CN217170534U - Vehicle storage assembly - Google Patents

Abstract

The utility model relates to an automobile-used storage assembly (10), this automobile-used storage assembly (10) includes: a mobile device (12) including a sidewall (20), a cradle (14) defining a housing (18) removably receiving the mobile device (12). The side wall (20) of the mobile device (12) comprises a first circumferential groove (26). The bracket (14) includes a stop pin (34) and a stop member (36), the stop pin (34) being reciprocally movable between a stop position and a release position. The receiver assembly (10) is configurable to switch back and forth between a detent configuration, in which the detent pin (34) is in the detent position and the detent member (36) engages the first circumferential groove (26), and a release configuration, in which the detent pin (34) is in the release position and the detent member (36) is spaced from the first circumferential groove (26).

Description

Vehicle storage assembly

Technical Field

The utility model relates to an automobile-used subassembly of accomodating.

Background

Such an assembly is provided, for example, at a center console separate from the front seats of the vehicle, on the seat armrest, at the interior trim part of the vehicle door, or at any other trim part of the vehicle.

The mobile device may be, for example, a cup holder, ashtray or trash can, phone charger, etc.

The bracket holds the mobile device in place to avoid sudden movement of the vehicle causing the mobile device and the contents that may be present therein to become dislodged and even ejected from the vehicle interior.

SUMMERY OF THE UTILITY MODEL

One of the objects of the present invention is to improve the retention and positioning of a mobile device within a support while maintaining the appearance and storage functions of a mobile device housing when the mobile device is not in use.

Therefore, the utility model relates to an automobile-used storage assembly, include: at least one mobile device comprising a side wall extending in a main direction between a lower edge and an upper edge, a cradle comprising an inner side wall at least partially defining a housing for removably receiving the mobile device wherein the side wall of the mobile device comprises at least one first circumferential groove about the main direction, and the cradle comprising at least one stop pin comprising a first stop member, wherein the stop pin is reciprocally movable between a stop position and a release position, the vehicle storage assembly being configurable to be switchable back and forth between the stop configuration, wherein in the stop configuration the stop pin is in the stop position and the first stop member engages the first circumferential groove, and in the release configuration the stop pin is in the release position and the first stop member is spaced from the first circumferential groove.

Thus, due to the cooperation between the circumferential groove and the stop member, the retention of the displacement device is improved and the displacement device is prevented from moving laterally. In addition, due to the presence of the circumferential groove, it is convenient to place the moving device inside the holder, since the retention can be achieved at any location of the circumferential groove. Furthermore, without the moving means, the housing can be used as a storage space, since the locking mechanism does not affect the useful space, function or even the appearance of the housing.

According to other aspects of the invention, the housing assembly comprises one or more of the following features, which can be adopted alone or in any feasible technical combination:

-further comprising a second stop member consisting of a rib connected to the bracket and projecting inwards from the inner side wall of the casing.

The side wall of the moving device comprises a second circumferential groove, the distance in the main direction between the first circumferential groove and the lower edge of the side wall being substantially equal to the distance in the main direction between the second circumferential groove and the upper edge of the side wall.

The stop pin extends in a first stop direction and is movable relative to the inner side wall of the bracket between a deployed position, a retracted position and at least one intermediate position in which the distance between the front face of the stop pin and the inner side wall in the first stop direction is smaller than said distance in the deployed position and larger than said distance in the retracted position.

The stop pin is in an intermediate position when the stowing assembly is in the stop configuration.

The assembly comprises a restraining device configured to restrain the retaining pin in the deployed position.

The assembly comprises locking means movable between a locked position in which the locking means prevent movement of the container assembly from the retaining configuration to the release configuration, and an unlocked position in which the locking means allow movement of the container assembly from the retaining configuration to the release configuration.

The support comprises two stop pins, each stop pin being reciprocally movable between a stop position and a release position, the locking device comprising two constraining members connected to the stop pins, each constraining member being movable between a constraining position in which it constrains the stop pins in the stop position and a free position in which it does not constrain the stop pins in the deployed position, the stop pins being automatically movable between the deployed position, the retracted position and the intermediate position, respectively, each constraining member comprising a toothed surface, the locking device further comprising a pinion cooperating with said toothed surface so that the movement of one of the constraining members towards the constraining position or towards the automatic position brings the movement of the other constraining member towards the constraining position or towards the automatic position.

