WO2017174080A1 - Antenna module and antenna device for a motor vehicle - Google Patents

Abstract

The invention relates to an antenna module (3) for electrically contacting an antenna (2) and for fixing on a vehicle component (6) by means of a securing means (5). The antenna module has contacting means for electrically contacting the antenna (2) and functional electronic assemblies for processing signals which are received by the antenna (2) and which are to be transmitted. The antenna module is further characterized in that the antenna module additionally comprises a securing component (8) for fixing the antenna module (3) on a vehicle component (6) face facing away from the antenna (2) by means of the securing means (5). The securing component (8) has an opening for feeding through the securing means (5) and at least one spring element (8.1) for compensating for dimensional tolerances of the vehicle component (6). The invention further relates to a corresponding antenna device and to the use of the antenna module according to the invention and the antenna device in connection with a motor vehicle.

Description

Antenna module and antenna device for a motor vehicle

The present invention relates to an antenna module according to the preamble of claim 1, a corresponding antenna device and use in connection with a motor vehicle.

According to the prior art, a vehicle antenna for a vehicle by means of a screw, using a spring element and a clamping body, at the appropriate location of a vehicle, such as the vehicle roof, attached. The antenna including screw and spring element of the later outer side of the vehicle or from above is pre-inserted through a designated opening and fixed from below by means of a screw. Spring element and clamp body are often carried out in one or two parts.

The problem with this prior art are mechanical tolerances in the contacting of an electronic antenna module with correspondingly provided contacting means of the antenna.

The object of the invention is to provide a device by means of which smaller dimensional tolerances can be made possible. Furthermore, the solution should be such that the smallest possible number of parts for contacting and attachment is needed.

This object is achieved by an antenna module according to claim 1 and an antenna device according to claim 11.

The invention describes an antenna module for electrical contacting with an antenna and fixation to a vehicle component by means of a fastening means, wherein the Antenna module contacting means for electrical Kontak- tion with the antenna and functional electronic Bau ^¬ groups for processing received by the antenna signals to be transmitted and further characterized in that the antenna module also a fastening ^¬ tion component for fixing the antenna module by means of the fastening means a side facing away from the antenna of the vehicle component, wherein the fastening component has an opening for performing the fastening means and at least one spring element to compensate for dimensional tolerances of the vehicle component.

Advantageously, the function of a spring element to compensate for dimensional tolerances of a vehicle component on the antenna device is fixed by the fastening component, in particular a roof of a motor vehicle, and a clamping body for transmitting a means of fastening ^¬ applied force implemented, thereby allowing smaller dimensional tolerances and the smallest possible number of parts for the contacting and attachment of the antenna module or the antenna device to the vehicle component is required. The particular advantage of the invention lies in the integration of the spring element and the clamping body in the antenna module as such. The tolerance chain of the dimensional tolerances is thus reduced. Under a side facing away from the antenna is particularly understood the vehicle interior, since the antenna is usually mounted on the outside of the vehicle. Instead of the side facing away game as well as the formulation of an opposite side can accordingly be used with ^¬.

The configuration of the contacting means may be dependent, in particular, on whether the at least one conductor connecting the antenna and the antenna module in the mounted state is in front of Assembly is already connected to the antenna or the antenna module or optionally contacted during assembly with both. The contacting means may be correspondingly, for example, plugs, sockets, connectors or contact surfaces on a printed circuit board.

According to a preferred development of the invention, the fastening component has at least one surface for the at least partial resting of the antenna module on a side of the vehicle component which faces away from the antenna. By means of the intended area, an at least partially on ^¬ be the surface on the vehicle component and therefore allows transmission of a generated force by the fastener for fixing the antenna module to the vehicle component in the mounted state in an advantageous manner.

The at least one spring element is particularly preferably ^{¬ the} shape that this protrudes from a surface of the fastening component, wherein the surface of the fastening component in an assembled state of the antenna module on a side facing away from the antenna of the vehicle component at least partially. Thus, spring elements are formed in a particularly simple manner to compensate for dimensional tolerances of the relevant vehicle component to which the antenna module is to be attached. The at least one spring element is preferably formed as-formed part of the mounting component before ^¬. Advantageously, the fastening component is such that it can be produced by at least one forming process, in particular by bending forming, from a material present as a sheet. This permits manufacture of the spring elements as well as the comprehensive this Befestigungskompo ^¬ component, for example, by bend forming from a sheet as present material in a particularly economical manner possible.

