EP1744396A1 - Roof antenna for a vehicle with baseplate of sheet metal - Google Patents

Abstract

The plate (1) has fastening units in the form of fastening lugs (4) for fastening high frequency signal transmitting and receiving units. The plate is made from metal sheet and is manufactured in a press-bending method. A fastening unit for fastening a roof antenna at a vehicle part is formed as a press nut (6). Clamping lugs are provided in the direction of a vehicle roof and are insertable into openings. A sealing is fastened at an edge area of the plate.

Description

The invention relates to a base plate of a roof antenna of a vehicle according to the features of the preamble of claim 1.

Such roof antennas, which are mounted on or on a flat part of the vehicle, in particular a vehicle roof, are known. These roof antennas have a bottom plate, which is designed as a casting. At this bottom plate means for receiving and / or transmitting high-frequency signals are attached, the z. B. as printed circuit boards with electrically conductive structures that act as an antenna, or are designed as finished GPS modules. About this arranged on the bottom plate means a plastic hood is placed, which is preferably aerodynamically designed and protects the arranged on the bottom plate means from external influences. The bottom plate itself has a downwardly directed threaded pin, which is produced in one piece with the bottom plate in the casting process and has a longitudinal slot. For sealing between the floor panel and the vehicle roof, a seal made of an elastically deformable material such as rubber may be provided.

A base plate made of a cast material has several disadvantages. On the one hand, large tolerances, in particular in the several tenths of a millimeter range, can not be avoided, so that undesirable inaccuracies occur during assembly of the receiving antennas and the seal. In addition, such a casting material is brittle, so that there is a risk that when mounting the roof antenna, if it is fastened by means of the threaded pin and a corresponding fastening nut on the vehicle roof, damage takes place if this fastening nut is tightened too much. Here it can happen very quickly and easily at the threaded pin breakage, since the threaded pin usually has the longitudinal slot, which leads to a further weakening. In addition, another disadvantage is the fact that the base plate made of cast iron to achieve the required strength must have a certain minimum thickness, resulting in connection with the material to an unnecessarily high weight.

The invention is therefore based on the object to avoid the disadvantages described above, in particular to provide a bottom plate of a roof antenna of a vehicle, which can be inexpensively and easily manufactured and offers the advantages in terms of their mounting on the flat part of the vehicle.

This object is solved by the features of claim 1.

According to the invention it is provided that the bottom plate is a sheet metal part and can be produced in a stamping bending process. For the production of the bottom plate, a piece of sheet metal, which has a constant thickness over its entire surface, subjected to a punch bending process, and punched and bent during the punching bending those elements that are suitable for the attachment of the roof antenna and the attachment of the associated means for the realization of the function Roof antenna are required. These are firstly the means for fixing the means for receiving and / or transmitting the high-frequency signals in the form of tabs which are punched out of the base plate and bent over. These means of attachment have the advantage that they are not only easy to produce, but also offer advantages in further processing. Thus, the tabs can be caulked, soldered or otherwise processed when a circuit board is fixed with electrically conductive structures for the realization of an antenna on the bottom plate. By soldering, for example, ground connections for the purpose of shielding in the simplest way can be produced, which is not possible with a cast floor plate, since casting material is not solderable. Also a caulking or general in deforming this Fastening means, in particular the tabs is readily possible with a base plate made of sheet metal, since the sheet material has a different material structure, as a base plate made of cast iron. Because with a base plate made of cast iron there is always the danger that those with cast-on tabs break off during deformation.

The same applies to the means for fixing the bottom plate to the flat part of the vehicle, it being assumed below that this flat part is a vehicle roof (but does not have to be).

The bottom plate of sheet metal according to the invention can be provided with a press-in nut, via which the bottom plate is fastened with an associated fastening screw on the vehicle roof. As an alternative to a press-in nut, a nozzle formation formed by the bottom plate can be provided with an internal thread into which the fastening screw can likewise be screwed. Due to contrast, casting material better material structure of sheet metal, it can not lead to a material break in consequence of excessive force, so that the mounting of the roof antenna is substantially improved. Thus, e.g. the press nut a substantial stabilization of the bottom plate in the area in which it is pressed.

