EP1429416A2 - Contact spring for an antenna device of a vehicle - Google Patents

Abstract

The antenna device has an antenna structure incorporated in a flat component of the automobile, e.g. a windscreen, its foot point having a contact position for electrical connection with an antenna amplifier, with a non-conductive carrier plate (1) between the flat component and the antenna amplifier, the electrical connection between the contact position and the antenna amplifier provided by a contact spring (2) received by recesses (3,4) in the carrier plate.

Description

The invention relates to an antenna device for a vehicle according to the features the preamble of claim 1.

EP 1 080 513 B1 discloses a vehicle antenna device with at least one known antenna structure applied to a vehicle window, the base points the antenna structure, contact points for electrical connection with a high-frequency device, in particular an antenna amplifier. One is the Contact points of the at least one antenna structure on the vehicle window attached base made of non-conductive material (support plate) for Detachable recording of the antenna amplifier provided, the connections with the associated contact points are detachably electrically connected. For contacting are in Contact area concerned contact springs arranged with a flat part lie on the circuit board of the antenna amplifier, there with appropriate Connection points are soldered and for mechanical fixation with one at the end engage angled extension in a recess of the circuit board. After this Potting the antenna amplifier with a plastic material are the contact springs in the housing of the antenna amplifier securely and sufficiently stably attached to the To be able to absorb spring pressure when contact is made. However, this results in a major disadvantage. The contact springs are above the underside of the antenna amplifier out, so that after the production, that is, above all with the Transport and when installing the antenna amplifier, there is a risk that the protruding contact springs are bent or even break off. Because the whole Antenna amplifier with a plastic housing was encapsulated in the case of broken contact springs excluded a repair, so this costly (hazardous waste) must be disposed of. Even if this arrangement of Would maintain contact springs, the manufacture of the antenna amplifier is costly, because the contact springs on one side of the circuit board of the antenna amplifier and its components arranged on the other side of the circuit board are. The circuit board must therefore be used to solder the components involved be turned. In addition, the shape and arrangement of the known Contact springs (only a semicircular leg is available for contacting) the required contacting power over a long period of time (lifetime of the Vehicle), so that contact problems arise over time can come.

The invention is therefore based on the object of an antenna device for Vehicle with antenna structures using contact springs with an electronic device, in particular an antenna amplifier to be contacted, to be provided on the one hand the interchangeability of the electronic device (the antenna amplifier) maintains by placing the electronic device (the antenna amplifier) on a carrier plate is arranged releasably, and on the other hand, the handling of the electronic device (the Antenna amplifier) is not affected by the above contact springs.

This object is achieved by the features of patent claim 1.

According to the invention, it is provided that the carrier plate has the at least one contact spring records and the electronic device, in particular the antenna amplifier, (on the in further reference is made) at least one associated with the contact spring Has contact area. This gives the advantage that the antenna amplifier itself no longer has any protruding parts of a contact spring, so that it too can no longer be bent or break off. This makes it a safe one at all times Contacting is ensured because the carrier plate receives the contact springs. This is guaranteed especially when the contact springs in such a manner are arranged in or on the carrier plate so that they protrude little and also none free arm (leg) of the contact spring protrudes from the carrier plate. For example, this will achieved according to the invention in that the at least one contact spring on or in the carrier plate is locked.

The assembly advantages for an antenna amplifier, which are described in EP 1 080 513 B1 are (especially easy assembly and disassembly of the antenna amplifier the carrier plate) are retained and supplemented by the advantages of a safe and reliable electrical contact between the antenna structure and the Antenna amplifier, which amplifies the antenna signals and passes them on to other devices.

Several exemplary embodiments of the invention, to which, however, these are not restricted, are described below and explained with reference to the figures.

Figuren 1 und 2

eine erfindungsgemäße Kontaktfeder an einer Trägerplatte vor und nach ihrer Montage, in einer dreidimensionalen Ansicht und

Figuren 3 und 4

eine erfindungsgemäße Kontaktfeder vor und nach dem Verrasten in einer Schnittdarstellung.