The assembly comprises a magnet housed in a first circumferential groove comprising at least one magnetized angular zone constituted by the outer surface of the magnet and a non-magnetized angular zone constituted by the inner wall of the first circumferential groove, the stop pin being at least partially constituted by a ferromagnetic material capable of being magnetically attracted by the magnet.

Drawings

Other aspects and advantages of the invention are explained by way of example only and with reference to the accompanying drawings, in which:

fig. 1 is a top view of a module holder according to a first embodiment of the present invention.

Fig. 2 is a cross-sectional view of the cradle of fig. 1 taken along direction II with the mobile device disposed within the cradle housing.

Fig. 3 and 4 are a plan view and a sectional view of a module support according to a second embodiment of the present invention.

Fig. 5 is a top view of a module holder according to a third embodiment of the present invention.

Fig. 6 and 7 are cross-sectional views of an assembly according to a fourth embodiment of the present invention.

Detailed Description

Fig. 1 and 2 show a storage assembly 10 for a vehicle according to a first embodiment of the present invention.

The assembly 10 is provided, for example, at a center console separate from the front seats of the vehicle, on the seat arm rests, at the interior trim parts of the vehicle doors, or at any other trim piece of the vehicle.

The assembly 10 includes at least one mobile device 12 and a stand 14 including an interior sidewall 16 that at least partially defines a housing 18 for removably receiving the mobile device 12.

The mobile device 12 may be, for example, a cup holder, a container such as a cup, ashtray or trash can, a phone charger, etc.

The moving means 12 comprise a side wall 20 extending in a main direction P between a lower edge 22 and an upper edge 24.

For example, in the first embodiment, the side wall 20 constitutes a straight cylinder or a cylinder of revolution, that is to say the side wall 20 is circular in cross section in a plane substantially perpendicular to the main direction P.

As a variant, the side wall 20 constitutes an arbitrary cylinder.

As a modification, the side wall 20 is formed of a single-layer hyperboloid.

In the first embodiment, the moving device 12 constitutes a tubular member that is open at each end.

In a particular orientation of the mobile device 12, at least the lower edge 22 is in contact with the cradle 14 when the mobile device 12 is placed in the housing 18 of the cradle 14.

As a variant (not shown), the mobile device 12 comprises a bottom wall connected to the lower edge 22 and/or an upper wall connected to the upper edge 24, so as to constitute a storage box suitable for containing the articles and containers and/or to constitute a closed chamber.

According to the present invention, the lateral wall 20 of the mobile device 12 comprises at least one first circumferential groove 26 around the main direction P.

The first circumferential groove 26 constitutes an annular groove. In other words, the distance between the lower edge 22 of the mobile device 12 and the first circumferential groove 26 in the main direction P is substantially constant over the entire circumference of the lower edge 22.

For example, said distance between the first circumferential groove 26 and the lower edge 22 is between 0 and 100mm, for example 5 mm.

For example, the maximum depth of the first circumferential groove 26 is between 1mm and 10mm, for example 5 mm.

Thus, the mid-front face of the first circumferential groove 26 is substantially perpendicular to the main direction P.

The first circumferential groove 26 extends over at least a portion of the circumference of the lower edge 22, for example over an angular distance greater than 90 °, for example between 120 ° and 180 °.

Advantageously, the first circumferential groove 26 extends over the entire circumference of the lower edge 22.

The more the first circumferential groove 26 extends over a larger angular distance, the more angles are possible to position the mobile device 12 within the housing 18.

The first circumferential groove 26 is particularly advantageous when the first circumferential groove 26 extends around the entire lower edge 22, as no special alignment between the mobile device 12 and the bracket 14 is required to ensure that the mobile device 12 is retained on the housing 18, as will be described below. The user is able to place the mobile device 12 on the stand 14 at any angle. The mobile device 12 may be conveniently disposed in the housing 18.

Advantageously, the movement means 12 comprise a second circumferential groove 28 around the main direction P.

Preferably, the second circumferential groove 28 is identical to the first circumferential groove 26.

Advantageously, in the main direction P, the distance between the first circumferential groove 26 and the lower edge 22 of the lateral wall 20 is substantially equal to the distance between the second circumferential groove 28 and the upper edge 24 of the lateral wall 20.