In a further development of the invention it is provided that the bottom plate has means for stiffening, wherein the means for stiffening are formed in a particularly advantageous embodiment of the invention as webs which have been punched out of the bottom plate and bent over. The base plate, with or without means for stiffening, can otherwise be shaped so that an adaptation to the outer contour of the vehicle roof is given. For this purpose, the bottom plate has e.g. a slightly curved course, even if the vehicle roof in the area in which the roof antenna is to be mounted, is slightly bent.

In a further development of the invention, the bottom plate has at least one, preferably a plurality in the direction of the flat part, in particular in the direction of Vehicle roof, directed clamping straps, which are also punched out of the bottom plate and bent and which are used in at least one opening of the vehicle roof. As a result, there is a directional and prepositioned arrangement of the roof antenna on the vehicle roof by means of the clamping straps, which are therefore designed as clamping straps so that they preposition and lock the bottom plate after insertion of the bottom plate in the at least one opening of the vehicle roof, and then the final assembly, for example by screwing the bottom plate can be done with the vehicle. In a particularly advantageous embodiment of the invention, the clamping straps are designed differently for insertion either in differently shaped openings or in an asymmetrically formed opening of the sheet-like part. This is a prefixing of the bottom plate of the roof antenna in the final position.

In a further development of the invention, a seal can be fastened in various ways at least in peripheral areas around the base plate. This seal ensures that the openings in the planar component of the vehicle, at least the opening for fastening the bottom plate, is sealed from the outside environment and that no moisture can penetrate into the interior of the vehicle. The different ways and means of attaching the seal to the bottom plate are shown in the description of the figures. It should be mentioned that in the inventive manner, the seal is positively connected as a separate component with the bottom plate and has means for attachment to the bottom plate or that the seal is glued to the bottom plate or molded onto this.

Thus, the prefabricated as a module roof antenna consists of a base plate, sheet metal, the bottom plate is provided with a seal and on the bottom plate, the means for transmitting and / or receiving high-frequency signals (radio or television signals, GPS signals and the like) provided is. To protect these funds is still a cover made of plastic, which protects the interior of the roof antenna against external influences.

Embodiments of the invention with detailed designs are described below and explained with reference to the figures.

Figur 1

eine Bodenplatte, die aus einem Blech in einem Stanzbiegeverfahren hergestellt wird,

Figur 2

die Bodenplatte, auf der Leiterplatte senkrecht stehend und parallel zueinander angeordnet sind,

Figur 3

die Bodenplatte mit einem montierten GPS-Modul,

Figur 4

die Bodenplatte mit darauf angeordneten Leiterplatten, dem GPS-Modul sowie einer zumindest den Randbereich umgebenden Dichtung,

Figur 5

die Unterseite der Bodenplatte, also die Seite, mit der die Bodenplatte auf dem flächigen Teil des Fahrzeuges aufliegt,

Figur 6

die Bodenplatte mit Einpressmutter und zugehöriger Befestigungsschraube,

Figur 7

mehrere Darstellungen, wie die Dichtung an der Bodenplatte angeordnet werden kann,

Figur 8

verschiedene Varianten der Klemmlaschen,

Figur 9

die Klemmlaschen in unterschiedlicher Ausführung.

Show it:

FIG. 1

a bottom plate made from a sheet in a stamping bending process,

FIG. 2

the bottom plate, are arranged vertically on the circuit board and parallel to each other,

FIG. 3

the bottom plate with a mounted GPS module,

FIG. 4

the base plate with printed circuit boards arranged thereon, the GPS module and a seal surrounding at least the edge region,

FIG. 5

the bottom of the bottom plate, so the side with which the bottom plate rests on the flat part of the vehicle,

FIG. 6

the bottom plate with press-in nut and associated fixing screw,

FIG. 7

several illustrations of how the gasket can be placed on the bottom plate,

FIG. 8

different variants of the clamping straps,

FIG. 9

the clamping straps in different designs.

