DE19827406C1 - Rod antenna attaching arrangement for e.g. vehicle body mounting - Google Patents

Abstract

The invention relates to a device for fixing a rod antenna (1) on a mounting surface (5) by means of a screw connection, enabling a certain degree of anti-theft protection. To this end, the base (10) of the rod antenna (1) has a screw thread (15). A rotational slide coupling (20) is provided in the base of the antenna (10). The slide coupling (20) interacts with the screw thread (15) in such a way that a rotational movement of the slide coupling (20) causes a rotation of the screw thread (15). A rotational body (30) of the base (10) elastically surrounds the slide coupling (20) so that the slide coupling (20) is entrained by the rotational body (30) during a rotational movement of the rotational body (30) with the purpose of fixing the rod (35) of a rod antenna (1) on the mounting surface (5) by means of the screw thread (15) and the rotational body (30) slides on the slide coupling (20) during a rotational movement of the rotational body (30) with the purpose of releasing the antenna rod (35) fixed to the mounting surface (5) by means of the screw thread (15).

Description

State of the art

The invention relates to a device for fastening a rod antenna according to the genus of the main claim.

From the unpublished German Patent application with the file number 197 22 372.9 already a fastening device for an antenna known in which an antenna base comprises a screw bolt and the antenna base on a mounting surface by means of a locking nut can be attached.

Advantages of the invention

The inventive device with the features of Main claim has the advantage that in Antenna base a rotatable slip clutch is provided that the slip clutch interacts with the screw thread, that by rotating the slip clutch Twisting of the screw thread takes place, and that a Rotating body, the antenna base the slip clutch elastic envelops, so that when the rotary body rotates Attaching an antenna rod to the rod antenna Screw thread on the mounting surface of the slip clutch  is carried by the rotating body and during a rotary movement of the rotating body to release the on the mounting surface attached antenna rod over the screw thread of the The rotating body slides over the slip clutch. In this way the antenna rod can be protected against unauthorized removal secure, because loosening the antenna rod is not easy a rotary movement of the rotating body can be brought about but also the use of a clamping tool required.

By the measures listed in the subclaims advantageous developments and improvements in Main claim specified device possible.

It is particularly advantageous that the rotating body in the area the slip clutch has elastic material on the Slip clutch is present. In this way one can elastic covering of the slip clutch by the rotating body particularly simple and without additional material realize so that to guide the slip clutch through the Rotating body when attaching the antenna rod to the Mounting surface no additional components, such as. B. mechanical spring elements are required. So be also saved costs.

drawing

Embodiments of the invention are in the drawing shown and detailed in the following description, explained. Show it

Fig. 1 shows a section through a rod antenna with a device for attaching the rod antenna to a mounting surface,

Fig. 2 shows a first embodiment of a fastening device according to the invention,

Fig. 3 shows a second embodiment of a fastening device according to the invention and

Fig. 4 shows a third embodiment of a fastening device according to the invention.

Description of the embodiments

In FIG. 1, 1 denotes a rod antenna with an antenna rod 35 which is arranged coaxially with a screw thread 15 and is fixedly connected to the screw thread 15 via an axis of rotation 25 . The screw thread 15 is provided on a screw bolt 45 , which can be screwed into a screw opening 50 of a fastening surface 5 , so that the antenna rod 35 of the rod antenna 1 can be screwed onto the fastening surface 5 . The fastening surface 5 can be part of a vehicle body, for example. However, the mounting surface 5 also stands for any other attachment locations for rod antennas. The screw thread 15 is part of an antenna base 10 of the rod antenna 1 . The antenna 10 includes a rotatable slipping clutch 20, which cooperates with the screw thread 15, that is carried out by a rotational movement of the slip clutch 20, a rotation of the screw thread 15 °. For this purpose, as shown in the example in FIG. 1, the slip clutch 20 can be provided coaxially with the screw thread 15 in the antenna base 10 and can be firmly connected to the screw thread 15 via the axis of rotation 25 . The antenna base 10 further comprises a rotary body 30 , which concentrically surrounds the antenna rod 35 in the part of the rod antenna 1 facing the fastening surface 5 , concentrically with the axis of rotation 25 . The slip clutch 20 is elastically enveloped by the rotating body 30 .

The rod antenna 1 is screwed onto the fastening surface 5 as follows:

The rotary body 30 is rotated in the required for screwing the antenna rod 35 to the mounting surface 5 of rotation, wherein said slip clutch 20 is carried by the rotating body 30 by the elastic sheath of the slip clutch 20 by the rotating body 30 and the bolt 45 with the screw thread 15 in the Screwing the antenna rod 35 to the mounting surface 5 rotates the required direction. The bolt 45 can thus be screwed into the screw opening 50 . If the rod antenna 1 is screwed to the mounting surface 5, a rotational movement of the rotating body 30 leads in one direction of rotation for unscrewing the bolt 45 from the screw hole 50 and thus to release the fastened to the attachment surface 5 antenna rod 35 for sliding of the rotating body 30 via the slip clutch 20 . In this case, the slip clutch 20 is not carried along by the rotating body 30 , so that the screw bolt 45 is not unscrewed from the screw opening 50 and the rod antenna 1 remains screwed to the fastening surface 5 . A loosening of the rod antenna 1 from the mounting surface 5 is possible by a corresponding rotary movement of the antenna rod 35 , which is firmly connected to the screw thread 15 via the axis of rotation 25 , at the locations of the antenna rod 35 that are not enclosed by the rotating body 30 . However, since the diameter of the antenna rod 35 is significantly smaller than that of the rotating body 30 , especially in the area of the slip clutch 20 , an increased effort is required for such a release of the rod antenna 1 from the fastening surface 5 . This process of detaching the rod antenna 1 from the fastening surface 5 is further complicated if the antenna rod 35 has a metallic surface that is not as easy to grip as, for example, a plastic surface of the rotating body 30 .

Fig. 2 shows a cross section of the slip clutch 20 perpendicular to the axis of rotation 25 according to a first embodiment. Also shown is the elastic covering of the slip clutch 20 by the rotating body 30 , which takes place in that the rotating body 30 in the region of the sliding clutch 20 has elastic material which rests on the sliding clutch 20 . The slip clutch 20 has a ring of teeth 55 which are sawtooth-shaped against the direction of rotation for screwing the antenna rod 35 onto the fastening surface 5 , this direction of rotation being marked by an arrow in FIG. 2. The elastic material of the rotating body 30 lies against the tips of the teeth 55 . If the rotating body 30 is now moved in the direction of rotation for screwing the antenna rod 35 to the fastening surface 5 , the teeth 55 hook into the elastic material of the rotating body 30 and the slip clutch 20 can be carried along with the rotating body 30 in this direction of rotation. If, on the other hand, the rotating body 30 is moved in the opposite direction of rotation to loosen the antenna rod 35 screwed to the fastening surface 5 , the teeth 55 cannot hook into the elastic material of the rotating body 30 . Rather, the elastic material of the rotating body 30 slides over the teeth 55 , since the teeth 55 are curved in exactly this direction of rotation to release the antenna rod 35 from the fastening surface 5 . By using a clamping tool, such as pliers, the rotating body 30 can be pressed against the sliding clutch 20 in the area of the sliding clutch 20 , so that even when the rotating body 30 rotates to release the antenna rod 35 fastened to the fastening surface 5 , the rotating body 30 carries the sliding clutch 20 and in this way the screw bolt 45 is unscrewed from the screw opening 50 . In this way, a certain theft protection is achieved, since a pair of pliers is required to remove the rod antenna 1 from the fastening surface 5 to avoid excessive force. On the other hand, this ensures that the antenna rod can be detached from the mounting surface 5 at all. This is e.g. B. then advantageous if the antenna rod 35 is defective and is to be replaced.

Fig. 3 shows a second embodiment of a fastening device according to the invention. The elastic covering of the slip clutch 20 is carried out by mechanical spring elements 40 . The slip clutch 20 is, as described in FIG. 2, constructed and also shown in cross section. The rotating body 30 now, at least in the area of the slip clutch 20, does not consist of elastic material but, for example, of a hard plastic sheath and is also not in contact with the slip clutch 20 . The mechanical spring elements 40 each comprise a web 65 , which is rotatably connected to an inner wall 70 of the rotating body 30 via a swivel joint 60 . Each web 65 is additionally connected to the inner wall 70 by a spring 75 . The springs 75 are each arranged on the side of the associated web 65 , which points in the direction of rotation of the rotating body 30 for screwing the antenna rod 35 onto the fastening surface 5 . This direction of rotation is also shown in Fig. 3 by an arrow. The webs 65 extend into the area of the teeth 55 . If the rotating body 30 is moved in the direction of rotation that is required for screwing the antenna rod 35 to the fastening surface 5 , the webs 65 engage in the teeth 55 , the associated springs 75 being stretched. Due to the spring force of the springs 75 , the slip clutch 20 is then rotated with the rotating body 30 , as a result of which the screw bolt 45 is screwed into the screw opening 50 and the antenna rod 35 can be screwed onto the fastening surface 5 . If the antenna rod 35 is screwed to the mounting surface 5 and the rotating body 30 is moved in the direction of rotation required to loosen the screw connection, the webs 65 are pressed by the teeth 55 of the slip clutch 20 towards the inner wall 70 , so that the rotating body 30 can slide over the slip clutch 20 without the webs 65 getting caught with the teeth 55 .

Referring to FIG. 2 and FIG. 3 are each 8 teeth 55 are provided for the slipping clutch 20. This number can be chosen larger or smaller as required. Referring to FIG. 3, a mechanical spring element 40 is provided for each tooth 55. However, fewer mechanical spring elements 40 can also be provided in order to save material. However, the load on the individual mechanical spring elements 40 is then increased when the antenna rod 35 is screwed onto the fastening surface 5 .

