base 54 and the first extension 80 is applied against the base 54.

[0159] With reference to [Fig.2], the locking device 50 is moved to the pressed position, in particular so that at least one guide wall 64 of the support 52 slides on at least one side wall 36 of the base 20 and in particular so that the beveled surface 78 of the locking member 70 comes into contact with the beveled surface 34 of the first locking element 28 of the base 20.

[0160] With reference to [Fig. 3], the locking device 50 is always moved to the depressed position. In particular, the beveled surface 78 of the second locking element 72 of the locking member 70 cooperates with the beveled surface 34 of the first locking element 28, the locking member 70 being moved into the intermediate configuration between the locked and unlocked configurations. In the intermediate configuration, the magnetic attraction between the second magnet 62 of the support 52 and the second magnet 86 of the locking member 70 (particularly in the absence of the actuating device 94) is insufficient to cause the locking member 70 to tilt into the unlocked configuration. For example, this is due to the fact that the proximity between the second magnet 62 of the support 52 and the second magnet 86 of the locking member is insufficient.In the intermediate configuration, the first extension direction DE1 forms a substantially non-zero angle with the extension plane PE2 of the base 54 and the first extension 80 is away from the base 54.

[0161] With reference to [Fig. 4], the locking device 50 is moved into the depressed position. The locking member 70 flips back from the intermediate configuration into the locked configuration, notably by magnetic attraction between the The first magnet 84 and the first magnet 60. The second locking element 72 of the locking member 70 cooperates with the first locking element 28 of the base 20 to prevent any movement of the locking device 50 along the insertion direction DI. Thus, the locking device 50 and the base 20 are fixed to each other, and similarly for the added part and the main part. In particular, the first extension direction DE1 is again substantially parallel to the extension plane PE2 of the base 54, and the first extension 80 is again applied against the base 54.

[0162] With reference to [Fig. 5], the actuating magnet 96 is positioned near the second magnet 62 of the support 52. The locking member 70 then pivots into the unlocked position. In particular, the second locking element 72 is moved away from the first locking element 28. Specifically, the second extension direction DE2 is then substantially parallel to the extension plane PE2 of the base 54, and the second extension 82 is pressed against the base 54. Advantageously, in this position, the actuating element 96 can be removed, and the locking member 70 is held in the unlocked position by the magnetic attraction between the magnets 62 and 86.

[0163] With reference to [Fig.6], the locking device 50 is moved to the clear position until at least one counter-cam 88 comes into contact with at least one cam 38.

[0164] With reference to [Fig. 7], the locking device 50 is always moved towards the disengaged position. The interaction between at least one counter-cam 88 and at least one cam 38 causes the locking member 70 to move from the unlocked position to the locked position until the first magnet 84 of the locking member 70 and the first magnet 60 of the support 52 are sufficiently close to cause the locking member 70 to tilt into the locked position.

[0165] With reference to [Fig. 8], the locking device 50 is separated from the base 20 and the locking member 70 is in the locked configuration. In particular, the first extension direction DE1 is again substantially parallel to the extension plane PE2 of the base 54 and the first extension 80 is again applied against the base 54.

[0166] In the embodiment shown, the distance between the axis of rotation R and the first magnets 60, 84 is substantially identical to the distance between the axis of rotation R and the second magnets 62, 86.

[0167] Without leaving the scope of the invention, it is also possible to foresee that the distance between the axis of rotation R and the first magnets 60, 84 is different from the distance between the axis of rotation R and the second magnets 62, 86.

[0168] In a particular embodiment, the various magnets 60, 62, 84, 86 have substantially identical strength. Without departing from the scope of the invention, magnets with different strengths may be used.

[0169] Thanks to the invention, the locking member 70 is maintained in the unlocking configuration without the need to maintain the actuating magnet 96 in position near the second magnet 62 of the support 52. Disassembly of the locking device 50 from the base 20, and consequently of the added part from the main part, is thus facilitated.

[0170] Furthermore, when the locking device 50 is moved to the disengaged position, the locking member 70 is automatically returned to the locked position without requiring any specific action from the operator. The operator simply needs to move the locking device 50 away from the base 20 to return it to the locked position. This further simplifies the handling of the fastening system 10.

Claims

Demands

1. A fastening system (10) for an add-on to a main part, comprising: - a base (20) intended to be integral with the main part, the base (20) having a first locking element (28); - a locking device (50) intended to be integral with the add-on, comprising: - a support (52) having a first magnet (60); and - a locking member (70) mounted movably for rotation on the support (52) about an axis of rotation (R), between: - a locking configuration in which a second locking element (72) of the locking member (70) is able to cooperate with the first locking element (28) of the base (20) to fix the add-on to the main part;- an unlocking configuration in which the second locking element (72) of the locking member (70) is arranged away from the first locking element (28) of the base (20) so as to allow the attachment to be separated from the main part; the locking member (70) comprising: - a first magnet (84) adapted to cooperate with the first magnet (62) of the support (52) to constrain the locking member (70) towards the locking configuration; - a second magnet (86); characterized in that the support (52) of the locking device (50) comprises a second magnet (62) adapted to cooperate with the second magnet (86) of the locking member (70) to constrain the locking member (70) towards the unlocking configuration.

