The present invention relates to a key casing, particularly for a motor vehicle, exhibiting a key, particularly a back-up key, comprising, on the one hand, a key bow part and an insert and, on the other hand, an insert housing to accommodate the insert when the key is not being used.
In the field of automotive engineering the document EP 0 987 389 in the name of the Applicant company, for example, discloses key casings comprising an electronic part used to identify a user of the vehicle through the exchange of electromagnetic signals, and a mechanical part containing a back-up key.
Such casings are particularly practical because they allow the key to be concealed within the actual structure of the casing which protects it. This is highly advantageous because the user needs this back-up key only in the event of an electrical failure, for example if the battery in the electronic part is dead or the vehicle battery fails.
This arrangement also prevents the key insert from catching in the user's pockets and damaging his or her clothing. This arrangement furthermore allows the size of the casing to be reduced significantly.
In the above-mentioned document EP 0 987 389, the back-up key comprises a bow part forming a part for holding and a metal insert which can be used as a back-up mechanical key, the bow part being fixed rigidly perpendicular to the metal insert.
In order to accommodate this back-up key, the casing comprises, along one of its edges, a housing forming a sleeve intended to accommodate the insert and the bow part of the key is clipped onto a corresponding opening of the casing.
However, given that the number of functions performed by the electronic part is constantly increasing, entailing more numerous electronic components, it is necessary to reduce the size of the back-up insert as far as possible.
Additionally, given that there is no hermetic separation between the electronic part and the mechanical part, special-purpose sealing means needs to be provided, and this tends to increase the cost of the casing.
The present invention aims to alleviate these various disadvantages by proposing a key casing comprising a key, particularly a back-up key, having a smaller size.
To this end, the invention proposes a key casing, particularly for a motor vehicle, comprising:
The casing according to the invention may further comprise one or more of the following characteristics:
Further characteristics and advantages of the invention will become apparent from the description which follows, given by way of example, without implied limitation, with reference to the attached drawings in which:
FIGS. 1 to 3 show perspective views of the key casing 1 according to the invention, from various angles, and of its key, particularly a back-up key, 3.
The key, particularly a back-up key, 3, comprises, fixed together, a key bow part 5 forming a part for holding and an insert 7 having a longitudinal axis and intended to be inserted in a back-up lock (not depicted) of a vehicle in the event of its being used.
The geometry of the key insert, similar to an elongate blade, allows a length (L), a width (1) and a thickness (e) of the insert to be defined, together with associated axes running in these various directions.
In the embodiment described hereinafter, the insert 7 is a back-up insert produced in the traditional form of a metal insert but, for economic purposes, the insert could equally be produced in the form of a plastic insert.
According to one aspect of the invention, the key bow part 5 is fixed to the insert 7 by an articulation 9.
Thus, the key bow part 5 can be moved between a rest position (
As a preference, the axis 11 of pivoting of the articulation 9 is perpendicular to a plane 13 defined by the longitudinal axis of the insert and the key bow part in the position of use.
To make it more convenient for the user and give the back-up key 3 greater stability, particularly in the position of use, the articulation 9 is provided with means (not depicted) for indexing the rest and use positions.
Advantageously, the articulation 9 comprises a plastic end-piece 15 overmolded onto the rear end 17 of the insert and bearing two pegs, 19 and 21 respectively, which are diametrically opposed.
The rear end 18 of the key bow part 5 comprises two walls 23 and 25 parallel to the plane 13 and provided with orifices 27 and 29.
These two walls 23 and 25 enclose the plastic end-piece 15.
The two pegs 19 and 21 form the axis 11 of pivoting and collaborate with the corresponding orifices 27 and 29 in the key bow part 5.
As visible in
In order to assemble the key bow part 5 with the metal insert 7, the walls 23 and 25 are made with a thickness and a material that is flexible enough for them to be parted slightly to allow the end-piece 15 to be fitted.