As far as shown in detail, FIG. 1 shows a base plate 1, which is produced from a metal sheet in a stamping bending process. For this purpose, a sheet metal strip is punched so that it the outer contours of Base plate 1, which is designed here in approximately elliptical, with other geometric shapes are of course conceivable. In the edge region of the bottom plate 1 passages 2 (eg holes) are introduced, via which the cover, not shown here, can be screwed to the bottom plate 1. Furthermore, projections 3 are punched out and bent, have the attachment function, as well as mounting tabs 4. For the purpose of stiffening the bottom plate 1 are webs 5, here in the longitudinal direction of the bottom plate 1, punched out and bent. These webs 5, if present, also or alternatively in the transverse direction to the bottom plate 1 may be present or omitted. Finally, in this embodiment, a press-in nut 6 in the bottom plate 1 is provided, with which the bottom plate 1 can be attached via an associated fastening screw on the flat part of the vehicle.

FIG. 2 shows the base plate 1 on which printed circuit boards 7 (more precisely, two printed circuit boards 7, which are arranged vertically and parallel to one another) are arranged on the base plate 1 and are fastened via the projections 3. After being produced, the projections 3 can be deformed simply and without the risk of breakage such that the printed circuit boards 7 are held firmly against the base plate 1. Alternatively or additionally, soldering at least one projection 3 with an electrically conductive surface on the printed circuit board 7, in particular for the purpose of mass production or shielding, perform.

FIG. 3 shows the base plate 1 with a mounted GPS module 8, which is mounted as a finished part flat on the base plate 1 via the fastening straps 4. To avoid radiation or radiation of interfering radiation into or out of the GPS module in or out can be provided that either rounding out of the bottom plate 1 developments are punched out, in which the GPS module 8 is used, including an additional, the GPS module in the direction of the bottom plate 1 and laterally surrounding housing on the bottom plate 1 is attached, which receives the GPS module 8. It is important to ensure that the GPS module remains free from above to receive the satellite signals, including the one not shown here Cover is made of plastic. The GPS module 8 is fixed by appropriate deformation of the attachment tabs 4 on the bottom plate 1. If the GPS module is inserted into a housing arranged therebetween, this housing can also be fastened with the fastening straps 4 without difficulty and, if necessary, also be soldered.

FIG. 4 shows the base plate 1 with printed circuit boards 7 arranged thereon, the GPS module 8 and a seal 9 surrounding at least the edge region of the base plate 1, it being apparent here that the seal 9 protrudes so far into the inner region on the upper side of the base plate 1, that mounting holes for the cover and he receiving area for the lower end of the cover are also formed by the seal 9.

Figure 5 shows the underside of the bottom plate 1, so the side with which the bottom plate rests on the flat part of the vehicle. This contact area of the base plate 1 may also be provided partially or completely with the seal 9. In FIG. 5, fastening holes are designated by the reference numeral 10, via which fastening screws are guided in the direction of the cover hood from the underside, so that the covering hood can thereby be screwed to the base plate 1. Furthermore, the bottom plate 1 has downwardly directed clamping tabs 11, via which the bottom plate 1 can be inserted and prefixed into an opening of the flat component of the vehicle. The actual attachment of the bottom plate of the roof antenna then takes place in this embodiment via the introduction of a fastening screw in the Einpressmutter 6. After tightening the mounting screw then the roof antenna with its bottom plate 1, the desired position on the flat component of the vehicle permanently taken. The punching of the clamping plates 11 from the bottom plate has the further advantage that in the bottom plate 1, a recess for the passage of cables is available, via which the received signals of the roof antenna can be guided to the respective downstream evaluation.

FIG. 6 shows the base plate 1 with press-in nut 6 and associated fastening screw 12, the mounting of the roof antenna with the base plate 1 according to the invention being advantageous because the roof antenna can be prefixed (clipped) into position via the clamping straps 11 and subsequently the final positioning and fixing the roof antenna with the fixing screw 12 can be done by screwing into the press-in nut 6. With regard to the fastening screw 12, at least two advantages must be mentioned: On the one hand, it may be a commercially available and therefore inexpensive fastening screw, the underside of the screw head is arranged a sawtooth, which causes when tightening the mounting screw 12 on the underside of the flat part of the Vehicle, which is usually made of metal, an electrical contact takes place, which takes place reliably due to the sawtooth shape of the underside of the screw head of the fastening screw 12. Such contacting is, as in previous roof antennas, for the purpose of mass production or shielding required, but is achieved here with much simpler means.