According to an advantageous development, the fastening component at least partially forms a housing for protecting the functional electronic assemblies. This particularly advantageous ei ^¬ possible by means of the fastening component nerseits fixation to the vehicle component and at the other hand, ^¬ a realizable by a housing protection. This can have a mechanical protection and, as a zoom preferably drawn material of the fastening component ^¬ metal, also be an electromagnetic protection ^¬ effective. Preferably, an enclosure made of a plastic is provided, which is joined together with the fastening component to form a housing enclosing the functional electronic assemblies.

According to a preferred embodiment, in a region encompassing the opening for the passage of the fastening means, the fastening part has at least one depression for receiving a shape of the antenna guided through the opening of the vehicle component. The recess is expediently used to adapt to a measure of a formed by a mounting body of the antenna and guided through an opening of the vehicle component molding to form a mechanical connecting element in connection with the fastening means.

The fastening means for fixing the antenna module is according to a particularly preferred embodiment of the invention, a screw for forming a screw, wherein the screw through the opening of the fastening component and an opening of the vehicle component can be guided and screwed into a mechanically connected to the antenna internal thread, in such a way that by means of the screw also the antenna is fixable.

The antenna module is preferably configured as a vehicle-to-X communica ^¬ tion medium. Under a vehicle-to-X communi cation ^¬ medium, in particular a communication means for forming a node of a vehicular ad-hoc network is understood. Accordingly, the antenna module or the at ^¬ antenna device is suitably configured to perform the corresponding functions.

The invention further relates to an antenna device for mounting on a vehicle component comprising an antenna module according to at least one embodiment of the invention, an antenna, electrical contacting means for electrically connecting the antenna module and the antenna and at least one attachment means for fixing the antenna module and the antenna to the vehicle component.

Furthermore, the invention relates to the use of the antenna module and / or the antenna device according to at least one embodiment of the invention in connection with a motor vehicle.

Some particularly advantageous embodiments of the invention are specified in the subclaims. Further preferred embodiments will become apparent from the following description of exemplary embodiments with reference to figures.

In a schematic representation show:

1 shows an embodiment of an antenna device with spring element, clamping body and screw according to the prior art mounted on a vehicle roof, Fig. 2 is an exploded view of the antenna apparatus of FIG. 1 with cutout of a vehicle roof, Fig. 3 shows an embodiment of an antenna device according to the invention, comprising a roof antenna and an on ^¬ antenna module mounted on a vehicle roof,

4 is an exploded view of an embodiment according to the invention of the antenna device according to the invention with a section of a vehicle roof,

Fig. 5 shows an inventive embodiment of an antenna module of the antenna device and

6 is a fragmentary sectional view of an embodiment of the antenna component mounted on a vehicle component according to the invention. Fig. 1 shows a side view of an embodiment of an antenna device 1-1 according to the prior art, in which an antenna 1-2 by means of a spring element 1-3, a clamping body 1-4 and a screw 1-5 example according to a vehicle roof 1-6 is mounted. FIG. 2 shows an exploded view of the antenna device 2-1, as shown in FIG. 1, with a section of the vehicle roof 2-6 having an opening 2-6.1 for passing through contacting means of the antenna (not shown). Also shown in Fig. 2, the antenna 2-2, which can be mounted by means of the spring element 2-3, the clamping body 2-4 and the screw 2-5 to the vehicle roof 2-6. As already described in the introduction, such a construction is disadvantageous, in particular with regard to the mechanical tolerances, whereby the contacting of the antenna with an antenna module not shown in Figures 1 and 2 is difficult.