Thus, it is always possible to place one of the upper edge 24 and the lower edge 22 of the mobile device 12 in the housing 18 of the stand 14.

In the different orientation shown in fig. 2, the upper edge 24 is disposed in the housing 18, said upper edge 24 thus being in contact with the bracket 14.

This facilitates the stowing of the mobile device 12 into the housing 18 of the stand 14, as the user does not have to consider which side of the mobile device 12 he is placing will face the housing 18 of the stand 14.

According to one embodiment, the bracket 14 includes a bottom wall 30 connected to the inner side wall 16.

The bottom wall 30 extends in a first plane P1.

The distance between the lower edge 22 or the upper edge 24 in the main direction is chosen such that the lower edge 22 or the upper edge 24 rests on the bottom wall 30 when the mobile device 12 is received in the housing 18.

In the first embodiment, the inner side walls 16 of the rack 14 define two housings 18 connected to one another, each of which may house the mobile device 12 (FIG. 1).

As a modification (not shown), the two housings 18 are not connected to each other.

Also as a modification (not shown), the inner side walls 16 of the cradle 14 define a single housing that can accommodate a single mobile device 12.

In the example of fig. 1, the inner sidewall 16 of the holder defines at least one generally cylindrical portion 32. The portion 32 is generally complementary to at least a portion of the sidewall 20 of the mobile device 12.

According to the present invention, the bracket 14 includes at least one retaining pin 34 and at least one retaining member 36.

The stop member 36 is capable of cooperating with the first circumferential groove 26 to ensure retention of the mobile device 12 in the cradle 14.

The stop pin 34 is movable back and forth between a stop position in which the stop pin 34 is in contact with the sidewall 20 of the mobile device 12 and a release position in which the stop pin 34 is spaced from the sidewall 20 of the mobile device 12.

The retaining pin 34 extends primarily in a first retaining direction B1 that is generally perpendicular to the inner side wall 16 of the bracket 12 and is parallel to a first plane P1 in which the bottom wall 30 of the bracket 14 extends.

The retaining pin 34 is movable relative to the inner sidewall 16 of the bracket 14 between a deployed position, a retracted position, and at least one intermediate position. In the intermediate position, the distance between the front face 38 of the retaining pin 34 and the inner side wall 16 in the first retaining direction B1 is less than in the deployed position and greater than in the at least partially retracted position.

Preferably, in the stop position, the stop pin 34 is in the deployed position.

As a variant, in the stop position, the stop pin 34 is in the intermediate position.

Preferably, the stop pin 34 exerts a pressure on the sidewall 20 of the mobile device 12 in the stop position when the mobile device 12 is received in the housing 18.

Advantageously, the bracket 14 comprises a restraining device 40 configured to restrain the retaining pin 34 in the deployed position. This ensures that the mobile device 12 is well retained in the housing 18 of the stand 14 because in the stop position the stop pin 34 is constrained against the side wall 16 of the mobile device 12.

For example, the restraining means 40 is constituted by a spring 47, a first end of which is connected to the bracket 14 and a second end of which is connected to the stop pin 34.

The retaining pin 34 includes, for example, a head 42 and a pin shaft 44 connecting the head 42.

The head 42 has, for example, a curved outer surface 46 that is contactable with the mobile device 12 in the rest position.

The retaining pin 34 includes a front end 43 directed toward the interior of the housing 18 and a rear end 45 connected to the front end 43 and received into the interior of the bracket 14.

According to the present invention, the housing assembly 10 is configured to be switchable between a retaining configuration, in which the retaining pin 34 is in the retaining position and the retaining member 36 engages the first circumferential groove 26, and a releasing configuration, in which the retaining pin 34 is in the releasing position and the retaining member 36 is separated from the first circumferential groove 26.

In the first embodiment, the stopper pin 34 includes a first stopper member 36. The first stop member 36 is constituted by, for example, the front end 43 of the stop pin 34. The front end 43, more specifically the outer surface 46, at least partially engages the first or second circumferential groove 26, 28 in the locked position, i.e., the front end 43 of the retaining pin 34 is partially received in the first or second circumferential groove 26, 28. In other words, in the retaining position, the outer surface 46 of the tip 42 of the retaining pin 34 abuts at least a portion of the inner surface 48 of the first or second grooves 26, 28.