According to another advantageous variant that has not been depicted, the parts of the articulation 9 that are borne, on the one hand, by the key bow part 5 and, on the other hand, by the insert 7 are assembled by clipping together.
To make it easier to separate the back-up key from the casing, the key bow part 7 comprises, at the articulation 9, a concave part 31 intended to collaborate with a finger of a user.
When it is not in use, the back-up key 3 needs to be folded in such a way that the key bow part 5 and the insert 7 are more or less parallel to one another and needs to be fixed, preferably, by additional clipping-together means borne, on the one hand, by the key bow part and, on the other hand, by the key casing 1, in said casing.
For this, the casing 1 comprises an insert housing 33 of longitudinal shape, intended to accommodate the metal insert 7 when the back-up key 3 is not in use. This housing 33 is partially covered by the external wall 34 of the casing.
As can be seen in
Finally, the casing 1 comprises a housing (not visible) for the communication electronics. These communication electronics comprise, for example, a transponder and/or a remote control, or alternatively radiofrequency communications electronics of the hands-free type. The figures depict, by way of example, two remote-control buttons 35 and 37 for locking and unlocking the vehicle.
Advantageously, the housing for the electronics is hermetically separated from the housing for the back-up key. This may, for example, be achieved by hermetically welding together two half-shells to form a casing once the board carrying the electronic components has been positioned in one of the half-shells.
The key casing is simple and pleasant for a vehicle user to use.
Specifically, when the casing 1 and the back-up key 3 are assembled as depicted in
Next, the key bow part 5 is deployed relative to the insert 7 simply by pivoting about the axis 11 and can be inserted in a back-up lock of the vehicle and operate this lock.
References identical to the first embodiment are indicated by the same numerals.
As visible in
In the position of use, just as in the first embodiment depicted in
This characteristic arrangement of the axis 11 of pivoting is particularly advantageous because it allows the articulation 9 forming the key bow part/insert connection to be very robust.
As in the previous embodiment, the articulation 9 comprises a plastic end-piece 15 overmolded onto the rear end 17 of the insert 7 and bearing two pegs, 19 and 21 respectively, that are diametrically opposed and form the axis 11 of pivoting.
The rear end 17 of the key bow part 5 comprises two walls 23 and 25 parallel to the plane 13, enclosing the plastic end-piece 15 and provided with orifices 27 and 29 in which the two pegs 19 and 21 respectively engage.
When it is not being used, the back-up key 3 is folded so that the key bow part 5 and the insert 7 are more or less parallel with respect to one another and held in the rest position by additional clipping-together means 20, 22 borne, on the one hand, by the key bow part and, on the other hand, by the key casing, in the casing 1.
As a preference, the walls 23 and 25 extend along the longitudinal axis of the key bow part 5 and exhibit positioning grooves 24 to ensure correct positioning of the insert 7 when the insert is folded parallel to the key bow part in the position of rest.
The insert 7 may be assembled with the key bow part 5 in a way similar to the one described in the context of the first embodiment of the invention.
As set out in
The lower half-shell 36 comprises a housing 32 for communications electronics (not depicted) which comprise, for example, a transponder and/or a remote control, or alternatively radiofrequency communications electronics of the hands-free type.
To make it easier to separate the back-up key from the casing, the key bow part 7 comprises, at the articulation 9, a concave part 31 intended to collaborate with a finger of a user.
Furthermore, it is also possible to provide, at the key bow part 5, at its opposite end to the articulation 9, a grasping notch intended to collaborate with a finger of a user so as to manipulate the key bow part 5.
A third embodiment of the invention is depicted in FIGS. 6 to 8 which respectively show the casing with its back-up key in the position of use, the back-up key in the rest position and the back-up key in the rest position housed in the lower half-shell of the key casing.