This can be overcome, for example, with the embodiment of the antenna device 1 according to the invention shown in FIG. 3, which is additionally shown in exploded view in FIG. 4. The same components are provided with the same reference numerals. In both figures, for example, the vehicle roof 6 is shown with opening 6.1, to which the antenna device 1 can be mounted. In this case, the antenna device 1 comprises at least the antenna 2 and the antenna module 3. The antenna module 3 comprises, in particular, functional electronic assemblies (not shown) which are useful for processing signals received or to be transmitted by the antenna 2. The antenna 2 can be connected to the antenna module 3 by means of contacting means for electrically contacting the antenna 2 with the antenna module 3, which can be carried out through the opening 6.1. Shown in Fig. 3 are connected to the antenna module 3 cylinder-shaped hollow body 4, which are provided for passage through opening 6.1 and through which in turn the actual electrical conductors (not shown) are passed. As electrical conductors, for example, flexible lines or substantially non-flexible connectors can be provided, these are guided by the hollow body 4 and can be arranged on the antenna 2 or the antenna module 3 before mounting, or added to both only during assembly to the vehicle component and be contacted. Preferably, these are connectors, in particular FAKRA connectors (Fachkreis Automobil), whereby a con ^¬ taktierung particular between a circuit board of the on ^¬ antenna module and a circuit board of the antenna can be realized. In the case of, for example, insulated and possibly flexible electrical conductors, it is also possible to dispense with the hollow bodies 4 become. A connection to further vehicle electronics, such as at least one data bus, as well as a power supply of the antenna device 1 can be realized via interface 9. By means of screw 5, which can be passed through opening 6.1 of the vehicle component 6 and opening 8.2 of a fastening component 8 of the antenna module 3, antenna module 3 can be connected to antenna 2 and thus fixed to vehicle component 6. In order to compensate for variations in the thickness of the vehicle component 6 in the mounted state of the antenna device 1, the antenna module 3 has spring elements 8.1 which protrude from a surface or plane of the fastening component 8. The plane is in the assembled state on a side facing away from the antenna 2 of the vehicle component 6 partly in ^¬ particular area, whereby a transfer of the clamping force of the screw is realized, which forms the fixation of the antenna ^¬ device 1. Preferably, at least the fastening component 8 of the antenna module 3 is made of a metallic material accordingly. Thus, a production of the spring elements 8.1 comprehensive fastening component 8 of antenna module 3, for example, by bending forming of a present as a sheet material in a particularly simple economic manner possible. As shown particularly in the sectional ^¬ view of FIG. 3, the fastening component 8 may be configured such that it at least partially forms a housing of the antenna module 3. This also gege ^¬ appropriate, further for fastening to another vehicle component (not shown) provided 8.5 formations may for example be formed with apertures through the fastening component 8, as shown in Fig. 4. To form a particular electronic bordering closed housing, a housing of a plastic material here is preferably attracted ^¬, which is assembled with the fastening component 8 together ^¬. As a result of the construction according to the invention, a simplified mounting of the antenna module 3 or the Tennenvorrichtung by means of the screw 5 allows. Furthermore, fastening component 8 can have recesses 8.4, for example for the passage of connection contacts or plugs or for weight saving.

In Figure 5, the antenna ^{module according to} the invention 3 and screw 5 of a preferred embodiment of the Antennenvor ^¬ direction 1 are shown separately. The description of the embodiment according to the figures 3 and 4 is also true for the embodiment shown in Figures 5 and 6 embodiment, and equivalent components are given the same reference numerals, and is used in addition to the representation of another embodiment of the in-depth understanding of the He ^¬ invention , The embodiment of Figures 5 and 6 differs from the previously described embodiment according to Figures 3 and 4 by the shape of the fastening part 8 in the region of the opening 8.2, which has correspondingly lowered from the surface or level recesses 8.3. As can be seen from the sectional view shown in FIG. 6, the antenna module 3 and the antenna 2 are fixed to the vehicle component 6, in particular a vehicle roof, by means of the screw 5. The screw 5 is through opening 6.1 to form a screw in a provided in the antenna 2 internal thread of a preferably made of metal Monta ^¬ body 2.1, which is mechanically connected to the other parts of the antenna, screwed. The recesses 8.3 are thus used in particular to adapt to a degree of a formed by the mounting body 2.1 of the antenna 2 and performed by opening 6.1 2.2 forming the internal thread.

Alternative or complementary fastening means for mounting the antenna device to the relevant vehicle component, as the screw used in the embodiment shown 5, are also possible, eg an adhesive bond. The construction described for fixing applies correspondingly to the embodiments shown in Figures 3 to 5. The antenna device 1 is preferably usable as a vehicle-to-X communication means and also provides corresponding functionalities and assemblies.

In general, it should be pointed out that vehicle-to-X communication in particular means direct communication between vehicles and / or between vehicles and infrastructure facilities. For example, this may be vehicle-to-vehicle communication or vehicle-to-infrastructure communication. If, in the context of this application, reference is made to communication between vehicles, this may in principle be carried out, for example, in the context of vehicle-to-vehicle communication, which typically takes place without being mediated by a mobile radio network or a similar external infrastructure and which is therefore of other solutions, for example, build on a mobile network to be distinguished. For example, vehicle-to-X communication may be performed using the IEEE 802.11p or IEEE 1609.4 standards. A vehicle-to-X communication can also be referred to as C2X communication. The subareas can be referred to as C2C (Car-to-Car) or C2I (Car-to-Infrastructure). However, he ^¬ invention includes vehicle-to-X communication with accommodation for example, via a mobile network explicitly not. For example, vehicle-to-vehicle communication may also be via LTE.