As a modification, in the stop position, the stop pin 34 abuts against a different region of the side wall 20 of the mobile device 12 than the first or second circumferential grooves 26, 28. In other words, the front end 43 of the retaining pin 34 is not received into the first circumferential groove 26 and does not constitute the retaining member 36.

In the stop position, the stop pin 34 extends the stop member 36 into one of the circumferential grooves 26, 28 of the displacement device 12.

In the first embodiment, the assembly 10 includes a second stop member 36 formed by a rib 48 projecting from the inner side wall 16 of the cradle 14 inwardly of the housing 18.

Preferably, the ribs 48 are connected to the support 14. In other words, the ribs 48 do not move relative to the support 14.

For example, the ribs 48 are integral with the inner sidewall 16 of the rack 14.

The second stop member 36 is configured to block the mobile device 12 in a second stop direction B2.

Preferably, in order to ensure a good retention of the moving device, the first stopping direction B1 and the second stopping direction B2 form an angle therebetween of more than 90 °, for example between 120 ° and 180 °.

In the example of fig. 2, the second stop member 36, i.e. the rib 48, is at least partially received into the first circumferential groove 26, i.e. the outer surface of the stop member 36 is at least partially complementary to the inner surface of the first circumferential groove 26. In the stop position, the outer surface of the second stop member 36 abuts against the inner surface of the first circumferential groove 26.

As a modification of the first embodiment, the brace does not include the rib 48, and the assembly 10 includes a single stop member 36 constituted by the front end 43 of the stop pin 34 cooperating with the first circumferential groove 26 or the second circumferential groove 28 in the stop configuration of the assembly 10.

Also as a variant, the assembly 10 comprises a single stop member 36, which, in the stop configuration of the assembly 10, is constituted by a rib 48 cooperating with the first circumferential groove 26 or the second circumferential groove 28. The retaining pin 34 does not engage the first or second circumferential groove 26, 28. In the stop configuration of the assembly 10, the stop pin 34 abuts against the side wall 20 of the mobile device 12.

The operation of the assembly 10 according to the first embodiment of the invention will now be described.

To secure the mobile device 12 to the stand 14, the user inserts the mobile device 12 into the housing 18. The stop member 36, i.e., the rib 48 and the front end 43 of the stop 34, slides along the sidewall 20 of the mobile device 12 until the stop member 36 engages the first circumferential groove 26 or the second circumferential groove 28. The stop pin 34 applies pressure to the mobile device 12 under the action of the restraining device 40 to ensure that the mobile device 12 inside the cradle 14 remains against the stop member 36. Thus, the user does not need to actuate the stop pin 34 himself to ensure that the mobile device 12 remains in the cradle 14.

When it is desired to remove the mobile device 12, the user applies pressure to the stop pin 34 in a direction opposite to the force applied by the restraint device 40 through the mobile device 12. The mobile device 12 may then be removed from the housing 18.

Fig. 3 and 4 show a second embodiment of the present invention.

The second embodiment is described with reference to the first embodiment as described above.

In this embodiment, the inner side walls 16 of the rack 14 define two housings 18 connected to one another, each of which may house the mobile device 12.

For each housing 18, the inner sidewall 16 includes two stops 34 and one stop 36 formed from the rib 48 as described above.

Advantageously, the assembly 10 according to the second embodiment comprises a locking device 50 movable between a locking position, in which the locking device 50 prevents the movement of the containing assembly 10 from the retaining configuration to the release configuration, and an unlocking position, in which the locking device 50 allows the movement of the containing assembly 10 from the retaining configuration to the release configuration.

The locking device 50 comprises a grip member 52, for example actuatable by a user, which is configured to move the locking device 50 between a locked position and an unlocked position, and vice versa. The gripping member 52 protrudes from, for example, an upper wall 54 of the stand 14.

The locking device 50 comprises a locking member 56 which is rotatable relative to the stand 14 about an axis substantially parallel to the first plane P1, in which the bottom wall 30 of the stand 14 extends, and parallel to the upper wall 14 of the stand 14.