Figur 5

Einbaulage einer Kontaktfeder zwischen zwei Kontaktstellen,

Figur 6

zwei nebeneinander angeordnete Kontaktfedern in einer Trägerplatte,

Figur 7

erfindungsgemäße Kontaktfeder mit einer Aussparung,

Figuren 11 bis 13

verschiedene Ausführungsformen von Kontaktfedern,

Figur 14

eine aus zwei Teilen bestehende Kontaktfeder.

Show it:

Figures 1 and 2

a contact spring according to the invention on a carrier plate before and after its assembly, in a three-dimensional view and

Figures 3 and 4

a contact spring according to the invention before and after locking in a sectional view.

Figure 5

Installation position of a contact spring between two contact points,

Figure 6

two contact springs arranged side by side in a carrier plate,

Figure 7

contact spring according to the invention with a recess,

Figures 11 to 13

different embodiments of contact springs,

Figure 14

a contact spring consisting of two parts.

First, the basic structure of an antenna device for a vehicle Reference as it is shown and described in Figure 1 of EP 1 080 513 B1 (Column 8, line 9 to column 10, line 41).

In Figure 1, a carrier plate 1 is shown in sections, on a flat part of the vehicle, in particular on a vehicle window, arranged, above all is glued. This carrier plate 1 has the task of receiving the antenna amplifier, so that it is easy to assemble and disassemble. For simplification are elements that the antenna amplifier on the carrier plate 1 when inserting lead and then fix not shown. In this respect, EP 1 080 is used again 513 B1 referenced.

For contacting the at least one contact point on the flat part of the Vehicle, in particular the base point of an antenna structure on the vehicle window, and the associated contact point in or on the antenna amplifier is a Contact spring 2 is provided, the shape of which is shown by way of example in FIG. 1. This Contact spring 2 is made of an electrically conductive material with spring properties made so that it is the one hand the connection between the contact point of the Secures antenna structure and the contact point of the antenna amplifier reliably. At the same time, the shape of the contact spring 2 is chosen to be approximately U-shaped, since this shape here has the best high frequency properties. Basically, each would also offer spiral springs or the like according to the frequency range, the ones shown in FIG Shown form of the contact spring 2 especially in the upper megahertz range up to Gigahertz range is particularly advantageous. This contact spring 2 is a single part manufactured, whereby for contacting between antenna structure and antenna amplifier as many contact springs 2 are required, such as antenna structures available. In the configuration of the carrier plate 1, as shown in FIG. 1, it has at least one recess 3. This recess 3 is here at one Arranged side of the carrier plate 1 and serves to fix the position of the contact spring 2nd At the same time, it also serves as an orientation during assembly, so that it is immediately apparent at which point (or at which points) contact springs 2 on the carrier plate 1 are to be arranged. So it is also conceivable that only one recess within the Carrier plate 1 is present. For example, in the case of a modification, the 1, the recess 3 and the contact spring 2 in Assembly direction are pushed over the support plate 1 and there by pressing forces the leg of the contact spring 2 are held.

In the embodiment shown in Figure 1 is next to the recess 3 on one side the carrier plate 1 within the carrier plate 1 yet another recess 4th available, in which the correspondingly shaped ends of the contact spring 2 engage can. Thus, the correspondingly shaped contact spring 2 in the mounting direction the end regions of the legs starting from the first recess 3 in the direction the second recess 4 are pushed until the rounded in the end Engage the legs of the contact spring 2 in the recess 4. Depending on the geometric Design of the contact spring 2, this is already safe on the carrier plate 1 in its Fixed position. When viewing FIG. 2, it can be seen that, owing to the geometric Forming the end regions of the two legs of the contact spring 2 this after a Compression are locked together and thus overlap. Thereby it is ensured that the contact spring 2 with its legs the web between the encompasses two recesses 3 and 4 and securely, in particular without freedom of movement, is fixed in its position. In order to fix the position of the contact spring 2 there are also others Possible designs. For example, the end area can be considered bend the two legs of the contact spring 2, with the bend (i.e. the angled ends) engages in a recess, the recess not the must penetrate entire carrier plate 1, but as a recess on at least one Side, in particular on both sides of the carrier plate 1 can be configured.