The claims belonging to the application do not constitute a waiver of the achievement of further protection. If, in the course of the procedure, it turns out that a feature or a group of features is not absolutely necessary, it is already desired on the applicant side to formulate at least one independent claim which no longer has the feature or the group of features. This may, for example, be a subcombination of a claim present at the filing date or a subcombination of a claim limited by further features of a claim present at the filing date. Such newly formulated claims or feature combinations are to be understood as covered by the disclosure of this application.

It should also be noted that embodiments, features and variants of the invention, which are described in the various embodiments or embodiments and / or shown in the figures, can be combined with each other as desired. Single or multiple features are arbitrarily interchangeable. Resulting combinations of features are to be understood as covered by the disclosure of this application.

Recoveries in dependent claims are not to be understood as a waiver of obtaining independent, objective protection for the features of the dependent claims. These features can also be combined as desired with other features.

Features that are disclosed only in the specification or features that are disclosed in the specification or in a claim only in conjunction with other features may, in principle, be of independent significance to the invention. They can therefore also be included individually in claims to distinguish them from the prior art.

Claims

claims Antenna module (3) for making electrical contact with an antenna (2) and fixing to a vehicle component (6) by means of a fastening means (5), wherein the at ^¬ antenna module contacting means for electrically con ^¬ clocking of the antenna (2) and functional elekt ^¬ tronic Assemblies for processing signals received and to be transmitted by means of the antenna (2), characterized in that the antenna module (3) also has a fixing component (8) for fixing the antenna module (3) to the antenna (5) by means of the fixing means (5). 2) facing away from the vehicle component (6), wherein the fastening component (8) has an opening for passing through the fastening means (5) and at least one spring element (8.1) for compensating for dimensional tolerances of the vehicle component (6). Antenna module (3) according to claim 1, characterized in that the fastening component (8) has at least one surface for at least partially resting in a mounted state of the antenna module (3) on one of the antenna (2) facing away from the vehicle component (6). Antenna module (3) according to at least one of vorherge ^¬ Henden claims, characterized in that the at ^¬ least one spring element (8.1) is such that this from a surface of the fastening component (8) ^¬ protrudes forth, wherein the surface of the fastening component (8 ) in a mounted state of the antenna module (3) on one of the antenna (2) facing away from the vehicle component (6) at least partially rests. 4. Antenna module (3) according to at least one of vorherge ^¬ existing claims, characterized in that the ^{¬ at} least one spring element (8.1) is formed as a deformed part of the fastening component (8). 5. The antenna module (3) according to at least one of vorherge ^¬ Henden claims, characterized in that the loading ^¬ fastening component (8) is such that these by at least one shaping process, in particular by Biegeumformen, from a material present as sheet metal can be produced. 6. antenna module (3) according to at least one of the preceding claims, characterized in that the Be ^¬ fastening component (8) at least partially forms a housing for the protection of the functional electronic assemblies. 7. Antenna module (3) according to at least one of vorherge ^¬ existing claims, characterized in that an enclosure is provided of a plastic, which is joined together with the fastening component (8) for forming a housing enclosing the functional electronic assemblies. 8. Antenna module (3) according to at least one of vorherge ^¬ existing claims, characterized in that the Be ^¬ fastening part (8) in one of the opening (8.2) for the passage of the fastening means (5) bordering Area has at least one recess (8.3) for receiving a through the opening (6.1) of the vehicle component (6) ge ^¬ led formation (2.2) of the antenna (2). Antenna module (3) according to at least one of vorherge ^¬ Henden claims, characterized in that the loading ^¬ fastening means (5) for fixing the antenna module (3) is a screw (5) for forming a screw, said screw (5) through the opening (8.2) of the be ^¬ fastening component (8) and an opening (6.1) of the vehicle component (6) can be guided and mechanically connected to a with the antenna (2) internally threaded is ^¬ screw type, in such a way that by means of the screw (5 ) In addition, the antenna (2) is fixable. 10. Antenna module (3) according to at least one of vorherge ^¬ existing claims, characterized in that this is designed as a vehicle-to-X communication means. 11. Antenna device (1) for mounting on a vehicle component (6) comprising an antenna module (3) according to at least one of the preceding claims, an antenna (2), electrical contacting means for electrically connecting the antenna module (3) and the Antenna (2) and at least one fastening means (5) for fixing the antenna module (3) and the antenna (2) to the vehicle component. Use of the antenna module (2) according to at least one of claims 1 to 10 and / or the antenna device (1) according to claim 11 in conjunction with a motor vehicle.