This application claims the benefit of the filing date under 35 U.S.C. § 119(a)-(d) of German Patent Application No. 102019116652.7, filed on Jun. 19, 2019.
The present invention relates to an antenna device and, more particularly, to an antenna device for a vehicle.
An antenna device for a vehicle is known from US 2011/0267243 A1 (hereinafter “the '243 publication”). The antenna device is placed onto the upper side of a bodywork surface, in particular a vehicle roof, wherein the underside of a base plate of the antenna device comes to rest on the upper side of the bodywork surface. An area of the base plate is accessible from the underside of the bodywork surface because this has a corresponding cutout. From the underside of the bodywork surface, an expansion element is brought into operative connection with the base plate, wherein the expansion element is actuated by an actuating element and expands, as a result of which, by virtue of the expanding effect, the antenna device is permanently, but releasably, arranged and fixed on the upper side of the bodywork surface.
Two expansion elements which cooperate with a sleeve, a clamping element, and the actuating element are present in the '243 publication. The two expansion elements are both elements which are formed and act individually independently and which are both arranged in a cross shape, wherein this cross shape is specified by the clamping element, which is likewise formed in a cross shape. Each individual expansion element is effective individually, which means that, in this prior art, even only one single expansion element would be sufficient for permanently arranging and fixing the roof antenna. In its central area, the expansion element is configured to be flat and has a fully enclosed opening through which the actuating element can be guided. A number of angled areas protrude from the central flat area of the respective expansion element, these angled areas achieving a spring effect and being required during the process of feeding the preassembled roof antenna through the cutout in the bodywork surface.
After the two expansion elements have been arranged in a cross shape on the underside by the sleeve and the clamping element, they are firstly held by the actuating element (screw). This can be seen in FIG. 4 of the '243 publication. In this state, the roof antenna prepared in this manner is placed onto the upper side of the bodywork surface from above and the prepared attachment arrangement is fed through the cutout in the bodywork surface, such that this attachment arrangement is accessible from the underside of the bodywork surface
While the attachment arrangement is being fed through the cutout in the bodywork surface, the protruding side arms of the two expansion elements, which arms are angled in their axial progression, are pressed together and move back into their starting position again when the underside of the base plate has come to rest on the upper side of the bodywork surface. This process is depicted in FIGS. 5-7 of the '243 publication. After this movement back, the front ends of an angled area of the side arms rest against the underside of the bodywork surface beside the recess (also referred to as a cutout), thus giving rise to a supporting effect if the actuating element is actuated further. Through this further actuation, which is shown in FIG. 8 of the '243 publication, the underside of the base plate is pulled further in the direction of the upper side of the bodywork surface and is permanently fixed as a result.
The two expansion elements manufactured separately from one another have, primarily due to their multiple angled regions, an extremely complex geometrical shape both in the longitudinal direction and in the transverse direction and are therefore difficult to manufacture. Furthermore, the entire attachment arrangement consists not only of these two expansion elements, but rather also additionally of the sleeve and the clamping element, so that the two expansion elements do not function without the clamping element or the sleeve being present. Thus, if the clamping element or sleeve were to be forgotten during mounting, the two expansion elements would not function. The two known expansion elements are mated together in the axial direction of the actuating element to form the cross shape. Furthermore, the passage opening for the actuating element is closed in the circumferential direction.
Similar attachment arrangements for arranging and attaching antenna devices, in particular roof antennas, on bodywork surfaces, in particular a roof, of vehicles are known from US 2013/0082158 A1 and US 2018/0026328 A1.
An antenna device for a vehicle includes a base plate, an expansion element formed by a first expansion element part and a second expansion element part mated with the first expansion element part, and an actuating element cooperating with the base plate and the expansion element. Each of the first expansion element part and the second expansion element part has a flat area, a side arm protruding at an angle from the flat area, and a laterally open breakthrough in the flat area. The laterally open breakthrough of each of the first expansion element part and the second expansion element part when mated forms a single passage opening for the actuating element.