FIG. 7 shows several illustrations of how the seal 9 can be arranged on the base plate 1. Figure 7 a shows that the seal 9 is positively connected to the bottom plate 1 by the seal 9 has above the bottom plate 1 circumferential sealing lips. FIG. 7 b shows that the seal 9 has at least one, preferably a plurality, fastening nipples 13 which have a mushroom-shaped cross section with a downstream lug. About the downstream tab of the mushroom-shaped cross-section of the mounting nipple 13 can be manually pulled through an opening in the bottom plate 1 and hooked behind it. Then, but not necessarily, the tab can be cut off. The same applies to the embodiment according to Figure 7 c, where there is the mounting nipple 13 of its cross-section made larger and therefore, for example, a single mounting nipple 13 is sufficient, while smaller attachment nipples 13, as shown in Figure 7 b, several of them are required. FIG. 7 d shows that the bottom plate 11 is connected to the seal 9 via an adhesive layer 14. The seal 9 and / or the bottom plate 1 may be connected, for example, with a double-sided adhesive layer 14, about what In addition, an adhesive layer 14 can be applied, which is applied to the manufacture of the bottom plate 1 and the seal 9 on this and then activated. Finally, FIG. 7 e shows that the seal 9 is molded around the base plate 1. Here is to mention a particular advantage that the base plate 1 made of sheet metal extremely low tolerances, especially in the 100th millimeter range, so that the injection molding process for the purpose of realization of the seal 9 can be performed much better. Because the injection mold, which is moved to the bottom plate 1, can seal much better due to the lower tolerances of the sheet metal bottom plate relative to a casting, so that when spraying the sealing material much less material or even no material can escape. This can not be achieved with base plates, which are designed as a casting, since they have a much higher tolerance range.

FIG. 8 shows different variants of the clamping straps 11. In FIG. 8 a, the clamping straps 11 formed out of the base plate 1 by stamping bending are bent semicircularly at their end in order to be able to prefix the base plate 1 to the planar component of the vehicle, in this case a vehicle roof 15. The clamping tabs 11 are pushed through into an opening 16 of the vehicle roof 15, so that the arcuate end of the clamping straps 11, the vehicle roof 15 engages behind on its underside and the bottom plate 1 prefixed to the vehicle roof 15. The same function is provided by the clamping lugs 11 according to FIG. 7 b, which are provided with a projection 17, which is e.g. can be produced as an expression from the end region of the clamping straps. Also this projection 17, as well as the latching hooks 18 according to FIG. 8c, engage behind the vehicle roof 15 in the region of the opening 16 from behind, in order to pre-fix the base plate 1 on the vehicle roof 15.

Finally, FIG. 9 shows the clamping lugs 11 of different design in order to be able to insert them in a single opening 16 or in two openings 16, 19 in the vehicle roof 15. FIG. 9 a shows a single opening 16 in the vehicle roof 15, wherein the two clamping straps 11 have a different longitudinal extent, that of the asymmetrical shape of the opening 16 correspond. The opening 16 itself is designed trapezoidal, to which a clamping plate 11 is shorter (height h1) than the opposite clamping plate 11 with a height h2. Due to this shape of both the opening 16 and the clamping plates 11, the bottom plate 1 and thus the entire roof antenna can be preassembled only in a single position on the vehicle roof 15. The same applies to the embodiment according to Figure 9 b, in which the two clamping plates 11 are formed the same and are used in a circular opening 16 here. For the correct position pre-positioning, the vehicle roof 15, the second opening 19, in which engages a punched out of the bottom plate 1 and bent positioning pin or a third clamping plate. FIG. 9c shows, in the left-hand illustration, two mutually different openings 16, 19 in the vehicle roof 15, for which purpose the clamping lugs 11, which are inserted into these openings 16, 19, are adapted to the geometric shape of these openings 16, 19. In the right-hand illustration of FIG. 9 c, a nozzle formation 20 can be seen, which is likewise produced by punching out and bending over the material of the base plate 1. In this nozzle molding 20, which can be previously provided with an internal thread. For fixation, it is also possible to use a self-tapping screw, so that the thread on the bottom plate can be saved. Then, the fixing screw 12 is screwed to fix the bottom and thus the entire roof antenna on the vehicle roof 15.