The locking member 56 comprises at least one resting portion 58 which is removably movable between a resting position in which the resting portion 58 obstructs the movement of the rear end 45 of the retaining pin 34 along the retaining directions B1, B2, and a free position in which the resting portion 58 is spaced apart from the rear end 45 of the retaining pin 34, that is to say away from the retaining directions B1, B2.

Thus, when the locking device 50 is in the rest position, the rest member 58 is in the rest position. The locking member 56 obstructs movement of the rear end 45 of the stop pin 34 in the stop directions B1, B2, that is, the locking member 56 obstructs movement of the stop pin 34 to the retracted and/or intermediate position. Thus, the tip 42 of the retaining pin 34 remains seated against the sidewall 20 of the mobile device 12 or against the first circumferential groove 26. The mobile device 12 does not become detached from the stand 14.

In the example of fig. 3 and 4, the locking member 56 comprises a main body 60 and two resting parts 58 connected to the main body 60 and arranged on either side of the main body 60. When the lock 50 is in the rest position, each of the rest members 58 is in the rest position to interfere with the stop pin 34 of each of the housings 18. Thus, the locking member 56 may simultaneously lock the mobile device 12 in each of the two housings 18. In addition, a single actuation can cause both mobile devices 12 to be released.

As a variant, each housing 18 comprises a single stop pin 34 cooperating with the locking device 50.

Alternatively and/or additionally, the holder 14 includes a single housing 18.

Fig. 5 shows a third embodiment of a receiving assembly 10 according to the present invention.

This embodiment is similar to the second embodiment described above, except for the locking device 50.

In this embodiment, the locking device 50 comprises two constraint members 61, each comprising a toothed surface 62 and a pinion 55 cooperating with said toothed surface 62.

The binding member 61 engages the retaining pin 34. For example, each binding member 61 is coupled to at least one retaining pin 34. More specifically, each restraining member 61 cooperates with a retaining pin 34 of each housing 18, that is to say each restraining member 61 cooperates with two retaining pins 34.

Each restraining member 61 is movable between a restraining position in which the restraining member 61 restrains the latch 34 in the retaining position, and a free position in which the restraining member 61 does not restrain the latch 34 in the deployed position, the latch 34 being automatically movable between the deployed position, the retracted position and the intermediate position, respectively.

In other words, in the restraining position, the restraining member 61 blocks the stopper pin 34 from moving from the stopping position to the releasing position.

Thus, the tip 42 of the retaining pin 34 remains seated against the sidewall 20 of the mobile device 12 or against the first circumferential groove 26. The mobile device 12 does not become detached from the stand 14.

The pinion 55 is rotatable relative to the rack 14 about an axis of rotation substantially parallel to the stop directions B1, B2.

The pinion 55 cooperates with the toothed surface 62 of each binding member 61 so that the movement of one of the binding members 61 towards the binding position or towards the free position brings the other binding member 61 towards the binding position or towards the automatic position.

The pinion 55 may move the binding member 61 to the binding position when rotated in the first rotational direction. The pinion 55 may move the restriction member 61 to the free position when rotated in a second rotational direction opposite to the first rotational direction.

The locking device 50 includes an actuator 66 that is movable between an actuated position and a non-actuated position, and vice versa. For example, the actuator 66 is a button.

In the actuating position, the pinion 55 is forced to rotate in the first rotational direction, that is, the restraining member 61 is moved to the restraining position and restrains the stop pin 34 in the stop position.

In the non-actuated position, the pinion 55 is free to rotate in either the first or second rotational direction, that is, the latch 34 can be moved from the latched position to the released position and vice versa.

The operation of the locking device 50 is as follows. Once the user places the mobile device 12 into the housing 18 of the stand 14, the user actuates the actuator 66, for example by depressing a button, thereby forcing the pinion gear 55 to rotate in a first rotational direction. This causes the binding member 61 to move to the binding position. The mobile device 12 does not become detached from the stand 14.

Conversely, when the user moves the actuator to the non-actuated position, for example by pressing the button again, the pinion 55 does not constrain the constraining member 61, and the latch 34 is free to move from the deployed position to the retracted position, and vice versa. The user may detach the mobile device 12 from the stand 14.

Fig. 6 and 7 show a fourth embodiment of the present invention.

This embodiment will be described with reference to the first embodiment.

In such an embodiment, the housing assembly 10 includes at least one magnet 68 received into the first circumferential groove 26 or the second circumferential groove 28.