The invention will now be described by way of example with reference to the accompanying Figures, of which:
In the following, the invention is explained in greater detail with reference to the accompanying drawings, in which exemplary embodiments are shown. In the figures, the same reference numerals are used for elements that correspond to one another in terms of their function and/or structure. According to the description of the various aspects and embodiments, elements shown in the drawings can be omitted if the technical effects of those elements are not needed for a particular application, and vice versa: i.e. elements that are not shown or described with reference to the figures but are described above can be added if the technical effect of those particular elements is advantageous in a specific application.
An antenna device and an attachment arrangement are shown in
The antenna device depicted in
The front ends of the supports 4 are in particular selected such that they correspond to side rims of a recess in the bodywork surface (not depicted yet in
The further elements of the attachment arrangement are an actuating element in the form of a screw 7. The screw 7 has a screw head 8 and a threaded piece 9. The threaded piece 9 corresponds to the internal thread in the threaded opening 3 in the dome 2. An internal thread may also be provided only in the base plate 1, for example (omitting the dome 2). The actuating element may alternatively also be formed as a latching element or as an expansion element. However, the configuration of the actuating element as a screw 7 applies defined forces in order to fix the antenna device permanently on the bodywork surface of the vehicle. This may be done, for example, by tightening the screw 7 with a torque wrench.
As shown in the embodiment of
Each expansion element part 10,11, starting from the associated flat area 14 and 15 respectively, has a side arm 16 and 17 respectively, as shown in
In the central area of the flat areas 12,14 and 13,15 respectively (regardless of whether these flat areas are arranged in one plane or offset from one another), there is present in each case one breakthrough 19 for the actuating element, in particular the screw 7, as shown in
This opening causes the two expansion element parts 10,11 to be able to be mated by a movement transverse to the axial orientation of the actuating element, in particular the screw 7. This process takes place by way of the two expansion element parts 10,11 firstly being applied to one another at a particular angle and then mated (inserted into one another). Thereafter, the two mated expansion element parts are pivoted so that the flat areas 12,14 of the first expansion element part 10 come to rest flatly on the associated flat areas 13,15 of the further expansion element part 11. The completed mating process and completed pivoting and thus the final orientation of the two expansion element parts 10,11 for forming a single expansion element are shown in
The flat areas 12-15 are oriented parallel to one another as shown in
As shown in
In an embodiment, the expansion element parts 10,11 are formed from a plastics material or a metal substance. If plastic is used, the expansion element parts 10,11 can be manufactured inexpensively, precisely and in large quantities in a plastics injection-molding method. This is particularly appropriate if the expansion element parts do not have to take on any electrical function. However, if, for example, a ground connection of the antenna device to further electrical units within the vehicle is required, for example via the electrically conductive bodywork surface, the expansion element parts 10,11 are formed from a metal substance. In such a case, the manufacture can be carried out in a known stamping-bending method, for example, wherein the desired geometry of the respective expansion element part 10,11 is formed from a flat sheet-metal material. In order to form a single expansion element from two (or where necessary more than two) expansion element parts 10,11, expansion element parts made of identical materials (i.e. either made only of plastic or only of a metal substance) are used. However, it is also conceivable, for example, to mate one expansion element part made of plastic and one expansion element part made of a metal substance to form the single expansion element.
In an embodiment, the at least two expansion element parts 10,11 are configured as identical parts (either made of plastic or made of a metal substance). This simplifies the manufacture of the expansion element parts 10,11, reduces the variety of parts and increases the ease of mounting because the necessity of mating two different parts is effectively avoided.