Finally, briefly describe the mounting process of the roof antenna:

After the bottom plate 1 has been produced from a sheet metal stamped sheet, it is the means for transmitting and / or receiving the high-frequency signals and the associated wiring, the gasket and the cover pre-assembled into a finished, ready-to-use module. This finished roof antenna is pre-positioned in its position by means of the clamping straps 11 on the vehicle roof 15 and clipped, this pre-positioning in an advantageous manner by the designs, as shown and described in Figure 9, pre-positioned in only a single layer. Then done the final assembly from below by inserting the fixing screw 12 in the press-in nut 6 or in the nozzle molding 20, wherein instead of Einpressmutter 6 also a Gewindefurchendeschraube can be used, the end of which then projects through the corresponding opening in the vehicle roof and then from below a nozzle formed on the bottom plate can be screwed. Instead of screws and nuts with threads, other mounting options are conceivable, such as a pressed-in in the bottom plate pin with a circumferential recess into which after mounting the roof antenna, a retaining ring is clipped or even as a bayonet-type attachment.

An advantage of the bottom plate made of sheet metal is still to be seen in that due to the lower material thickness, the bottom plate does not need to be preheated or only slightly preheated when the bottom plate is overmolded with the seal 9.

LIST OF REFERENCE NUMBERS

1.

baseplate

Second

crossings

Third

projections

4th

mounting tabs

5th

Stege

6th

insert nut

7th

PCBs

8th.

GPS module

9th

poetry

10th

mounting holes

11th

clamping lugs

12th

fixing screw

13th

mounting nipple

14th

adhesive layer

15th

vehicle roof

16th

opening

17th

head Start

18th

latch hook

19th

second opening

20th

nozzles forming

Claims (10)

Floor panel (1) of a roof antenna of a vehicle with means for receiving and / or transmitting high-frequency signals, wherein the roof antenna by means of the bottom plate (1) on a flat part, in particular a vehicle roof (15), the vehicle is fastened and the bottom plate (1) has fastening means designed for this purpose, characterized in that the bottom plate (1) is a sheet metal part and can be produced in a stamping bending process. Base plate (1) according to claim 1, characterized in that means are provided for fixing the means for receiving and / or transmitting high-frequency signals in the form of tabs from the bottom plate (1) punched and bendable. Bottom plate (1) according to claim 1 or 2, characterized in that the fastening means provided for fixing the roof antenna to the vehicle part fastening means as Einpreßmutter (6) or from the bottom plate (1) formed nozzle forming (20) with internal thread as a tapping screw directly on the sheet metal bottom plate is screwed, are formed. Floor plate (1) according to claim 1, 2 or 3, characterized in that the bottom plate (1) has means for stiffening. Base plate (1) according to claim 4, characterized in that the means for stiffening as webs (5) from the bottom plate (1) are punched out and formed umbiegbar. Base plate (1) according to one of the preceding claims 1, characterized in that the base plate (1) has at least one, preferably a plurality of clamping lugs (11) directed in the direction of the flat part, in particular the vehicle roof (15), of the vehicle an opening (16, 19) can be used. Bottom plate (1) according to claim 6, characterized in that the clamping tabs (11) are designed differently for insertion into differently shaped openings (16, 19) or in an asymmetrically formed opening (16). Floor plate (1) according to one of the preceding claims, characterized in that at least in edge regions around the bottom plate (1) around a seal (9) can be fastened. Base plate (1) according to claim 8, characterized in that the seal (9) is positively connected as a separate component with the bottom plate (1) and has means for attachment to the bottom plate (1). Base plate (1) according to claim 8, characterized in that the seal (9) is glued to the bottom plate (1) or molded onto it.

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