The first circumferential groove 26 then comprises at least one magnetized angular zone 70 constituted by the outer surface of the magnet 68 and an unmagnetized angular zone 72 constituted by the inner wall of the first circumferential groove 26.

Preferably, as shown in fig. 7, the assembly comprises a plurality of magnets 68 housed in the first circumferential groove 26 and distributed circularly in the first circumferential groove 26 so as to constitute, with the inner walls of the first circumferential groove 26, alternating magnetized angular zones 70 and non-magnetized angular zones 72.

Preferably, as shown in fig. 6, the movement means comprise a second circumferential groove 28 and at least one magnet 68, preferably a plurality of magnets, housed in said second circumferential groove 28 in a similar manner to the first circumferential groove 26.

In this embodiment, the or each retaining pin 34 is at least partially constructed of a ferromagnetic material that can be magnetically attracted by the magnet 68. For example, the tip 42 of each retaining pin 34 is constructed of a ferromagnetic material. As a modification, the outer surface 46 of the end 42 of each retaining pin 34 is covered with a layer of ferromagnetic material.

According to a first variant of this embodiment, shown in fig. 6, the assembly 10 comprises a restraining means 40 configured to restrain the retaining pin 34 in the deployed position.

Thus, when the retaining pin 34 is aligned with the magnetized region 70 of the mobile device 12, the retaining pin 34 is magnetically secured by the magnet 68, and the mobile device 12 is locked in the housing 18 of the stand 14. Conversely, when retaining pin 34 is aligned with non-magnetized region 72, retaining pin 34 is not magnetically held by magnet 68. The mobile device 12 may be separate from the stand 14.

According to a modification of this embodiment, the assembly 10 does not comprise a restraining means 40 configured to restrain the retaining pin 34 in the deployed position. In other words, the retaining pin 34 is freely movable between the deployed position, the intermediate position, and the retracted position.

The magnet 68 is capable of exerting a magnetic attraction force on the latch 34 sufficient to move the latch 34 from the retracted position to the extended position.

When the magnetization angle region 70 is disposed opposite the retaining pin 34, the retaining pin 34 moves to the deployed position. This may lock the mobile device 12 to the stand 14. Conversely, when the non-magnetized angular region 72 is disposed opposite the retaining pin 34, the retaining pin 34 is not magnetically attracted by the non-magnetized region 72 and the retaining pin 34 is not restrained in the deployed position, in other words, it can be moved to the retracted position or the intermediate position and the mobile device 12 can be separated from the stand 14.

Also as a modification, the restraining means 40 is configured to restrain the retaining pin 34 in the retracted position. The latch 34 is moved toward the deployed position by a magnetic force applied by the magnet 68 that is greater than the restraining force applied by the restraining device 40. Thus, when the mobile device 12 is removed, the stop pin 34 will return to the retracted position.

The operation of the assembly 10 will now be described.

The user places the mobile device 12 in the housing 18 and rotates the mobile device 12 about the primary axis P of the mobile device 12 until the stop pin 34 is aligned with the non-magnetized region 70 of the device 12. The retaining pin 34 is magnetically attracted by the magnetized angular region 70 and the mobile device 12 is locked to the bracket 14. To remove the mobile device 12 from the support 14, the user rotates the mobile device 12 about the primary axis P to align the stop pin 34 with the non-magnetized region 72. The retaining pin 34 is no longer attracted to the mobile device 12 and the mobile device 12 unlocks. The user may thus detach the mobile device 12 from the stand 14.

Thus, the storage assembly 10 according to the present invention is particularly advantageous due to the cooperation between the circumferential grooves 26, 28 and the stop members 36, the retention of the mobile device 12 is improved and the mobile device 12 is prevented from moving laterally. In addition, due to the presence of the circumferential grooves 26, 28, placement of the mobile device 12 inside the cradle 14 is facilitated, since retention can be achieved at any location of the circumferential grooves 26, 28. To ensure that the mobile device 12 is retained within the housing 18, no special alignment between the mobile device 12 and the stand 14 is required.

The locking device 50 may further enhance retention of the mobile device 12 within the housing 12 of the stand 14.