In order to perform prestressing of the mated and pivoted expansion element parts 10,11 at the base plate 1, a spring element 21 shown in
After the required elements of the attachment arrangement have been described in view of
The premounting position of the attachment arrangement of the antenna device is thus depicted in
The prepared antenna device is moved, with the attachment arrangement at the front, in the direction of the upper side of the bodywork surface, wherein the attachment arrangement is fed through the recess 23 in the bodywork surface, in particular the vehicle roof 22, until the underside of the base plate 1 comes to rest on the upper side of the bodywork surface. This step is depicted in
While, in
After the side arms 16 are pressed together due to the feeding of the attachment arrangement of the antenna device through the recess 23 in the bodywork surface, and after the side arms 16 are pivoted back again upon completion of the feeding-through as shown in
In the movement sequence depicted in
The guiding described above may be present, but does not have to be present. A direction coding pin, for example, is also conceivable. A spike (pin) which projects out of the base plate, in front of or behind the locking mechanism, in the direction of the bodywork and which, during mounting, is inserted into a hole which determines the orientation of the roof antenna.
The movement sequence described with regard to
In conclusion, an improved antenna device, in particular an attachment arrangement of an antenna device which is clearly improved compared to the prior art, is available according to the invention, which antenna device is constructed very compactly, requires fewer parts and is very simple to mount. The simplification can be seen in particular in that the antenna device can be prepared and made available with its attachment arrangement. Only thereafter is the antenna device, which is prepared in this manner, employed when finally mounted on the vehicle and can be handled very easily in this regard.
This antenna device and attachment arrangement of the invention has the advantage that only one single expansion element, consisting of two individual parts 10,11, is required in order to arrange and permanently fix the antenna device on a bodywork surface. The two expansion element parts 10,11 are provided for this purpose, with these not functioning in isolation but fulfilling the required function when mated. On the one hand, the two mated expansion element parts 10,11 form a circumferentially closed passage opening for the actuating element, with them being laterally open in their flat area 12,14 and 13,15 in the not yet mated state in order to enable mating, which takes place transverse to the axial orientation of the actuating element. Furthermore, the side arms 16,17 can be configured significantly simpler since it is not necessary to achieve a spring effect with these. The side arms 16,17 thus extend at an angle from the flat area 12,14 and 13,15 of the respective expansion element part in the direction of the base plate of the antenna device, such that the attachment arrangement of the antenna device, after being placed onto the bodywork surface of the vehicle, can be supported by the front end of the side arms 16,17 on the underside of the bodywork surface. In an embodiment, precisely two expansion element parts 10,11 form the single expansion element of the attachment arrangement. Consideration can also be given to using more than two expansion element parts 10,11 which are then arranged in a triangle, in a cross or the like and form the single expansion element of the attachment arrangement.
In the shown embodiment, the side arm 16,17 has two parallel angled regions 18. As a result, the entire strength of the attachment arrangement, with which the antenna device is arranged and fixed permanently and releasably on the bodywork surface, is significantly increased after the attaching process due to a uniform distribution of forces.
Number | Date | Country | Kind |
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102019116652.7 | Jun 2019 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
7436367 | Blickle | Oct 2008 | B2 |
8441401 | Steinkamp | May 2013 | B2 |
8511634 | Lerchner | Aug 2013 | B2 |
10148004 | Taira | Dec 2018 | B2 |
10964999 | Su | Mar 2021 | B2 |
20030231140 | Haussler | Dec 2003 | A1 |
20080074342 | Lindackers | Mar 2008 | A1 |
20110133047 | Lerchner | Jun 2011 | A1 |
20110267243 | Steinkamp et al. | Nov 2011 | A1 |
20130082158 | Sato | Apr 2013 | A1 |
20180026328 | Iwakami | Jan 2018 | A1 |
20180309184 | Iwakami | Oct 2018 | A1 |
Number | Date | Country |
---|---|---|
202009009067 | Nov 2009 | DE |
Entry |
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European Search Report, dated Nov. 9, 2020, 10 pages. |
Number | Date | Country | |
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20200403292 A1 | Dec 2020 | US |