2. A fastening system (10) according to claim 1, wherein the support (52) of the locking device (50) comprises a base (54) extending along an extension plane (PE2) defined by a longitudinal direction (X) and a transverse direction (Y), the base (54) comprising a first portion (56) comprising the first magnet (60) of the support (52) and a second portion (58) comprising the second magnet (62) of the support (52), the first and second magnets (60, 62) of the support (52) of the locking device (50) being permanently mounted in the base (54) of the support (52) of the locking device (50).

3. A fastening system (10) according to claim 2, wherein the first and second portions (56, 58) of the base (54) of the support (52) of the locking device (50) are arranged side by side along the longitudinal direction (X), the locking member (70) being mounted movably in rotation between the locking configuration and the unlocking configuration on the base (54) of the support (52) along the axis of rotation (R), the axis of rotation (R) being substantially parallel to the transverse direction (Y) and being arranged between the first and second portions (56, 58) of the base (54) of the support (52), the locking member (70) comprising: - a first extension (80) extending along a first extension direction (DE1) substantially perpendicular to the axis of rotation (R) and comprising the first magnet (84) of the locking member (70);- a second extension (82) extending along a second extension direction (DE2) substantially perpendicular to the axis of rotation (R) and comprising the second magnet (86) of the locking member (70); the first extension direction (DE1) and the second extension direction (DE2) forming an angle (a) between 120° and 150°.

4. A fastening system (10) according to any one of the preceding claims, further comprising an actuating device (94) for driving the locking member (70) from the locked configuration to the unlocked configuration, the actuating device (94) comprising an actuating magnet (96) adapted to be arranged near the second magnet (62) of the support (52) such that the magnetic field of the actuating magnet (96) adds to the magnetic field of the second magnet (62) of the support (52) so as to cause the second magnet (86) of the locking member (70) to move closer to the second magnet (62) of the support (52) and to cause the locking member (70) to move into the unlocked configuration, the second magnet (62) of the support (52) of the locking device (50) cooperating with the second magnet (86) of the locking member (70) to maintain the locking member (70) in the unlocked configuration when the actuating magnet (96) is moved away from the second magnet (62) of the support (52) of the locking device (50).

5. A fastening system (10) according to any one of the preceding claims, wherein the base (20) comprises a bottom wall (22) and at least one side wall (36), the bottom wall (22) and at least one side wall (36) delimiting an enclosure (26), the locking device (50) being movable along an insertion direction (ID) substantially perpendicular to the bottom wall (22) between: - a recessed position in which the locking member (70) extends into the enclosure (26) and in which the second locking element (72) of the locking member (70) is able to cooperate with the first locking element (28) of the base (20); and - a clear position in which the locking member (70) extends outside the enclosure (26) and in which the second locking element (72) of the locking member (70) is away from the first locking element (28) of the base (20).

6. A fastening system (10) according to claim 5, wherein when the locking device (50) is in the depressed position and when the locking member (70) is in the unlocked configuration, the movement of the locking device (50) from the depressed position to the unlocked position causes the locking member (70) to move to the locked configuration.

7. A fastening system (10) according to claim 6, wherein: - the base (20) comprises at least one cam (38); - the locking member (70) comprises at least one counter-cam (88); the at least one counter-cam (88) of the locking member (70) cooperating with the at least one cam (38) of the base (20) when the locking device (50) is moved from the pressed position to the disengaged position so that the locking member (70) is driven into the locking configuration.

8. A fastening system (10) according to claim 7, wherein at least one cam (38) is formed by a part extending from the bottom wall (22) of the base (20), at least one counter-cam (88) being formed by a pin (90) of the locking member (70) extending in a direction substantially parallel to the axis of rotation (R).

9. A fastening system (10) according to any one of claims 5 to 8, wherein the support (52) of the locking device (50) comprises at least one guide wall (64) intended to cooperate with at least one side wall (36) of the base (20) to guide the movement of the locking device (50) along the insertion direction (ID) between the disengaged position and the pushed-in position.

10. A fastening system (10) according to any one of claims 5 to 9, wherein: - the first locking element (28) of the base (20) comprises: - a hooking surface (32) extending substantially perpendicularly to the insertion direction (ID); and - a surface (34) beveled relative to the hooking surface (32); - the second locking element (72) of the locking member (70) comprises: - a hook (76) adapted to cooperate with the hooking surface (32) of the first locking element (28) when the locking member (70) is in the locked configuration, to fix the attachment to the main part;- a beveled surface (78) cooperating with the beveled surface (34) of the first locking element (28) of the base (20) when the locking device (50) is moved to the pressed position such that when the locking device (50) is moved to the pressed position: - the locking member (70) is rotated about the axis of rotation (R) from the locking configuration to an intermediate configuration between the locking and unlocking configurations; then - the locking member (70) is rotated about the axis of rotation (R) to the locking configuration by magnetic attraction between the first magnet (84) of the locking member (70) and the first magnet (60) of the support (52) of the locking device (50) so that the hook (76) of the second locking element (72) of the locking member (70) cooperates with the; attachment surface (32) of the first locking element (28) of the base (20) to fix the added part to the main part.