In general, the exemplary embodiment according to FIGS. 1 and 2 means that a Contact spring 2 is prefabricated and then fixed in position on or on the carrier plate, the contact between the antenna structure and the antenna amplifier manufacture.

Figures 3 and 4 show once again the latching principle according to the invention, wherein in Figure 3 has already shown that the contact spring is pushed over the carrier plate 1 was that the end regions of the legs of the contact spring 2 in the further recess 4 have arrived. The two ends 5 and 6 of the legs of the contact spring 2 are bent in the same or at least a similar radius, the one leg (5th or 6) is slightly shorter than the other leg (6 or 5). This causes that at Pressure (when looking at the figure from above or below) one end 5 of the Leg can get over the other end 6 of the leg and so the two Lock ends 5 and 6 together in a locking area 7. After locking the contact spring 2 includes the web between the two recesses 3 and 4 and is so fixed in their position, but because of the shape shown purpose Contacting still remains elastically deformable and also the necessary pressure forces the associated contact points of the antenna structure and the antenna amplifier maintains. This has several advantages. One and the same form of contact springs can be used with different carrier plates. It is the other way around possible with the same carrier plate several different sizes or different to use shaped contact springs. Should expect again when assembling one Contact spring or also destroyed during transport is by simple means a replacement possible. Tools for this are not required. Are contact springs once arranged on the support plate and need to be changed, these can be easily and can be quickly replaced by differently shaped contact springs. Due to the in the Figures shown form of the contact springs can neither during transport damaged during handling and are therefore insensitive. By the additional Locking (locking area 7), the contact springs are otherwise captive on the Carrier plate attached.

In Figure 5 it is shown that the contact spring 2 within recesses 3 in the Carrier plate 1 is fixed, the carrier plate 1 (plastic plate or circuit board of the electronic device, especially the antenna amplifier) between two Contact points 8 and 9 is arranged that in the direction of the contact points 8, 9 directed contact areas 10, 11 of the contact spring 2 at these contact points 8, 9 for Plant come. This is the via the metallic contact spring 2 Contact point 8 is electrically connected to contact point 9, with the arrangement the contact spring 2 within the recesses 3 a tolerance range when contacting the contact points 8, 9 can be compensated. In particular, it is about the contact points 8, 9 around small areas, in particular punctiform (for example with a few millimeters in diameter).

Figure 6 shows two contact springs 2 (or more), which are in recesses 3 of the Carrier plate 1 are used. The two approximately rectangular recesses 3 in the carrier plate 1 form an intermediate web 12, which is from the contact springs 2 is gripped after it is locked with its bent leg ends have been. Since 2 different signal paths by means of the at least two contact springs to be contacted with each other, it is necessary that the electrically conductive Contact springs 2 do not touch, so that the carrier plate 1 corresponding Has spacers which prevent the at least two contact springs 2 touch. In this exemplary embodiment according to FIG. 6, these spacers are as Protrusions 13 which extend into the recess 3 are formed. This Spacers are either already part of the carrier plate 1 or can be used as separate components can be arranged on this.

Figure 7 shows a further embodiment of a contact spring 2, in which one Recess 14 at least in a contact spring leg 15, but in particular also in two contact spring legs 15, 16 is present. With such a recess 14 is it is possible on the one hand to influence the spring characteristic of the contact spring 2. on the other hand there is a multi-point support of the contact area 10 or 11 on the associated contact point 8 or 9 (see Figure 5), so that a better and safer Contact is given, in particular in the event that partial areas of a contact point, z. B. due to oxidation, are not conductive. While one in FIG Contact spring 2 is shown, which has only one recess 14, it goes without saying conceivable that several, extending in the longitudinal direction and parallel to each other arranged recesses 14 are present. The different representations of the Contact spring 2 in Figure 7 refers to three-dimensional and sectional views before and after locking the ends of the contact spring legs 15, 16, the one in between lying area of the carrier plate 1 is not shown.