Fig. 4 shows a third embodiment for a fastening device according to the invention. The slip clutch 20 is elastically encased by mechanical spring elements in the form of a mechanical sheet metal spring cage 80 . The slip clutch 20 is constructed as described in FIGS. 2 and 3 and also shown in cross section. As in the second exemplary embodiment, the rotating body 30 in the exemplary embodiment according to FIG. 4, at least in the area of the slip clutch 20, does not consist of elastic material but, for example, of a hard plastic jacket and is also not in contact with the slip clutch 20 . The mechanical sheet metal spring cage 80 rests on the inner wall 70 of the rotating body 30 and encloses the slip clutch 20 . Four webs 65 protrude from the mechanical sheet metal spring cage 80 into the area of the teeth 55 of the slip clutch 20 . The webs 65 are integrally connected to the mechanical sheet metal spring cage 80 and like this, for example, made of sheet metal. The webs 65 are elastically connected to the sheet metal spring cage 80 and angled in the direction of rotation toward the inner wall 70 that is required for screwing the antenna rod 35 to the fastening surface 5 and is shown in FIG. 4 by an arrow. The teeth 55 of the slip clutch 20, however, are curved against this direction of rotation. According to the description of the second exemplary embodiment, the webs 65 engage in the teeth 55 when the rotary body 30 is moved in the direction of rotation which is required for screwing the antenna rod 35 onto the fastening surface 5 . In this way, the slip clutch 20 is then rotated with the rotating body 30 , as a result of which the screw bolt 45 is screwed into the screw opening 50 and the antenna rod 35 can be screwed onto the fastening surface 5 . If the antenna rod 35 is screwed to the mounting surface 5 and the rotating body 30 is moved in the direction of rotation required to loosen the screw connection, the webs 65 are pressed by the teeth 55 of the slip clutch 20 towards the inner wall 70 , so that the rotating body 30 with the mechanical sheet metal spring cage 80 can slide over the slip clutch 20 without the webs 65 getting caught with the teeth 55 . The mode of operation of the webs 65 according to the third exemplary embodiment is therefore the same as the mode of operation of the mechanical spring elements 40 according to the second exemplary embodiment, the rotary joints 60 and the springs 75 being able to be saved in the third exemplary embodiment according to FIG. 4.

According to FIG. 4, four webs 65 are shown with eight teeth 55 of the slip clutch 20, so that a web 65 is not provided for each tooth 55. However, more or fewer webs 65 can also be provided.

If the rotating body 30 is moved in the direction of rotation to release the antenna rod 35 from the fastening surface 5 , it can also be rotated in this direction of rotation with respect to the antenna rod 35 , since in this case the rotating body 30 slides over the slip clutch 20 .

Claims (6)

1. Device for attaching a rod antenna ( 1 ) to a mounting surface ( 5 ) by means of a screw connection, wherein an antenna base ( 10 ) of the rod antenna ( 1 ) has a screw thread ( 15 ), characterized in that in the antenna base ( 10 ) a rotatable slip clutch is provided (20), that the slip clutch (20) cooperates with the screw thread (15) that is carried out a rotation of the screw thread (15) by a rotational movement of the slipping clutch (20), that a rotary body (30) of the antenna base (10) the slip clutch ( 20 ) is elastically encased and that when the rotary body ( 30 ) rotates to fasten an antenna rod ( 35 ) of the rod antenna ( 1 ) via the screw thread ( 15 ) on the fastening surface ( 5 ), the slip clutch ( 20 ) from the rotary body ( 30 ) is carried along and when the rotating body ( 30 ) rotates to loosen the antenna rod ( 35 ) attached to the mounting surface ( 5 ) via the Sch predatory thread ( 15 ) of the rotating body ( 30 ) slides over the slip clutch ( 20 ). 2. Apparatus according to claim 1, characterized in that the slip clutch ( 20 ) is provided coaxially to the screw thread ( 15 ) in the antenna base ( 10 ) and that the slip clutch ( 20 ) via an axis of rotation ( 25 ) fixed to the screw thread ( 15 ) is. 3. Apparatus according to claim 1 or 2, characterized in that the elastic covering of the slip clutch ( 20 ) is carried out by mechanical spring elements ( 40 ). 4. Apparatus according to claim 1, 2 or 3, characterized in that the rotating body ( 30 ) in the region of the slip clutch ( 20 ) has elastic material which rests on the slip clutch ( 20 ). 5. The device according to claim 4, characterized in that upon a rotary movement of the rotating body ( 30 ) for releasing the antenna rod ( 35 ) attached to the fastening surface ( 5 ) of the rotating body ( 30 ) by means of a clamping tool, in particular pliers, against the slip clutch ( 20 ) can be pressed so that the slip clutch ( 20 ) is carried along by the rotating body ( 30 ). 6. Device according to one of the preceding claims, characterized in that the antenna rod ( 35 ) is arranged coaxially to the screw thread ( 15 ) and that the antenna rod ( 35 ) via the axis of rotation ( 25 ) is fixedly connected to the screw thread ( 15 ).