DE102010036552A1 - Battery holder for motor vehicle key, has contact elements conductively coupled to electronic module inside motor vehicle key, and damping element arranged in receiving tray such that shift of battery is limited toward contact elements - Google Patents

Abstract

The holder has a receiving tray (1) for a battery (2), and a holding unit (3) for fixing the battery in the receiving tray. Contact elements (4, 5) are conductively coupled to an electronic module inside a motor vehicle key. One of the contact elements is arranged in the receiving tray, and includes resilient contact portions (4a) on which the battery is laid. The receiving tray presses the battery against the holding unit. A damping element (6) is arranged in the receiving tray such that shift of the battery is limited toward the contact elements.

Description

The present invention relates to a motor vehicle key, and in particular the battery holder for such a motor vehicle key.

Modern automotive keys include an electronic assembly that regularly has a transmitter and receiver unit by means of which a motor vehicle can be unlocked and locked. In addition to these basic functionalities of the electronic module these are increasingly assigned more functionality recently, so that it is necessary to adjust the power supply of the electronic module accordingly. For the power supply of the electronic assembly usually a replaceable battery is arranged in the key, in a corresponding battery receptacle. The battery is coupled via contact elements to the assembly, usually a contact element presses the battery against a stop within the key to ensure a permanent contact with the battery, while the other contact element is arranged for example in the wall of the battery holder.

The increasing energy demand of the electronic assembly requires larger and heavier batteries. If the key is actuated or jerked, vibrations are transmitted to the battery, which can cause the contact between the battery and the contact element, which is to press the battery against a stop, is not guaranteed, in an extreme case a plastic deformation of the resilient portion of the contact element can occur. The termination of the contact between the battery and the contact element can lead to a malfunction of the key.

It is therefore an object of the present invention to provide a battery holder for a motor vehicle key, which avoids malfunction of the key due to contact loss between the battery and a contact element with increasing weight of a battery.

This object is achieved by a battery holder for a motor vehicle key, which has a receiving tray for a battery, holding means which fix the battery in the receiving tray, and contact elements, which are conductively coupled to an electronic assembly within the vehicle key, wherein a first contact element is arranged in the receiving tray and has resilient contact portions on which the battery rests and which press the battery against the holding means. In the receiving tray of the battery holder according to the invention at least one damping element is arranged such that it limits a displacement of the battery towards the arranged in the receiving tray contact element.

As already indicated, in conventional batteries vibrations of the battery can cause a contact break between a contact element and the battery itself. The increasing weight of the battery may also cause the force exerted by the battery on a contact element to cause a plastic, d. H. permanent deformation of the contact element conditionally.

In order to prevent this, the damping element arranged in the receiving tray limits the freedom of movement of the battery, that is to say the possibility of movement of the battery into the receiving tray. The arrangement of the damping element in the receiving tray is largely arbitrary, as long as the above-mentioned movement restriction of the battery is given, but it is preferred that the damping element is arranged such that tilting of the battery within the receiving tray is avoided. In the simplest case, the damping element may for example be arranged centrally between two resilient contact portions of the contact element.

The damping element may be formed of a non-conductive material, but it is preferred that the damping element, or at least a portion of the damping element is formed of a conductive material and the conductive damping element or the conductive portion of the damping element with the electronic assembly of the key is coupled.

This has the advantage that the damping element in the case of vibration supports the energy transfer between the battery and the electronic module.

In a preferred embodiment of the battery holder according to the invention, the damping element is integrally formed with the first contact element and forms with this a combined contact / damping element. Such a combined contact / damping element is particularly favorable to manufacture and an extra effort in the production of the motor vehicle key is avoided. In order to avoid tilting of the battery in the receiving tray, the contact / damping element preferably has a plurality of damping sections and contact sections.