Various conceivable forms of contact springs 2 are shown in FIGS. 8 to 13 shown, which either engage in only a single recess 3 of the carrier plate 1 (so for example shown in Figure 8), or where the contact springs 2 are shaped so that they need two (or possibly more than two) recesses 3 and one Reach around web 12 (FIGS. 9, 11, 12 and 13) completely or at least partially. Conceivable is also the shape of a spring, which is not a web 12, but (also) an end region embrace the carrier plate 1 (Figure 10).

FIG. 14 shows that the contact spring 2 consists of at least two contact spring parts 21, 22 exists, which are connected to each other in the area of a connection point 23. Also through this, in particular permanent connection of two contact spring parts 21, 22 with each other, a contact spring 2 is generated, which in at least one recess 3 of the Carrier plate 1 arranged and inextricably linked to it after the Junction 23 was realized. The connection at the connection point 23 can for example by spot welding, riveting, crimping, gluing, soldering or the like. Overall, as in the case of the contact springs 2, there is also how they have been shown in the previous figures, again a flat building Contact spring 2, which protrudes only slightly beyond the surface of the carrier plate 1 and is therefore protected from damage.

Due to the shape of the contact spring 2, as shown, for example, in FIGS. 8, 9, 11, 12, 13 and 14, it is also possible to add more on each side of the carrier plate 1 to be connected as a contact point 8 or more than one contact point 9. Thus, these corresponding forms of the contact spring 2 also make multiple contacting possible.

If necessary, it could be remembered that in the event that the circuit board the antenna amplifier is arranged in a single-part or multi-part housing, the at least one contact spring arranged in the housing of the antenna amplifier is, so that the carrier plate only in the area of the contact points has and the contact between the antenna structure and antenna amplifier via contact springs that are not in or on the carrier plate, but in the Housing of the antenna amplifier are arranged. Depending on the version of the housing the amplifier and the flat part of the vehicle (vehicle window) can also the elimination of the carrier plate should be considered.

LIST OF REFERENCE NUMBERS

1

support plate

2

contact spring

3

recess

4

further recess

5

leg end

6

leg end

7

Rest area

8th

contact point

9

contact point

10

contact area

11

contact area

12

web

13

head Start

14

recess

21

Contact spring part

22

Contact spring part

23

junction

Claims (10)

Antenna device for a vehicle with at least one antenna structure arranged on or in a flat part of the vehicle, in particular a vehicle window, the at least one base point of which has at least one contact point for electrical connection to an electronic device, in particular an antenna amplifier, with the flat part and the Antenna amplifier, a carrier plate (1) consisting of an electrically non-conductive material is present and the contacting between the contact point and the antenna amplifier takes place via at least one contact spring (2), characterized in that the carrier plate (1) receives the at least one contact spring (2) and the electronic device, in particular the antenna amplifier, has at least one contact surface associated with the contact spring (2). Antenna device according to claim 1, characterized in that the at least one contact spring (2) is locked on or in the carrier plate (1). Antenna device according to claim 1 or 2, characterized in that the carrier plate (1) has at least one recess (3), preferably two recesses (3), for at least one contact spring (2). Antenna device according to Claim 1, characterized in that at least two recesses (3) are arranged approximately parallel to one another and form a web (12), the at least one contact spring (2) engaging around the web (12). Antenna device according to Claim 3 or 4, characterized in that at least two contact springs (2) arranged next to one another are kept at a distance from one another by means of a spacer, in particular a projection (13), arranged on the carrier plate (1). Antenna device according to one of claims 1 to 5, characterized in that the contact spring (2) is approximately U-shaped and can be locked at the ends of the legs, the ends of the legs engaging in recesses (3) in the carrier plate (1) , Antenna device according to one of the preceding claims, characterized in that the contact spring (2) is approximately U-shaped and can be locked at the ends of the legs, the ends of the legs locking together in a locking area. Antenna device according to one of the preceding claims, characterized in that the contact spring (2) has at least one recess (14) for setting a spring characteristic. Antenna device according to claim 8, characterized in that the at least one recess (14) in at least one contact spring leg (15, 16) is arranged in an approximately elongated shape. Antenna device according to one of the preceding claims, characterized in that the contact spring (2) consists of at least two contact spring parts (21, 22) which are connected to one another in the region of a connection point (23).

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