According to one aspect of the invention, the key bow part 5 is fixed to the insert 7, produced in the form of a metal or plastic insert, by an articulation 10 and the key bow part 5 may be moved between a position of rest (
In the position of use, the axis 11 of pivoting of the articulation 10 is perpendicular to a plane 13 defined by the longitudinal axis of the insert and the key bow part in the position of use so that the axis 11 of pivoting is arranged perpendicular to an axis running along the width (1) of the insert.
This characteristic arrangement of the axis of pivoting is particularly advantageous because it allows the articulation 10 forming the key bow part/insert connection to be very robust.
In this embodiment, the key insert 7 and the key bow part 5 are fixed to one another by the articulation 10 which, through its structure, allows the insert 7 and the key bow part 5 to be maneuvered with respect to one another on the one hand in terms of rotation and, on the other hand, in terms of translation.
To this end, the rear end 17 of the insert 7 has an overmolded end-piece 15 provided with pegs 19 and 21 forming the axis 11 of pivoting of the articulation 10 and collaborating with orifices 27, 29 of the key bow part 5.
The key bow part 5 is, for its part, in the shape of a U-shaped component 26 of longitudinal shape which encloses the rear end 17 of the insert 7. The orifices 27, 29 each form a slot 28a and 28b respectively which runs along the longitudinal axis of the key bow part 5 so that, in collaboration with the pegs 19, 21, these slots allow a translational movement of the articulation 10 along the longitudinal axis of the key bow part 5 with a view to preparing to position the insert 7 in the rest position.
As a preference, the translational and rotational movements of the key bow part 5 with respect to the insert 7 are performed successively, that is to say that the key bow part 5 needs first of all to have been slid from its position of use to an intermediate position in which the pegs 19 and 21 are at the rear end 18 of the key bow part before the key bow part 5 is rotated toward the insert 7 with a view to positioning it in the rest position.
It is also possible to anticipate having an articulation 10 configured to allow the translational and rotational movements of the key bow part 5 with respect to the insert 7 to be performed simultaneously. The axis 11 of pivoting is then able to move and still runs parallel to itself.
According to a practical aspect of the invention, the various parts that make up the articulation 10 and are borne, on the one hand, by the key bow part 5 and, on the other hand, by the insert 7, are assembled by clipping together.
When the key 3 is in the rest position (
The lower half-shell 36 comprises a housing 32 for the communications electronics 39 which comprise, for example, a transponder and/or a remote control or alternatively radiofrequency communications electronics of the hands-free type and is provided with energy-storage means 40. In this instance, the housing 32 for the electronics is separated hermetically from the housing for the back-up key by the presence of sealing means, for example a sealing gasket.
Furthermore, to make it easier to perform the translational movement of the key bow part 5 with respect to the insert 7 or alternatively to make it easier to withdraw the key 3 from its insert housing 33, the key bow part 5 has, at its opposite end to the articulation 10, a grasping notch 30 for the user's fingers (
When it is not being used, the back-up key 3 needs to be folded, in its rest position, so that the key bow part 5 and the insert 7 are more or less parallel to one anther and needs to be fixed, preferably by additional clipping-together means borne, on the one hand, by the key bow part and, on the other hand, by the key casing, in the casing 1. Clipping-together means 22 borne by the key bow part 5 are depicted in
Thus, by virtue of the invention, there has been produced a key casing that is particularly simple to use and allows a back-up key to be incorporated.
It will also be understood that the key casing according to the invention advantageously allows the size of the mechanical part to be reduced and allows the housing of a back-up key which may be perfectly serviceable if need be when arranged in its position of use.
Furthermore, by virtue of the invention, the back-up key can be mounted on the casing at a later date, and this has a significant industrial benefit when the facility for manufacturing the electronics and the facility for manufacturing the insert with the corresponding locks are situated at geographically separated locations.
Number | Date | Country | Kind |
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03/02665 | Feb 2003 | FR | national |
03/08048 | Jul 2003 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP04/50125 | 2/13/2004 | WO | 8/25/2005 |