Claims (9)

1. A vehicle storage assembly (10), comprising:

-at least one moving means (12) comprising a side wall (20) extending in a main direction (P) between a lower edge (22) and an upper edge (24),

-a cradle (14) comprising an inner side wall (16) defining at least in part a housing (18) for removably receiving the mobile device (12),

characterized in that the side wall (20) of the moving device (12) comprises at least one first circumferential groove (26) around the main direction (P) and in that the holder (14) comprises at least one stop pin (34), which stop pin (34) comprises a first stop member (36), wherein the stop pin (34) can be moved back and forth between a stop position and a release position,

the stowable assembly (10) for a vehicle is configured to be able to switch back and forth between a detent configuration, in which the detent pin (34) is in a detent position and the first detent member (36) engages with the first circumferential groove (26), and a release configuration, in which the detent pin (34) is in a release position and the first detent member (36) is separated from the first circumferential groove (26).

2. The vehicle storage assembly (10) of claim 1 further comprising a second stop member comprised of a rib (48) connecting the bracket (14) and projecting inwardly from the inner side wall (16) of the housing (18).

3. The vehicle storage assembly (10) of claim 1 or 2, wherein the side wall (20) of the mobile device (12) comprises a second circumferential groove (28), the distance in the main direction (P) between the first circumferential groove (26) and the lower edge (22) of the side wall (20) being equal to the distance in the main direction (P) between the second circumferential groove (28) and the upper edge (24) of the side wall (20).

4. The stowing assembly (10) for a vehicle according to claim 1 or 2, characterized in that the retaining pin (34) extends in a first retaining direction (B1) and is movable relative to the inner side wall (16) of the bracket (14) between a deployed position, a retracted position and at least one intermediate position in which the distance between the front face (38) and the inner side wall (16) of the retaining pin (34) in the first retaining direction (B1) is smaller than in the deployed position and larger than in the retracted position.

5. The vehicle stowing assembly (10) according to claim 4, characterized in that the stop pin (34) is in an intermediate position when the vehicle stowing assembly (10) is in the parking configuration.

6. The vehicle stowing assembly (10) according to claim 4, characterized in that the vehicle stowing assembly (10) further comprises a restraining device (40) configured to restrain the retaining pin (34) in the deployed position.

7. A stowing assembly (10) for a vehicle according to claim 1 or 2, characterized in that the stowing assembly (10) for a vehicle further comprises a locking device (50) movable between a locked position, in which the locking device (50) prevents the stowing assembly (10) for a vehicle from moving from the arresting configuration to the releasing configuration, and an unlocked position, in which the locking device (50) allows the stowing assembly (10) for a vehicle to move from the arresting configuration to the releasing configuration.

8. The stowing assembly (10) for a vehicle according to claim 7, characterized in that the bracket (14) comprises two stop pins (34), each stop pin (34) extending in a stop direction, each stop pin (34) being movable relative to an inner side wall (16) of the bracket (14) between a deployed position, a retracted position and at least one intermediate position in which a distance between a front face (38) and the inner side wall (16) of the stop pin (34) in the stop direction is smaller than in the deployed position and larger than in the retracted position, each stop pin (34) being movable back and forth between a stop position and a release position,

said locking device (50) comprising two constraining members (61) connected to said retaining pin (34), each constraining member (61) being movable between a constraining position in which said constraining member (61) constrains said retaining pin (34) in a retaining position and a free position in which said constraining member (61) does not constrain said retaining pin (34) in a deployed position, said retaining pin (34) being automatically movable between a deployed position, a retracted position and an intermediate position, respectively,

each said constraining member (61) comprising a toothed surface (62),

the locking device (50) further comprises a pinion (55) cooperating with the toothed surface (62) so that the movement of one of the constraint members (61) towards the constraint position or towards the free position brings the other constraint member (61) towards the constraint position or towards the automatic position.

9. A storage assembly (10) for vehicles according to claim 1 or 2, characterized in that said storage assembly (10) for vehicles further comprises at least one magnet (68) housed in said first circumferential groove (26), said first circumferential groove (26) comprising at least one magnetized angular zone (70) constituted by an outer surface of the magnet (68) and a non-magnetized angular zone (72) constituted by an inner wall of said first circumferential groove (26), said retaining pin (34) being at least partially constituted by a ferromagnetic material magnetically attractable by said magnet (68).

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