In the transmission of vibrations to the battery, this moves against the spring force of the resilient contact portions into the receiving tray, and this movement is stopped by the damping element or the damping portions, wherein the movement in a rigid Damping element is stopped abruptly. Due to the inertia, however, if necessary, the resilient contact portions can move further into the receiving tray and this movement may cause a contact break between the battery and the contact portions. In order to avoid an abrupt stopping of the movement of the battery, it is therefore preferred that the damping element or the damping portions of the combined contact / damping element are resilient. The resilient design of the damping element or the damping sections of the combined contact / damping element also contributes to the protection of the battery itself. In such an embodiment, it is particularly preferred that the spring force of the damping element or the damping portions of the combined contact / damping element is greater than the spring force of the contact portions of the contact element.

The spatial arrangement or distribution of the contact portions and the damping portions of the contact / damping element is in principle arbitrary, but it is preferred that the contact portions and the damping portions of the contact / damping element extend radially alternately from the center point to the outside. Such a star-shaped design of the contact / damping element causes ideal damping of the battery and at the same time prevents tilting of the battery within the receiving tray, whereby an uninterrupted contact between the battery and the resilient contact portions is ensured. Such a configuration of the contact / damping element is also well adapted to the usual round configuration of the battery.

Alternatively, the contact / damping element may be formed such that the contact portions and the damping portions extend outwardly from the longitudinal axis of the contact / damping element, the exact distribution of the damping and contact portions being primarily dependent on the number of sections. In a contact / damping element with three sections, for example, it is advantageous to distribute the respective sections in a V-shaped manner so that a contact section is always arranged opposite a damping section.

The invention will now be explained with reference to several embodiments, which are illustrated in the accompanying drawings, wherein

1a . 1b show a schematic sectional view of a first embodiment of the battery receptacle according to the invention,

2 an oblique view of a second embodiment shows

3a . 3b and 3c different detailed views of the in 2 show embodiment shown and

4a . 4b and 4c show a third embodiment of the battery holder according to the invention.

In the 1a and 1b is a sectional view of a first embodiment shown, with only the essential parts of the invention are reproduced in more detail. The battery holder according to the invention can be used in any conventional, including an electronic module car key. Such conventional motor vehicle keys generally include a plurality of actuators, for example for opening and closing the motor vehicle or for opening the trunk, which are coupled to the electronic assembly. The electronic module includes, inter alia, a transmitting and receiving unit for opening / locking the vehicle, and is conductively coupled via lines, which are merely indicated, and contact elements with the battery.

In 1a is the battery 2 shown in the rest position. In this rest position is the battery 2 of two resilient contact sections 4a a first contact element 4 against holding means 3 pressed. These holding means 3 may be provided by a cover of the receptacle (not shown), but may also be provided with the receptacle 1 be coupled. The receiving dish 1 includes a second contact element 5 , and the two contact elements 4 . 5 are connected via lines to an electronic component (not shown) of the key. Between the resilient contact sections 4a of the first contact element 4 is a damping element 6 arranged, which is a movement of the battery 2 in the receiving tray 1 limited and thus a contact break between the battery and the contact element 4 or a plastic deformation of one or more contact sections 4a prevented. In the embodiment shown, the resilient contact portions are crowned in the contact area to the battery, which provides optimum contact with the battery 2 ensures and further the surface of the battery, over which the spherical portion in a movement of the battery in the receiving tray 1 moves, spares. In conventional battery holders, a strong movement of the battery into the receiving tray can cause that due to the deflection of a resilient contact portion is no longer the spherical portion in contact with the battery, but rather the web of the contact portion - this can lead to a weakening of the contact with the battery and damage the battery surface. The damping element prevents such unwanted movement, whereby the above disadvantages are avoided.

If the key is vibrated, for example, by a rapid abrupt movement of the key or by the operation of one of the above-mentioned actuators, this vibration is transmitted to the battery 1 , and this moves against the spring force of the resilient contact portions 4a in the receiving tray 1 in the direction of the damping element 6 , The damping element 6 puts a stop for the battery 1 ready to make another movement of the battery in the receiving tray 1 prevents, whereby a plastic deformation of the resilient contact portions 4a of the first contact element 4 prevented and the above-mentioned disadvantages is avoided.

2 shows a view of a second embodiment of the battery holder according to the invention, wherein in this embodiment, the first contact element and the damping element as a one-piece contact / damping element 10 are formed. In the embodiment shown, the contact / damping element comprises 10 three damping sections 11 as well as three contact sections 12 wherein these are arranged such that always a damping portion opposite to a contact portion. The combined contact / damping element is coupled to the electronic component via a lead (not shown).

The 3a . 3b and 3c show detailed views of the combined contact / damping element 10 , where the 3a a plan view, the 3b a side view and the 3c a view from diagonally upwards. 3a illustrates once again the exact arrangement of the damping and contact portions of the contact / damping element 10 In the embodiment shown, the sections are each arranged in a V-shape.

How out 3b can be seen, are not only the contact portions in the embodiment 12 but also the damping sections 11 resilient, whereby an abrupt stopping of the battery is avoided. Such a resilient embodiment of the damping element is particularly suitable in this embodiment, since the contact / damping element 10 large area in the receiving tray 1 rests and thus tilting of the contact / damping element under force can not occur.

4a . 4b and 4c show a third embodiment of the battery holder according to the invention, in particular the combined contact / damping element used in this embodiment 20 , The contact / damping element 20 is in this case star-shaped, ie the damping and contact sections 21 . 22 extend radially alternately from the center of the contact / damping element element 20 outwardly. In contrast to the embodiment described above, the damping elements 21 not resilient here, but lie flat against the bottom of the (not shown) receiving tray. This is due to the star-shaped configuration, which would have only a small bearing surface toward the bottom of the receiving tray with resilient damping elements, preferably, to tilt the contact / damping element element 20 to avoid yourself. The damping elements have in this embodiment at their ends on surveys that limit the movement of the battery.

Claims (7)

Battery holder for a motor vehicle key, comprising a receiving tray ( 1 ) for a battery ( 2 ), Holding means ( 3 ), the battery ( 2 ) in the receiving tray ( 1 ), contact elements ( 4 . 5 ), which are conductively coupled to an electronic assembly within the vehicle key, wherein a first of the contact elements ( 4 ) in the receiving tray ( 1 ) is arranged and resilient contact sections ( 4a ), on which the battery ( 2 ) and the battery ( 2 ) against the holding means ( 3 ), characterized in that in the receiving tray ( 1 ) at least one damping element ( 6 ) is arranged such that this displacement of the battery ( 2 ) to the in the receiving tray ( 1 ) arranged contact element ( 4 ) limited. Battery holder according to claim 1, characterized in that the damping element ( 6 ) is conductively coupled to the electronic assembly. Battery holder according to claim 1, characterized in that the at least one damping element ( 6 ) in one piece with the first contact element ( 4 ) is formed and with the first contact element ( 4 ) a combined contact / damping element ( 10 . 20 ). Battery holder according to claim 3, characterized in that the contact / damping element ( 10 . 20 ) several attenuation sections ( 11 . 21 ) having. Battery holder according to one of claims 1 to 4, characterized in that the damping element ( 6 ) or the damping sections ( 11 . 21 ) of the contact / damping element ( 10 . 20 ) are resilient, wherein the spring force of the damping element ( 6 ) or the damping sections ( 11 . 21 ) preferably greater than the spring force of the contact portions ( 4a . 12 . 22 ). Battery receptacle according to claim 4 or 5, characterized in that the contact sections ( 12 . 22 ) and the damping sections ( 11 . 21 ) of the contact / damping element ( 10 . 20 ) radially alternately from the center of the contact / damping element ( 10 . 20 ) extend outwards. Battery receptacle according to claim 4 or 5, characterized in that the contact sections ( 12 . 22 ) and the damping sections ( 11 . 21 ) of the contact / damping element ( 10 . 20 ) from the longitudinal axis of the contact / damping element ( 10 . 20 ) extend outwards.

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